6:1:1:1     Plasticity in small-sized metallic systems: Intrinsic versus extrinsic size effect
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6:1:1:2 Tensile and compressive behavior of tungsten, molybdenum, tantalum and niobium at the nanoscale
DOI:10.1016/j.actamat.2009.12.022 JN:ACTA MATERIALIA PY:2010 TC:95 AU: Kim, Ju-Young;Jong, Dongchan;Greer, Julia R.;
6:1:1:3 Microstructure versus Size: Mechanical Properties of Electroplated Single Crystalline Cu Nanopillars
DOI:10.1103/PhysRevLett.104.135503 JN:PHYSICAL REVIEW LETTERS PY:2010 TC:71 AU: Jennings, Andrew T.;Burek, Michael J.;Greer, Julia R.;
6:1:1:4 Size-induced weakening and grain boundary-assisted deformation in 60 nm grained Ni nanopillars
DOI:10.1016/j.scriptamat.2010.09.010 JN:SCRIPTA MATERIALIA PY:2011 TC:70 AU: Jang, Dongchan;Greer, Julia R.;
6:1:1:5 Source-controlled yield and hardening of Cu(100) studied by in situ transmission electron microscopy
DOI:10.1016/j.actamat.2010.10.065 JN:ACTA MATERIALIA PY:2011 TC:65 AU: Kiener, D.;Minor, A. M.;
6:1:1:6 Source Truncation and Exhaustion: Insights from Quantitative in situ TEM Tensile Testing
DOI:10.1021/nl201890s JN:NANO LETTERS PY:2011 TC:54 AU: Kiener, D.;Minor, A. M.;
6:1:1:7 Emergence of strain-rate sensitivity in Cu nanopillars: Transition from dislocation multiplication to dislocation nucleation
DOI:10.1016/j.actamat.2011.05.038 JN:ACTA MATERIALIA PY:2011 TC:53 AU: Jennings, Andrew T.;Li, Ju;Greer, Julia R.;
6:1:1:8 Emergence of external size effects in the bulk-scale polycrystal to small-scale single-crystal transition: A maximum in the strength and strain-rate sensitivity of multicrystalline Cu micropillars
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6:1:1:9 Size-Dependent Deformation of Nanocrystalline Pt Nanopillars
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6:1:1:10 Fabrication and Microstructure Control of Nanoscale Mechanical Testing Specimens via Electron Beam Lithography and Electroplating
DOI:10.1021/nl902872w JN:NANO LETTERS PY:2010 TC:49 AU: Burek, Michael J.;Greer, Julia R.;
6:1:1:11 Size effects in Al nanopillars: Single crystalline vs. bicrystalline
DOI:10.1016/j.actamat.2011.03.065 JN:ACTA MATERIALIA PY:2011 TC:39 AU: Kunz, Allison;Pathak, Siddhartha;Greer, Julia R.;
6:1:1:12 Influence of Homogeneous Interfaces on the Strength of 500 nm Diameter Cu Nanopillars
DOI:10.1021/nl2003076 JN:NANO LETTERS PY:2011 TC:36 AU: Jang, Dongchan;Cai, Can;Greer, Julia R.;
6:1:1:13 In-situ characterization of the dislocation-structure evolution in Ni micro-pillars
DOI:10.1016/j.actamat.2011.11.007 JN:ACTA MATERIALIA PY:2012 TC:26 AU: Maass, R.;Uchic, M. D.;
6:1:1:14 Achieving the ideal strength in annealed molybdenum nanopillars
DOI:10.1016/j.actamat.2010.05.052 JN:ACTA MATERIALIA PY:2010 TC:46 AU: Lowry, M. B.;Kiener, D.;LeBlanc, M. M.;Chisholm, C.;Florando, J. N.;Morris, J. W., Jr.;Minor, A. M.;
6:1:1:15 Nanostructure and surface effects on yield in Cu nanowires
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6:1:1:16 Nanowire Failure: Long = Brittle and Short = Ductile
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6:1:1:17 Scanning transmission electron microscope observations of defects in as-grown and pre-strained Mo alloy fibers
DOI:10.1016/j.actamat.2010.12.018 JN:ACTA MATERIALIA PY:2011 TC:24 AU: Phani, P. Sudharshan;Johanns, K. E.;Duscher, G.;Gali, A.;George, E. P.;Pharr, G. M.;
6:1:1:18 Higher compressive strengths and the Bauschinger effect in conformally passivated copper nanopillars
DOI:10.1016/j.actamat.2012.03.013 JN:ACTA MATERIALIA PY:2012 TC:20 AU: Jennings, A. T.;Gross, C.;Greer, F.;Aitken, Z. H.;Lee, S. -W.;Weinberger, C. R.;Greer, J. R.;
6:1:1:19 Size effects on strength and plasticity of vanadium nanopillars
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6:1:1:20 Dislocation starvation and exhaustion hardening in Mo alloy nanofibers
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6:1:1:21 Source-based strengthening of sub-micrometer Al fibers
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6:1:1:22 Fabrication, microstructure, and mechanical properties of high strength cobalt sub-micron structures
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6:1:1:23 Influence of bulk pre-straining on the size effect in nickel compression pillars
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6:1:1:24 Work hardening in micropillar compression: In situ experiments and modeling
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6:1:1:25 Deformation of as-fabricated and helium implanted 100 nm-diameter iron nano-pillars
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6:1:1:26 Size effects in strength and plasticity of single-crystalline titanium micropillars with prismatic slip orientation
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6:1:1:27 Specimen size and grain size effects on tensile strength of Ag microwires
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6:1:1:28 Differences in deformation behavior of bicrystalline Cu micropillars containing a twin boundary or a large-angle grain boundary
DOI:10.1016/j.actamat.2014.04.022 JN:ACTA MATERIALIA PY:2014 TC:9 AU: Imrich, Peter J.;Kirchlechner, Christoph;Motz, Christian;Dehm, Gerhard;
6:1:1:29 Ultrahigh Strength of Dislocation-Free Ni3Al Nanocubes
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6:1:1:30 Strength, Hardening, and Failure Observed by In Situ TEM Tensile Testing
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6:1:1:31 Heterogeneous dislocation nucleation from surfaces and interfaces as governing plasticity mechanism in nanoscale metals
DOI:10.1557/jmr.2011.338 JN:JOURNAL OF MATERIALS RESEARCH PY:2011 TC:7 AU: Jennings, Andrew T.;Greer, Julia R.;
6:1:1:32 Microstructure and mechanical properties of sub-micron zinc structures
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6:1:1:33 Advanced nanomechanics in the TEM: effects of thermal annealing on FIB prepared Cu samples
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6:1:1:34 Grain boundary effects on the mechanical properties of bismuth nanostructures
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6:1:1:35 Protocols for the Optimal Design of Multi-Functional Cellular Structures: From Hypersonics to Micro-Architected Materials
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6:1:1:36 Tensile deformation of electroplated copper nanopillars
DOI:10.1080/14786435.2010.505180 JN:PHILOSOPHICAL MAGAZINE PY:2011 TC:26 AU: Jennings, Andrew T.;Greer, Julia R.;
6:1:1:37 Fabrication and plastic deformation of sub-micron cadmium structures
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6:1:1:38 Helium Implantation Effects on the Compressive Response of Cu Nanopillars
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6:1:1:39 Mechanical characterization of microconstituents in a cast duplex stainless steel by micropillar compression
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6:1:1:40 Grain growth in nanocrystalline nickel films at low temperature and stress
DOI:10.1016/j.scriptamat.2013.09.008 JN:SCRIPTA MATERIALIA PY:2014 TC:5 AU: Wang, B.;Alam, M. T.;Haque, M. A.;
6:1:1:41 Fabrication, structure and mechanical properties of indium nanopillars
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6:1:1:42 Effects of pre-straining and coating on plastic deformation of aluminum micropillars
DOI:10.1016/j.actamat.2012.07.048 JN:ACTA MATERIALIA PY:2012 TC:15 AU: Gu, R.;Ngan, A. H. W.;
6:1:1:43 Anatomy of nanomaterial deformation: Grain boundary sliding, plasticity and cavitation in nanocrystalline Ni
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6:1:1:44 The effect of pre-existing defects on the strength and deformation behavior of alpha-Fe nanopillars
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6:1:1:45 Geometrical analysis of 3D dislocation dynamics simulations of FCC micro-pillar plasticity
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6:1:1:46 Fabrication, microstructure, and mechanical properties of tin nanostructures
DOI:10.1016/j.msea.2011.04.019 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:17 AU: Burek, Michael J.;Budiman, Arief Suriadi;Jahed, Zeinab;Tamura, Nobumichi;Kunz, Martin;Jin, Sumin;Han, Seung Min J.;Lee, Gyuhyon;Zamecnik, Colin;Tsui, Ting Y.;
6:1:1:47 Compressive properties of interface-containing Cu-Fe nano-pillars
DOI:10.1016/j.scriptamat.2011.11.008 JN:SCRIPTA MATERIALIA PY:2012 TC:6 AU: Guo, Qiang;Greer, Julia R.;
6:1:1:48 Modeling dislocation nucleation strengths in pristine metallic nanowires under experimental conditions
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6:1:1:49 Size-dependent plasticity in an Nb25Mo25Ta25W25 refractory high-entropy alloy
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6:1:1:50 Ordered arrays of ferromagnetic, compositionally graded Cu1-xNix alloy nanopillars prepared by template-assisted electrodeposition
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6:1:1:51 Statistics of Dislocation Slip Avalanches in Nanosized Single Crystals Show Tuned Critical Behavior Predicted by a Simple Mean Field Model
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6:1:1:52 Suppression of size-dependent softening effects in sub-micron nanocrystalline ruthenium columnar structures
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6:1:1:53 Effects of focused ion beam milling and pre-straining on the microstructure of directionally solidified molybdenum pillars: A Laue diffraction analysis
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6:1:1:54 Insight into the deformation mechanisms of alpha-Fe at the nanoscale
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6:1:1:55 Atomistic processes controlling flow stress scaling during compression of nanoscale face-centered-cubic crystals
DOI:10.1016/j.actamat.2011.02.011 JN:ACTA MATERIALIA PY:2011 TC:9 AU: Sansoz, Frederic;
6:1:1:56 Aspect ratio and stochastic effects in the plasticity of uniformly loaded micrometer-sized specimens
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6:1:1:57 Microstructure versus Flaw: Mechanisms of Failure and Strength in Nanostructures
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6:1:1:58 Compressive flow behavior of Cu thin films and Cu/Nb multilayers containing nanometer-scale helium bubbles
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6:1:1:59 Nanoprecipitates in single-crystal molybdenum-alloy nanopillars detected by TEM and atom probe tomography
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6:1:1:60 Grain Boundary Sliding in Aluminum Nano-Bi-Crystals Deformed at Room Temperature
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6:1:1:61 An insight into the role of the grain boundary in plastic deformation by means of a bicrystalline pillar compression test and atomistic simulation
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6:1:1:62 In-situ mechanical testing during X-ray diffraction
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6:1:1:63 Fabrication and buckling behavior of polycrystalline palladium, cobalt, and rhodium nanostructures
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6:1:1:64 Plasticity of indium nanostructures as revealed by synchrotron X-ray microdiffraction
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6:1:1:65 Size dependence of the yield strength of fcc and bcc metallic micropillars with diameters of a few micrometers
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6:1:1:66 Emergence of enhanced strengths and Bauschinger effect in conformally passivated copper nanopillars as revealed by dislocation dynamics
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6:1:1:67 Size-dependent transition of deformation mechanism, and nonlinear elasticity in Ni3Al nanowires
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6:1:1:68 Application of small-scale testing for investigation of ion-beam-irradiated materials
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6:1:1:69 In-situ tensile testing of single-crystal molybdenum-alloy fibers with various dislocation densities in a scanning electron microscope
DOI:10.1557/jmr.2011.298 JN:JOURNAL OF MATERIALS RESEARCH PY:2012 TC:13 AU: Johanns, Kurt E.;Sedlmayr, Andreas;Phani, P. Sudharshan;Moenig, Reiner;Kraft, Oliver;George, Easo P.;Pharr, George M.;
6:1:1:70 Interpreting strain bursts and size effects in micropillars using gradient plasticity
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6:1:1:71 Mechanisms of Failure in Nanoscale Metallic Glass
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6:1:1:72 Micro-pillar plasticity controlled by dislocation nucleation at surfaces
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6:1:1:73 Coupled effect of sample size and grain size in polycrystalline Al nanowires
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6:1:1:74 Elastic limit for surface step dislocation nucleation in face-centered cubic metals: Temperature and step height dependence
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6:1:1:75 Slip in directionally solidified Mo-alloy micropillars - Part I: Nominally dislocation-free pillars
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6:1:1:76 Slip in directionally solidified Mo-alloy micropillars-Part II: Pillars containing defects
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6:1:1:77 The hardness and strength of metal tribofilms: An apparent contradiction between nanoindentation and pillar compression
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6:1:1:78 Plasticity of bcc micropillars controlled by competition between dislocation multiplication and depletion
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6:1:1:79 Strength Effects in Micropillars of a Dispersion Strengthened Superalloy
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6:1:1:80 Influence of orientation on the size effect in bcc pillars with different critical temperatures
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6:1:1:81 Tensile deformation of silver micro-wires of small thickness-to-grain-size ratios
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6:1:1:82 Influence of grain size on the strength size dependence exhibited by sub-micron scale nickel structures with complex cross-sectional geometries
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6:1:1:83 The stability of Lomer-Cottrell jogs in nanopillars
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6:1:1:84 Mechanical properties of columnar submicron cobalt structures with various cross-sectional geometries
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6:1:1:86 Size effect on the deformation behavior of duralumin micropillars
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6:1:1:87 Size effect on deformation of duralumin micropillars - A dislocation dynamics study
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6:1:1:88 A simple stochastic model for yielding in specimens with limited number of dislocations
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6:1:1:89 Damage evolution during cyclic tension-tension loading of micron-sized Cu lines
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6:1:1:90 Elucidating asymmetric yield behavior of copper nano-wires during tensile and compressive load
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6:1:1:91 Mechanical assessment of ultrafine-grained nickel by microcompression experiment and finite element simulation
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6:1:1:92 Plastic deformation of indium nanostructures
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6:1:1:93 Real time correlation between flow stress and dislocation density in steel during deformation
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6:1:1:94 Continuum modeling of dislocation starvation and subsequent nucleation in nano-pillar compressions
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6:1:1:95 Deformation behavior of gold nano-pillars prepared by nanoimprinting and focused ion-beam milling
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6:1:1:96 Length-dependent mechanical properties of gold nanowires
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6:1:1:97 Plasticity in the nanoscale Cu/Nb single-crystal multilayers as revealed by synchrotron Laue x-ray microdiffraction
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6:1:1:98 An explanation for the power-law scaling of size effect on strength in micro-specimens
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6:1:1:99 Growth and structural characterization of epitaxial Cu/Nb multilayers
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6:1:1:100 Plasticity Mechanisms in Sub-Micron Al Fiber Investigated by In Situ TEM
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6:1:1:101 High-strength titanium alloy nanopillars with stacking faults and enhanced plastic flow
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6:1:1:102 Critical-temperature/Peierls-stress dependent size effects in body centered cubic nanopillars
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6:1:1:103 Fabrication and deformation of three-dimensional hollow ceramic nanostructures
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6:1:1:104 Yield stress influenced by the ratio of wire diameter to grain size - a competition between the effects of specimen microstructure and dimension in micro-sized polycrystalline copper wires
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6:1:1:105 Size effect on the mechanical behaviour of polycrystalline copper microbeams
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6:1:1:106 Manifestation of external size reduction effects on the yield point of nanocrystalline rhodium using nanopillars approach
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6:1:1:107 Orientation Gradients at Boundaries in Micron-Sized Bicrystals
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6:1:1:108 Electromigration-Induced Plastic Deformation in Cu Interconnects: Effects on Current Density Exponent, n, and Implications for EM Reliability Assessment
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6:1:1:109 Evolution of mechanical response and dislocation microstructures in small-scale specimens under slightly different loading conditions
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6:1:1:110 Transition from deterministic to stochastic deformation
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6:1:1:111 Simulations of the effect of surface coatings on plasticity at small scales
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6:1:1:112 Size effect on the strength of micron-sized polycrystals - A dislocation dynamics simulation study
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6:1:1:113 Role of surface on the size-dependent mechanical properties of copper nano-wire under tensile load: A molecular dynamics simulation
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6:1:1:114 Friction transitions in nanocrystalline nickel
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6:1:1:115 Toward a further understanding of intermittent plastic responses in the compressed single/bicrystalline micropillars
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6:1:1:116 Small-scale plasticity: Insights into dislocation avalanche velocities
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6:1:1:117 The plasticity size effect in replicated microcellular aluminium
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6:1:1:118 Pre-straining effects on the power-law scaling of size-dependent strengthening in Ni single crystals
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6:1:1:119 Metallic glass-forming composition range of the Cu-Zr-Ti ternary system determined by molecular dynamics simulations with many-body potentials
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6:1:1:120 Measurement of Young's modulus of anisotropic materials using microcompression testing
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6:1:1:121 In situ nanocompression testing of irradiated copper
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6:1:1:122 The effect of size on dislocation cell formation and strain hardening in aluminium
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6:1:1:123 Size effect on the compressive strength of hollow micropillars governed by wall thickness
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6:1:1:124 Grain size gradient length scale in ballistic properties optimization of functionally graded nanocrystalline steel plates
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6:1:1:125 Microstructural evolution of a focused ion beam fabricated Mg nanopillar at high temperatures: Defect annihilation and sublimation
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6:1:1:126 Frictional performance and near-surface evolution of nanocrystalline Ni-Fe as governed by contact stress and sliding velocity
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6:1:1:127 Nanoindentation of NiAl and Ni3Al crystals on (100), (110), and (111) surfaces: A molecular dynamics study
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6:1:1:128 Size effect on flow stress in uniaxial compression of pure nickel cylinders with a few grains across thickness
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6:1:1:129 Extrinsic size effect in microcompression of polycrystalline Cu/Fe multilayers
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6:1:1:130 A study of a new type of deviation from the Kurdjumov-Sachs orientation relationship in face-centered-cubic/body-centered-cubic transformation system
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6:1:1:131 Cyclic Cantilever Bending of Copper Nanowhiskers
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6:1:1:132 Creep in nanocrystalline materials: Role of stress assisted grain growth
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6:1:1:133 Size effects in strength and plasticity of single-crystalline titanium micropillars with prismatic slip orientation (vol 65, pg 473, 2011)
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6:1:1:134 The influence of sample thickness on the tensile properties of pure Cu with different grain sizes
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6:1:1:135 Superhard Nanobuttons: Constraining Crystal Plasticity and Dealing with Extrinsic Effects at the Nanoscale
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6:1:2:1 Deformation twinning in nanocrystalline materials
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6:1:2:2 Detwinning mechanisms for growth twins in face-centered cubic metals
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6:1:2:3 Dislocation-twin interactions in nanocrystalline fcc metals
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6:1:2:5 Plastic deformation mechanism in nanotwinned metals: An insight from molecular dynamics and mechanistic modeling
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6:1:2:6 Twinning dislocation multiplication at a coherent twin boundary
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6:1:2:7 Fracture toughness and fatigue crack growth characteristics of nanotwinned copper
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6:1:2:8 Detwinning, damage and crack initiation during cyclic loading of Cu samples containing aligned nanotwins
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6:1:2:9 Influence of slip transmission on the migration of incoherent twin boundaries in epitaxial nanotwinned Cu
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6:1:2:10 Deformation twins and related softening behavior in nanocrystalline Cu-30% Zn alloy
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6:1:2:11 Superior thermal stability of coherent twin boundaries in nanotwinned metals
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6:1:2:12 Tensile behavior of columnar grained Cu with preferentially oriented nanoscale twins
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6:1:2:13 Shear response of Sigma 3{112} twin boundaries in face-centered-cubic metals
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6:1:2:14 High Resolution Transmission Electron Microscope Observation of Zero-Strain Deformation Twinning Mechanisms in Ag
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6:1:2:15 De-twinning via secondary twinning in face-centered cubic alloys
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6:1:2:17 Plastic anisotropy and associated deformation mechanisms in nanotwinned metals
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6:1:2:18 Work hardening of polycrystalline Cu with nanoscale twins
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6:1:2:19 Nanotwinned fcc metals: Strengthening versus softening mechanisms
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6:1:2:20 Nanoindentation behavior of nanotwinned Cu: Influence of indenter angle on hardness, strain rate sensitivity and activation volume
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6:1:2:22 Twin stability in highly nanotwinned Cu under compression, torsion and tension
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6:1:2:24 High strength, epitaxial nanotwinned Ag films
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6:1:2:25 Characterization of microstructural stability for nanotwinned mercury cadmium telluride under cyclic nanoindentations
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6:1:2:31 Deformation mechanisms, length scales and optimizing the mechanical properties of nanotwinned metals
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6:1:2:32 Plasticity and ultra-low stress induced twin boundary migration in nanotwinned Cu by in situ nanoindentation studies
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6:1:2:33 A detwinning process of {332} < 113 > twins in beta titanium alloys
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6:1:2:34 Fatigue behavior of columnar-grained Cu with preferentially oriented nano scale twins
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6:1:2:42 Temperature effect on rolling behavior of nano-twinned copper
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6:1:2:43 Ultrahigh hardness and synergistic mechanism of a nanotwinned structure of cadmium zinc telluride
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6:1:2:49 Crystal plasticity of nanotwinned microstructures: A discrete twin approach for copper
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6:1:2:50 Indentation of nanotwinned fcc metals: Implications for nanotwin stability
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6:1:2:51 Defective twin boundaries in nanotwinned metals
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6:1:2:54 Low Temperature Deformation Detwinning-A Reverse Mode of Twinning
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6:1:2:56 Microstructure and mechanical behavior of an as-drawn MP35N alloy wire
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6:1:2:59 Revealing the tunable twinning/detwinning behavior in 25 nm Cu/Au multilayers
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6:1:2:60 Atomistic investigation of scratching-induced deformation twinning in nanocrystalline Cu
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6:1:2:61 Shear band formation and ductility in nanotwinned Cu
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6:1:2:63 Hardening mechanism of twin boundaries during nanoindentation of soft-brittle CdTe crystals
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6:1:2:64 Strain hardening and softening in nanotwinned Cu
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6:1:2:65 Deformation and crack mechanisms of nanotwinned cadmium telluride under cyclic nanoindentations
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6:1:2:66 A maximum in the hardness of nanotwinned cadmium telluride
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6:1:2:67 Modeling fatigue crack growth resistance of nanocrystalline alloys
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6:1:2:68 Nanotwins and stacking faults in high-strength epitaxial Ag/Al multilayer films
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6:1:2:69 Temperature-dependent strain localization and texture evolution of highly nanotwinned Cu
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6:1:2:70 Incoherent twin boundary migration induced by ion irradiation in Cu
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6:1:2:71 Explicit Distinctions between 2D MPF Grain Growth Simulations and EBSD Analyses to Determine Driving Mechanism of Grain Growth
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6:1:2:72 Strain-controlled cyclic stability and properties of Cu with highly oriented nanoscale twins
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6:1:2:73 Size-dependent deformation in nanograins and nanotwins
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6:1:2:74 Anomalous deformation twinning in fcc metals at high temperatures
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6:1:2:75 Motion of 1/3 < 111 > dislocations on Sigma 3 {112} twin boundaries in nanotwinned copper
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6:1:2:76 Uncommon Deformation Mechanisms during Fatigue-Crack Propagation in Nanocrystalline Alloys
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6:1:2:78 Twin intersection mechanisms in nanocrystalline fcc metals
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6:1:2:79 Characterization of spark plasma sintered Ag nanopowders
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6:1:2:81 Atomic-scale studies on the effect of boundary coherency on stability in twinned Cu
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6:1:2:83 Twins in cryomilled and spark plasma sintered Cu-Zn-Al
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6:1:2:84 Deformation twinning and detwinning in the lamella copper observed by in-situ TEM
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6:1:2:86 Twin boundary-induced intrinsic strengthening in Ni
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6:1:2:89 Effect of lamellar spacing on fatigue crack growth behaviour of a TiAl-based aluminide with lamellar microstructure
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6:1:3:1 Mechanism for shear banding in nanolayered composites
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6:1:3:3 The influence of interface shear strength on the glide dislocation-interface interactions
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6:1:3:4 Deformation twinning mechanisms from bimetal interfaces as revealed by in situ straining in the TEM
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6:1:3:5 Bulk texture evolution of Cu-Nb nanolamellar composites during accumulative roll bonding
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6:1:3:6 Atomic-level study of twin nucleation from face-centered-cubic/body-centered-cubic interfaces in nanolamellar composites
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6:1:3:7 Interface-driven microstructure development and ultra high strength of bulk nanostructured Cu-Nb multilayers fabricated by severe plastic deformation
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6:1:3:8 Review: effect of bimetal interface structure on the mechanical behavior of Cu-Nb fcc-bcc nanolayered composites
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6:1:3:9 Atomic-scale study of nucleation of dislocations from fcc-bcc interfaces
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6:1:3:10 The heterophase interface character distribution of physical vapor-deposited and accumulative roll-bonded Cu-Nb multilayer composites
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6:1:3:11 Dislocation nucleation mechanisms from fcc/bcc incoherent interfaces
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6:1:3:12 Mapping dislocation nucleation behavior from bimetal interfaces
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6:1:3:13 A comparison of texture results obtained using precession electron diffraction and neutron diffraction methods at diminishing length scales in ordered bimetallic nanolamellar composites
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6:1:3:14 Role of interface structure on the plastic response of Cu/Nb nanolaminates under shock compression: Non-equilibrium molecular dynamics simulations
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6:1:3:15 Slip transmission across fcc/bcc interfaces with varying interface shear strengths
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6:1:3:16 Design of Radiation Tolerant Materials Via Interface Engineering
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6:1:3:18 Optimum high temperature strength of two-dimensional nanocomposites
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6:1:3:19 Minimum energy structures of faceted, incoherent interfaces
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6:1:3:20 Thermal stability of Cu-Nb nanolamellar composites fabricated via accumulative roll bonding
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6:1:3:26 Role of interfaces in shock-induced plasticity in Cu/Nb nanolaminates
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6:1:3:28 A wedge-mounting technique for nanoscale electron backscatter diffraction
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6:1:3:29 Energy minimization mechanisms of semi-coherent interfaces
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6:1:3:44 Hardness, electrical resistivity, and modeling of in situ Cu-Nb microcomposites
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6:1:3:59 On Peierls Nabarro stress in Iron
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6:1:4:6 Nanolaminates Utilizing Size-Dependent Homogeneous Plasticity of Metallic Glasses
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6:1:4:9 Mechanical properties of highly textured Cu/Ni multilayers
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6:1:4:14 Mechanical behavior of nano scale Cu/PdSi multilayers
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6:1:4:16 The microstructure and mechanical behavior of Mg/Ti multilayers as a function of individual layer thickness
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6:1:4:29 Microstructure and strengthening mechanisms in Cu/Fe multilayers
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6:1:4:51 Shear Stress-Driven Refreshing Capability of Plastic Deformation in Nanolayered Metals
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6:1:4:52 Fracture behavior and adhesion energy of nanostructured Cu/Mo multilayer films
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6:1:4:53 Anomalous plastic deformation in nanoscale Cu/Ta multilayers
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6:1:4:54 Effect of a ductility layer on the tensile strength of TiAl-based multilayer composite sheets prepared by EB-PVD
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6:1:4:55 Tensile behaviors of amorphous-ZrCu/nanocrystalline-Cu multilayered thin film on polyimide substrate
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6:1:4:56 Achieving maximum hardness in semi-coherent multilayer thin films with unequal layer thickness
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6:1:4:57 Microstructural variations in Cu/Nb and Al/Nb nanometallic multilayers
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6:1:4:58 Shear banding deformation in Cu/Ta nano-multilayers
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6:1:4:59 Enhanced mechanical properties of columnar grained-nanotwinned Cu films on compliant substrate via multilayer scheme
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6:1:4:60 Formation of multiple twins and their strengthening effect in nanocrystalline Cu/Zr multilayer films
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6:1:4:61 Microstructures and strengthening mechanisms of Cu/Ni/W nanolayered composites
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6:1:4:62 Evaluation of plastic deformation ability of Cu/Ni/W metallic multilayers
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6:1:4:63 Microstructure and mechanical properties of physical vapor deposited Cu/W nanoscale multilayers: Influence of layer thickness and temperature
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6:1:4:64 Microstructure and Flow Stress of Nanoscale Cu/Nb Multilayers
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6:1:4:65 Observation of continuous and reversible bcc-fcc phase transformation in Ag/V multilayers
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6:1:5:1 Concurrent grain boundary motion and grain rotation under an applied stress
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6:1:5:2 Dynamics of grain boundaries under applied mechanical stress
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6:1:5:3 Grain boundary migration and grain rotation studied by molecular dynamics
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6:1:5:4 Coupled motion of asymmetrical tilt grain boundaries: Molecular dynamics and phase field crystal simulations
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6:1:5:5 On shear-coupled migration of grain boundaries in nanocrystalline materials
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6:1:5:6 Competing deformation mechanisms in nanocrystalline metals and alloys: Coupled motion versus grain boundary sliding
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6:1:5:7 Synergy of grain boundary sliding and shear-coupled migration process in nanocrystalline materials
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6:1:5:8 Impact of grain boundary character on grain rotation
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6:1:5:9 The role of disconnections in deformation-coupled grain boundary migration
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6:1:5:10 Evidence of grain boundary dislocation step motion associated to shear-coupled grain boundary migration
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6:1:5:11 Experimental method for true in situ measurements of shear-coupled grain boundary migration
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6:1:5:12 Toughening of nanocrystalline materials through shear-coupled migration of grain boundaries
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6:1:5:13 SMIG model: A new geometrical model to quantify grain boundary-based plasticity
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6:1:5:14 Coupled grain boundary motion in a nanocrystalline grain boundary network
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6:1:5:15 The disconnection mechanism of coupled migration and shear at grain boundaries
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6:1:5:16 Phenomenology of shear-coupled grain boundary motion in symmetric tilt and general grain boundaries
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6:1:5:17 On migration and faceting of low-angle grain boundaries: Experimental and computational study
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6:1:5:18 Shear response of the Sigma 9 < 110 > {221} symmetric tilt grain boundary in fcc metals studied by atomistic simulation methods
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6:1:5:19 Mechanism and dynamics of shrinking island grains in mazed bicrystal thin films of Au
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6:1:5:20 In situ TEM observation of grain annihilation in tricrystalline aluminum films
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6:1:5:21 Direct observation and quantification of grain boundary shear-migration coupling in polycrystalline Al
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6:1:5:22 Stress-driven grain growth in nanocrystalline Pt thin films
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6:1:5:23 Influence of solutes on the competition between mesoscopic grain boundary sliding and coupled grain boundary motion
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6:1:5:24 Theoretical modelling of grain boundary anelastic relaxations
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6:1:5:25 Capillary-driven grain boundary motion and grain rotation in a tricrystal: A molecular dynamics study
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6:1:5:26 Relationship between Equilibrium Fluctuations and Shear-Coupled Motion of Grain Boundaries
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6:1:5:27 Migration of the Sigma 7 tilt grain boundary in Al under an applied external stress
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6:1:5:28 Stress-driven grain growth in ultrafine grained Mg thin film
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6:1:5:29 Phase field crystal modeling of grain rotation with small initial misorientations in nanocrystalline materials
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6:1:5:30 A coupling crack blunting mechanism in nanocrystalline materials by nano-grain rotation and shear-coupled migration of grain boundaries
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6:1:5:31 Cooperative toughening mechanism of nanocrystalline materials by grain rotation and shear-coupled migration of grain boundaries
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6:1:5:32 Enhancing dislocation emission in nanocrystalline materials through shear-coupled migration of grain boundaries
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6:1:5:33 Phase field crystal simulations of nanocrystalline grain growth in two dimensions
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6:1:5:34 Elementary Mechanisms of Shear-Coupled Grain Boundary Migration
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6:1:5:35 Strong crack blunting by shear-coupled migration of grain boundaries in nanocrystalline materials
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6:1:5:36 Role of the mesoscale in migration kinetics of flat grain boundaries
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6:1:5:37 Coupling of grain boundary sliding and migration within the range of boundary specialness
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6:1:5:38 Migration of grain boundaries in Zn
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6:1:5:39 Atomic simulation of bcc niobium Sigma 5 < 001 >{310} grain boundary under shear deformation
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6:1:5:40 Capturing the complex physics behind universal grain size distributions in thin metallic films
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6:1:5:41 Unified Theoretical Framework for Polycrystalline Pattern Evolution
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6:1:5:42 A novel experimental approach to determine the absolute grain boundary energy
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6:1:5:43 On nanograin rotation by dislocation climb in nanocrystalline materials
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6:1:5:44 Observations on the effect of a magnetic field on the annealing texture and microstructure evolution in zirconium
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6:1:5:45 Mobility of low-angle grain boundaries in pure metals
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6:1:5:46 Motion of a grain boundary facet in aluminum
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6:1:5:47 Stress-driven migration of simple low-angle mixed grain boundaries
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6:1:5:48 Effect of inclination dependence of grain boundary energy on the mobility of tilt and non-tilt low-angle grain boundaries
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6:1:5:49 Cooperative grain boundary sliding and nanograin nucleation process in nanocrystalline, ultrafine-grained, and polycrystalline solids
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6:1:5:50 Anisotropic shock response of titanium: Reorientation and transformation mechanisms
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6:1:5:51 Coupled motion of [10-10] tilt boundaries in magnesium bicrystals
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6:1:5:53 Temperature dependence of the structure and shear response of a Sigma 11 asymmetric tilt grain boundary in copper from molecular-dynamics
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6:1:5:54 Magnetically driven migration of specific planar grain boundaries in Zn bicrystals
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6:1:5:55 Migration of grain boundaries in free-standing nanocrystalline thin films
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6:1:5:56 Effect of faceting on twin grain boundary motion in zinc
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6:1:5:57 Grain boundary relaxation and grain growth in 18-carat yellow gold alloy
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6:1:5:58 New In-Pd mechanical loss peak in ternary gold alloys
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6:1:5:59 On shear-coupled migration of grain boundaries in nanocrystalline materials (vol 103, 241915, 2012)
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6:1:5:60 Grain boundary formation stages in a deformed yellow gold single crystal studied by mechanical spectroscopy
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6:1:5:61 Capillarity-driven migration of a thin Ge wedge in contact with a bicrystalline Au film
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6:1:5:62 Metastable zinc-nickel alloys deposited from an alkaline electrolyte
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6:1:5:63 Interactions between grain boundary and compositional domain boundary during spinodal decomposition in nanocrystalline alloys
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6:1:6:1 Recent developments in the study of hydrogen embrittlement: Hydrogen effect on dislocation nucleation
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6:1:6:2 Atomistic processes of dislocation generation and plastic deformation during nanoindentation
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6:1:6:3 Size Effects and Stochastic Behavior of Nanoindentation Pop In
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6:1:6:5 Cr effect on hydrogen embrittlement of Fe3Al-based iron aluminide intermetallics: Surface or bulk effect
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6:1:6:6 Influence of dislocation density on the pop-in behavior and indentation size effect in CaF2 single crystals: Experiments and molecular dynamics simulations
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6:1:6:11 Incipient plasticity and deformation mechanisms in single-crystal Mg during spherical nanoindentation
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6:1:6:12 Novel methods for micromechanical examination of hydrogen and grain boundary effects on dislocations
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6:1:6:58 Onset of plasticity in InxGa1-xAs multilayers
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6:1:7:40 A kinetic Monte Carlo study of coarsening resistance of novel core/shell precipitates
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6:1:7:41 Thermodynamic stability of binary nanocrystalline alloys: analysis of solute and excess vacancy
DOI:10.1007/s00339-011-6501-2 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2011 TC:4 AU: Gong, M. M.;Liu, F.;Zhang, K.;
6:1:7:42 Computational study of the impurity induced reduction of grain boundary energies in nano- and bi-crystalline Al-Pb alloys
DOI:10.1016/j.msea.2009.11.034 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:6 AU: Purohit, Y.;Sun, L.;Irving, D. L.;Scattergood, R. O.;Brenner, D. W.;
6:1:7:43 A thermokinetic description of nanoscale grain growth: Analysis of initial grain boundary excess amount
DOI:10.1016/j.scriptamat.2010.07.030 JN:SCRIPTA MATERIALIA PY:2010 TC:9 AU: Gong, M. M.;Liu, F.;Zhang, K.;
6:1:7:44 Thermodynamic model of alloy grain boundaries
DOI:10.1016/j.scriptamat.2010.10.043 JN:SCRIPTA MATERIALIA PY:2011 TC:6 AU: Kirchner, A.;Kieback, B.;
6:1:7:45 Significant enhancement in the thermal stability of nanocrystalline metals via immiscible tri-phases
DOI:10.1016/j.scriptamat.2012.04.010 JN:SCRIPTA MATERIALIA PY:2012 TC:4 AU: Chen, Y.;Liu, Y.;Khatkhatay, F.;Sun, C.;Wang, H.;Zhang, X.;
6:1:7:46 Thermodynamic state and kinetic process: Analysis of grain boundary excess in nano-scale grain growth
DOI:10.1016/j.jallcom.2010.04.050 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:4 AU: Zhang, K.;Chen, Z.;Liu, F.;Yang, G. C.;
6:1:7:47 Thermal stability of nanocrystalline nickel with yttrium additions
DOI:10.1557/jmr.2013.9 JN:JOURNAL OF MATERIALS RESEARCH PY:2013 TC:4 AU: Darling, K. A.;Kecskes, L. J.;Atwater, M.;Semones, J.;Scattergood, R. O.;Koch, C. C.;
6:1:7:48 Novel technique for the synthesis of ultra-fine porosity metal foam via the inclusion of condensed argon through cryogenic mechanical alloying
DOI:10.1016/j.msea.2010.11.057 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:6 AU: VanLeeuwen, Brian K.;Darling, Kristopher A.;Koch, Carl C.;Scattergood, Ron O.;
6:1:7:49 Irradiation-induced creep in nanostructured Cu alloys
DOI:10.1016/j.scriptamat.2011.04.001 JN:SCRIPTA MATERIALIA PY:2011 TC:8 AU: Tai, Kaiping;Averback, Robert S.;Bellon, Pascal;Ashkenazy, Yinon;
6:1:7:50 Grain growth and disperse particles: Impact of triple junctions
DOI:10.1016/j.matlet.2012.06.056 JN:MATERIALS LETTERS PY:2012 TC:6 AU: Novikov, Vladimir Yu;
6:1:7:51 Microstructure evolution during grain growth in materials with disperse particles
DOI:10.1016/j.matlet.2011.10.101 JN:MATERIALS LETTERS PY:2012 TC:7 AU: Novikov, Vladimir Yu.;
6:1:7:52 First-principles-based mesoscale modeling of the solute-induced stabilization of < 1 0 0 > tilt grain boundaries in an Al-Pb alloy
DOI:10.1016/j.actamat.2011.07.056 JN:ACTA MATERIALIA PY:2011 TC:2 AU: Purohit, Y.;Sun, L.;Shenderova, O.;Scattergood, R. O.;Brenner, D. W.;
6:1:7:53 A thermokinetic description of nano-scale grain growth under dynamic grain boundary segregation condition
DOI:10.1016/j.jallcom.2014.04.137 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:1 AU: Chen, Z.;Liu, F.;Yang, X. Q.;Shen, C. J.;Zhao, Y. M.;
6:1:7:54 Stable Nanocolloidal Structures in Metallic Systems
DOI:10.1103/PhysRevLett.104.055701 JN:PHYSICAL REVIEW LETTERS PY:2010 TC:5 AU: Frolov, T.;Mishin, Y.;
6:1:7:55 Irradiation Induced Grain Boundary Flow-A New Creep Mechanism at the Nanoscale
DOI:10.1021/nl301554k JN:NANO LETTERS PY:2012 TC:1 AU: Ashkenazy, Yinon;Averback, Robert S.;
6:1:7:56 Abnormal grain growth in AISI 304L stainless steel
DOI:10.1016/j.matchar.2014.08.022 JN:MATERIALS CHARACTERIZATION PY:2014 TC:3 AU: Shirdel, M.;Mirzadeh, H.;Parsa, M. H.;
6:1:7:57 Abnormal grain growth in thin films not caused by decreased energy of their free surface
DOI:10.1016/j.matlet.2011.05.096 JN:MATERIALS LETTERS PY:2011 TC:4 AU: Novikov, Vladimir Yu.;
6:1:7:58 Structural changes in iron powder during ball milling
DOI:10.1016/j.matchemphys.2010.04.004 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2010 TC:7 AU: Khatirkar, R. K.;Murty, B. S.;
6:1:7:59 Elastic properties of Cu-Al-Ni shape memory alloys studied by dynamic mechanical analysis
DOI:10.1088/0964-1726/19/1/015010 JN:SMART MATERIALS & STRUCTURES PY:2010 TC:5 AU: Graczykowski, B.;Biskupski, P.;Mroz, B.;Mielcarek, S.;No, M. L.;San Juan, J.;
6:1:8:1 Approaching the Theoretical Elastic Strain Limit in Copper Nanowires
DOI:10.1021/nl201233u JN:NANO LETTERS PY:2011 TC:50 AU: Yue, Yonghai;Liu, Pan;Zhang, Ze;Han, Xiaodong;Ma, En;
6:1:8:2 In situ experimental mechanics of nanomaterials at the atomic scale
DOI:10.1038/am.2012.70 JN:NPG ASIA MATERIALS PY:2013 TC:12 AU: Wang, Lihua;Zhang, Ze;Han, Xiaodong;
6:1:8:3 Flexible Germanium Nanowires: Ideal Strength, Room Temperature Plasticity, and Bendable Semiconductor Fabric
DOI:10.1021/nn1003088 JN:ACS NANO PY:2010 TC:45 AU: Smith, Damon A.;Holmberg, Vincent C.;Korgel, Brian A.;
6:1:8:4 Quantitative Evidence of Crossover toward Partial Dislocation Mediated Plasticity in Copper Single Crystalline Nanowires
DOI:10.1021/nl3014132 JN:NANO LETTERS PY:2012 TC:26 AU: Yue, Yonghai;Liu, Pan;Deng, Qingsong;Ma, Evan;Zhang, Ze;Han, Xiaodong;
6:1:8:5 Direct dynamic atomic mechanisms of strain-induced grain rotation in nanocrystalline, textured, columnar-structured thin gold films
DOI:10.1016/j.scriptamat.2010.10.029 JN:SCRIPTA MATERIALIA PY:2011 TC:41 AU: Liu, P.;Mao, S. C.;Wang, L. H.;Han, X. D.;Zhang, Z.;
6:1:8:6 Uniform tensile elongation in framed submicron metallic glass specimen in the limit of suppressed shear banding
DOI:10.1016/j.actamat.2011.05.035 JN:ACTA MATERIALIA PY:2011 TC:26 AU: Deng, Qingsong;Cheng, Yongqiang;Yue, Yonghai;Zhang, Lei;Zhang, Ze;Han, Xiaodong;Ma, Evan;
6:1:8:7 In Situ Observation of Dislocation Behavior in Nanometer Grains
DOI:10.1103/PhysRevLett.105.135501 JN:PHYSICAL REVIEW LETTERS PY:2010 TC:27 AU: Wang, Lihua;Han, Xiaodong;Liu, Pan;Yue, Yonghai;Zhang, Ze;Ma, En;
6:1:8:8 An in situ TEM study of the size effect on the thermally induced martensitic transformation in nanoscale NiTi shape memory alloy
DOI:10.1016/j.jallcom.2013.11.119 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:3 AU: Li, H. X.;Mao, S. C.;Zang, K. T.;Liu, Y.;Guo, Z. X.;Wang, S. B.;Zhang, Y. F.;Yin, X. Q.;
6:1:8:9 Observation of enhanced carrier transport properties of Si < 100 >-oriented whiskers under uniaxial strains
DOI:10.1063/1.4861425 JN:APPLIED PHYSICS LETTERS PY:2014 TC:3 AU: Zheng, Kun;Shao, Ruiwen;Deng, Qingsong;Zhang, Yuefei;Li, Yujie;Han, Xiaodong;Zhang, Ze;Zou, Jin;
6:1:8:10 Direct Atomic-Scale Imaging about the Mechanisms of Ultralarge Bent Straining in Si Nanowires
DOI:10.1021/nl200735p JN:NANO LETTERS PY:2011 TC:21 AU: Wang, Lihua;Zheng, Kun;Zhang, Ze;Han, Xiaodong;
6:1:8:11 Transmission electron microscopy observations of dislocation annihilation and storage in nanograins
DOI:10.1063/1.3549866 JN:APPLIED PHYSICS LETTERS PY:2011 TC:12 AU: Wang, Lihua;Zhang, Ze;Ma, En;Han, X. D.;
6:1:8:12 Ultimate Bending Strength of Si Nanowires
DOI:10.1021/nl300957a JN:NANO LETTERS PY:2012 TC:16 AU: Stan, G.;Krylyuk, S.;Davydov, A. V.;Levin, I.;Cook, R. F.;
6:1:8:13 Individual Boron Nanowire Has UltraHigh Specific Young's Modulus and Fracture Strength As Revealed by in Situ Transmission Electron Microscopy
DOI:10.1021/nn404316a JN:ACS NANO PY:2013 TC:2 AU: Liu, Fei;Tang, Dai-Ming;Gan, Haibo;Mo, Xiaoshu;Chen, Jun;Deng, Shaozhi;Xu, Ningsheng;Bando, Yoshio;Golberg, Dmitri;
6:1:8:14 Screw-rotation twinning through helical movement of triple-partials
DOI:10.1063/1.4752747 JN:APPLIED PHYSICS LETTERS PY:2012 TC:4 AU: Liu, Pan;Du, Kui;Zhang, Jianxin;Wang, Lihua;Yue, Yonghai;Ma, Evan;Zhang, Yuefei;Zhang, Ze;Chen, Mingwei;Han, Xiaodong;
6:1:8:15 Electron-Beam-Induced Elastic-Plastic Transition in Si Nanowires
DOI:10.1021/nl3003528 JN:NANO LETTERS PY:2012 TC:15 AU: Dai, Sheng;Zhao, Jiong;Xie, Lin;Cai, Yuan;Wang, Ning;Zhu, Jing;
6:1:8:16 An improved loop test for experimentally approaching the intrinsic strength of alumina nanoscale whiskers
DOI:10.1088/0957-4484/24/28/285703 JN:NANOTECHNOLOGY PY:2013 TC:5 AU: Wang, Shiliang;He, Yuehui;Huang, Han;Zou, Jin;Auchterlonie, Graeme John;Hou, Lizhen;Huang, Baiyun;
6:1:8:17 Superelastic memory effect in in-situ NbTi-nanowire-NiTi nanocomposite
DOI:10.1063/1.4764538 JN:APPLIED PHYSICS LETTERS PY:2012 TC:2 AU: Hao, Shijie;Cui, Lishan;Jiang, Daqiang;Wang, Yandong;Shi, Xiaobing;Jiang, Jiang;Brown, Dennis E.;Ren, Yang;
6:1:8:18 Determination of Young's Modulus of Ultrathin Nanomaterials
DOI:10.1021/acs.nanolett.5b01603 JN:NANO LETTERS PY:2015 TC:0 AU: Chen, Yujie;Gao, Qiang;Wang, Yanbo;An, Xianghai;Liao, Xiaozhou;Mai, Yiu-Wing;Tan, H. Hoe;Zou, Jin;Ringer, Simon P.;Jagadish, Chennupati;
6:1:8:19 Atomic-scale observation of parallel development of super elasticity and reversible plasticity in GaAs nanowires
DOI:10.1063/1.4861846 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Bao, Peite;Wang, Yanbo;Cui, Xiangyuan;Gao, Qiang;Yen, Hung-Wei;Liu, Hongwei;Yeoh, Wai Kong;Liao, Xiaozhou;Du, Sichao;Tan, H. Hoe;Jagadish, Chennupati;Zou, Jin;Ringer, Simon P.;Zheng, Rongkun;
6:1:8:20 Crystalline Liquid and Rubber-Like Behavior in Cu Nanowires
DOI:10.1021/nl401829e JN:NANO LETTERS PY:2013 TC:5 AU: Yue, Yonghai;Chen, Nianke;Li, Xianbin;Zhang, Shengbai;Zhang, Ze;Chen, Mingwei;Han, Xiaodong;
6:1:8:21 Strong strain rate effect on the plasticity of amorphous silica nanowires
DOI:10.1063/1.4882420 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Yue, Yonghai;Zheng, Kun;
6:1:8:22 Thermoelectric properties of large-scale Zn3P2 nanowire assemblies
DOI:10.1088/0957-4484/25/14/145401 JN:NANOTECHNOLOGY PY:2014 TC:1 AU: Brockway, Lance;Vasiraju, Venkata;Asayesh-Ardakani, Hasti;Shahbazian-Yassar, Reza;Vaddiraju, Sreeram;
6:1:8:23 Asymmetrical quantum dot growth on tensile and compressive-strained ZnO nanowire surfaces
DOI:10.1016/j.actamat.2010.10.001 JN:ACTA MATERIALIA PY:2011 TC:7 AU: Wang, L. H.;Han, X. D.;Zhang, Y. F.;Zheng, K.;Liu, P.;Zhang, Z.;
6:1:8:24 Comparative friction measurements of InAs nanowires on three substrates
DOI:10.1063/1.3503876 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:6 AU: Conache, G.;Gray, S. M.;Ribayrol, A.;Froeberg, L. E.;Samuelson, L.;Montelius, L.;Pettersson, H.;
6:1:8:25 Deformation-mediated phase transformation in gold nano-junction
DOI:10.1016/j.matlet.2011.07.037 JN:MATERIALS LETTERS PY:2011 TC:2 AU: Nie, Anmin;Wang, Hongtao;
6:1:9:1 Derivation of the phase field equations from the thermodynamic extremal principle
DOI:10.1016/j.actamat.2011.09.044 JN:ACTA MATERIALIA PY:2012 TC:10 AU: Svoboda, J.;Fischer, F. D.;McDowell, D. L.;
6:1:9:2 Atomistic investigation of clustering phenomenon in the Al-Cu system: Three-dimensional phase-field crystal simulation and HRTEM/HRSTEM characterization
DOI:10.1016/j.actamat.2013.07.015 JN:ACTA MATERIALIA PY:2013 TC:4 AU: Fallah, Vahid;Korinek, Andreas;Ofori-Opoku, Nana;Provatas, Nikolas;Esmaeili, Shahrzad;
6:1:9:3 Phase field crystal modeling as a unified atomistic approach to defect dynamics
DOI:10.1103/PhysRevB.89.214117 JN:PHYSICAL REVIEW B PY:2014 TC:0 AU: Berry, Joel;Provatas, Nikolas;Rottler, Joerg;Sinclair, Chad W.;
6:1:9:4 Phase-field crystal modeling of early stage clustering and precipitation in metal alloys
DOI:10.1103/PhysRevB.86.134112 JN:PHYSICAL REVIEW B PY:2012 TC:7 AU: Fallah, Vahid;Stolle, Jonathan;Ofori-Opoku, Nana;Esmaeili, Shahrzad;Provatas, Nikolas;
6:1:9:5 Complex order parameter phase-field models derived from structural phase-field-crystal models
DOI:10.1103/PhysRevB.88.104106 JN:PHYSICAL REVIEW B PY:2013 TC:2 AU: Ofori-Opoku, Nana;Stolle, Jonathan;Huang, Zhi-Feng;Provatas, Nikolas;
6:1:9:6 Simulation of early-stage clustering in ternary metal alloys using the phase-field crystal method
DOI:10.1016/j.actamat.2013.02.053 JN:ACTA MATERIALIA PY:2013 TC:9 AU: Fallah, Vahid;Ofori-Opoku, Nana;Stolle, Jonathan;Provatas, Nikolas;Esmaeili, Shahrzad;
6:1:9:7 Free Energy Functionals for Efficient Phase Field Crystal Modeling of Structural Phase Transformations
DOI:10.1103/PhysRevLett.105.045702 JN:PHYSICAL REVIEW LETTERS PY:2010 TC:34 AU: Greenwood, Michael;Provatas, Nikolas;Rottler, Joerg;
6:1:9:8 Amorphous Nucleation Precursor in Highly Nonequilibrium Fluids
DOI:10.1103/PhysRevLett.107.175702 JN:PHYSICAL REVIEW LETTERS PY:2011 TC:20 AU: Toth, Gyula I.;Pusztai, Tamas;Tegze, Gyorgy;Toth, Gergely;Granasy, Laszlo;
6:1:9:9 Exploring the Complex World of Two-Dimensional Ordering with Three Modes
DOI:10.1103/PhysRevLett.111.035501 JN:PHYSICAL REVIEW LETTERS PY:2013 TC:2 AU: Mkhonta, S. K.;Elder, K. R.;Huang, Zhi-Feng;
6:1:9:10 Modeling structural transformations in binary alloys with phase field crystals
DOI:10.1103/PhysRevB.84.064104 JN:PHYSICAL REVIEW B PY:2011 TC:18 AU: Greenwood, Michael;Ofori-Opoku, Nana;Rottler, Joerg;Provatas, Nikolas;
6:1:9:11 Multicomponent phase-field crystal model for structural transformations in metal alloys
DOI:10.1103/PhysRevB.87.134105 JN:PHYSICAL REVIEW B PY:2013 TC:6 AU: Ofori-Opoku, Nana;Fallah, Vahid;Greenwood, Michael;Esmaeili, Shahrzad;Provatas, Nikolas;
6:1:9:12 Faceting and Branching in 2D Crystal Growth
DOI:10.1103/PhysRevLett.106.195502 JN:PHYSICAL REVIEW LETTERS PY:2011 TC:27 AU: Tegze, Gyoergy;Toth, Gyula I.;Granasy, Laszlo;
6:1:9:13 Heterogeneous Crystal Nucleation: The Effect of Lattice Mismatch
DOI:10.1103/PhysRevLett.108.025502 JN:PHYSICAL REVIEW LETTERS PY:2012 TC:15 AU: Toth, Gyula I.;Tegze, Gyoergy;Pusztai, Tamas;Granasy, Laszlo;
6:1:9:14 Phase field crystal model of solute drag
DOI:10.1016/j.actamat.2012.06.056 JN:ACTA MATERIALIA PY:2012 TC:10 AU: Greenwood, Michael;Sinclair, Chad;Militzer, Matthias;
6:1:9:15 Plasticity and Dislocation Dynamics in a Phase Field Crystal Model
DOI:10.1103/PhysRevLett.105.015502 JN:PHYSICAL REVIEW LETTERS PY:2010 TC:27 AU: Chan, Pak Yuen;Tsekenis, Georgios;Dantzig, Jonathan;Dahmen, Karin A.;Goldenfeld, Nigel;
6:1:9:16 Patterning of Heteroepitaxial Overlayers from Nano to Micron Scales
DOI:10.1103/PhysRevLett.108.226102 JN:PHYSICAL REVIEW LETTERS PY:2012 TC:14 AU: Elder, K. R.;Rossi, G.;Kanerva, P.;Sanches, F.;Ying, S-C.;Granato, E.;Achim, C. V.;Ala-Nissila, T.;
6:1:9:17 Modeling self-organization of thin strained metallic overlayers from atomic to micron scales
DOI:10.1103/PhysRevB.88.075423 JN:PHYSICAL REVIEW B PY:2013 TC:1 AU: Elder, K. R.;Rossi, G.;Kanerva, P.;Sanches, F.;Ying, S-C.;Granato, E.;Achim, C. V.;Ala-Nissila, T.;
6:1:9:18 Calculations of isothermal elastic constants in the phase-field crystal model
DOI:10.1103/PhysRevB.87.014103 JN:PHYSICAL REVIEW B PY:2013 TC:2 AU: Pisutha-Arnond, N.;Chan, V. W. L.;Elder, K. R.;Thornton, K.;
6:1:9:19 Density-amplitude formulation of the phase-field crystal model for two-phase coexistence in two and three dimensions
DOI:10.1080/14786430903164572 JN:PHILOSOPHICAL MAGAZINE PY:2010 TC:20 AU: Yeon, Dong-Hee;Huang, Zhi-Feng;Elder, K. R.;Thornton, K.;
6:1:9:20 Remarks on some open problems in phase-field modelling of solidification
DOI:10.1080/14786435.2010.486757 JN:PHILOSOPHICAL MAGAZINE PY:2011 TC:20 AU: Plapp, Mathis;
6:1:9:21 Phase-field crystal modelling of crystal nucleation, heteroepitaxy and patterning
DOI:10.1080/14786435.2010.487476 JN:PHILOSOPHICAL MAGAZINE PY:2011 TC:21 AU: Granasy, Laszlo;Tegze, Gyoergy;Toth, Gyula I.;Pusztai, Tamas;
6:1:9:22 Dislocation driven chromium precipitation in Fe-9Cr binary alloy: a positron lifetime study
DOI:10.1080/14786435.2012.676215 JN:PHILOSOPHICAL MAGAZINE PY:2012 TC:5 AU: Babu, S. Hari;Rajaraman, R.;Amarendra, G.;Govindaraj, R.;Lalla, N. P.;Dasgupta, Arup;Bhalerao, Gopal;Sundar, C. S.;
6:1:9:23 Non-classical homogeneous precipitation mediated by compositional fluctuations in titanium alloys
DOI:10.1016/j.actamat.2012.07.033 JN:ACTA MATERIALIA PY:2012 TC:13 AU: Nag, S.;Zheng, Y.;Williams, R. E. A.;Devaraj, A.;Boyne, A.;Wang, Y.;Collins, P. C.;Viswanathan, G. B.;Tiley, J. S.;Muddle, B. C.;Banerjee, R.;Fraser, H. L.;
6:1:9:24 Characterizing solute segregation and grain boundary energy in binary alloy phase field crystal models
DOI:10.1016/j.commatsci.2013.09.002 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:1 AU: Stolle, Jonathan;Provatas, Nikolas;
6:1:9:25 Phase-Field Crystal Modeling of Compositional Domain Formation in Ultrathin Films
DOI:10.1103/PhysRevLett.105.126101 JN:PHYSICAL REVIEW LETTERS PY:2010 TC:13 AU: Muralidharan, Srevatsan;Haataja, Mikko;
6:1:9:26 Tuning the structure of non-equilibrium soft materials by varying the thermodynamic driving force for crystal ordering
DOI:10.1039/c0sm00944j JN:SOFT MATTER PY:2011 TC:28 AU: Tegze, Gyoergy;Granasy, Laszlo;Toth, Gyula I.;Douglas, Jack F.;Pusztai, Tamas;
6:1:9:27 The Kirkendall effect in the phase field crystal model
DOI:10.1080/14786435.2010.506427 JN:PHILOSOPHICAL MAGAZINE PY:2011 TC:13 AU: Elder, K. R.;Thornton, K.;Hoyt, J. J.;
6:1:9:28 Stress release mechanisms for Cu on Pd(111) in the submonolayer and monolayer regimes
DOI:10.1103/PhysRevB.81.041412 JN:PHYSICAL REVIEW B PY:2010 TC:6 AU: Jalkanen, J.;Rossi, G.;Trushin, O.;Granato, E.;Ala-Nissila, T.;Ying, S. -C.;
6:1:9:29 Defect stability in phase-field crystal models: Stacking faults and partial dislocations
DOI:10.1103/PhysRevB.86.224112 JN:PHYSICAL REVIEW B PY:2012 TC:7 AU: ;FN Thomson Reuters Web of Scienceâ„¢;1.0;J;Aizin, Gregory R.;Dyer, Gregory C.;Transmission line theory of collective plasma excitations in periodic;two-dimensional electron systems: Finite plasmonic crystals and Tamm;states;PHYSICAL REVIEW B;86;23;235316;10.1103/PhysRevB.86.235316;DEC 28 2012;2012;We present a comprehensive theory of the one-dimensional plasmonic;crystal formed in the grating-gated two-dimensional electron gas (2DEG);in semiconductor heterostructures. To describe collective plasma;excitations in the 2DEG, we develop a generalized transmission line;theoretical formalism consistent with the plasma hydrodynamic model. We;then apply this formalism to analyze the plasmonic spectra of 2DEG;systems with steplike periodic changes of electron density, gate;screening, or both. We show that in a periodically modulated 2DEG, a;plasmonic crystal is formed, and we derive closed-form analytical;expressions describing its energy band spectrum for both infinite and;finite size crystals. Our results demonstrate a nonmonotonic dependence;of the plasmonic band gap width on the electron density modulation. At;so-called transparency points, where the plasmon propagates through the;periodic 2DEG in a resonant manner, the plasmonic band gaps vanish. In;semi-infinite plasmonic crystals, we demonstrate the formation of;plasmonic Tamm states and analytically derive their energy dispersion;and spatial localization. Finally, we present detailed numerical;analysis of the plasmonic band structure of a finite four-period;plasmonic crystal terminated either by an ohmic contact or by an;infinite barrier on each side. We trace the evolution of the plasmonic;band spectrum, including the Tamm states, with changing electron density;modulation and analyze the boundary conditions necessary for formation;of the Tamm states. We also analyze interaction between the Tamm states;formed at the opposite edges of the short length plasmonic crystal. The;validity of our theoretical approach was confirmed in experimental;studies of plasmonic crystals in short, modulated plasmonic cavities;[Dyer et al., Phys. Rev. Lett. 109, 126803 (2012)], which demonstrated;excellent quantitative agreement between theory and experiment.;DOI:10.1103/PhysRevB.86.235316;9;0;0;0;9;1098-0121;WOS:000312833200005;;;J;Arakawa, Tomonori;Tanaka, Takahiro;Chida, Kensaku;Matsuo, Sadashige;Nishihara, Yoshitaka;Chiba, Daichi;Kobayashi, Kensuke;Ono, Teruo;Fukushima, Akio;Yuasa, Shinji;Low-frequency and shot noises in CoFeB/MgO/CoFeB magnetic tunneling;junctions;PHYSICAL REVIEW B;86;22;224423;10.1103/PhysRevB.86.224423;DEC 28 2012;2012;The low-frequency and shot noises in spin-valve CoFeB/MgO/CoFeB magnetic;tunneling junctions were studied at low temperature. The measured 1/f;noise around the magnetic hysteresis loops of the free layer indicates;that the main origin of the 1/f noise is the magnetic fluctuation, which;is discussed in terms of a fluctuation-dissipation relation. Random;telegraph noise (RTN) is observed to be symmetrically enhanced in the;hysteresis loop with regard to the two magnetic configurations. We found;that this enhancement is caused by the fluctuation between two magnetic;states in the free layer. Although the 1/f noise is almost independent;of the magnetic configuration, the RTN is enhanced in the antiparallel;configuration. These findings indicate the presence of spin-dependent;activation of RTN. Shot noise reveals the spin-dependent coherent;tunneling process via a crystalline MgO barrier. DOI:;10.1103/PhysRevB.86.224423;Kobayashi, Kensuke/E-5404-2010;Kobayashi, Kensuke/0000-0001-7072-5945;4;0;0;0;4;1098-0121;WOS:000312832400004;;;J;Cucchiara, J.;Le Gall, S.;Fullerton, E. E.;Kim, J. -V.;Ravelosona, D.;Henry, Y.;Katine, J. A.;Kent, A. D.;Bedau, D.;Gopman, D.;Mangin, S.;Domain wall motion in nanopillar spin-valves with perpendicular;anisotropy driven by spin-transfer torques;PHYSICAL REVIEW B;86;21;214429;10.1103/PhysRevB.86.214429;DEC 28 2012;2012;Using transport measurements and micromagnetic simulations we have;investigated the domain wall motion driven by spin-transfer torques in;all-perpendicular hexagonal nanopillar spin-valves. In particular, we;probe domain walls nucleated in the free layer of the spin-valves, which;are then pinned in the devices. We have determined both the;field-current state diagrams for the domain-wall state and the thermally;activated dynamics of the nucleation and depinning processes. We show;that the nucleation process is well-described by a modified Neel-Brown;model taking into account the spin-transfer torque, whereas the;depinning process is independent of the current. This is confirmed by an;analytical calculation which shows that spin-torques have no effect on;the Arrhenius escape rate associated with thermally activated domain;wall depinning in this geometry. Furthermore, micromagnetic simulations;indicate that spin-transfer only weakly affects the domain wall motion,;but instead modifies the inner domain wall structure. DOI:;10.1103/PhysRevB.86.214429;Kim, Joo-Von/B-3672-2008; Fullerton, Eric/H-8445-2013;Kim, Joo-Von/0000-0002-3849-649X; Fullerton, Eric/0000-0002-4725-9509;0;0;0;0;0;1098-0121;WOS:000312830800003;;;J;Fernandez-Dominguez, A. I.;Zhang, P.;Luo, Y.;Maier, S. A.;Garcia-Vidal, F. J.;Pendry, J. B.;Transformation-optics insight into nonlocal effects in separated;nanowires;PHYSICAL REVIEW B;86;24;241110;10.1103/PhysRevB.86.241110;DEC 28 2012;2012;We present a transformation-optics approach which sheds analytical;insight into the impact that spatial dispersion has on the optical;response of separated dimers of metallic nanowires. We show that;nonlocal effects are apparent at interparticle distances one order of;magnitude larger than the longitudinal plasmon decay length, which;coincides with the spatial regime where electron tunneling phenomena;occur. Our method also clarifies the interplay between nonlocal and;radiation effects taking place in the nanostructure, yielding the dimer;dimensions that optimize its light harvesting capabilities. DOI:;10.1103/PhysRevB.86.241110;Luo, Yu/C-7799-2009; Fernandez-Dominguez, Antonio I./C-4448-2013; Garcia-Vidal, Francisco /B-8280-2011;Luo, Yu/0000-0003-2925-682X; Fernandez-Dominguez, Antonio;I./0000-0002-8082-395X; Garcia-Vidal, Francisco /0000-0003-4354-0982;10;0;0;0;10;1098-0121;WOS:000312834100001;;;J;Gati, E.;Koehler, S.;Guterding, D.;Wolf, B.;Knoener, S.;Ran, S.;Bud'ko, S. L.;Canfield, P. C.;Lang, M.;Hydrostatic-pressure tuning of magnetic, nonmagnetic, and;superconducting states in annealed Ca(Fe1-xCox)(2)As-2;PHYSICAL REVIEW B;86;22;220511;10.1103/PhysRevB.86.220511;DEC 28 2012;2012;We report on measurements of the magnetic susceptibility and electrical;resistance under He-gas pressure on single crystals of;Ca(Fe1-xCox)(2)As-2. We find that for properly heat-treated crystals;with modest Co concentration, x = 0.028, the salient ground states;associated with iron-arsenide superconductors, i.e.,;orthorhombic/antiferromagnetic (o/afm), superconducting, and nonmagnetic;collapsed-tetragonal (cT) states can be accessed all in one sample with;reasonably small and truly hydrostatic pressure. This is possible owing;to the extreme sensitivity of the o/afm (for T <= T-s,T-N) and;superconducting (T <= T-c) states against variation of pressure,;disclosing pressure coefficients of dT(s,N)/dP = -(1100 +/- 50) K/GPa;and dT(c)/dP = -(60 +/- 3) K/GPa, respectively. Systematic;investigations of the various phase transitions and ground states via;pressure tuning revealed no coexistence of bulk superconductivity (sc);with the o/afm state which we link to the strongly first-order character;of the corresponding structural/magnetic transition in this compound.;Our results, together with literature results, indicate that preserving;fluctuations associated with the o/afm transition to low enough;temperatures is vital for sc to form. DOI: 10.1103/PhysRevB.86.220511;Canfield, Paul/H-2698-2014;14;0;0;0;14;1098-0121;WOS:000312832400001;;;J;Hakobyan, Ye.;Tadmor, E. B.;James, R. D.;Objective quasicontinuum approach for rod problems;PHYSICAL REVIEW B;86;24;245435;10.1103/PhysRevB.86.245435;DEC 28 2012;2012;An objective quasicontinuum (OQC) method is developed for simulating;rodlike systems that can be represented as a combination of locally;objective structures. An objective structure (OS) is one for which a;group of atoms, called a "fundamental domain" (FD), is repeated using;specific rules of translation and rotation to build a more complex;structure. An objective Cauchy-Born rule defines the kinematics of the;OS atoms in terms of a set of symmetry parameters and the positions of;the FD atoms. The computational advantage lies in the capability of;representing a large system of atoms through a small set of symmetry;parameters and FD atom positions. As an illustrative example, we;consider the deformation of a copper single-crystal nanobeam which can;be described as an OS. OQC simulations are performed for uniform and;nonuniform bending for two different orientations (nanobeam axis;oriented along [111] and [100]) and compared with elastica results. In;the uniform bending case, the [111]-oriented single-crystal nanobeam;experiences elongation, while the [100]-oriented nanobeam experiences;contraction in total length. The nonuniform bending allows for;stretching, contraction, and bending as deformation. Under certain;loading conditions, dislocation nucleation is observed within the FD.;DOI: 10.1103/PhysRevB.86.245435 PACS number(s): 61.46.Km, 62.23.Hj,;81.07.Gf, 02.70.Ns;1;0;0;0;1;1098-0121;WOS:000312834100006;;;J;He, Jing;Wang, Bo;Kou, Su-Peng;Ferromagnetism and antiferromagnetism of a correlated topological;insulator with a flat band;PHYSICAL REVIEW B;86;23;235146;10.1103/PhysRevB.86.235146;DEC 28 2012;2012;In this paper, based on the mean-field approach and random-phase;approximation, we studied the magnetic properties of the spinfull;Haldane model on honeycomb lattice of topological flat band with onsite;repulsive Coulomb interaction. We found that the antiferromagnetic (AF);order is more stable than the ferromagnetic (FM) order at, or near, half;filling. Away from half filling, the phase diagram becomes complex: at;large doping, the FM order is more stable than the AF order due to the;flatness of band structure. In particular, we found that at quarter;filling, the system becomes a Chern number Q = 1 topological insulator;induced by the FM order. DOI:10.1103/PhysRevB.86.235146;1;0;0;0;1;1098-0121;WOS:000312833200002;;;J;Hu, Jianbo;Misochko, Oleg V.;Goto, Arihiro;Nakamura, Kazutaka G.;Delayed formation of coherent LO phonon-plasmon coupled modes in n- and;p-type GaAs measured using a femtosecond coherent control technique;PHYSICAL REVIEW B;86;23;235145;10.1103/PhysRevB.86.235145;DEC 28 2012;2012;Coherent control experiments using a pair of collinear femtosecond laser;pulses have been carried out to manipulate longitudinal optical (LO);phonon-plasmon coupled (LOPC) modes in both p-and n-type GaAs. By tuning;the interpulse separation, remarkably distinct responses have been;observed in the two samples. To understand the results obtained a;phenomenological model taking the delayed formation of coherent LOPC;modes into account is proposed. The model suggests that the lifetime of;coherent LOPC modes plays a key role and the interference of the;coherent LO phonons excited successively by two pump pulses strongly;affects the manipulation of coherent LOPC modes.;DOI:10.1103/PhysRevB.86.235145;Oleg, Misochko/E-6136-2013; Nakamura, Kazutaka/F-4095-2014;0;0;0;0;0;1098-0121;WOS:000312833200001;;;J;Imura, Ken-Ichiro;Okamoto, Mayuko;Yoshimura, Yukinori;Takane, Yositake;Ohtsuki, Tomi;Finite-size energy gap in weak and strong topological insulators;PHYSICAL REVIEW B;86;24;245436;10.1103/PhysRevB.86.245436;DEC 28 2012;2012;The nontrivialness of a topological insulator (TI) is characterized;either by a bulk topological invariant or by the existence of a;protected metallic surface state. Yet, in realistic samples of finite;size, this nontrivialness does not necessarily guarantee the gaplessness;of the surface state. Depending on the geometry and on the topological;indices, a finite-size energy gap of different nature can appear, and,;correspondingly, exhibit various scaling behaviors of the gap. The;spin-to-surface locking provides one such gap-opening mechanism,;resulting in a power-law scaling of the energy gap. Weak and strong TIs;show different degrees of sensitivity to the geometry of the sample. As;a noteworthy example, a strong TI nanowire of a rectangular-prism shape;is shown to be more gapped than that of a weak TI of precisely the same;geometry. DOI: 10.1103/PhysRevB.86.245436 PACS number(s): 73.22.-f,;73.20.At, 72.80.Sk;Imura, Ken/D-6633-2013;11;0;0;0;11;1098-0121;WOS:000312834100007;;;J;Lenertz, M.;Alaria, J.;Stoeffler, D.;Colis, S.;Dinia, A.;Mentre, O.;Andre, G.;Porcher, F.;Suard, E.;Magnetic structure of ground and field-induced ordered states of;low-dimensional alpha-CoV2O6: Experiment and theory;PHYSICAL REVIEW B;86;21;214428;10.1103/PhysRevB.86.214428;DEC 28 2012;2012;In this work, we investigate the magnetic properties of the monoclinic;alpha-CoV2O6 by powder neutron diffraction measurements and ab initio;calculations. An emphasis has been pointed towards the magnetic;structure and the interaction between the Co ions leading to magnetic;frustrations in this compound. Neutron diffraction experiments were;carried out both in the ground state (zero magnetic field) and under;applied external field of 2.5 and 5 T corresponding to the ferrimagnetic;and ferromagnetic states, respectively. The antiferromagnetic ground;state below 14 K corresponds to k = (1,0, 1/2) magnetic propagation;vector in C1 space group. The magnetic structure can be described by;ferromagnetic interactions along the chains (b axis) and;antiferromagnetic coupling between the chains (along a and c axes). The;ferrimagnetic structure implies a ninefold unit cell (3a, b, 3c) in;which ferromagnetic chains follow an "up-up-down" sequence along the a;and c axes. In the ferromagnetic state, the spin orientations remain;unchanged while every chain lies ferromagnetically ordered. In all;cases, the magnetic moments lie in the ac plane, along the CoO6;octahedra axis, at an angle of 9.3 degrees with respect to the c axis.;The magnetic structure of alpha-CoV2O6 resolved for all the ordered;states is successfully related to a theoretical model. Ab initio;calculations allowed us to (i) confirm the ground-state magnetic;structure, (ii) calculate the interactions between the Co ions, (iii);explain the frustration leading to the stepped variation of the;magnetization curves, (iv) calculate the orbital magnetic moment (1.5;mu(B)) on Co atoms, and (v) confirm the direction of the magnetic;moments near the c direction. DOI: 10.1103/PhysRevB.86.214428;10;0;0;0;10;1098-0121;WOS:000312830800002;;;J;Nakajima, Nobuo;Oki, Megumi;Isohama, Yoichi;Maruyama, Hiroshi;Tezuka, Yasuhisa;Ishiji, Kotaro;Iwazumi, Toshiaki;Okada, Kozo;Enhancement of dielectric constant of BaTiO3 nanoparticles studied by;resonant x-ray emission spectroscopy;PHYSICAL REVIEW B;86;22;224114;10.1103/PhysRevB.86.224114;DEC 28 2012;2012;The nanoscopic origin of the enhancement of the dielectric constant of;BaTiO3 nanoparticles was investigated by means of Ti K beta resonant;x-ray emission spectroscopy. Two inelastic peaks due to charge-transfer;excitations were observed, one of which disappeared as the particle size;(d) was reduced, while the other remained unchanged. This is consistent;with the fact that tetragonality was also reduced with decreasing d. The;origin of the large enhancement in the dielectric constant is briefly;discussed from a microscopic point of view. DOI:;10.1103/PhysRevB.86.224114;3;0;0;0;3;1098-0121;WOS:000312832400003;;;J;Olmon, Robert L.;Slovick, Brian;Johnson, Timothy W.;Shelton, David;Oh, Sang-Hyun;Boreman, Glenn D.;Raschke, Markus B.;Optical dielectric function of gold;PHYSICAL REVIEW B;86;23;235147;10.1103/PhysRevB.86.235147;DEC 28 2012;2012;In metal optics gold assumes a special status because of its practical;importance in optoelectronic and nano-optical devices, and its role as a;model system for the study of the elementary electronic excitations that;underlie the interaction of electromagnetic fields with metals. However,;largely inconsistent values for the frequency dependence of the;dielectric function describing the optical response of gold are found in;the literature. We performed precise spectroscopic ellipsometry;measurements on evaporated gold, template-stripped gold, and;single-crystal gold to determine the optical dielectric function across;a broad spectral range from 300 nm to 25 mu m (0.05-4.14 eV) with high;spectral resolution. We fit the data to the Drude free-electron model,;with an electron relaxation time tau(D) = 14 +/- 3 fs and plasma energy;h omega(p) = 8.45 eV. We find that the variation in dielectric functions;for the different types of samples is small compared to the range of;values reported in the literature. Our values, however, are comparable;to the aggregate mean of the collection of previous measurements from;over the past six decades. This suggests that although some variation;can be attributed to surface morphology, the past measurements using;different approaches seem to have been plagued more by systematic errors;than previously assumed. DOI:10.1103/PhysRevB.86.235147;22;2;0;0;22;1098-0121;WOS:000312833200003;;;J;Phuong, L. Q.;Ichimiya, M.;Ishihara, H.;Ashida, M.;Multiple light-coupling modes of confined excitons observable in;photoluminescence spectra of high-quality CuCl thin films;PHYSICAL REVIEW B;86;23;235449;10.1103/PhysRevB.86.235449;DEC 28 2012;2012;We report the observation of multiple light-coupling modes of excitons;confined in CuCl thin films with thicknesses of a few hundred nanometers;beyond the long-wavelength approximation in photoluminescence spectra.;Due to a remarkably long coupling length between light and;multinode-type excitons resulted from very high crystalline quality of;thin films, photoluminescence signals from the excitonic states;corresponding to not only odd but also even quantum numbers, which are;optically forbidden in the long-wavelength approximation, are clearly;observed. The full width at half maximum of the excitonic state deduced;qualitatively from the corresponding photoluminescence band shows almost;the same dependence on the quantum number as the theoretical prediction.;DOI:10.1103/PhysRevB.86.235449;0;0;0;0;0;1098-0121;WOS:000312833200008;;;J;Reynoso, Andres A.;Usaj, Gonzalo;Balseiro, C. A.;Feinberg, D.;Avignon, M.;Spin-orbit-induced chirality of Andreev states in Josephson junctions;PHYSICAL REVIEW B;86;21;214519;10.1103/PhysRevB.86.214519;DEC 28 2012;2012;We study Josephson junctions (JJs) in which the region between the two;superconductors is a multichannel system with Rashba spin-orbit coupling;(SOC) where a barrier or a quantum point contact (QPC) is present. These;systems might present unconventional Josephson effects such as Josephson;currents for zero phase difference or critical currents that depend on;the current direction. Here, we discuss how the spin polarizing;properties of the system in the normal state affect the spin;characteristics of the Andreev bound states inside the junction. This;results in a strong correlation between the spin of the Andreev states;and the direction in which they transport Cooper pairs. While the;current-phase relation for the JJ at zero magnetic field is;qualitatively unchanged by SOC, in the presence of a weak magnetic;field, a strongly anisotropic behavior and the mentioned anomalous;Josephson effects follow. We show that the situation is not restricted;to barriers based on constrictions such as QPCs and should generically;arise if in the normal system the direction of the carrier's spin is;linked to its direction of motion. DOI: 10.1103/PhysRevB.86.214519;Usaj, Gonzalo/E-6394-2010;Usaj, Gonzalo/0000-0002-3044-5778;5;0;0;0;5;1098-0121;WOS:000312830800005;;;J;Sato, W.;Komatsuda, S.;Ohkubo, Y.;Characteristic local association of In impurities dispersed in ZnO;PHYSICAL REVIEW B;86;23;235209;10.1103/PhysRevB.86.235209;DEC 28 2012;2012;Local environments in 0.5 at.% In-doped ZnO were investigated by means;of the time-differential perturbed angular correlation (TDPAC) method.;In a comparative study, using the Cd-111 probe nuclei as the decay;products of different parents, In-111 and Cd-111m, we found that In-111;microscopically forms a unique structure with nonradioactive In ion(s);dispersed in ZnO, whereas (111)mCd has no specific interaction with the;In impurities. The spectral damping of the TDPAC spectra is attributed;to the aftereffect following the EC decay of In-111. It was demonstrated;from the aftereffect that the local density and/or mobility of;conduction electrons at the In-111 probe site in the In-doped ZnO is;lowered due to the characteristic structure locally formed by the;dispersed In ion(s). DOI:10.1103/PhysRevB.86.235209;1;0;0;0;1;1098-0121;WOS:000312833200004;;;J;Sherman, Benjamin L.;Wilson, Hugh F.;Weeraratne, Dayanthie;Militzer, Burkhard;Ab initio simulations of hot dense methane during shock experiments;PHYSICAL REVIEW B;86;22;224113;10.1103/PhysRevB.86.224113;DEC 28 2012;2012;Using density functional theory molecular dynamics simulations, we;predict shock Hugoniot curves of precompressed methane up to 75 000 K;for initial densities ranging from 0.35 to 0.70 g cm(-3). At 4000 K, we;observe the transformation into a metallic, polymeric state consisting;of long hydrocarbon chains. These chains persist when the sample is;quenched to 300 K, leading to an increase in shock compression. At 6000;K, the sample transforms into a plasma composed of many, short-lived;chemical species. We conclude by discussing implications for the;interiors of Uranus and Neptune and analyzing the possibility of;creating a superionic state of methane in high pressure experiments.;DOI:10.1103/PhysRevB.86.224113;Wilson, Hugh/B-3447-2009;4;0;0;0;4;1098-0121;WOS:000312832400002;;;J;Trescher, Maximilian;Bergholtz, Emil J.;Flat bands with higher Chern number in pyrochlore slabs;PHYSICAL REVIEW B;86;24;241111;10.1103/PhysRevB.86.241111;DEC 28 2012;2012;A large number of recent works point to the emergence of intriguing;analogs of fractional quantum Hall states in lattice models due to;effective interactions in nearly flat bands with Chern number C = 1.;Here, we provide an intuitive and efficient construction of almost;dispersionless bands with higher Chern numbers. Inspired by the physics;of quantum Hall multilayers and pyrochlore-based transition-metal;oxides, we study a tight-binding model describing spin-orbit coupled;electrons in N parallel kagome layers connected by apical sites forming;N - 1 intermediate triangular layers (as in the pyrochlore lattice). For;each N, we find finite regions in parameter space giving a virtually;flat band with C = N. We analytically express the states within these;topological bands in terms of single-layer states and thereby explicitly;demonstrate that the C = N wave functions have an appealing structure in;which layer index and translations in reciprocal space are intricately;coupled. This provides a promising arena for new collective states of;matter. DOI: 10.1103/PhysRevB.86.241111;Bergholtz, Emil/C-3820-2008;Bergholtz, Emil/0000-0002-9739-2930;29;0;1;0;29;1098-0121;WOS:000312834100002;;;J;van Duijn, J.;Ruiz-Bustos, R.;Daoud-Aladine, A.;Kagome-like lattice distortion in the pyrochlore material Hg2Ru2O7;PHYSICAL REVIEW B;86;21;214111;10.1103/PhysRevB.86.214111;DEC 28 2012;2012;The structural transition which accompanies the metal to insulator;transition (MIT), at T = 107 K, in the pyrochlore material Hg2Ru2O7, was;investigated by high-resolution neutron powder diffraction measurements.;Below the MIT the symmetry is lowered from cubic to monoclinic and the;Ru-Ru bonds, which are equal in the pyrochlore phase (3.60147 angstrom),;become split into short (3.599 37 angstrom), medium (3.6028 angstrom),;and long bonds (3.6047 angstrom). As a result the exchange interactions;between the Ru atoms become more two dimensional. The short and medium;bonds form layers, which are separated by the long bonds, that run;parallel to the monoclinic ab plane. Overall the low-temperature;structure of Hg2Ru2O7 can best be described as a stacking of Kagome-like;layers. DOI: 10.1103/PhysRevB.86.214111;0;0;0;0;0;1098-0121;WOS:000312830800001;;;J;Vanevic, Mihajlo;Belzig, Wolfgang;Control of electron-hole pair generation by biharmonic voltage drive of;a quantum point contact;PHYSICAL REVIEW B;86;24;241306;10.1103/PhysRevB.86.241306;DEC 28 2012;2012;A time-dependent electromagnetic field creates electron-hole excitations;in a Fermi sea at low temperature. We show that the electron-hole pairs;can be generated in a controlled way using harmonic and biharmonic;time-dependent voltages applied to a quantum contact, and we obtain the;probabilities of the pair creations. For a biharmonic voltage drive, we;find that the probability of a pair creation decreases in the presence;of an in-phase second harmonic. This accounts for the suppression of the;excess noise observed experimentally (Gabelli and Reulet,;arXiv:1205.3638), proving that dynamic control and detection of;elementary excitations in quantum conductors are within the reach of the;present technology. DOI: 10.1103/PhysRevB.86.241306;6;1;0;0;6;1098-0121;WOS:000312834100004;;;J;Virgus, Yudistira;Purwanto, Wirawan;Krakauer, Henry;Zhang, Shiwei;Ab initio many-body study of cobalt adatoms adsorbed on graphene;PHYSICAL REVIEW B;86;24;241406;10.1103/PhysRevB.86.241406;DEC 28 2012;2012;Many recent calculations have been performed to study a Co atom adsorbed;on graphene, with significantly varying results on the nature of the;bonding. We use the auxiliary-field quantum Monte Carlo method and a;size-correction embedding scheme to accurately calculate the binding;energy of Co on graphene. We find that as a function of the distance h;between the Co atom and the sixfold hollow site, there are three;distinct ground states corresponding to three electronic configurations;of the Co atom. Two of these states provide binding and exhibit a;double-well feature with nearly equal binding energy of 0.4 eV at h =;1.51 and h = 1.65 angstrom, corresponding to low-spin Co-2 (3d(9) 4s(0));and high-spin Co-4 (3d(8) 4s(1)), respectively. DOI:;10.1103/PhysRevB.86.241406;3;0;0;0;3;1098-0121;WOS:000312834100005;;;J;Xing, Jie;Li, Sheng;Ding, Xiaxin;Yang, Huan;Wen, Hai-Hu;Superconductivity appears in the vicinity of semiconducting-like;behavior in CeO1-xFxBiS2;PHYSICAL REVIEW B;86;21;214518;10.1103/PhysRevB.86.214518;DEC 28 2012;2012;Resistive and magnetic properties have been measured in BiS2-based;samples CeO1-xFxBiS2 with a systematic substitution of O with F (0 < x <;0.6). In contrast to the band-structure calculations, it is found that;the parent phase of CeOBiS2 is a bad metal instead of a band insulator.;By doping electrons into the system, it is surprising to find that;superconductivity appears together with a semiconducting normal state.;This evolution is clearly different from the cuprate and the iron;pnictide systems, and is interpreted as approaching the Pomeranchuk;transition with a von Hove singularity and the possible;charge-density-wave instability. Furthermore, ferromagnetism, which may;arise from the Ce magnetic moments, has been observed in the;low-temperature region in all samples, suggesting the coexistence of;superconductivity and ferromagnetism in the superconducting samples.;DOI: 10.1103/PhysRevB.86.214518;55;0;1;0;56;1098-0121;WOS:000312830800004;;;J;Yaji, Koichiro;Hatta, Shinichiro;Aruga, Tetsuya;Okuyama, Hiroshi;Structural and electronic properties of the Pb/Ge(111)-beta(root 3 x;root 3)R30 degrees surface studied by photoelectron spectroscopy and;first-principles calculations;PHYSICAL REVIEW B;86;23;235317;10.1103/PhysRevB.86.235317;DEC 28 2012;2012;We have studied structural and electronic properties of a Ge(111);surface covered with a monatomic Pb layer [Pb/Ge(111)-beta] by means of;core-level photoelectron spectroscopy, angle-resolved photoelectron;spectroscopy (ARPES), and a first-principles band structure calculation.;There has been a controversy about the surface structure of;Pb/Ge(111)-beta between a close-packed model with a coverage of 4/3;monolayers and a trimer model with a coverage of 1 monolayer. This;problem has been examined by analyzing the line shape of a Pb 5d;core-level spectrum and comparing the experimental band structure with;those calculated for two models. The line shape of the core-level;spectrum agrees with a close-packed model. The valence band structure;observed by ARPES has been well reproduced by the calculation employing;the close-packed model. The close-packed model therefore describes;correctly the surface structure of Pb/Ge(111)-beta. The;scanning-tunneling microscopy (STM) image simulated for the close-packed;model is in good agreement with the experimental filled-state STM image,;in which three protrusions per unit cell were observed.;DOI:10.1103/PhysRevB.86.235317;Aruga, Tetsuya/B-7782-2010; Okuyama, Hiroshi/H-7570-2014;2;1;0;0;2;1098-0121;WOS:000312833200006;;;J;Yang, Shuo;Gu, Zheng-Cheng;Sun, Kai;Das Sarma, S.;Topological flat band models with arbitrary Chern numbers;PHYSICAL REVIEW B;86;24;241112;10.1103/PhysRevB.86.241112;DEC 28 2012;2012;We report the theoretical discovery of a systematic scheme to produce;topological flat bands (TFBs) with arbitrary Chern numbers. We find that;generically a multiorbital high Chern number TFB model can be;constructed by considering multilayer Chern number C = 1 TFB models with;enhanced translational symmetry. A series of models are presented as;examples, including a two-band model on a triangular lattice with a;Chern number C = 3 and an N-band square lattice model with C = N for an;arbitrary integer N. In all these models, the flatness ratio for the;TFBs is larger than 30 and increases with increasing Chern number. In;the presence of appropriate interparticle interactions, these models are;likely to lead to the formation of Abelian and non-Abelian fractional;Chern insulators. As a simple example, we test the C = 2 model with;hardcore bosons at 1/3 filling, and an intriguing fractional quantum;Hall state is observed. DOI: 10.1103/PhysRevB.86.241112;Sun, Kai/F-2282-2010; Yang, Shuo/D-1372-2011; Das Sarma, Sankar/B-2400-2009; Gu, Zheng-Cheng/L-5415-2014;Sun, Kai/0000-0001-9595-7646; Yang, Shuo/0000-0001-9733-8566;;24;0;1;0;24;1098-0121;WOS:000312834100003;;;J;Yue, Qu;Chang, Shengli;Tan, Jichun;Qin, Shiqiao;Kang, Jun;Li, Jingbo;Symmetry-dependent transport properties and bipolar spin filtering in;zigzag alpha-graphyne nanoribbons;PHYSICAL REVIEW B;86;23;235448;10.1103/PhysRevB.86.235448;DEC 28 2012;2012;First-principles calculations are performed to investigate the transport;properties of zigzag alpha-graphyne nanoribbons (ZaGNRs). It is found;that asymmetric Z alpha GNRs behave as conductors with linear;current-voltage relationships, whereas symmetric Z alpha GNRs have very;small currents under finite bias voltages, similar to those of zigzag;graphene nanoribbons. The symmetry-dependent transport properties arise;from different coupling rules between the pi and pi* subbands around the;Fermi level, which are dependent on the wave-function symmetry of the;two subbands. Based on the coupling rules, we further demonstrate the;bipolar spin-filtering effect in the symmetric Z alpha GNRs. It is shown;that nearly 100% spin-polarized current can be produced and modulated by;the direction of bias voltage and/or magnetization configuration of the;electrodes. Moreover, the magnetoresistance effect with the order larger;than 500 000% is also predicted. Our calculations suggest Z alpha GNRs;as a promising candidate material for spintronics.;DOI:10.1103/PhysRevB.86.235448;Kang, Jun/F-7105-2011;7;1;0;0;7;1098-0121;WOS:000312833200007;;;J;Berry, Joel;Provatas, Nikolas;Rottler, Joerg;Sinclair, Chad W.;
6:1:9:30 Multilayer thin film growth on crystalline and quasicrystalline surfaces: A phase-field crystal study
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6:1:9:31 Modeling Multiple Time Scales during Glass Formation with Phase-Field Crystals
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6:1:9:32 Atomic structure of grain boundaries in iron modeled using the atomic density function
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6:1:9:33 Pseudospinodal mechanism for fine alpha/beta microstructures in beta-Ti alloys
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6:1:9:34 Dynamic density functional theory of solid tumor growth: Preliminary models
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6:1:9:35 Cu adhesion on tantalum and ruthenium surface: Density functional theory study
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6:1:9:36 Free energy of the bcc-liquid interface and the Wulff shape as predicted by the phase-field crystal model
DOI:10.1016/j.jcrysgro.2013.01.036 JN:JOURNAL OF CRYSTAL GROWTH PY:2014 TC:5 AU: Podmaniczky, Frigyes;Toth, Gyula I.;Pusztai, Tamas;Granasy, Laszlo;
6:1:9:37 Ginzburg-Landau-Type Multiphase Field Model for Competing fcc and bcc Nucleation
DOI:10.1103/PhysRevLett.106.045701 JN:PHYSICAL REVIEW LETTERS PY:2011 TC:9 AU: Toth, G. I.;Morris, J. R.;Granasy, L.;
6:1:9:38 Morphological instability, evolution, and scaling in strained epitaxial films: An amplitude-equation analysis of the phase-field-crystal model
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6:1:9:39 Marginal stability analysis of the phase field crystal model in one spatial dimension
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6:1:9:40 Advanced Ginzburg-Landau theory of freezing: A density-functional approach
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6:1:9:41 Contact melting and the structure of binary eutectic near the eutectic point
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6:1:9:42 TEM dislocations characterization of InxGa1-xAs/InP (100) (x=0.82) on mismatched InP substrate
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6:1:9:43 Influence of thermal annealing duration of buffer layer on the crystalline quality of In0.82Ga0.18As grown on InP substrate by LP-MOCVD
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6:1:9:44 Phase field simulations of grain growth during sintering of two unequal-sized particles
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6:1:9:45 Phase-field simulations: Materials Science meets Biology and Medicine FOREWORD
DOI:10.1080/14786435.2011.534686 JN:PHILOSOPHICAL MAGAZINE PY:2011 TC:1 AU: Emmerich, Heike;Travasso, Rui;
6:1:9:46 Frank-Read source mechanism, mobile dislocation density exhaustion and flow stress anomaly in L12 alloys: a dislocation dynamics study
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6:1:10:1 Size effects on elasticity, yielding, and fracture of silver nanowires: In situ experiments
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6:1:10:2 Plasticity of metal nanowires
DOI:10.1039/c2jm13682a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:36 AU: Weinberger, Christopher R.;Cai, Wei;
6:1:10:3 Superplastic Deformation of Defect-Free Au Nanowires via Coherent Twin Propagation
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6:1:10:4 Existence of two twinning-mediated plastic deformation modes in Au nanowhiskers
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6:1:10:5 Fracture of Sub-20nm Ultrathin Gold Nanowires
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6:1:10:6 Intrinsic Bauschinger Effect and Recoverable Plasticity in Pentatwinned Silver Nanowires Tested in Tension
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6:1:10:7 Nucleation-Controlled Distributed Plasticity in Penta-twinned Silver Nanowires
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6:1:10:8 Microstructure- and surface orientation-dependent mechanical behaviors of Ag nanowires under bending
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6:1:10:9 Role of Five-fold Twin Boundary on the Enhanced Mechanical Properties of fcc Fe Nanowires
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6:1:10:10 Strain Hardening and Size Effect in Five-fold Twinned Ag Nanowires
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6:1:10:11 Origin of Size Dependency in Coherent-Twin-Propagation-Mediated Tensile Deformation of Noble Metal Nanowires
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6:1:10:12 Mechanical properties of platinum nanowires: An atomistic investigation on single-crystalline and twinned structures
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6:1:10:13 Surface and interface controlled yielding and plasticity in fivefold twinned Ag nanowires
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6:1:10:14 Size-dependent elastic moduli and vibrational properties of fivefold twinned copper nanowires
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6:1:10:15 Mechanical Properties of Silicon Carbide Nanowires: Effect of Size-Dependent Defect Density
DOI:10.1021/nl404058r JN:NANO LETTERS PY:2014 TC:12 AU: Cheng, Guangming;Chang, Tzu-Hsuan;Qin, Qingquan;Huang, Hanchen;Zhu, Yong;
6:1:10:16 Formation of quasi-icosahedral structures with multi-conjoint fivefold deformation twins in fivefold twinned metallic nanowires
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6:1:10:17 Surface dislocation nucleation controlled deformation of Au nanowires
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6:1:10:18 Investigation on the mechanical behavior of fivefold twinned silver nanowires
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6:1:10:19 Five-fold twin and surface groove-induced abnormal size- and temperature-dependent yielding in Ag nanowires
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6:1:10:20 Effects of twin and surface facet on strain-rate sensitivity of gold nanowires at different temperatures
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6:1:10:21 The enhanced elastic modulus of nanowires associated with multitwins
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6:1:10:22 Nanotwinned gold nanowires obtained by chemical synthesis
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6:1:10:23 Orientation-Dependent Plasticity in Metal Nanowires under Torsion: Twist Boundary Formation and Eshelby Twist
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6:1:10:24 Atomistic simulation of the strain-hardening behavior of bicrystal Cu nanowires
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6:1:10:25 Rapid synthesis of pentagonal silver nanowires with diameter-dependent tensile yield strength
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6:1:10:26 Dislocation glide-controlled room-temperature plasticity in 6H-SiC single crystals
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6:1:10:27 Direction-tunable nanotwins in copper nanowires by laser-assisted electrochemical deposition
DOI:10.1088/0957-4484/23/12/125602 JN:NANOTECHNOLOGY PY:2012 TC:3 AU: Liu, Zhikun;Wang, Yuefeng;Liao, Yiliang;Cheng, Gary J.;
6:1:11:1 Enhanced solid solution effects on the strength of nanocrystalline alloys
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6:1:11:2 Sliding wear of nanocrystalline Ni-W: Structural evolution and the apparent breakdown of Archard scaling
DOI:10.1016/j.actamat.2010.04.005 JN:ACTA MATERIALIA PY:2010 TC:46 AU: Rupert, Timothy J.;Schuh, Christopher A.;
6:1:11:3 Emergence of localized plasticity and failure through shear banding during microcompression of a nanocrystalline alloy
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6:1:11:4 Observations of grain boundary impurities in nanocrystalline Al and their influence on micro structural stability and mechanical behaviour
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6:1:11:5 Reaching theoretical strengths in nanocrystalline Cu by grain boundary doping
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6:1:11:6 Strain localization in a nanocrystalline metal: Atomic mechanisms and the effect of testing conditions
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6:1:11:7 Grain boundary doping strengthens nanocrystalline copper alloys
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6:1:11:8 The role of confinement on stress-driven grain boundary motion in nanocrystalline aluminum thin films
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6:1:11:9 Understanding the mechanical behavior of nanocrystalline Al-O thin films with complex microstructures
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6:1:11:10 Grain boundary relaxation strengthening of nanocrystalline Ni-W alloys
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6:1:11:11 On the hierarchy of deformation processes in nanocrystalline alloys: Grain boundary mediated plasticity vs. dislocation slip
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6:1:11:12 Differentiation of Deformation Modes in Nanocrystalline Pd Films Inferred from Peak Asymmetry Evolution Using In Situ X-Ray Diffraction
DOI:10.1103/PhysRevLett.110.066101 JN:PHYSICAL REVIEW LETTERS PY:2013 TC:10 AU: Lohmiller, Jochen;Baumbusch, Rudolf;Kraft, Oliver;Gruber, Patric A.;
6:1:11:13 Microstructure-property relationship in highly ductile Au-Cu thin films for flexible electronics
DOI:10.1016/j.msea.2010.08.043 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:14 AU: Lohmiller, J.;Woo, N. C.;Spolenak, R.;
6:1:11:14 Plastic deformation of nanocrystalline Pd-Au alloys: On the interplay of grain boundary solute segregation, fault energies and grain size
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6:1:11:15 The effect of solute segregation on strain localization in nanocrystalline thin films: Dislocation glide vs. grain-boundary mediated plasticity
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6:1:11:16 Effect of solute segregation on thermal creep in dilute nanocyrstalline Cu alloys
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6:1:11:17 Room-temperature flow in a metallic glass - Strain-rate dependence of shear-band behavior
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6:1:11:18 Plastic deformation of nanocrystalline copper-antimony alloys
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6:1:11:19 Abrasive wear response of nanocrystalline Ni-W alloys across the Hall-Petch breakdown
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6:1:11:20 Tensile behavior of Al1-xMox crystalline and amorphous thin films
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6:1:11:21 Low-Temperature Annealing Induced Amorphization in Nanocrystalline NiW Alloy Films
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6:1:11:22 Temperature dependent transition of intragranular plastic to intergranular brittle failure in electrodeposited Cu micro-tensile samples
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6:1:11:23 Solid solution strengthening and softening due to collective nanocrystalline deformation physics
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6:1:11:24 Coarse Graining and Localized Plasticity between Sliding Nanocrystalline Metals
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6:1:11:25 Alloy-dependent deformation behavior of highly ductile nanocrystalline AuCu thin films
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6:1:11:26 Towards Reaching the Theoretical Limit of Porosity in Solid State Metal Foams: Intraparticle Expansion as A Primary and Additive Means to Create Porosity
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6:1:11:27 Sample size effect of electrodeposited nickel with sub-10 nm grain size
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6:1:11:28 Stretchable Metallic Electrodes for Electroactive Polymer Actuators
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6:1:12:1 Microcompression study of Mg (0001) single crystal
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6:1:12:2 Microcompression of single-crystal magnesium
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6:1:12:3 The Nanostructured Origin of Deformation Twinning
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6:1:12:4 In situ TEM compression testing of Mg and Mg-0.2 wt.% Ce single crystals
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6:1:12:5 Effects of the initial dislocation density on size effects in single-crystal magnesium
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6:1:12:6 Size-dependent of compression yield strength and deformation mechanism in titanium single-crystal nanopillars orientated [0001] and [11(2)over-bar0]
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6:1:12:7 Micropillar and macropillar compression responses of magnesium single crystals oriented for single slip or extension twinning
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6:1:12:8 Anisotropic size effect in strength in coherent nanowires with tilted twins
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6:1:12:9 [0001] Compression response at room temperature of single-crystal magnesium
DOI:10.1016/j.scriptamat.2012.06.036 JN:SCRIPTA MATERIALIA PY:2012 TC:17 AU: Syed, B.;Geng, J.;Mishra, R. K.;Kumar, K. S.;
6:1:12:10 Discerning size effect strengthening in ultrafine-grained Mg thin films
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6:1:12:11 Twinnability of hcp metals at the nanoscale
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6:1:12:12 Deformation behavior of magnesium in the grain size spectrum from nano- to micrometer
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6:1:12:13 In-situ microcompression study of nanostructured Mg alloy micropillars
DOI:10.1016/j.matlet.2013.05.039 JN:MATERIALS LETTERS PY:2013 TC:3 AU: Pozuelo, M.;Chang, Y. W.;Yang, J. -M.;
6:1:12:14 Smaller is Plastic: Polymorphic Structures and Mechanism of Deformation in Nanoscale hcp Metals
DOI:10.1021/nl504978t JN:NANO LETTERS PY:2015 TC:0 AU: Bhogra, Meha;Ramamurty, U.;Waghmare, Umesh V.;
6:1:12:15 Effects of grain size on compressive behaviour in ultrafine grained pure Mg processed by equal channel angular pressing at room temperature
DOI:10.1016/j.msea.2011.04.045 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:15 AU: Li, Jizhong;Xu, Wei;Wu, Xiaolin;Ding, Hua;Xia, Kenong;
6:1:12:16 The influence of focused-ion beam preparation technique on microcompression investigations: Lathe vs. annular milling
DOI:10.1016/j.scriptamat.2014.01.016 JN:SCRIPTA MATERIALIA PY:2014 TC:2 AU: Huetsch, Julia;Lilleodden, Erica T.;
6:1:12:17 Computational modeling of intrinsically induced strain gradients during compression of c-axis-oriented magnesium single crystal
DOI:10.1016/j.actamat.2014.02.017 JN:ACTA MATERIALIA PY:2014 TC:2 AU: Husser, Edgar;Lilleodden, Erica;Bargmann, Swantje;
6:1:12:18 Single crystal pillar microcompression tests of the MAX phases Ti2InC and Ti4AlN3
DOI:10.1016/j.scriptamat.2013.05.002 JN:SCRIPTA MATERIALIA PY:2013 TC:4 AU: Bruesewitz, Christoph;Knorr, Inga;Hofsaess, Hans;Barsoum, Michel W.;Volkert, Cynthia A.;
6:1:12:19 Experimental study of fracture behavior of magnesium single crystals
DOI:10.1016/j.msea.2013.10.018 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:7 AU: Kaushik, V.;Narasimhan, R.;Mishra, R. K.;
6:1:12:20 Improving the ductility of thin film metallic glasses via nano-twinning
DOI:10.1016/j.tsf.2013.05.178 JN:THIN SOLID FILMS PY:2014 TC:2 AU: Kuan, S. Y.;Huang, J. C.;
6:1:12:21 Shape memory effects and pseudoelasticity in bcc metallic nanowires
DOI:10.1063/1.3506413 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:9 AU: Cao, Ajing;
6:1:12:22 Source mechanism of non-basal < c plus a > slip in Ti alloy
DOI:10.1016/j.scriptamat.2013.03.009 JN:SCRIPTA MATERIALIA PY:2013 TC:3 AU: Yu, Qian;Sun, Jun;Morris, John W., Jr.;Minor, Andrew M.;
6:1:13:1:1 Invariance of the Dissipative Action at Ultrahigh Strain Rates Above the Strong Shock Threshold
DOI:10.1103/PhysRevLett.107.144302 JN:PHYSICAL REVIEW LETTERS PY:2011 TC:43 AU: Crowhurst, Jonathan C.;Armstrong, Michael R.;Knight, Kimberly B.;Zaug, Joseph M.;Behymer, Elaine M.;
6:1:13:1:2 The elastic-plastic response of aluminum films to ultrafast laser-generated shocks
DOI:10.1063/1.3506696 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:43 AU: Whitley, V. H.;McGrane, S. D.;Eakins, D. E.;Bolme, C. A.;Moore, D. S.;Bingert, J. F.;
6:1:13:1:3 Two-Zone Elastic-Plastic Single Shock Waves in Solids
DOI:10.1103/PhysRevLett.107.135502 JN:PHYSICAL REVIEW LETTERS PY:2011 TC:20 AU: Zhakhovsky, Vasily V.;Budzevich, Mikalai M.;Inogamov, Nail A.;Oleynik, Ivan I.;White, Carter T.;
6:1:13:1:4 Ultrashort shock waves in nickel induced by femtosecond laser pulses
DOI:10.1103/PhysRevB.87.054109 JN:PHYSICAL REVIEW B PY:2013 TC:8 AU: Demaske, Brian J.;Zhakhovsky, Vasily V.;Inogamov, Nail A.;Oleynik, Ivan I.;
6:1:13:1:5 Sub-100 ps laser-driven dynamic compression of solid deuterium with a similar to 40 mu J laser pulse
DOI:10.1063/1.4890087 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Armstrong, Michael R.;Crowhurst, Jonathan C.;Bastea, Sorin;Zaug, Joseph M.;Goncharov, Alexander F.;
6:1:13:1:6 Prospects for achieving high dynamic compression with low energy
DOI:10.1063/1.4751107 JN:APPLIED PHYSICS LETTERS PY:2012 TC:6 AU: Armstrong, Michael R.;Crowhurst, Jonathan C.;Bastea, Sorin;Howard, William M.;Zaug, Joseph M.;Goncharov, Alexander F.;
6:1:13:1:7 Ultrafast observation of shocked states in a precompressed material
DOI:10.1063/1.3460801 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:18 AU: Armstrong, Michael R.;Crowhurst, Jonathan C.;Bastea, Sorin;Zaug, Joseph M.;
6:1:13:1:8 Plastic behavior of aluminum in high strain rate regime
DOI:10.1063/1.4890012 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Shu, Hua;Fu, Sizu;Huang, Xiuguang;Pan, Hao;Zhang, Fan;Xie, Ziyong;Ye, Junjian;Jia, Guo;
6:1:13:1:9 Prediction of Debye-Scherrer diffraction patterns in arbitrarily strained samples
DOI:10.1063/1.4874656 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Higginbotham, Andrew;McGonegle, David;
6:1:13:1:10 Real-Time Visualization of Nanocrystal Solid-Solid Transformation Pathways
DOI:10.1021/nl500043c JN:NANO LETTERS PY:2014 TC:3 AU: Wittenberg, Joshua S.;Miller, Timothy A.;Szilagyi, Erzsi;Lutker, Katie;Quirin, Florian;Lu, Wei;Lemke, Henrik;Zhu, Diling;Chollet, Matthieu;Robinson, Joseph;Wen, Haidan;Sokolowski-Tinten, Klaus;Alivisatos, A. Paul;Lindenberg, Aaron M.;
6:1:13:1:11 A comparative study on shock compression of nanocrystalline Al and Cu: Shock profiles and microscopic views of plasticity
DOI:10.1063/1.4826624 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:0 AU: Ma, Wen;Zhu, Wenjun;Hou, Yong;
6:1:13:1:12 Shock Hugoniot equations of state for binary water-alcohol liquid mixtures
DOI:10.1063/1.4858385 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Schulze, Peter A.;Ivanov, Trevor W.;Bolme, Cynthia A.;Brown, Kathryn E.;McGrane, Shawn D.;Moore, David S.;
6:1:13:2:1 Effect of temperature, strain, and strain rate on the flow stress of aluminum under shock-wave compression
DOI:10.1063/1.4755792 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:20 AU: Zaretsky, E. B.;Kanel, G. I.;
6:1:13:2:2 Response of copper to shock-wave loading at temperatures up to the melting point
DOI:10.1063/1.4819328 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:13 AU: Zaretsky, E. B.;Kanel, G. I.;
6:1:13:2:3 Tantalum and vanadium response to shock-wave loading at normal and elevated temperatures. Non-monotonous decay of the elastic wave in vanadium
DOI:10.1063/1.4885047 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:6 AU: Zaretsky, E. B.;Kanel, G. I.;
6:1:13:2:4 Plastic flow in shock-loaded silver at strain rates from 10(4) s(-1) to 10(7) s(-1) and temperatures from 296 K to 1233 K
DOI:10.1063/1.3642989 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:16 AU: Zaretsky, E. B.;Kanel, G. I.;
6:1:13:2:5 Impact response of cobalt over the 300-1400 K temperature range
DOI:10.1063/1.3501107 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:12 AU: Zaretsky, E. B.;
6:1:13:2:6 Shock response of magnesium single crystals at normal and elevated temperatures
DOI:10.1063/1.4897555 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:2 AU: Kanel, G. I.;Garkushin, G. V.;Savinykh, A. S.;Razorenov, S. V.;de Resseguier, T.;Proud, W. G.;Tyutin, M. R.;
6:1:13:2:7 Impact response and dynamic strength of partially melted aluminum alloy
DOI:10.1063/1.4749763 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:4 AU: Zaretsky, E. B.;Kanel, G. I.;
6:1:13:2:8 High temperature impact response of 998 alumina
DOI:10.1063/1.4830014 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:3 AU: Zaretsky, E. B.;
6:1:13:2:9 Influence of elevated temperature on the wave propagation and spallation in laser shock-loaded iron
DOI:10.1103/PhysRevB.86.214102 JN:PHYSICAL REVIEW B PY:2012 TC:5 AU: ;FN Thomson Reuters Web of Scienceâ„¢;1.0;J;Aizin, Gregory R.;Dyer, Gregory C.;Transmission line theory of collective plasma excitations in periodic;two-dimensional electron systems: Finite plasmonic crystals and Tamm;states;PHYSICAL REVIEW B;86;23;235316;10.1103/PhysRevB.86.235316;DEC 28 2012;2012;We present a comprehensive theory of the one-dimensional plasmonic;crystal formed in the grating-gated two-dimensional electron gas (2DEG);in semiconductor heterostructures. To describe collective plasma;excitations in the 2DEG, we develop a generalized transmission line;theoretical formalism consistent with the plasma hydrodynamic model. We;then apply this formalism to analyze the plasmonic spectra of 2DEG;systems with steplike periodic changes of electron density, gate;screening, or both. We show that in a periodically modulated 2DEG, a;plasmonic crystal is formed, and we derive closed-form analytical;expressions describing its energy band spectrum for both infinite and;finite size crystals. Our results demonstrate a nonmonotonic dependence;of the plasmonic band gap width on the electron density modulation. At;so-called transparency points, where the plasmon propagates through the;periodic 2DEG in a resonant manner, the plasmonic band gaps vanish. In;semi-infinite plasmonic crystals, we demonstrate the formation of;plasmonic Tamm states and analytically derive their energy dispersion;and spatial localization. Finally, we present detailed numerical;analysis of the plasmonic band structure of a finite four-period;plasmonic crystal terminated either by an ohmic contact or by an;infinite barrier on each side. We trace the evolution of the plasmonic;band spectrum, including the Tamm states, with changing electron density;modulation and analyze the boundary conditions necessary for formation;of the Tamm states. We also analyze interaction between the Tamm states;formed at the opposite edges of the short length plasmonic crystal. The;validity of our theoretical approach was confirmed in experimental;studies of plasmonic crystals in short, modulated plasmonic cavities;[Dyer et al., Phys. Rev. Lett. 109, 126803 (2012)], which demonstrated;excellent quantitative agreement between theory and experiment.;DOI:10.1103/PhysRevB.86.235316;9;0;0;0;9;1098-0121;WOS:000312833200005;;;J;Arakawa, Tomonori;Tanaka, Takahiro;Chida, Kensaku;Matsuo, Sadashige;Nishihara, Yoshitaka;Chiba, Daichi;Kobayashi, Kensuke;Ono, Teruo;Fukushima, Akio;Yuasa, Shinji;Low-frequency and shot noises in CoFeB/MgO/CoFeB magnetic tunneling;junctions;PHYSICAL REVIEW B;86;22;224423;10.1103/PhysRevB.86.224423;DEC 28 2012;2012;The low-frequency and shot noises in spin-valve CoFeB/MgO/CoFeB magnetic;tunneling junctions were studied at low temperature. The measured 1/f;noise around the magnetic hysteresis loops of the free layer indicates;that the main origin of the 1/f noise is the magnetic fluctuation, which;is discussed in terms of a fluctuation-dissipation relation. Random;telegraph noise (RTN) is observed to be symmetrically enhanced in the;hysteresis loop with regard to the two magnetic configurations. We found;that this enhancement is caused by the fluctuation between two magnetic;states in the free layer. Although the 1/f noise is almost independent;of the magnetic configuration, the RTN is enhanced in the antiparallel;configuration. These findings indicate the presence of spin-dependent;activation of RTN. Shot noise reveals the spin-dependent coherent;tunneling process via a crystalline MgO barrier. DOI:;10.1103/PhysRevB.86.224423;Kobayashi, Kensuke/E-5404-2010;Kobayashi, Kensuke/0000-0001-7072-5945;4;0;0;0;4;1098-0121;WOS:000312832400004;;;J;Cucchiara, J.;Le Gall, S.;Fullerton, E. E.;Kim, J. -V.;Ravelosona, D.;Henry, Y.;Katine, J. A.;Kent, A. D.;Bedau, D.;Gopman, D.;Mangin, S.;Domain wall motion in nanopillar spin-valves with perpendicular;anisotropy driven by spin-transfer torques;PHYSICAL REVIEW B;86;21;214429;10.1103/PhysRevB.86.214429;DEC 28 2012;2012;Using transport measurements and micromagnetic simulations we have;investigated the domain wall motion driven by spin-transfer torques in;all-perpendicular hexagonal nanopillar spin-valves. In particular, we;probe domain walls nucleated in the free layer of the spin-valves, which;are then pinned in the devices. We have determined both the;field-current state diagrams for the domain-wall state and the thermally;activated dynamics of the nucleation and depinning processes. We show;that the nucleation process is well-described by a modified Neel-Brown;model taking into account the spin-transfer torque, whereas the;depinning process is independent of the current. This is confirmed by an;analytical calculation which shows that spin-torques have no effect on;the Arrhenius escape rate associated with thermally activated domain;wall depinning in this geometry. Furthermore, micromagnetic simulations;indicate that spin-transfer only weakly affects the domain wall motion,;but instead modifies the inner domain wall structure. DOI:;10.1103/PhysRevB.86.214429;Kim, Joo-Von/B-3672-2008; Fullerton, Eric/H-8445-2013;Kim, Joo-Von/0000-0002-3849-649X; Fullerton, Eric/0000-0002-4725-9509;0;0;0;0;0;1098-0121;WOS:000312830800003;;;J;Fernandez-Dominguez, A. I.;Zhang, P.;Luo, Y.;Maier, S. A.;Garcia-Vidal, F. J.;Pendry, J. B.;Transformation-optics insight into nonlocal effects in separated;nanowires;PHYSICAL REVIEW B;86;24;241110;10.1103/PhysRevB.86.241110;DEC 28 2012;2012;We present a transformation-optics approach which sheds analytical;insight into the impact that spatial dispersion has on the optical;response of separated dimers of metallic nanowires. We show that;nonlocal effects are apparent at interparticle distances one order of;magnitude larger than the longitudinal plasmon decay length, which;coincides with the spatial regime where electron tunneling phenomena;occur. Our method also clarifies the interplay between nonlocal and;radiation effects taking place in the nanostructure, yielding the dimer;dimensions that optimize its light harvesting capabilities. DOI:;10.1103/PhysRevB.86.241110;Luo, Yu/C-7799-2009; Fernandez-Dominguez, Antonio I./C-4448-2013; Garcia-Vidal, Francisco /B-8280-2011;Luo, Yu/0000-0003-2925-682X; Fernandez-Dominguez, Antonio;I./0000-0002-8082-395X; Garcia-Vidal, Francisco /0000-0003-4354-0982;10;0;0;0;10;1098-0121;WOS:000312834100001;;;J;Gati, E.;Koehler, S.;Guterding, D.;Wolf, B.;Knoener, S.;Ran, S.;Bud'ko, S. L.;Canfield, P. C.;Lang, M.;Hydrostatic-pressure tuning of magnetic, nonmagnetic, and;superconducting states in annealed Ca(Fe1-xCox)(2)As-2;PHYSICAL REVIEW B;86;22;220511;10.1103/PhysRevB.86.220511;DEC 28 2012;2012;We report on measurements of the magnetic susceptibility and electrical;resistance under He-gas pressure on single crystals of;Ca(Fe1-xCox)(2)As-2. We find that for properly heat-treated crystals;with modest Co concentration, x = 0.028, the salient ground states;associated with iron-arsenide superconductors, i.e.,;orthorhombic/antiferromagnetic (o/afm), superconducting, and nonmagnetic;collapsed-tetragonal (cT) states can be accessed all in one sample with;reasonably small and truly hydrostatic pressure. This is possible owing;to the extreme sensitivity of the o/afm (for T <= T-s,T-N) and;superconducting (T <= T-c) states against variation of pressure,;disclosing pressure coefficients of dT(s,N)/dP = -(1100 +/- 50) K/GPa;and dT(c)/dP = -(60 +/- 3) K/GPa, respectively. Systematic;investigations of the various phase transitions and ground states via;pressure tuning revealed no coexistence of bulk superconductivity (sc);with the o/afm state which we link to the strongly first-order character;of the corresponding structural/magnetic transition in this compound.;Our results, together with literature results, indicate that preserving;fluctuations associated with the o/afm transition to low enough;temperatures is vital for sc to form. DOI: 10.1103/PhysRevB.86.220511;Canfield, Paul/H-2698-2014;14;0;0;0;14;1098-0121;WOS:000312832400001;;;J;Hakobyan, Ye.;Tadmor, E. B.;James, R. D.;Objective quasicontinuum approach for rod problems;PHYSICAL REVIEW B;86;24;245435;10.1103/PhysRevB.86.245435;DEC 28 2012;2012;An objective quasicontinuum (OQC) method is developed for simulating;rodlike systems that can be represented as a combination of locally;objective structures. An objective structure (OS) is one for which a;group of atoms, called a "fundamental domain" (FD), is repeated using;specific rules of translation and rotation to build a more complex;structure. An objective Cauchy-Born rule defines the kinematics of the;OS atoms in terms of a set of symmetry parameters and the positions of;the FD atoms. The computational advantage lies in the capability of;representing a large system of atoms through a small set of symmetry;parameters and FD atom positions. As an illustrative example, we;consider the deformation of a copper single-crystal nanobeam which can;be described as an OS. OQC simulations are performed for uniform and;nonuniform bending for two different orientations (nanobeam axis;oriented along [111] and [100]) and compared with elastica results. In;the uniform bending case, the [111]-oriented single-crystal nanobeam;experiences elongation, while the [100]-oriented nanobeam experiences;contraction in total length. The nonuniform bending allows for;stretching, contraction, and bending as deformation. Under certain;loading conditions, dislocation nucleation is observed within the FD.;DOI: 10.1103/PhysRevB.86.245435 PACS number(s): 61.46.Km, 62.23.Hj,;81.07.Gf, 02.70.Ns;1;0;0;0;1;1098-0121;WOS:000312834100006;;;J;He, Jing;Wang, Bo;Kou, Su-Peng;Ferromagnetism and antiferromagnetism of a correlated topological;insulator with a flat band;PHYSICAL REVIEW B;86;23;235146;10.1103/PhysRevB.86.235146;DEC 28 2012;2012;In this paper, based on the mean-field approach and random-phase;approximation, we studied the magnetic properties of the spinfull;Haldane model on honeycomb lattice of topological flat band with onsite;repulsive Coulomb interaction. We found that the antiferromagnetic (AF);order is more stable than the ferromagnetic (FM) order at, or near, half;filling. Away from half filling, the phase diagram becomes complex: at;large doping, the FM order is more stable than the AF order due to the;flatness of band structure. In particular, we found that at quarter;filling, the system becomes a Chern number Q = 1 topological insulator;induced by the FM order. DOI:10.1103/PhysRevB.86.235146;1;0;0;0;1;1098-0121;WOS:000312833200002;;;J;Hu, Jianbo;Misochko, Oleg V.;Goto, Arihiro;Nakamura, Kazutaka G.;Delayed formation of coherent LO phonon-plasmon coupled modes in n- and;p-type GaAs measured using a femtosecond coherent control technique;PHYSICAL REVIEW B;86;23;235145;10.1103/PhysRevB.86.235145;DEC 28 2012;2012;Coherent control experiments using a pair of collinear femtosecond laser;pulses have been carried out to manipulate longitudinal optical (LO);phonon-plasmon coupled (LOPC) modes in both p-and n-type GaAs. By tuning;the interpulse separation, remarkably distinct responses have been;observed in the two samples. To understand the results obtained a;phenomenological model taking the delayed formation of coherent LOPC;modes into account is proposed. The model suggests that the lifetime of;coherent LOPC modes plays a key role and the interference of the;coherent LO phonons excited successively by two pump pulses strongly;affects the manipulation of coherent LOPC modes.;DOI:10.1103/PhysRevB.86.235145;Oleg, Misochko/E-6136-2013; Nakamura, Kazutaka/F-4095-2014;0;0;0;0;0;1098-0121;WOS:000312833200001;;;J;Imura, Ken-Ichiro;Okamoto, Mayuko;Yoshimura, Yukinori;Takane, Yositake;Ohtsuki, Tomi;Finite-size energy gap in weak and strong topological insulators;PHYSICAL REVIEW B;86;24;245436;10.1103/PhysRevB.86.245436;DEC 28 2012;2012;The nontrivialness of a topological insulator (TI) is characterized;either by a bulk topological invariant or by the existence of a;protected metallic surface state. Yet, in realistic samples of finite;size, this nontrivialness does not necessarily guarantee the gaplessness;of the surface state. Depending on the geometry and on the topological;indices, a finite-size energy gap of different nature can appear, and,;correspondingly, exhibit various scaling behaviors of the gap. The;spin-to-surface locking provides one such gap-opening mechanism,;resulting in a power-law scaling of the energy gap. Weak and strong TIs;show different degrees of sensitivity to the geometry of the sample. As;a noteworthy example, a strong TI nanowire of a rectangular-prism shape;is shown to be more gapped than that of a weak TI of precisely the same;geometry. DOI: 10.1103/PhysRevB.86.245436 PACS number(s): 73.22.-f,;73.20.At, 72.80.Sk;Imura, Ken/D-6633-2013;11;0;0;0;11;1098-0121;WOS:000312834100007;;;J;Lenertz, M.;Alaria, J.;Stoeffler, D.;Colis, S.;Dinia, A.;Mentre, O.;Andre, G.;Porcher, F.;Suard, E.;Magnetic structure of ground and field-induced ordered states of;low-dimensional alpha-CoV2O6: Experiment and theory;PHYSICAL REVIEW B;86;21;214428;10.1103/PhysRevB.86.214428;DEC 28 2012;2012;In this work, we investigate the magnetic properties of the monoclinic;alpha-CoV2O6 by powder neutron diffraction measurements and ab initio;calculations. An emphasis has been pointed towards the magnetic;structure and the interaction between the Co ions leading to magnetic;frustrations in this compound. Neutron diffraction experiments were;carried out both in the ground state (zero magnetic field) and under;applied external field of 2.5 and 5 T corresponding to the ferrimagnetic;and ferromagnetic states, respectively. The antiferromagnetic ground;state below 14 K corresponds to k = (1,0, 1/2) magnetic propagation;vector in C1 space group. The magnetic structure can be described by;ferromagnetic interactions along the chains (b axis) and;antiferromagnetic coupling between the chains (along a and c axes). The;ferrimagnetic structure implies a ninefold unit cell (3a, b, 3c) in;which ferromagnetic chains follow an "up-up-down" sequence along the a;and c axes. In the ferromagnetic state, the spin orientations remain;unchanged while every chain lies ferromagnetically ordered. In all;cases, the magnetic moments lie in the ac plane, along the CoO6;octahedra axis, at an angle of 9.3 degrees with respect to the c axis.;The magnetic structure of alpha-CoV2O6 resolved for all the ordered;states is successfully related to a theoretical model. Ab initio;calculations allowed us to (i) confirm the ground-state magnetic;structure, (ii) calculate the interactions between the Co ions, (iii);explain the frustration leading to the stepped variation of the;magnetization curves, (iv) calculate the orbital magnetic moment (1.5;mu(B)) on Co atoms, and (v) confirm the direction of the magnetic;moments near the c direction. DOI: 10.1103/PhysRevB.86.214428;10;0;0;0;10;1098-0121;WOS:000312830800002;;;J;Nakajima, Nobuo;Oki, Megumi;Isohama, Yoichi;Maruyama, Hiroshi;Tezuka, Yasuhisa;Ishiji, Kotaro;Iwazumi, Toshiaki;Okada, Kozo;Enhancement of dielectric constant of BaTiO3 nanoparticles studied by;resonant x-ray emission spectroscopy;PHYSICAL REVIEW B;86;22;224114;10.1103/PhysRevB.86.224114;DEC 28 2012;2012;The nanoscopic origin of the enhancement of the dielectric constant of;BaTiO3 nanoparticles was investigated by means of Ti K beta resonant;x-ray emission spectroscopy. Two inelastic peaks due to charge-transfer;excitations were observed, one of which disappeared as the particle size;(d) was reduced, while the other remained unchanged. This is consistent;with the fact that tetragonality was also reduced with decreasing d. The;origin of the large enhancement in the dielectric constant is briefly;discussed from a microscopic point of view. DOI:;10.1103/PhysRevB.86.224114;3;0;0;0;3;1098-0121;WOS:000312832400003;;;J;Olmon, Robert L.;Slovick, Brian;Johnson, Timothy W.;Shelton, David;Oh, Sang-Hyun;Boreman, Glenn D.;Raschke, Markus B.;Optical dielectric function of gold;PHYSICAL REVIEW B;86;23;235147;10.1103/PhysRevB.86.235147;DEC 28 2012;2012;In metal optics gold assumes a special status because of its practical;importance in optoelectronic and nano-optical devices, and its role as a;model system for the study of the elementary electronic excitations that;underlie the interaction of electromagnetic fields with metals. However,;largely inconsistent values for the frequency dependence of the;dielectric function describing the optical response of gold are found in;the literature. We performed precise spectroscopic ellipsometry;measurements on evaporated gold, template-stripped gold, and;single-crystal gold to determine the optical dielectric function across;a broad spectral range from 300 nm to 25 mu m (0.05-4.14 eV) with high;spectral resolution. We fit the data to the Drude free-electron model,;with an electron relaxation time tau(D) = 14 +/- 3 fs and plasma energy;h omega(p) = 8.45 eV. We find that the variation in dielectric functions;for the different types of samples is small compared to the range of;values reported in the literature. Our values, however, are comparable;to the aggregate mean of the collection of previous measurements from;over the past six decades. This suggests that although some variation;can be attributed to surface morphology, the past measurements using;different approaches seem to have been plagued more by systematic errors;than previously assumed. DOI:10.1103/PhysRevB.86.235147;22;2;0;0;22;1098-0121;WOS:000312833200003;;;J;Phuong, L. Q.;Ichimiya, M.;Ishihara, H.;Ashida, M.;Multiple light-coupling modes of confined excitons observable in;photoluminescence spectra of high-quality CuCl thin films;PHYSICAL REVIEW B;86;23;235449;10.1103/PhysRevB.86.235449;DEC 28 2012;2012;We report the observation of multiple light-coupling modes of excitons;confined in CuCl thin films with thicknesses of a few hundred nanometers;beyond the long-wavelength approximation in photoluminescence spectra.;Due to a remarkably long coupling length between light and;multinode-type excitons resulted from very high crystalline quality of;thin films, photoluminescence signals from the excitonic states;corresponding to not only odd but also even quantum numbers, which are;optically forbidden in the long-wavelength approximation, are clearly;observed. The full width at half maximum of the excitonic state deduced;qualitatively from the corresponding photoluminescence band shows almost;the same dependence on the quantum number as the theoretical prediction.;DOI:10.1103/PhysRevB.86.235449;0;0;0;0;0;1098-0121;WOS:000312833200008;;;J;Reynoso, Andres A.;Usaj, Gonzalo;Balseiro, C. A.;Feinberg, D.;Avignon, M.;Spin-orbit-induced chirality of Andreev states in Josephson junctions;PHYSICAL REVIEW B;86;21;214519;10.1103/PhysRevB.86.214519;DEC 28 2012;2012;We study Josephson junctions (JJs) in which the region between the two;superconductors is a multichannel system with Rashba spin-orbit coupling;(SOC) where a barrier or a quantum point contact (QPC) is present. These;systems might present unconventional Josephson effects such as Josephson;currents for zero phase difference or critical currents that depend on;the current direction. Here, we discuss how the spin polarizing;properties of the system in the normal state affect the spin;characteristics of the Andreev bound states inside the junction. This;results in a strong correlation between the spin of the Andreev states;and the direction in which they transport Cooper pairs. While the;current-phase relation for the JJ at zero magnetic field is;qualitatively unchanged by SOC, in the presence of a weak magnetic;field, a strongly anisotropic behavior and the mentioned anomalous;Josephson effects follow. We show that the situation is not restricted;to barriers based on constrictions such as QPCs and should generically;arise if in the normal system the direction of the carrier's spin is;linked to its direction of motion. DOI: 10.1103/PhysRevB.86.214519;Usaj, Gonzalo/E-6394-2010;Usaj, Gonzalo/0000-0002-3044-5778;5;0;0;0;5;1098-0121;WOS:000312830800005;;;J;Sato, W.;Komatsuda, S.;Ohkubo, Y.;Characteristic local association of In impurities dispersed in ZnO;PHYSICAL REVIEW B;86;23;235209;10.1103/PhysRevB.86.235209;DEC 28 2012;2012;Local environments in 0.5 at.% In-doped ZnO were investigated by means;of the time-differential perturbed angular correlation (TDPAC) method.;In a comparative study, using the Cd-111 probe nuclei as the decay;products of different parents, In-111 and Cd-111m, we found that In-111;microscopically forms a unique structure with nonradioactive In ion(s);dispersed in ZnO, whereas (111)mCd has no specific interaction with the;In impurities. The spectral damping of the TDPAC spectra is attributed;to the aftereffect following the EC decay of In-111. It was demonstrated;from the aftereffect that the local density and/or mobility of;conduction electrons at the In-111 probe site in the In-doped ZnO is;lowered due to the characteristic structure locally formed by the;dispersed In ion(s). DOI:10.1103/PhysRevB.86.235209;1;0;0;0;1;1098-0121;WOS:000312833200004;;;J;Sherman, Benjamin L.;Wilson, Hugh F.;Weeraratne, Dayanthie;Militzer, Burkhard;Ab initio simulations of hot dense methane during shock experiments;PHYSICAL REVIEW B;86;22;224113;10.1103/PhysRevB.86.224113;DEC 28 2012;2012;Using density functional theory molecular dynamics simulations, we;predict shock Hugoniot curves of precompressed methane up to 75 000 K;for initial densities ranging from 0.35 to 0.70 g cm(-3). At 4000 K, we;observe the transformation into a metallic, polymeric state consisting;of long hydrocarbon chains. These chains persist when the sample is;quenched to 300 K, leading to an increase in shock compression. At 6000;K, the sample transforms into a plasma composed of many, short-lived;chemical species. We conclude by discussing implications for the;interiors of Uranus and Neptune and analyzing the possibility of;creating a superionic state of methane in high pressure experiments.;DOI:10.1103/PhysRevB.86.224113;Wilson, Hugh/B-3447-2009;4;0;0;0;4;1098-0121;WOS:000312832400002;;;J;Trescher, Maximilian;Bergholtz, Emil J.;Flat bands with higher Chern number in pyrochlore slabs;PHYSICAL REVIEW B;86;24;241111;10.1103/PhysRevB.86.241111;DEC 28 2012;2012;A large number of recent works point to the emergence of intriguing;analogs of fractional quantum Hall states in lattice models due to;effective interactions in nearly flat bands with Chern number C = 1.;Here, we provide an intuitive and efficient construction of almost;dispersionless bands with higher Chern numbers. Inspired by the physics;of quantum Hall multilayers and pyrochlore-based transition-metal;oxides, we study a tight-binding model describing spin-orbit coupled;electrons in N parallel kagome layers connected by apical sites forming;N - 1 intermediate triangular layers (as in the pyrochlore lattice). For;each N, we find finite regions in parameter space giving a virtually;flat band with C = N. We analytically express the states within these;topological bands in terms of single-layer states and thereby explicitly;demonstrate that the C = N wave functions have an appealing structure in;which layer index and translations in reciprocal space are intricately;coupled. This provides a promising arena for new collective states of;matter. DOI: 10.1103/PhysRevB.86.241111;Bergholtz, Emil/C-3820-2008;Bergholtz, Emil/0000-0002-9739-2930;29;0;1;0;29;1098-0121;WOS:000312834100002;;;J;van Duijn, J.;Ruiz-Bustos, R.;Daoud-Aladine, A.;Kagome-like lattice distortion in the pyrochlore material Hg2Ru2O7;PHYSICAL REVIEW B;86;21;214111;10.1103/PhysRevB.86.214111;DEC 28 2012;2012;The structural transition which accompanies the metal to insulator;transition (MIT), at T = 107 K, in the pyrochlore material Hg2Ru2O7, was;investigated by high-resolution neutron powder diffraction measurements.;Below the MIT the symmetry is lowered from cubic to monoclinic and the;Ru-Ru bonds, which are equal in the pyrochlore phase (3.60147 angstrom),;become split into short (3.599 37 angstrom), medium (3.6028 angstrom),;and long bonds (3.6047 angstrom). As a result the exchange interactions;between the Ru atoms become more two dimensional. The short and medium;bonds form layers, which are separated by the long bonds, that run;parallel to the monoclinic ab plane. Overall the low-temperature;structure of Hg2Ru2O7 can best be described as a stacking of Kagome-like;layers. DOI: 10.1103/PhysRevB.86.214111;0;0;0;0;0;1098-0121;WOS:000312830800001;;;J;Vanevic, Mihajlo;Belzig, Wolfgang;Control of electron-hole pair generation by biharmonic voltage drive of;a quantum point contact;PHYSICAL REVIEW B;86;24;241306;10.1103/PhysRevB.86.241306;DEC 28 2012;2012;A time-dependent electromagnetic field creates electron-hole excitations;in a Fermi sea at low temperature. We show that the electron-hole pairs;can be generated in a controlled way using harmonic and biharmonic;time-dependent voltages applied to a quantum contact, and we obtain the;probabilities of the pair creations. For a biharmonic voltage drive, we;find that the probability of a pair creation decreases in the presence;of an in-phase second harmonic. This accounts for the suppression of the;excess noise observed experimentally (Gabelli and Reulet,;arXiv:1205.3638), proving that dynamic control and detection of;elementary excitations in quantum conductors are within the reach of the;present technology. DOI: 10.1103/PhysRevB.86.241306;6;1;0;0;6;1098-0121;WOS:000312834100004;;;J;Virgus, Yudistira;Purwanto, Wirawan;Krakauer, Henry;Zhang, Shiwei;Ab initio many-body study of cobalt adatoms adsorbed on graphene;PHYSICAL REVIEW B;86;24;241406;10.1103/PhysRevB.86.241406;DEC 28 2012;2012;Many recent calculations have been performed to study a Co atom adsorbed;on graphene, with significantly varying results on the nature of the;bonding. We use the auxiliary-field quantum Monte Carlo method and a;size-correction embedding scheme to accurately calculate the binding;energy of Co on graphene. We find that as a function of the distance h;between the Co atom and the sixfold hollow site, there are three;distinct ground states corresponding to three electronic configurations;of the Co atom. Two of these states provide binding and exhibit a;double-well feature with nearly equal binding energy of 0.4 eV at h =;1.51 and h = 1.65 angstrom, corresponding to low-spin Co-2 (3d(9) 4s(0));and high-spin Co-4 (3d(8) 4s(1)), respectively. DOI:;10.1103/PhysRevB.86.241406;3;0;0;0;3;1098-0121;WOS:000312834100005;;;J;Xing, Jie;Li, Sheng;Ding, Xiaxin;Yang, Huan;Wen, Hai-Hu;Superconductivity appears in the vicinity of semiconducting-like;behavior in CeO1-xFxBiS2;PHYSICAL REVIEW B;86;21;214518;10.1103/PhysRevB.86.214518;DEC 28 2012;2012;Resistive and magnetic properties have been measured in BiS2-based;samples CeO1-xFxBiS2 with a systematic substitution of O with F (0 < x <;0.6). In contrast to the band-structure calculations, it is found that;the parent phase of CeOBiS2 is a bad metal instead of a band insulator.;By doping electrons into the system, it is surprising to find that;superconductivity appears together with a semiconducting normal state.;This evolution is clearly different from the cuprate and the iron;pnictide systems, and is interpreted as approaching the Pomeranchuk;transition with a von Hove singularity and the possible;charge-density-wave instability. Furthermore, ferromagnetism, which may;arise from the Ce magnetic moments, has been observed in the;low-temperature region in all samples, suggesting the coexistence of;superconductivity and ferromagnetism in the superconducting samples.;DOI: 10.1103/PhysRevB.86.214518;55;0;1;0;56;1098-0121;WOS:000312830800004;;;J;Yaji, Koichiro;Hatta, Shinichiro;Aruga, Tetsuya;Okuyama, Hiroshi;Structural and electronic properties of the Pb/Ge(111)-beta(root 3 x;root 3)R30 degrees surface studied by photoelectron spectroscopy and;first-principles calculations;PHYSICAL REVIEW B;86;23;235317;10.1103/PhysRevB.86.235317;DEC 28 2012;2012;We have studied structural and electronic properties of a Ge(111);surface covered with a monatomic Pb layer [Pb/Ge(111)-beta] by means of;core-level photoelectron spectroscopy, angle-resolved photoelectron;spectroscopy (ARPES), and a first-principles band structure calculation.;There has been a controversy about the surface structure of;Pb/Ge(111)-beta between a close-packed model with a coverage of 4/3;monolayers and a trimer model with a coverage of 1 monolayer. This;problem has been examined by analyzing the line shape of a Pb 5d;core-level spectrum and comparing the experimental band structure with;those calculated for two models. The line shape of the core-level;spectrum agrees with a close-packed model. The valence band structure;observed by ARPES has been well reproduced by the calculation employing;the close-packed model. The close-packed model therefore describes;correctly the surface structure of Pb/Ge(111)-beta. The;scanning-tunneling microscopy (STM) image simulated for the close-packed;model is in good agreement with the experimental filled-state STM image,;in which three protrusions per unit cell were observed.;DOI:10.1103/PhysRevB.86.235317;Aruga, Tetsuya/B-7782-2010; Okuyama, Hiroshi/H-7570-2014;2;1;0;0;2;1098-0121;WOS:000312833200006;;;J;Yang, Shuo;Gu, Zheng-Cheng;Sun, Kai;Das Sarma, S.;Topological flat band models with arbitrary Chern numbers;PHYSICAL REVIEW B;86;24;241112;10.1103/PhysRevB.86.241112;DEC 28 2012;2012;We report the theoretical discovery of a systematic scheme to produce;topological flat bands (TFBs) with arbitrary Chern numbers. We find that;generically a multiorbital high Chern number TFB model can be;constructed by considering multilayer Chern number C = 1 TFB models with;enhanced translational symmetry. A series of models are presented as;examples, including a two-band model on a triangular lattice with a;Chern number C = 3 and an N-band square lattice model with C = N for an;arbitrary integer N. In all these models, the flatness ratio for the;TFBs is larger than 30 and increases with increasing Chern number. In;the presence of appropriate interparticle interactions, these models are;likely to lead to the formation of Abelian and non-Abelian fractional;Chern insulators. As a simple example, we test the C = 2 model with;hardcore bosons at 1/3 filling, and an intriguing fractional quantum;Hall state is observed. DOI: 10.1103/PhysRevB.86.241112;Sun, Kai/F-2282-2010; Yang, Shuo/D-1372-2011; Das Sarma, Sankar/B-2400-2009; Gu, Zheng-Cheng/L-5415-2014;Sun, Kai/0000-0001-9595-7646; Yang, Shuo/0000-0001-9733-8566;;24;0;1;0;24;1098-0121;WOS:000312834100003;;;J;Yue, Qu;Chang, Shengli;Tan, Jichun;Qin, Shiqiao;Kang, Jun;Li, Jingbo;Symmetry-dependent transport properties and bipolar spin filtering in;zigzag alpha-graphyne nanoribbons;PHYSICAL REVIEW B;86;23;235448;10.1103/PhysRevB.86.235448;DEC 28 2012;2012;First-principles calculations are performed to investigate the transport;properties of zigzag alpha-graphyne nanoribbons (ZaGNRs). It is found;that asymmetric Z alpha GNRs behave as conductors with linear;current-voltage relationships, whereas symmetric Z alpha GNRs have very;small currents under finite bias voltages, similar to those of zigzag;graphene nanoribbons. The symmetry-dependent transport properties arise;from different coupling rules between the pi and pi* subbands around the;Fermi level, which are dependent on the wave-function symmetry of the;two subbands. Based on the coupling rules, we further demonstrate the;bipolar spin-filtering effect in the symmetric Z alpha GNRs. It is shown;that nearly 100% spin-polarized current can be produced and modulated by;the direction of bias voltage and/or magnetization configuration of the;electrodes. Moreover, the magnetoresistance effect with the order larger;than 500 000% is also predicted. Our calculations suggest Z alpha GNRs;as a promising candidate material for spintronics.;DOI:10.1103/PhysRevB.86.235448;Kang, Jun/F-7105-2011;7;1;0;0;7;1098-0121;WOS:000312833200007;;;J;Berry, Joel;Provatas, Nikolas;Rottler, Joerg;Sinclair, Chad W.;Defect stability in phase-field crystal models: Stacking faults and;partial dislocations;PHYSICAL REVIEW B;86;22;224112;10.1103/PhysRevB.86.224112;DEC 27 2012;2012;The primary factors controlling defect stability in phase-field crystal;(PFC) models are examined, with illustrative examples involving several;existing variations of the model. Guidelines are presented for;constructing models with stable defect structures that maintain high;numerical efficiency. The general framework combines both long-range;elastic fields and basic features of atomic-level core structures, with;defect dynamics operable over diffusive time scales. Fundamental;elements of the resulting defect physics are characterized for the case;of fcc crystals. Stacking faults and split Shockley partial dislocations;are stabilized for the first time within the PFC formalism, and various;properties of associated defect structures are characterized. These;include the dissociation width of perfect edge and screw dislocations,;the effect of applied stresses on dissociation, Peierls strains for;glide, and dynamic contraction of gliding pairs of partials. Our results;in general are shown to compare favorably with continuum elastic;theories and experimental findings. DOI: 10.1103/PhysRevB.86.224112;Rottler, Joerg/L-5539-2013;8;0;0;0;8;1098-0121;WOS:000312831900001;;;J;Emary, Clive;Lambert, Neill;Nori, Franco;Leggett-Garg inequality in electron interferometers;PHYSICAL REVIEW B;86;23;235447;10.1103/PhysRevB.86.235447;DEC 27 2012;2012;We consider the violation of the Leggett-Garg inequality in electronic;Mach-Zehnder inteferometers. This setup has two distinct advantages over;earlier quantum-transport proposals: Firstly, the required correlation;functions can be obtained without time-resolved measurements. Secondly,;the geometry of an interferometer allows one to construct the;correlation functions from ideal negative measurements, which addresses;the noninvasiveness requirement of the Leggett-Garg inequality. We;discuss two concrete realizations of these ideas: the first in quantum;Hall edge-channels, the second in a double quantum dot interferometer.;DOI: 10.1103/PhysRevB.86.235447 PACS number(s): 03.65.Ud, 73.23.-b,;03.65.Ta, 42.50.Lc;Lambert, Neill/B-4998-2009; Emary, Clive/B-9596-2008; Nori, Franco/B-1222-2009;Emary, Clive/0000-0002-9822-8390; Nori, Franco/0000-0003-3682-7432;3;0;0;0;3;1098-0121;WOS:000312832900004;;;J;Kato, Yuto;Endo, Akira;Katsumoto, Shingo;Iye, Yasuhiro;Geometric resonances in the magnetoresistance of hexagonal lateral;superlattices;PHYSICAL REVIEW B;86;23;235315;10.1103/PhysRevB.86.235315;DEC 27 2012;2012;We have measured magnetoresistance of hexagonal lateral superlattices.;We observe three types of oscillations engendered by periodic potential;modulation having hexagonal-lattice symmetry: amplitude modulation of;the Shubnikov-de Haas oscillations, commensurability oscillations, and;the geometric resonances of open orbits generated by Bragg reflections.;The latter two reveal the presence of two characteristic periodicities,;root 3a/2 and a/2, inherent in a hexagonal lattice with the lattice;constant a. The formation of the hexagonal-superlattice minibands;manifested by the observation of open orbits marks the first step toward;realizing massless Dirac fermions in semiconductor 2DEGs. DOI:;10.1103/PhysRevB.86.235315 PACS number(s): 73.43.Qt, 73.23.-b, 73.21.Cd;1;0;0;0;1;1098-0121;WOS:000312832900002;;;J;Lin, I-Tan;Liu, Jia-Ming;Shi, Kai-Yao;Tseng, Pei-Shan;Wu, Kuang-Hsiung;Luo, Chih-Wei;Li, Lain-Jong;Terahertz optical properties of multilayer graphene: Experimental;observation of strong dependence on stacking arrangements and;misorientation angles;PHYSICAL REVIEW B;86;23;235446;10.1103/PhysRevB.86.235446;DEC 27 2012;2012;The optical conductivity of monolayer and multilayer graphene in the;terahertz spectral region is experimentally measured using terahertz;time-domain spectroscopy. The stacking arrangement and the;misorientation angle of each sample are determined by Raman;spectroscopy. The chemical potential of each sample is measured using;ultrafast midinfrared pump-probe spectroscopy to be 63 or 64 meV for all;samples. The intraband scattering rate can be obtained by fitting the;measured data with theoretical models. Other physical parameters,;including carrier density, dc conductivity, and carrier mobility, of;each sample can also be deduced from the theoretical fitting. The;fitting results show the existence of misoriented or AA-stacked layers;with an interaction energy of alpha(1) = 217 meV in our multilayer;samples. Here we show that the scattering rate strongly depends on the;stacking arrangement of the sample. High scattering rates and high;optical conductivity are associated with AA-stacked samples, while lower;ones are associated with misoriented multilayer graphene. This implies;that the THz optoelectronic properties of multilayer graphene can be;tuned by purposefully misorienting layers or employing different;stacking schemes. DOI: 10.1103/PhysRevB.86.235446 PACS number(s):;78.67.Wj, 61.48.Gh, 72.80.Vp, 73.50.Mx;Li, Lain-Jong/D-5244-2011; Luo, Chih Wei/D-3485-2013;Li, Lain-Jong/0000-0002-4059-7783; Luo, Chih Wei/0000-0002-6453-7435;11;0;0;0;11;1098-0121;WOS:000312832900003;;;J;Lundgren, Rex;Chua, Victor;Fiete, Gregory A.;Entanglement entropy and spectra of the one-dimensional Kugel-Khomskii;model;PHYSICAL REVIEW B;86;22;224422;10.1103/PhysRevB.86.224422;DEC 27 2012;2012;We study the quantum entanglement of the spin and orbital degrees of;freedom in the one-dimensional Kugel-Khomskii model, which includes both;gapless and gapped phases, using analytical techniques and exact;diagonalization with up to 16 sites. We compute the entanglement entropy;and the entanglement spectra using a variety of partitions or "cuts" of;the Hilbert space, including two distinct real-space cuts and a;momentum-space cut. Our results show that the Kugel-Khomski model;possesses a number of new features not previously encountered in studies;of the entanglement spectra. Notably, we find robust gaps in the;entanglement spectra for both gapped and gapless phases with the orbital;partition, and show these are not connected to each other. The counting;of the low-lying entanglement eigenvalues shows that the "virtual edge";picture, which equates the low-energy Hamiltonian of a virtual edge,;here one gapless leg of a two-leg ladder, to the "low-energy";entanglement Hamiltonian, breaks down for this model, even though the;equivalence has been shown to hold for a similar cut in a large class of;closely related models. In addition, we show that a momentum space cut;in the gapless phase leads to qualitative differences in the;entanglement spectrum when compared with the same cut in the gapless;spin-1/2 Heisenberg spin chain. We emphasize the new information content;in the entanglement spectra compared to the entanglement entropy, and;using quantum entanglement, we present a refined phase diagram of the;model. Using analytical arguments, exploiting various symmetries of the;model, and applying arguments of adiabatic continuity from two exactly;solvable points of the model, we are also able to prove several results;regarding the structure of the low-lying entanglement eigenvalues. DOI:;10.1103/PhysRevB.86.224422;11;0;1;0;12;1098-0121;WOS:000312831900002;;;J;L'vov, Victor S.;Nazarenko, Sergey V.;Comment on "Symmetry of Kelvin-wave dynamics and the Kelvin-wave cascade;in the T=0 superfluid turbulence";PHYSICAL REVIEW B;86;22;226501;10.1103/PhysRevB.86.226501;DEC 27 2012;2012;We comment on the paper by Sonin [Phys. Rev. B 85, 104516 (2012)] with;most statements of which we disagree. We use this option to shed light;on some important issues of a theory of Kelvin-wave turbulence, touched;on in Sonin's paper, in particular, on the relation between the Vinen;spectrum of strong and the L'vov-Nazarenko spectrum of weak turbulence;of Kelvin waves. We also discuss the role of explicit calculation of the;Kelvin-wave interaction Hamiltonian and "symmetry arguments" that have;to resolve a contradiction between the Kozik-Svistunov and the;L'vov-Nazarenko spectrum of weak turbulence of Kelvin waves. DOI:;10.1103/PhysRevB.86.226501;5;1;0;0;5;1098-0121;WOS:000312831900003;;;J;Misguich, G.;Schwinger boson mean-field theory: Numerics for the energy landscape and;gauge excitations in two-dimensional antiferromagnets;PHYSICAL REVIEW B;86;24;245132;10.1103/PhysRevB.86.245132;DEC 27 2012;2012;We perform some systematic numerical search for Schwinger boson;mean-field states on square and triangular clusters. We look for;possible inhomogeneous ground states as well as low-energy excited;saddle points. The spectrum of the Hessian is also computed for each;solution. On the square lattice, we find gapless U(1) gauge modes in the;nonmagnetic phase. In the Z(2) liquid phase of the triangular lattice,;we identify the topological degeneracy as well as vison states.;DOI:10.1103/PhysRevB.86.245132;2;0;0;0;2;1098-0121;WOS:000312833600001;;;J;Mokhlespour, Salman;Haverkort, J. E. M.;Slepyan, Gregory;Maksimenko, Sergey;Hoffmann, A.;Collective spontaneous emission in coupled quantum dots: Physical;mechanism of quantum nanoantenna;PHYSICAL REVIEW B;86;24;245322;10.1103/PhysRevB.86.245322;DEC 27 2012;2012;We investigate the collective spontaneous emission in a system of two;identical quantum dots (QDs) strongly coupled through the dipole-dipole;(d-d) interaction. The QDs are modeled as two-level quantum objects,;while the d-d interaction is described as the exchange of a virtual;photon through the photonic reservoir. The master equation approach is;used in the analysis. The main attention is focused on antenna;characteristics of the two-QD system-the radiation intensity dependence;on the meridian and azimuthal angles of observation. We show that the;radiation pattern of such a system is nonstationary and its temporal;behavior depends on the initial quantum state. In particular, for;entangled initial states the radiative pattern exhibits oscillations on;the frequency which corresponds to the d-d interaction energy. We also;analyze spectral properties of the directional diagram. The comparison;of radiation patterns is carried out for two QDs and two classical;dipoles. The concept of quantum nanoantenna is proposed based on;collective spontaneous emission in QD ensembles.;DOI:10.1103/PhysRevB.86.245322;Maksimenko, Sergey/F-1888-2011;Maksimenko, Sergey/0000-0002-8271-0449;8;1;0;0;8;1098-0121;WOS:000312833600002;;;J;Muravev, V. M.;Gusikhin, P. A.;Tsydynzhapov, G. E.;Fortunatov, A. A.;Kukushkin, I. V.;Spectroscopy of terahertz radiation using high-Q photonic crystal;microcavities;PHYSICAL REVIEW B;86;23;235144;10.1103/PhysRevB.86.235144;DEC 27 2012;2012;We report observation of high-Q resonance in the photoresponse of a;detector embedded in the 2D photonic crystal slab (PCS) microcavity;illuminated by terahertz radiation. The detector and PCS are fabricated;from a single GaAs wafer in a unified process. The influence of the;period of PCS lattice, microcavity geometry, and detector location on;the resonant photoresponse is studied. The resonance is found to;originate from coupling of the fundamental PCS microcavity photon mode;to the detector. The phenomenon can be exploited to devise a;spectrometer-on-a-chip for terahertz range. DOI:;10.1103/PhysRevB.86.235144 PACS number(s): 42.50.-p, 42.70.Qs, 42.79.-e,;73.21.-b;0;0;0;0;0;1098-0121;WOS:000312832900001;;;J;Reguzzoni, M.;Fasolino, A.;Molinari, E.;Righi, M. C.;Potential energy surface for graphene on graphene: Ab initio derivation,;analytical description, and microscopic interpretation;PHYSICAL REVIEW B;86;24;245434;10.1103/PhysRevB.86.245434;DEC 27 2012;2012;We derive an analytical expression that describes the interaction energy;between two graphene layers identically oriented as a function of the;relative lateral and vertical positions, in excellent agreement with;first principles calculations. Thanks to its formal simplicity, the;proposed model allows for an immediate interpretation of the;interactions, in particular of the potential corrugation. This last;quantity plays a crucial role in determining the intrinsic resistance to;interlayer sliding and its increase upon compression influences the;frictional behavior under load. We show that, for these weakly adherent;layers, the corrugation possesses the same nature and z dependence of;Pauli repulsion. We investigate the microscopic origin of these;phenomena by analyzing the electronic charge distribution: We observe a;pressure-induced charge transfer from the interlayer region toward the;near-layer regions, with a much more consistent depletion of charge;occurring for the AA stacking than for the AB stacking of the two;layers. DOI:10.1103/PhysRevB.86.245434;8;0;0;0;8;1098-0121;WOS:000312833600003;;;J;Sonin, E. B.;Reply to "Comment on 'Symmetry of Kelvin-wave dynamics and the;Kelvin-wave cascade in the T=0 superfluid turbulence'";PHYSICAL REVIEW B;86;22;226502;10.1103/PhysRevB.86.226502;DEC 27 2012;2012;The goal of the Comment by L'vov and Nazarenko is to refute my;perviously published criticism of their mechanism of the Kelvin-wave;cascade. It is important, however, that, in their Comment, L'vov and;Nazarenko admitted that the Hamiltonian, from which they derived their;mechanism, is not tilt invariant. This provides full ammunition to their;critics, who believe that their mechanism is in conflict with the tilt;symmetry of the Kelvin-wave dynamics and, therefore, is not valid for;the real isotropic world. DOI: 10.1103/PhysRevB.86.226502;3;1;0;0;3;1098-0121;WOS:000312831900004;;;J;Swaminathan, Narasimhan;Morgan, Dane;Szlufarska, Izabela;Role of recombination kinetics and grain size in radiation-induced;amorphization;PHYSICAL REVIEW B;86;21;214110;10.1103/PhysRevB.86.214110;DEC 27 2012;2012;Using a rate theory model for a generic one-component material, we;investigated interactions between grain size and recombination kinetics;of radiation-induced defects. Specifically, by varying parametrically;nondimensional kinetic barriers for defect diffusion and recombination,;we determined the effect of these parameters on the shape of the dose to;amorphization versus temperature curves. We found that whether grain;refinement to the nanometer regime improves or deteriorates radiation;resistance of a material depends on the barriers to defect migration and;recombination, as well as on the temperature for the intended use of the;material. We show that the effects of recombination barriers and of;grain refinement can be coupled to each other to produce a phenomenon of;interstitial starvation. In interstitial starvation, a significant;number of interstitials annihilate at the grain boundary, leaving behind;unrecombined vacancies, which in turn amorphize the material. The same;rate theory model with material-specific parameters was used to predict;the grain-size dependence of the critical amorphization temperature in;SiC. Parameters for the SiC model were taken from ab initio;calculations. We find that the fine-grained SiC has a lower radiation;resistance when compared to the polycrystalline SiC due to the presence;of high-energy barrier for recombination of carbon Frenkel pairs and due;to the interstitial starvation phenomenon. DOI:;10.1103/PhysRevB.86.214110;Morgan, Dane/B-7972-2008;Morgan, Dane/0000-0002-4911-0046;5;0;0;0;5;1098-0121;WOS:000312830600001;;;J;Ahart, Muhtar;Sinogeikin, Stanislav;Shebanova, Olga;Ikuta, Daijo;Ye, Zuo-Guang;Mao, Ho-kwang;Cohen, R. E.;Hemley, Russell J.;Pressure dependence of the monoclinic phase in;(1-x)Pb(Mg1/3Nb2/3)O-3-xPbTiO(3) solid solutions;PHYSICAL REVIEW B;86;22;224111;10.1103/PhysRevB.86.224111;DEC 26 2012;2012;We combine high-pressure x-ray diffraction, high-pressure Raman;scattering, and optical microscopy to investigate a series of (1 -;x)Pb(Mg1/3Nb2/3)O-3-xPbTiO(3) (PMN-xPT) solid solutions (x = 0.2, 0.3,;0.33, 0.35, 0.37, 0.4) in diamond anvil cells up to 20 GPa at 300 K. The;Raman spectra show a peak centered at 380 cm(-1) starting above 6 GPa;for all samples, in agreement with previous observations. X-ray;diffraction measurements are consistent with this spectral change;indicating a structural phase transition; we find that the triplet at;the pseudocubic (220) Bragg peak merges into a doublet above 6 GPa. Our;results indicate that the morphotropic phase boundary region (x = 0.33 -;0.37) with the presence of monoclinic symmetry persists up to 7 GPa. The;pressure dependence of ferroelectric domains in PMN-0.32PT single;crystals was observed using a polarizing optical microscope. The domain;wall density decreases with pressure and the domains disappear at a;modest pressure of 3 GPa. We propose a pressure-composition phase;diagram for PMN-xPT solid solutions. DOI: 10.1103/PhysRevB.86.224111;Cohen, Ronald/B-3784-2010;Cohen, Ronald/0000-0001-5871-2359;2;0;0;0;2;1098-0121;WOS:000312831800006;;;J;Akrap, Ana;Tran, Michael;Ubaldini, Alberto;Teyssier, Jeremie;Giannini, Enrico;van der Marel, Dirk;Lerch, Philippe;Homes, Christopher C.;Optical properties of Bi2Te2Se at ambient and high pressures;PHYSICAL REVIEW B;86;23;235207;10.1103/PhysRevB.86.235207;DEC 26 2012;2012;The temperature dependence of the complex optical properties of the;three-dimensional topological insulator Bi2Te2Se is reported for light;polarized in the a-b planes at ambient pressure, as well as the effects;of pressure at room temperature. This material displays a semiconducting;character with a bulk optical gap of E-g similar or equal to 300 meV at;295 K. In addition to the two expected infrared-active vibrations;observed in the planes, there is an additional fine structure that is;attributed to either the removal of degeneracy or the activation of;Raman modes due to disorder. A strong impurity band located at similar;or equal to 200 cm(-1) is also observed. At and just above the optical;gap, several interband absorptions are found to show a strong;temperature and pressure dependence. As the temperature is lowered these;features increase in strength and harden. The application of pressure;leads to a very abrupt closing of the gap above 8 GPa, and strongly;modifies the interband absorptions in the midinfrared spectral range.;While ab initio calculations fail to predict the collapse of the gap,;they do successfully describe the size of the band gap at ambient;pressure, and the magnitude and shape of the optical conductivity. DOI:;10.1103/PhysRevB.86.235207;Teyssier, Jeremie/A-6867-2013; Akrap, Ana/G-1409-2013;Akrap, Ana/0000-0003-4493-5273;10;0;0;0;10;1098-0121;WOS:000312832600007;;;J;Andersen, Kirsten;Jacobsen, Karsten W.;Thygesen, Kristian S.;Spatially resolved quantum plasmon modes in metallic nano-films from;first-principles;PHYSICAL REVIEW B;86;24;245129;10.1103/PhysRevB.86.245129;DEC 26 2012;2012;Electron energy loss spectroscopy (EELS) can be used to probe plasmon;excitations in nanostructured materials with atomic-scale spatial;resolution. For structures smaller than a few nanometers, quantum;effects are expected to be important, limiting the validity of widely;used semiclassical response models. Here we present a method to identify;and compute spatially resolved plasmon modes from first-principles based;on a spectral analysis of the dynamical dielectric function. As an;example we calculate the plasmon modes of 0.5 to 4 nm thick Na films and;find that they can be classified as (conventional) surface modes,;subsurface modes, and a discrete set of bulk modes resembling standing;waves across the film. We find clear effects of both quantum confinement;and nonlocal response. The quantum plasmon modes provide an intuitive;picture of collective excitations of confined electron systems and offer;a clear interpretation of spatially resolved EELS spectra. DOI:;10.1103/PhysRevB.86.245129;Jacobsen, Karsten/B-3602-2009; Thygesen, Kristian /B-1062-2011;6;0;0;0;6;1098-0121;WOS:000312833400007;;;J;Baker, A. M. R.;Alexander-Webber, J. A.;Altebaeumer, T.;Janssen, T. J. B. M.;Tzalenchuk, A.;Lara-Avila, S.;Kubatkin, S.;Yakimova, R.;Lin, C. -T.;Li, L. -J.;Nicholas, R. J.;Weak localization scattering lengths in epitaxial, and CVD graphene;PHYSICAL REVIEW B;86;23;235441;10.1103/PhysRevB.86.235441;DEC 26 2012;2012;Weak localization in graphene is studied as a function of carrier;density in the range from 1 x 10(11) cm(-2) to 1.43 x 10(13) cm(-2);using devices produced by epitaxial growth onto SiC and CVD growth on;thin metal film. The magnetic field dependent weak localization is found;to be well fitted by theory, which is then used to analyze the;dependence of the scattering lengths L-phi, L-i, and L-* on carrier;density. We find no significant carrier dependence for L-phi, a weak;decrease for L-i with increasing carrier density just beyond a large;standard error, and a n(-1/4) dependence for L-*. We demonstrate that;currents as low as 0.01 nA are required in smaller devices to avoid;hot-electron artifacts in measurements of the quantum corrections to;conductivity. DOI: 10.1103/PhysRevB.86.235441;Lara-Avila, Samuel/B-4878-2013; Lin, Cheng-Te/D-5203-2011; Materials, Semiconductor/I-6323-2013;Lara-Avila, Samuel/0000-0002-8331-718X; Lin,;Cheng-Te/0000-0002-7090-9610;;11;0;0;0;11;1098-0121;WOS:000312832600015;;;J;Bergeret, F. S.;Verso, A.;Volkov, A. F.;Electronic transport through ferromagnetic and superconducting junctions;with spin-filter tunneling barriers;PHYSICAL REVIEW B;86;21;214516;10.1103/PhysRevB.86.214516;DEC 26 2012;2012;We present a theoretical study of the quasiparticle and subgap;conductance of generic X/I-sf/S-M junctions with a spin-filter barrier;I-sf, where X is either a normal N or a ferromagnetic metal F and S-M is;a superconductor with a built-in exchange field. Our study is based on;the tunneling Hamiltonian and the Green's-function technique. First, we;focus on the quasiparticle transport, both above and below the;superconducting critical temperature. We obtain a general expression for;the tunneling conductance which is valid for arbitrary values of the;exchange field and arbitrary magnetization directions in the electrodes;and in the spin-filter barrier. In the second part, we consider the;subgap conductance of a N/I-sf/S junction, where S is a conventional;superconductor. In order to account for the spin-filter effect at;interfaces, we heuristically derive boundary conditions for the;quasiclassical Green's functions. With the help of these boundary;conditions, we show that the proximity effect and the subgap conductance;are suppressed by spin filtering in a N/I-sf/S junction. Our work;provides useful tools for the study of spin-polarized transport in;hybrid structures both in the normal and in the superconducting state.;DOI: 10.1103/PhysRevB.86.214516;CSIC-UPV/EHU, CFM/F-4867-2012; DONOSTIA INTERNATIONAL PHYSICS CTR., DIPC/C-3171-2014;7;1;0;0;7;1098-0121;WOS:000312830400009;;;J;Beugnot, Jean-Charles;Laude, Vincent;Electrostriction and guidance of acoustic phonons in optical fibers;PHYSICAL REVIEW B;86;22;224304;10.1103/PhysRevB.86.224304;DEC 26 2012;2012;We investigate the generation of acoustic phonons in optical fibers via;electrostriction from coherent optical waves. Solving the elastodynamic;equation subject to the electrostrictive force, we are able to reproduce;the experimental spectra found in standard and photonic crystal fibers.;We discuss the two important practical cases of forward interaction,;dominated by elastic resonances of the fiber, and backward interaction,;for which an efficient mechanism of phonon guidance is found. The last;result describes the formation of the coherent phonon beam involved in;stimulated Brillouin scattering. DOI: 10.1103/PhysRevB.86.224304;Laude, Vincent/C-4484-2008;Laude, Vincent/0000-0001-8930-8797;3;0;0;0;3;1098-0121;WOS:000312831800007;;;J;Blanc, Nils;Coraux, Johann;Vo-Van, Chi;N'Diaye, Alpha T.;Geaymond, Olivier;Renaud, Gilles;Local deformations and incommensurability of high-quality epitaxial;graphene on a weakly interacting transition metal;PHYSICAL REVIEW B;86;23;235439;10.1103/PhysRevB.86.235439;DEC 26 2012;2012;We investigate the fine structure of graphene on iridium, which is a;model for graphene weakly interacting with a transition-metal substrate.;Even the highest-quality epitaxial graphene displays tiny imperfections,;i.e., small biaxial strains of similar to 0.3%, rotations of similar to;0.5 degrees, and shears over distances of similar to 100 nm, and is;found incommensurate, as revealed by x-ray diffraction and scanning;tunneling microscopy. These structural variations are mostly induced by;the increase of the lattice parameter mismatch when cooling the sample;from the graphene preparation temperature to the measurement;temperature. Although graphene weakly interacts with iridium, its;thermal expansion is found to be positive, contrary to free-standing;graphene. The structure of graphene and its variations is very sensitive;to the preparation conditions. All these effects are consistent with;initial growth and subsequent pinning of graphene at steps. DOI:;10.1103/PhysRevB.86.235439;Coraux, Johann/A-7897-2008;5;0;0;0;5;1098-0121;WOS:000312832600013;;;J;Blomeier, S.;Candeloro, P.;Hillebrands, B.;Reuscher, B.;Brodyanski, A.;Kopnarski, M.;Micromagnetism and magnetization reversal of embedded ferromagnetic;elements (vol 74, 184405, 2006);PHYSICAL REVIEW B;86;21;219904;10.1103/PhysRevB.86.219904;DEC 26 2012;2012;Hillebrands, Burkard/C-6242-2008;Hillebrands, Burkard/0000-0001-8910-0355;0;0;0;0;0;1098-0121;WOS:000312830400011;;;J;Bud'ko, Sergey L.;Liu, Yong;Lograsso, Thomas A.;Canfield, Paul C.;Hydrostatic and uniaxial pressure dependence of superconducting;transition temperature of KFe2As2 single crystals;PHYSICAL REVIEW B;86;22;224514;10.1103/PhysRevB.86.224514;DEC 26 2012;2012;We present heat capacity, c-axis thermal expansion and;pressure-dependent, low-field, temperature-dependent magnetization for;pressures up to similar to 12 kbar, data for KFe2As2 single crystals.;T-c decreases under pressure with dT(c)/dP approximate to -0.10 K/kbar.;The inferred uniaxial, c-axis, pressure derivative is positive,;dT(c)/dp(c) approximate to 0.11 K/kbar. The data are analyzed in;comparison with those for overdoped Fe-based superconductors. Arguments;are presented that superconductivity in KFe2As2 may be different from;the other overdoped, Fe-based materials in the 122 family. DOI:;10.1103/PhysRevB.86.224514;Canfield, Paul/H-2698-2014;9;0;0;0;9;1098-0121;WOS:000312831800013;;;J;Bulaevskii, Lev N.;Lin, Shi-Zeng;Self-induced pinning of vortices in the presence of ac driving force in;magnetic superconductors;PHYSICAL REVIEW B;86;22;224513;10.1103/PhysRevB.86.224513;DEC 26 2012;2012;We derive the response of the magnetic superconductors in the vortex;state to the ac Lorentz force, F-L (t) = F-ac sin(omega t), taking into;account the interaction of vortices with the magnetic moments described;by the relaxation dynamics (polaronic effect). At low amplitudes of the;driving force F-ac the dissipation in the system is suppressed due to;the enhancement of the effective viscosity at low frequencies and due to;formation of the magnetic pinning at high frequencies omega. In the;adiabatic limit with low frequencies omega and high amplitude of the;driving force F-ac, the vortex and magnetic polarization form a vortex;polaron when F-L (t) is small. When F-L increases, the vortex polaron;accelerates and at a threshold driving force, the vortex polaron;dissociates and the motion of vortex and the relaxation of magnetization;are decoupled. When F-L decreases, the vortex is retrapped by the;background of remnant magnetization and they again form vortex polaron.;This process repeats when F-L (t) increases in the opposite direction.;Remarkably, after dissociation, decoupled vortices move in the periodic;potential induced by magnetization which remains for some periods of;time due to retardation after the decoupling. At this stage vortices;oscillate with high frequencies determined by the Lorentz force at the;moment of dissociation. We derive also the creep rate of vortices and;show that magnetic moments suppress creep rate. DOI:;10.1103/PhysRevB.86.224513;Lin, Shi-Zeng/B-2906-2008;Lin, Shi-Zeng/0000-0002-4368-5244;3;0;0;0;3;1098-0121;WOS:000312831800012;;;J;Butler, C. A. M.;Hobson, P. A.;Hibbins, A. P.;Sambles, J. R.;Resonant microwave transmission from a double layer of subwavelength;metal square arrays: Evanescent handedness;PHYSICAL REVIEW B;86;24;241109;10.1103/PhysRevB.86.241109;DEC 26 2012;2012;Adouble layer of identical subwavelengthmetal patch arrays is;experimentally shown to be electromagnetically chiral due to the;evanescent coupling of the near fields between nonchiral layers-it;exhibits "evanescent handedness." Despite each layer being intrinsically;isotropic in the plane with four mirror planes orthogonal to the plane;of the structure, circular dichroism, leading to significant;polarization rotation, is found in the resonant microwave transmission;for any incident linear polarization. DOI: 10.1103/PhysRevB.86.241109;1;0;0;0;1;1098-0121;WOS:000312833400002;;;J;Calder, S.;Cao, G. -X.;Lumsden, M. D.;Kim, J. W.;Gai, Z.;Sales, B. C.;Mandrus, D.;Christianson, A. D.;Magnetic structural change of Sr2IrO4 upon Mn doping;PHYSICAL REVIEW B;86;22;220403;10.1103/PhysRevB.86.220403;DEC 26 2012;2012;The layered 5d transition-metal oxide Sr2IrO4 has been shown to host a;novel J(eff) = 1/2 Mott spin-orbit insulating state with;antiferromagnetic ordering, leading to comparisons with the layered;cuprates. Here we study the effect of substituting Mn for Ir in single;crystals of Sr2Ir0.9Mn0.1O4 through an investigation involving bulk;measurements and resonant x-ray and neutron scattering. We observe a new;long-range magnetic structure emerge upon doping through a reordering of;the spins from the basal plane to the c axis with a reduced ordering;temperature compared to Sr2IrO4 . The strong enhancement of the magnetic;x-ray scattering intensity at the L-3 edge relative to the L-2 edge;indicates that the J(eff) = 1/2 state is robust and capable of hosting a;variety of ground states. DOI: 10.1103/PhysRevB.86.220403;Gai, Zheng/B-5327-2012; Mandrus, David/H-3090-2014;Gai, Zheng/0000-0002-6099-4559;;9;1;0;0;9;1098-0121;WOS:000312831800002;;;J;Camjayi, Alberto;Arrachea, Liliana;Conductance of a quantum dot in the Kondo regime connected to dirty;wires;PHYSICAL REVIEW B;86;23;235143;10.1103/PhysRevB.86.235143;DEC 26 2012;2012;We study the transport behavior induced by a small bias voltage through;a quantum dot connected to one-channel disordered wires by means of a;quantum Monte Carlo method. We model the quantum dot by the;Hubbard-Anderson impurity and the wires by the one-dimensional Anderson;model with diagonal disorder within a length. We present a complete;description of the probability distribution function of the conductance;within the Kondo regime. DOI: 10.1103/PhysRevB.86.235143;1;0;0;0;1;1098-0121;WOS:000312832600005;;;J;Chen, Ying;Liu, Rui;Cai, Min;Shinar, Ruth;Shinar, Joseph;Extremely strong room-temperature transient photocurrent-detected;magnetic resonance in organic devices;PHYSICAL REVIEW B;86;23;235442;10.1103/PhysRevB.86.235442;DEC 26 2012;2012;An extremely strong room-temperature photocurrent- (PC- or I-PC-);detected magnetic resonance (PCDMR) that elucidates transport and;trapping phenomena in organic devices, in particular solar cells, is;described. When monitoring the transient PCDMR in indium tin oxide;(ITO)/poly(2-methoxy-5-(2'-ethyl)-hexoxy-1,4-phenylenevinylene);(MEH-PPV)/Al devices, where the MEH-PPV film was baked overnight at 100;degrees C in O-2, it is observed that | Delta I-PC/I-PC| peaks at values;>> 1, where Delta I-PC is the change in I-PC induced by magnetic;resonance conditions. Importantly, Delta I-PC and I-PC are of different;origin. The mechanism most likely responsible for this effect is the;spin-dependent formation of spinless bipolarons adjacent to negatively;charged deep traps, apparently induced in particular by oxygen centers,;to form trions. DOI: 10.1103/PhysRevB.86.235442;Cai, Min/A-2678-2014;1;0;0;0;1;1098-0121;WOS:000312832600016;;;J;Cho, Gil Young;Bardarson, Jens H.;Lu, Yuan-Ming;Moore, Joel E.;Superconductivity of doped Weyl semimetals: Finite-momentum pairing and;electronic analog of the He-3-A phase;PHYSICAL REVIEW B;86;21;214514;10.1103/PhysRevB.86.214514;DEC 26 2012;2012;We study superconducting states of doped inversion-symmetric Weyl;semimetals. Specifically, we consider a lattice model realizing a Weyl;semimetal with an inversion symmetry and study the superconducting;instability in the presence of a short-ranged attractive interaction.;With a phonon-mediated attractive interaction, we find two competing;states: a fully gapped finite-momentum Fulde-Ferrell-Larkin-Ovchinnikov;pairing state and a nodal even-parity pairing state. We show that, in a;BCS-type approximation, the finite-momentum pairing state is;energetically favored over the usual even-parity paired state and is;robust against weak disorder. Although energetically unfavorable, the;even-parity pairing state provides an electronic analog of the He-3-A;phase in that the nodes of the even-parity state carry nontrivial;winding numbers and therefore support a surface flat band. We briefly;discuss other possible superconducting states that may be realized in;Weyl semimetals. DOI: 10.1103/PhysRevB.86.214514;12;0;0;0;12;1098-0121;WOS:000312830400007;;;J;Duivenvoorden, Kasper;Quella, Thomas;Discriminating string order parameter for topological phases of gapped;SU(N) spin chains;PHYSICAL REVIEW B;86;23;235142;10.1103/PhysRevB.86.235142;DEC 26 2012;2012;One-dimensional gapped spin chains with symmetry PSU(N) = SU(N)/Z(N) are;known to possess N different topological phases. In this paper, we;introduce a nonlocal string order parameter which characterizes each of;these N phases unambiguously. Numerics confirm that our order parameter;allows one to extract a quantized topological invariant from a given;nondegenerate gapped ground state wave function. Discontinuous jumps in;the discrete topological order that arise when varying physical;couplings in the Hamiltonian may be used to detect quantum phase;transitions between different topological phases. DOI:;10.1103/PhysRevB.86.235142;Quella, Thomas/A-2630-2012;Quella, Thomas/0000-0002-5441-4124;6;0;0;0;6;1098-0121;WOS:000312832600004;;;J;Gao Xianlong;Chen, A-Hai;Tokatly, I. V.;Kurth, S.;Lattice density functional theory at finite temperature with strongly;density-dependent exchange-correlation potentials;PHYSICAL REVIEW B;86;23;235139;10.1103/PhysRevB.86.235139;DEC 26 2012;2012;The derivative discontinuity of the exchange-correlation (xc) energy at;an integer particle number is a property of the exact, unknown xc;functional of density functional theory (DFT) which is absent in many;popular local and semilocal approximations. In lattice DFT,;approximations exist which exhibit a discontinuity in the xc potential;at half-filling. However, due to convergence problems of the Kohn-Sham;(KS) self-consistency cycle, the use of these functionals is mostly;restricted to situations where the local density is away from;half-filling. Here a numerical scheme for the self-consistent solution;of the lattice KS Hamiltonian with a local xc potential with rapid (or;quasidiscontinuous) density dependence is suggested. The problem is;formulated in terms of finite-temperature DFT where the discontinuity in;the xc potential emerges naturally in the limit of zero temperature. A;simple parametrization is suggested for the xc potential of the uniform;one-dimensional (1D) Hubbard model at finite temperature which is;obtained from the solution of the thermodynamic Bethe ansatz. The;feasibility of the numerical scheme is demonstrated by application to a;model of fermionic atoms in a harmonic trap. The corresponding density;profile exhibits a plateau of integer occupation at low temperatures;which melts away for higher temperatures. DOI:;10.1103/PhysRevB.86.235139;Tokatly, Ilya/D-9554-2011; Chen, Ahai/D-6169-2013; Xianlong, Gao/K-8744-2012;Tokatly, Ilya/0000-0001-6288-0689; Xianlong, Gao/0000-0001-6914-3163;4;0;0;0;4;1098-0121;WOS:000312832600001;;;J;Hanson, George W.;Forati, Ebrahim;Linz, Whitney;Yakovlev, Alexander B.;Excitation of terahertz surface plasmons on graphene surfaces by an;elementary dipole and quantum emitter: Strong electrodynamic effect of;dielectric support;PHYSICAL REVIEW B;86;23;235440;10.1103/PhysRevB.86.235440;DEC 26 2012;2012;The excitation of transverse magnetic (TM) surface plasmons by a point;dipole in the vicinity of a multilayered graphene/dielectric system is;examined. It was previously shown that the surface plasmon (SP) excited;by a vertical dipole on an isolated graphene sheet exhibits a strong;excitation peak in the THz region; here we show that, in the presence of;a finite-thickness dielectric support layer such as SiO2, considerable;spectral content is transferred to a second (perturbed dielectric slab);mode, greatly decreasing and redshifting the excitation peak. The;presence of a Si half-space also diminishes the excitation strength, but;for graphene on top of SiO2-Si the presence of the SiO2 layer creates a;spacer restoring the excitation peak. A two-level quantum emitter is;also considered, where it is shown that the addition of a thin;dielectric support slab and SiO2-Si geometries affects the spontaneous;decay rate in a manner similar to the classical dipole SP excitation;peak. DOI: 10.1103/PhysRevB.86.235440;10;0;0;0;10;1098-0121;WOS:000312832600014;;;J;Hillier, N. J.;Foroozani, N.;Zocco, D. A.;Hamlin, J. J.;Baumbach, R. E.;Lum, I. K.;Maple, M. B.;Schilling, J. S.;Intrinsic dependence of T-c on hydrostatic (He-gas) pressure for;superconducting LaFePO, PrFePO, and NdFePO single crystals;PHYSICAL REVIEW B;86;21;214517;10.1103/PhysRevB.86.214517;DEC 26 2012;2012;Since their discovery in 2008, the Fe-based superconductors have;attracted a great deal of interest. Regrettably, themechanism(s);responsible for the superconductivity has yet to be unequivocally;identified. High pressure is an important variable since its application;moderates the pairing interaction. Thus far, the LnFePO (Ln = La, Pr,;Nd, Sm, Gd) family of superconductors has received relatively little;attention. Early high-pressure studies on LaFePO found that T-c;initially increased with pressure before passing through a maximum at;higher pressures. The present studies on both polycrystalline and;single-crystalline LaFePO, PrFePO, and NdFePO utilize the most;hydrostatic pressure medium available, i.e., dense He. Surprisingly, for;all samples, T-c is found to initially decrease rapidly with pressure at;the rate dT(c)/dP similar or equal to -2 to -3K/GPa. Less hydrostatic;pressure media thus appear to enhance the value of T-c in these;materials. These results give yet further evidence that the;superconducting state in Fe-based superconductors is extraordinarly;sensitive to lattice strain. DOI: 10.1103/PhysRevB.86.214517;Foroozani, Neda/H-2720-2013; Zocco, Diego/O-3440-2014;2;0;0;0;2;1098-0121;WOS:000312830400010;;;J;Hinuma, Yoyo;Oba, Fumiyasu;Kumagai, Yu;Tanaka, Isao;Ionization potentials of (112) and (11(2)over-bar) facet surfaces of;CuInSe2 and CuGaSe2;PHYSICAL REVIEW B;86;24;245433;10.1103/PhysRevB.86.245433;DEC 26 2012;2012;The ionization potentials of the faceted and nonfaceted (110) surfaces;of CuInSe2 (CIS) and CuGaSe2 (CGS), which are key components of;CuIn1-xGaxSe2 (CIGS) thin-film solar cells, are investigated using;first-principles calculations based on a hybrid Hartree-Fock density;functional theory approach. Slab models of the chalcopyrite (110);surface with both (112) and (11 (2) over bar) facets on each surface of;the slab are employed. Surface energy evaluations point out that two;types of faceted surfaces with point defects, namely a combination of;Cu-In (Cu-Ga) and In-Cu (Ga-Cu) antisites and a combination of Cu;vacancies and In-Cu (Ga-Cu) antisites, are the most stable depending on;the chemical potentials. The ionization potentials are evaluated with;two definitions: One highly sensitive to and the other less sensitive to;localized surface states. The latter varies by 0.4 eV in CIS and 0.5 eV;in CGS with the surface structure. The ionization potentials are reduced;by 0.2 eV for faceted surfaces with Cu-In (Cu-Ga) and In-Cu (Ga-Cu);antisites when the effects of the localized surface states are;considered. The values of both ionization potentials are similar between;CIS and CGS with a difference of about 0.1 eV for the most stable;surface structures. DOI: 10.1103/PhysRevB.86.245433;Kumagai, Yu/H-8104-2012; Tanaka, Isao/B-5941-2009; Oba, Fumiyasu/J-9723-2014;9;0;1;0;9;1098-0121;WOS:000312833400018;;;J;Hortamani, M.;Wiesendanger, R.;Role of hybridization in the Rashba splitting of noble metal monolayers;on W(110);PHYSICAL REVIEW B;86;23;235437;10.1103/PhysRevB.86.235437;DEC 26 2012;2012;In contradiction to the nature of the spin-orbit driven Rashba splitting;of surface states which increases with atomic number, Shikin et al.;[Phys. Rev. Lett. 100, 057601 (2008)] have observed that the size of the;splitting in Au overlayers on W(110) is smaller than for Ag overlayers.;In the framework of first-principle density functional theory, we have;studied the origin of the Rashba splitting at Au/Ag overlayers on the;W(110) surface. We show how the asymmetric behavior of the wave function;in the vicinity of the surface atom nucleus, in addition to the strength;of the nuclear potential gradient, plays a crucial role for the size of;the splitting. The influence of the electronic structure and spin;dependent hybridization on the Rashba splitting is discussed. The;asymmetric behavior of the surface wave function originates from the;surface-interface sp-d hybridization. We find that a spin dependent;hybridization in the Ag overlayer influences strongly the size of the;Rashba splitting. DOI: 10.1103/PhysRevB.86.235437;1;0;0;0;1;1098-0121;WOS:000312832600011;;;J;Hu, Xiang;Rueegg, Andreas;Fiete, Gregory A.;Topological phases in layered pyrochlore oxide thin films along the;[111] direction;PHYSICAL REVIEW B;86;23;235141;10.1103/PhysRevB.86.235141;DEC 26 2012;2012;We theoretically study a multiband Hubbard model of pyrochlore oxides of;the form A(2)B(2)O(7), where B is a heavy transition metal ion with;strong spin-orbit coupling, in a thin-film geometry orientated along the;[111] direction. Along this direction, the pyrochlore lattice consists;of alternating kagome and triangular lattice planes of B ions. We;consider a single kagome layer, a bilayer, and the two different;trilayers. As a function of the strength of the spin-orbit coupling, the;direct and indirect d-orbital hopping, and the band filling, we identify;a number of scenarios where a noninteracting time-reversal-invariant;Z(2) topological phase is expected and we suggest some candidate;materials. We study the interactions in the half-filled d shell within;Hartree-Fock theory and identify parameter regimes where a zero magnetic;field Chern insulator with Chern number +/- 1 can be found. The most;promising geometries for topological phases appear to be the bilayer;which supports both a Z(2) topological insulator and a Chern insulator,;and the triangular-kagome-triangular trilayer which supports a;relatively robust Chern insulator phase. DOI: 10.1103/PhysRevB.86.235141;Ruegg, Andreas/B-4498-2010;12;0;0;0;12;1098-0121;WOS:000312832600003;;;J;Janotti, A.;Bjaalie, L.;Gordon, L.;Van de Walle, C. G.;Controlling the density of the two-dimensional electron gas at the;SrTiO3/LaAlO3 interface;PHYSICAL REVIEW B;86;24;241108;10.1103/PhysRevB.86.241108;DEC 26 2012;2012;The polar discontinuity at the SrTiO3/LaAlO3 interface (STO/LAO) can in;principle sustain an electron density of 3.3 x 10(14) cm(-2) (0.5;electrons per unit cell). However, experimentally observed densities are;more than an order of magnitude lower. Using a combination of;first-principles and Schrodinger-Poisson simulations we show that the;problem lies in the asymmetric nature of the structure, i.e., the;inability to form a second LAO/STO interface that is a mirror image of;the first, or to fully passivate the LAO surface. Our insights apply to;oxide interfaces in general, explaining for instance why the;SrTiO3/GdTiO3 interface has been found to exhibit the full density of;3.3 x 10(14) cm(-2). DOI: 10.1103/PhysRevB.86.241108;Janotti, Anderson/F-1773-2011; Van de Walle, Chris/A-6623-2012;Janotti, Anderson/0000-0001-5028-8338; Van de Walle,;Chris/0000-0002-4212-5990;11;0;0;0;11;1098-0121;WOS:000312833400001;;;J;Kim, Changsoo;Jo, Euna;Kang, Byeongki;Kwon, Sangil;Lee, Soonchil;Shim, Jeong Hyun;Suzuki, Takehiko;Katsufuji, Takuro;Giant magnetic anisotropy in Mn3O4 investigated by Mn-55(2+) and;Mn-55(3+) NMR;PHYSICAL REVIEW B;86;22;224420;10.1103/PhysRevB.86.224420;DEC 26 2012;2012;In Mn3O4, the magnetization along the c axis is different from that;along the ab plane even in the strong field of 30 T. To investigate the;origin of the huge magnetic anisotropy, Mn2+ and Mn3+ nuclear magnetic;resonance spectra were measured in the 7-T magnetic field. The canting;angle of the magnetic moments was estimated for various directions of;field by rotating a single-crystalline Mn3O4 sample. One of the main;results is that Mn3+ moments lie nearly in the ab plane in the external;field perpendicular to the plane, meaning that the macroscopic magnetic;anisotropy of Mn3O4 originates from the magnetic anisotropy of Mn3+ in;the ab plane. The anisotropy field is estimated to be about 65 T. It is;obvious that the Yafet-Kittel structure made of Mn2+ and Mn3+ spins lies;in the ab plane due to this huge magnetic anisotropy, contrary to the;previous reports. By the least-squares fit of the canting angle data for;various field directions to a simple model, we obtained that J(BB) =;1.88J(AB) - 0.09 meV and K-A = -14.7J(AB) + 2.0 meV, where J(AB), J(BB),;and K-A are the exchange interaction constants between Mn2+ moments,;Mn2+ and Mn3+ moments, and an anisotropy constant of Mn2+, respectively.;DOI: 10.1103/PhysRevB.86.224420;Suzuki, Takehito/B-3038-2013; Lee, Soonchil/C-1963-2011;3;0;0;0;3;1098-0121;WOS:000312831800010;;;J;Kimber, Robin G. E.;Wright, Edward N.;O'Kane, Simon E. J.;Walker, Alison B.;Blakesley, James C.;Mesoscopic kinetic Monte Carlo modeling of organic photovoltaic device;characteristics;PHYSICAL REVIEW B;86;23;235206;10.1103/PhysRevB.86.235206;DEC 26 2012;2012;Measured mobility and current-voltage characteristics of single layer;and photovoltaic (PV) devices composed of;poly{9,9-dioctylfluorene-co-bis[N,N'-(4-butylphenyl)]bis(N,N'-phenyl-1,4;-phenylene)diamine} (PFB) and;poly(9,9-dioctylfluorene-co-benzothiadiazole) (F8BT) have been;reproduced by a mesoscopic model employing the kinetic Monte Carlo (KMC);approach. Our aim is to show how to avoid the uncertainties common in;electrical transport models arising from the need to fit a large number;of parameters when little information is available, for example, a;single current-voltage curve. Here, simulation parameters are derived;from a series of measurements using a self-consistent "building-blocks";approach, starting from data on the simplest systems. We found that site;energies show disorder and that correlations in the site energies and a;distribution of deep traps must be included in order to reproduce;measured charge mobility-field curves at low charge densities in bulk;PFB and F8BT. The parameter set from the mobility-field curves;reproduces the unipolar current in single layers of PFB and F8BT and;allows us to deduce charge injection barriers. Finally, by combining;these disorder descriptions and injection barriers with an optical;model, the external quantum efficiency and current densities of blend;and bilayer organic PV devices can be successfully reproduced across a;voltage range encompassing reverse and forward bias, with the;recombination rate the only parameter to be fitted, found to be 1 x;10(7) s(-1). These findings demonstrate an approach that removes some of;the arbitrariness present in transport models of organic devices, which;validates the KMC as an accurate description of organic optoelectronic;systems, and provides information on the microscopic origins of the;device behavior. DOI: 10.1103PhysRevB.86.235206;20;0;1;0;20;1098-0121;WOS:000312832600006;;;J;Kishine, Jun-ichiro;Bostrem, I. G.;Ovchinnikov, A. S.;Sinitsyn, Vl. E.;Coherent sliding dynamics and spin motive force driven by crossed;magnetic fields in a chiral helimagnet;PHYSICAL REVIEW B;86;21;214426;10.1103/PhysRevB.86.214426;DEC 26 2012;2012;We demonstrate that the chiral soliton lattice formed from a chiral;helimagnet exhibits a coherent sliding motion when a time-dependent;magnetic field is applied parallel to the helical axis, in addition to a;static field perpendicular to the helical axis. To describe the coherent;sliding, we use the collective coordinate method and a numerical;analysis. We also show that the time-dependent sliding velocity causes a;time-varying Berry cap which creates a spin motive force. A salient;feature of the chiral soliton lattice is the appearance of a strongly;amplified spin motive force which is directly proportional to the;macroscopic number of solitons (magnetic kinks). DOI:;10.1103/PhysRevB.86.214426;2;0;0;0;2;1098-0121;WOS:000312830400005;;;J;Kratzer, M.;Rubezhanska, M.;Prehal, C.;Beinik, I.;Kondratenko, S. V.;Kozyrev, Yu N.;Teichert, C.;Electrical and photovoltaic properties of self-assembled Ge nanodomes on;Si(001);PHYSICAL REVIEW B;86;24;245320;10.1103/PhysRevB.86.245320;DEC 26 2012;2012;SiGe nano-size islands play a key role in novel electronic and;optoelectronic devices. Therefore, the understanding of basic electrical;properties of individual nanoislands is crucial. Here, the electrical;and photovoltaic properties of individual self-assembled Ge nanodomes;(NDs) on Si(001) have been studied by conductive and photoconductive;atomic force microscopy (AFM). The transition areas between the {113};and {15 3 23} facets turned out to be most conductive whereas the {113};facets exhibit minimum conductivity, which is attributed to a local;increase in Si concentration. Local current-to-voltage measurements;revealed that the NDs show an ohmic resistance, which is in the M Omega;region and scales with the ND-substrate interface area. Upon;illumination by the AFM feedback laser at 860 nm, a photovoltage is;generated. This photovoltage originates in the p-i-n structure formed;between the p-type substrate, the Ge ND, and the n-type diamond AFM;probe. DOI: 10.1103/PhysRevB.86.245320;Teichert, Christian/F-1003-2013;3;0;0;0;3;1098-0121;WOS:000312833400010;;;J;Kudasov, Yu. B.;Maslov, D. A.;Frustration and charge order in LuFe2O4;PHYSICAL REVIEW B;86;21;214427;10.1103/PhysRevB.86.214427;DEC 26 2012;2012;The nature of a transition from two-to three-dimensional charge order;(2D-CO -> 3D-CO) in the multiferroic material LuFe2O4 is discussed. It;is shown that a high-temperature ordered phase of the Ising model with;antiferromagnetic or antiferroelectric (AF) interactions on a triangular;bilayer (W layer) is a dimer partially disordered AF (DPDA) state, which;is a generalization of a well-known partially disordered AF structure;for the triangular lattice. The DPDA state is stable against a variation;of interaction parameters in a wide range. It is demonstrated that the;transition of W layers to the DPDA state gives rise to the 2D-CO phase;in LuFe2O4 at a high temperature. DOI: 10.1103/PhysRevB.86.214427;1;1;0;0;1;1098-0121;WOS:000312830400006;;;J;Lee, Janghee;Park, Joonbum;Lee, Jae-Hyeong;Kim, Jun Sung;Lee, Hu-Jong;Gate-tuned differentiation of surface-conducting states in;Bi1.5Sb0.5Te1.7Se1.3 topological-insulator thin crystals;PHYSICAL REVIEW B;86;24;245321;10.1103/PhysRevB.86.245321;DEC 26 2012;2012;Using field-angle, temperature, and back-gate-voltage dependence of the;weak antilocalization (WAL) and universal conductance fluctuations of;thin Bi1.5Sb0.5Te1.7Se1.3 topological-insulator single crystals, in;combination with gate-tuned Hall resistivity measurements, we reliably;separated the surface conduction of the topological nature from both the;bulk conduction and topologically trivial surface conduction. We;minimized the bulk conduction in the crystals and back-gate tuned the;Fermi level to the topological bottom-surface band while keeping the top;surface insensitive to back-gating with the optimal crystal thickness of;similar to 100 nm. We argue that the WAL effect occurring by the;coherent diffusive motion of carriers in relatively low magnetic fields;is more essential than other transport tools such as the Shubnikov-de;Hass oscillations for confirming the conduction by the topologically;protected surface state. Our approach provides a highly coherent picture;of the surface transport properties of topological insulators and a;reliable means of investigating the fundamental topological nature of;surface conduction and possible quantum-device applications related to;momentum-locked spin polarization in surface states. DOI:;10.1103/PhysRevB.86.245321;Kim, Jun Sung/G-8861-2012; Lee, Janghee/E-7471-2013;Lee, Janghee/0000-0002-7398-9097;11;2;1;0;11;1098-0121;WOS:000312833400011;;;J;Lee, Soo-Yong;Lee, Hyun-Woo;Sim, H. -S.;Visibility recovery by strong interaction in an electronic Mach-Zehnder;interferometer;PHYSICAL REVIEW B;86;23;235444;10.1103/PhysRevB.86.235444;DEC 26 2012;2012;We study the evolution of a single-electron packet of Lorentzian shape;along an edge of the integer quantum Hall regime or in a Mach-Zehnder;interferometer, considering a capacitive Coulomb interaction and using a;bosonization approach. When the packet propagates along a chiral quantum;Hall edge, we find that its electron density profile becomes more;distorted from Lorentzian due to the generation of electron-hole;excitations, as the interaction strength increases yet stays in a;weak-interaction regime. However, as the interaction strength becomes;larger and enters a strong-interaction regime, the distortion becomes;weaker and eventually the Lorentzian packet shape is recovered. The;recovery of the packet shape leads to an interesting feature of the;interference visibility of the symmetric Mach-Zehnder interferometer;whose two arms have the same interaction strength. As the interaction;strength increases, the visibility decreases from the maximum value in;the weak-interaction regime and then increases to the maximum value in;the strong-interaction regime. We argue that this counterintuitive;result also occurs under other types of interactions. DOI:;10.1103/PhysRevB.86.235444;Lee, Hyun-Woo/B-8995-2008; Sim, Heung-Sun/C-1624-2011;Lee, Hyun-Woo/0000-0002-1648-8093;;1;0;0;0;1;1098-0121;WOS:000312832600018;;;J;Li, Qiuzi;Rossi, E.;Das Sarma, S.;Two-dimensional electronic transport on the surface of three-dimensional;topological insulators;PHYSICAL REVIEW B;86;23;235443;10.1103/PhysRevB.86.235443;DEC 26 2012;2012;We present a theoretical approach to describe the two-dimensional (2D);transport properties of the surfaces of three-dimensional topological;insulators (3DTIs) including disorder and phonon scattering effects. The;method that we present is able to take into account the effects of the;strong disorder-induced carrier density inhomogeneities that;characterize the ground state of the surfaces of 3DTIs, especially at;low doping, as recently shown experimentally. Due to the inhomogeneous;nature of the carrier density landscape, standard theoretical techniques;based on ensemble averaging over disorder assuming a spatially uniform;average carrier density are inadequate. Moreover the presence of strong;spatial potential and density fluctuations greatly enhances the effect;of thermally activated processes on the transport properties. The theory;presented is able to take into account all the effects due to the;disorder-induced inhomogeneities, momentum scattering by disorder, and;the effect of electron-phonon scattering processes. As a result the;developed theory is able to accurately describe the transport properties;of the surfaces of 3DTIs both at zero and finite temperature. DOI:;10.1103/PhysRevB.86.235443;Rossi, Enrico/K-2837-2012; Li, Qiuzi/F-6474-2011; Das Sarma, Sankar/B-2400-2009;Rossi, Enrico/0000-0002-2647-3610;;8;1;0;0;8;1098-0121;WOS:000312832600017;;;J;Liang, S. H.;Liu, D. P.;Tao, L. L.;Han, X. F.;Guo, Hong;Organic magnetic tunnel junctions: The role of metal-molecule interface;PHYSICAL REVIEW B;86;22;224419;10.1103/PhysRevB.86.224419;DEC 26 2012;2012;We report a first-principles theoretical investigation of spin-polarized;quantum transport in organic magnetic tunnel junctions (OMTJs) to;provide a microscopic understanding on the sign of the tunnel;magnetoresistance ratio (TMR). We consider two different OMTJs, formed;by sandwiching 1-stearic acid radicals (1-SAR) or 1,18-stearic diacid;radicals (1,18-SDR) between two Ni electrodes. Even though the main;difference between them is only on one of the Ni/molecule contacts, such;a structure difference is found to induce a significant sign change of;the TMR. The TMR is negative for 1-SAR at -19.6%, but is positive for;1,18-SDR at 13.7%. By investigating the concept of scattering density of;states (SDOS), we found that scattering processes of p electrons at the;Ni/molecule interface determines the sign of TMR. Based on spin;polarization of the SDOS, we extend the Julliere model to explain both;the sign and the value of the TMR qualitatively and semiquantitatively.;It is concluded that understanding spin-polarized quantum transport in;organic magnetic tunnel junction requires a comprehensive knowledge of;the electronic structures of the molecule, the metal electrode, and the;metal-molecule contacts. DOI: 10.1103/PhysRevB.86.224419;Guo, Hong/A-8084-2010;4;0;0;0;4;1098-0121;WOS:000312831800009;;;J;Liew, T. C. H.;Holographic arrays based on semiconductor microstructures;PHYSICAL REVIEW B;86;23;235314;10.1103/PhysRevB.86.235314;DEC 26 2012;2012;A concept of complex reflectivity modulation is proposed based on the;electrical control of quantum well exciton resonances that influence the;propagation of light in a layered semiconductor structure. By variation;in exciton energies, both the intensity and the phase of reflected light;can be fully controlled. Unlike previous devices, for full complex light;modulation, the design is based on a single device in a single;structure. The device allows complete 100% intensity contrast and allows;for the construction of small pixel sizes with fast response times. DOI:;10.1103/PhysRevB.86.235314;1;0;0;0;1;1098-0121;WOS:000312832600010;;;J;Lin, Chien-Hung;Sensarma, Rajdeep;Sengupta, K.;Sarma, S. Das;Quantum dynamics of disordered bosons in an optical lattice;PHYSICAL REVIEW B;86;21;214207;10.1103/PhysRevB.86.214207;DEC 26 2012;2012;We study the equilibrium and nonequilibrium properties of strongly;interacting bosons on a lattice in the presence of a random bounded;disorder potential. Using a Gutzwiller projected variational technique,;we study the equilibrium phase diagram of the disordered Bose-Hubbard;model and obtain the Mott insulator, Bose glass, and superfluid phases.;We also study the nonequilibrium response of the system under a periodic;temporal drive where, starting from the superfluid phase, the hopping;parameter is ramped down linearly in time, and back to its initial;value. We study the density of excitations created, the change in the;superfluid order parameter, and the energy pumped into the system in;this process as a function of the inverse ramp rate tau. For the clean;case the density of excitations goes to a constant, while the order;parameter and energy relax as 1/tau and 1/tau(2) respectively. With;disorder, the excitation density decays exponentially with t, with the;decay rate increasing with the disorder, to an asymptotic value;independent of the disorder. The energy and change in order parameter;also decrease as tau is increased. DOI: 10.1103/PhysRevB.86.214207;Das Sarma, Sankar/B-2400-2009;1;0;0;0;1;1098-0121;WOS:000312830400001;;;J;Luo, Yongkang;Bao, Jinke;Shen, Chenyi;Han, Jieke;Yang, Xiaojun;Lv, Chen;Li, Yuke;Jiao, Wenhe;Si, Bingqi;Feng, Chunmu;Dai, Jianhui;Cao, Guanghan;Xu, Zhu-An;Magnetism and crystalline electric field effect in ThCr2Si2-type;CeNi2As2;PHYSICAL REVIEW B;86;24;245130;10.1103/PhysRevB.86.245130;DEC 26 2012;2012;A millimeter-sized ThCr2Si2-type CeNi2As2 single crystal was synthesized;by the NaAs flux method and its physical properties were investigated by;magnetization, transport, and specific-heat measurements. In contrast to;the previously reported CaBe2Ge2-type CeNi2As2, the ThCr2Si2-type;CeNi2As2 is a highly anisotropic uniaxial antiferromagnet with the;transition temperature T-N = 4.8 K. A magnetic-field-induced spin-flop;transition was seen below T-N when the applied B is parallel to the c;axis, the magnetic easy axis, together with a huge frustration parameter;f = theta(W)/T-N. A pronounced Schottky-type anomaly in specific heat;was also found around 160 K, which could be attributed to the;crystalline electric field effect with the excitation energies being;fitted to Delta(1) = 325 K and Delta(2) = 520 K, respectively. Moreover,;the in-plane resistivity anisotropy and low-temperature x-ray;diffractions suggest that this compound is a rare example exhibiting a;possible structure distortion induced by the 4f-electron magnetic;frustration. DOI: 10.1103/PhysRevB.86.245130;Cao, Guanghan/C-4753-2008;5;0;0;0;5;1098-0121;WOS:000312833400008;;;J;Margaris, G.;Trohidou, K. N.;Iannotti, V.;Ausanio, G.;Lanotte, L.;Fiorani, D.;Magnetic behavior of dense nanoparticle assemblies: Interplay of;interparticle interactions and particle system morphology;PHYSICAL REVIEW B;86;21;214425;10.1103/PhysRevB.86.214425;DEC 26 2012;2012;The role of interparticle interactions and the morphology in the;magnetic behavior of dense assemblies of Fe nanoparticles with;concentration well above the percolation threshold has been studied;using the Monte Carlo simulations technique. The initial and;temperature-dependent magnetization curves have been calculated for;different conditions of the assembly morphology and the interparticle;interaction strengths. Our simulations showed that the strong;competition between the anisotropy and exchange energies in nonuniform;dense assemblies results in a frustration of the nanoparticles moments;coupling and creates plateaus and abrupt steps, which indicate a sudden,;collective spin reversal, for low and intermediate dipolar strengths. In;the case of strong dipolar interactions, the stepwise behavior becomes;smoother and gradually disappears. DOI: 10.1103/PhysRevB.86.214425;2;0;0;0;2;1098-0121;WOS:000312830400004;;;J;Marom, Noa;Caruso, Fabio;Ren, Xinguo;Hofmann, Oliver T.;Koerzdoerfer, Thomas;Chelikowsky, James R.;Rubio, Angel;Scheffler, Matthias;Rinke, Patrick;Benchmark of GW methods for azabenzenes;PHYSICAL REVIEW B;86;24;245127;10.1103/PhysRevB.86.245127;DEC 26 2012;2012;Many-body perturbation theory in the GW approximation is a useful method;for describing electronic properties associated with charged;excitations. A hierarchy of GW methods exists, starting from;non-self-consistent G(0)W(0), through partial self-consistency in the;eigenvalues and in the Green's function (scGW(0)), to fully;self-consistent GW (scGW). Here, we assess the performance of these;methods for benzene, pyridine, and the diazines. The quasiparticle;spectra are compared to photoemission spectroscopy (PES) experiments;with respect to all measured particle removal energies and the ordering;of the frontier orbitals. We find that the accuracy of the calculated;spectra does not match the expectations based on their level of;self-consistency. In particular, for certain starting points G(0)W(0);and scGW(0) provide spectra in better agreement with the PES than scGW.;DOI: 10.1103/PhysRevB.86.245127;Rinke, Patrick/A-4208-2010; Caruso, Fabio/D-5917-2013; Korzdorfer, Thomas/B-8266-2014; DONOSTIA INTERNATIONAL PHYSICS CTR., DIPC/C-3171-2014; Ren, Xinguo/N-4768-2014;Rinke, Patrick/0000-0002-5967-9965;;17;0;0;0;17;1098-0121;WOS:000312833400006;;;J;Marty, K.;Christianson, A. D.;dos Santos, A. M.;Sipos, B.;Matsubayashi, K.;Uwatoko, Y.;Fernandez-Baca, J. A.;Tulk, C. A.;Maier, T. A.;Sales, B. C.;Lumsden, M. D.;Effect of pressure on the neutron spin resonance in the unconventional;superconductor FeTe0.6Se0.4;PHYSICAL REVIEW B;86;22;220509;10.1103/PhysRevB.86.220509;DEC 26 2012;2012;We have carried out a pressure study of the unconventional;superconductor FeTe0.6Se0.4 up to 1.5 GPa by neutron scattering,;resistivity, and magnetic susceptibility measurements. The neutron spin;resonance energy and the superconducting transition temperature have;been extracted as a function of applied pressure in samples obtained;from the same crystal. Both increase with pressure up to amaximum at;approximate to 1.3 GPa, directly demonstrating a correlation between;these two fundamental parameters of unconventional superconductivity. A;comparison between the quantitative evolution of T-c and the resonance;energy as a function of applied pressure is also discussed. These;measurements serve to demonstrate the feasibility of using pressure;dependent inelastic neutron scattering to explore the relationship;between the resonance energy and T-c in unconventional superconductors.;DOI: 10.1103/PhysRevB.86.220509;Maier, Thomas/F-6759-2012; Fernandez-Baca, Jaime/C-3984-2014; Matsubayashi, Kazuyuki/F-7696-2013;3;0;0;0;3;1098-0121;WOS:000312831800004;;;J;Mesterhazy, D.;Berges, J.;von Smekal, L.;Effect of short-range interactions on the quantum critical behavior of;spinless fermions on the honeycomb lattice;PHYSICAL REVIEW B;86;24;245431;10.1103/PhysRevB.86.245431;DEC 26 2012;2012;We present a functional renormalization group investigation of an;Euclidean three-dimensional matrix Yukawa model with U(N) symmetry,;which describes N = 2 Weyl fermions that effectively interact via a;short-range repulsive interaction. This system relates to an effective;low-energy theory of spinless electrons on the honeycomb lattice and can;be seen as a simple model for suspended graphene. We find a continuous;phase transition characterized by large anomalous dimensions for the;fermions and composite degrees of freedom. The critical exponents define;a new universality class distinct from Gross-Neveu type models,;typically considered in this context. DOI: 10.1103/PhysRevB.86.245431;7;0;0;0;7;1098-0121;WOS:000312833400016;;;J;Mizuguchi, Yoshikazu;Fujihisa, Hiroshi;Gotoh, Yoshito;Suzuki, Katsuhiro;Usui, Hidetomo;Kuroki, Kazuhiko;Demura, Satoshi;Takano, Yoshihiko;Izawa, Hiroki;Miura, Osuke;BiS2-based layered superconductor Bi4O4S3;PHYSICAL REVIEW B;86;22;220510;10.1103/PhysRevB.86.220510;DEC 26 2012;2012;Exotic superconductivity has often been discovered in materials with a;layered (two-dimensional) crystal structure. The low dimensionality can;affect the electronic structure and can realize high transition;temperatures (T-c) and/or unconventional superconductivity mechanisms.;We show superconductivity in a new bismuth-oxysulfide compound Bi4O4S3.;Crystal structure analysis indicates that this superconductor has a;layered structure composed of a stacking of spacer layers and BiS2;layers. Band calculation suggests that the Fermi level for Bi4O4S3 is;just on the peak position of the partial density of states of the Bi 6p;orbital within the BiS2 layer. The BiS2 layer will be a basic structure;which provides another universality class for a layered superconducting;family, and this opens up a new field in the physics and chemistry of;low-dimensional superconductors. DOI: 10.1103/PhysRevB.86.220510;68;0;3;0;70;1098-0121;WOS:000312831800005;;;J;Mutiso, Rose M.;Sherrott, Michelle C.;Li, Ju;Winey, Karen I.;Simulations and generalized model of the effect of filler size;dispersity on electrical percolation in rod networks;PHYSICAL REVIEW B;86;21;214306;10.1103/PhysRevB.86.214306;DEC 26 2012;2012;We present a three-dimensional simulation of electrical conductivity in;isotropic, polydisperse rod networks from which we determine the;percolation threshold (phi(c)). Existing analytical models that account;for size dispersity are formulated in the slender-rod limit and are less;accurate for predicting phi(c) in composites with rods of modest L/D.;Using empirical approximations from our simulation data, we generalized;the excluded volume percolation model to account for both finite L/D and;size dispersity, providing a solution for phi(c) of polydisperse rod;networks that is quantitatively accurate across the entire L/D range.;DOI: 10.1103/PhysRevB.86.214306;Li, Ju/A-2993-2008;Li, Ju/0000-0002-7841-8058;12;0;0;0;12;1098-0121;WOS:000312830400002;;;J;Nishikawa, Y.;Hewson, A. C.;Hund's rule coupling in models of magnetic impurities and quantum dots;PHYSICAL REVIEW B;86;24;245131;10.1103/PhysRevB.86.245131;DEC 26 2012;2012;Studies of the effects of the Hund's rule coupling J(H) in multiple;orbit impurities or quantum dots using different models have led to;quite different predictions for the Kondo temperature T-K as a function;of J(H). We show that the differences depend on whether or not the;models conserve orbital angular momentum about the impurity site. Using;numerical renormalization-group calculations, we deduce the renormalized;parameters for the Fermi liquid regime and show that, despite the;differences between the models, the low-energy fixed point in the;strong-correlation regime is universal, with a single energy scale T-K;and just two renormalized interaction parameters, a renormalized single;orbital term, (U) over tilde = 4T(K), and a renormalized Hund's rule;term, (J) over tilde (H) = 8T(K)/3. DOI: 10.1103/PhysRevB.86.245131;3;0;0;0;3;1098-0121;WOS:000312833400009;;;J;Oliveira, G. N. P.;Pereira, A. M.;Lopes, A. M. L.;Amaral, J. S.;dos Santos, A. M.;Ren, Y.;Mendonca, T. M.;Sousa, C. T.;Amaral, V. S.;Correia, J. G.;Araujo, J. P.;Dynamic off-centering of Cr3+ ions and short-range magneto-electric;clusters in CdCr2S4;PHYSICAL REVIEW B;86;22;224418;10.1103/PhysRevB.86.224418;DEC 26 2012;2012;The cubic spinel CdCr2S4 gained recently a vivid interest, given the;relevance of relaxor-like dielectric behavior in its paramagnetic phase.;By a singular combination of local probe techniques, namely, pair;distribution function and perturbed angular correlation, we firmly;establish that the Cr ion plays the central key role on this exotic;phenomenon, namely, through a dynamic off-centering displacement of its;coordination sphere. We further show that this off-centering of the;magnetic Cr ion gives rise to a peculiar entanglement between the polar;and magnetic degrees of freedom, stabilizing, in the paramagnetic phase,;short-range magnetic clusters, clearly seen in ultralow-field;susceptibility measurements. Moreover, the Landau theory is here used to;demonstrate that a linear coupling between the magnetic and polar order;parameters is sufficient to justify the appearance of magnetic cluster;in the paramagnetic phase of this compound. These results open insights;on the hotly debated magnetic and polar interaction, setting a step;forward in the reinterpretation of the coupling of different physical;degrees of freedom. DOI: 10.1103/PhysRevB.86.224418;Universidade Aveiro, Departamento Fisica/E-4128-2013; Amaral, Vitor/A-1570-2009; Pereira, Andre/B-4648-2008; Amaral, Joao/C-6354-2009; Lopes, Armandina/I-5066-2013; Martins Correia, Joao Guilherme/J-5473-2013; Esteves de Araujo, Joao Pedro/D-4389-2011;Amaral, Vitor/0000-0003-3359-7133; Pereira, Andre/0000-0002-8587-262X;;Amaral, Joao/0000-0003-0488-9372; Lopes, Armandina/0000-0001-8776-0894;;Martins Correia, Joao Guilherme/0000-0002-8848-0824; Esteves de Araujo,;Joao Pedro/0000-0002-1646-7727;7;1;0;0;7;1098-0121;WOS:000312831800008;;;J;Olund, Christopher T.;Zhao, Erhai;Current-phase relation for Josephson effect through helical metal;PHYSICAL REVIEW B;86;21;214515;10.1103/PhysRevB.86.214515;DEC 26 2012;2012;Josephson junctions fabricated on the surface of three-dimensional;topological insulators ( TI) show a few unusual properties distinct from;conventional Josephson junctions. In these devices, the Josephson;coupling and the supercurrent are mediated by helical metal, the;two-dimensional surface state of the TI. A line junction of this kind is;known to support Andreev bound states at zero energy for phase bias pi;and, consequently, the so-called fractional ac Josephson effect.;Motivated by recent experiments on TI-based Josephson junctions, here we;describe a convenient algorithm to compute the bound-state spectrum and;the current-phase relation for junctions of finite length and width. We;present analytical results for the bound-state spectrum, and discuss the;dependence of the current-phase relation on the length and width of the;junction, the chemical potential of the helical metal, and temperature.;A thorough understanding of the current-phase relation may help in;designing topological superconducting qubits and manipulating Majorana;fermions. DOI: 10.1103/PhysRevB.86.214515;Zhao, Erhai/B-3463-2010;Zhao, Erhai/0000-0001-8954-1601;5;0;0;0;5;1098-0121;WOS:000312830400008;;;J;Pakdel, Sahar;Miri, MirFaez;Faraday rotation and circular dichroism spectra of gold and silver;nanoparticle aggregates;PHYSICAL REVIEW B;86;23;235445;10.1103/PhysRevB.86.235445;DEC 26 2012;2012;We study the magneto-optical response of noble metal nanoparticle;clusters. We consider the interaction between the light-induced dipoles;of particles. In the presence of a magnetic field, the simplest achiral;cluster, a dimer, exhibits circular dichroism (CD). The CD of a dimer;depends on the directions of the magnetic field and the light wave;vector. The CD of a populous cluster weakly depends on the magnetic;field. Upon scattering from the cluster, an incident linearly polarized;light with polarization azimuth. becomes elliptically polarized. The;polarization azimuth rotation and ellipticity angle variation are;sinusoidal functions of 2 phi.. The anisotropy and the chirality of the;cluster control the amplitude and offset of these sinusoidal functions.;The Faraday rotation and Faraday ellipticity are also sinusoidal;functions of 2 phi. Near the surface plasmon frequency, Faraday rotation;and Faraday ellipticity increase. DOI: 10.1103/PhysRevB.86.235445;6;0;0;0;6;1098-0121;WOS:000312832600019;;;J;Pedersen, Jesper Goor;Brynildsen, Mikkel H.;Cornean, Horia D.;Pedersen, Thomas Garm;Optical Hall conductivity in bulk and nanostructured graphene beyond the;Dirac approximation;PHYSICAL REVIEW B;86;23;235438;10.1103/PhysRevB.86.235438;DEC 26 2012;2012;We present a perturbative method for calculating the optical Hall;conductivity in a tight-binding framework based on the Kubo formalism.;The method involves diagonalization only of the Hamiltonian in absence;of the magnetic field, and thus avoids the computational problems;usually arising due to the huge magnetic unit cells required to maintain;translational invariance in the presence of a Peierls phase. A recipe;for applying the method to numerical calculations of the magneto-optical;response is presented. We apply the formalism to the case of ordinary;and gapped graphene in a next-nearest-neighbor tight-binding model as;well as graphene antidot lattices. In both cases, we find unique;signatures in the Hall response that are not captured in continuum;(Dirac) approximations. These include a nonzero optical Hall;conductivity even when the chemical potential is at the Dirac point;energy. Numerical results suggest that this effect should be measurable;in experiments. DOI: 10.1103/PhysRevB.86.235438;Goor Pedersen, Jesper/C-3965-2008; Cornean, Horia/A-4064-2008;Goor Pedersen, Jesper/0000-0002-8411-240X; Cornean,;Horia/0000-0003-2700-8785;1;0;0;0;1;1098-0121;WOS:000312832600012;;;J;Rodriguez, Alejandro W.;Reid, M. T. Homer;Johnson, Steven G.;Fluctuating-surface-current formulation of radiative heat transfer for;arbitrary geometries;PHYSICAL REVIEW B;86;22;220302;10.1103/PhysRevB.86.220302;DEC 26 2012;2012;We describe a fluctuating-surface-current formulation of radiative heat;transfer, applicable to arbitrary geometries in both the near and far;field, that directly exploits efficient and sophisticated techniques;from the boundary-element method. We validate as well as extend previous;results for spheres and cylinders, and also compute the heat transfer in;a more complicated geometry consisting of two interlocked rings.;Finally, we demonstrate how this method can be adapted to compute the;spatial distribution of heat flux on the surfaces of the bodies. DOI:;10.1103/PhysRevB.86.220302;13;0;0;0;13;1098-0121;WOS:000312831800001;;;J;Saidi, Wissam A.;Lee, Minyoung;Li, Liang;Zhou, Guangwen;McGaughey, Alan J. H.;Ab initio atomistic thermodynamics study of the early stages of Cu(100);oxidation;PHYSICAL REVIEW B;86;24;245429;10.1103/PhysRevB.86.245429;DEC 26 2012;2012;Using an ab initio atomistic thermodynamics framework, we identify the;stable surface structures during the early stages of Cu(100) oxidation;at finite temperature and pressure conditions. We predict the clean;surface, the 0.25 monolayer oxygen-covered surface, and the missing-row;reconstruction as thermodynamically stable structures in range of;100-1000 K and 10(-15)-10(5) atm, consistent with previous experimental;and theoretical results. We also investigate the thermodynamic;stabilities of possible precursors to Cu2O formation including;missing-row reconstruction structures that include extra on-or;subsurface oxygen atoms as well as boundary phases formed from two;missing-row nanodomains. While these structures are not predicted to be;thermodynamically stable for oxygen chemical potentials below the;nucleation limit of Cu2O, they are likely to exist due to kinetic;hindrance. DOI: 10.1103/PhysRevB.86.245429;Li, Liang/C-5782-2012;7;0;0;0;7;1098-0121;WOS:000312833400014;;;J;Sakuma, R.;Miyake, T.;Aryasetiawan, F.;Self-energy and spectral function of Ce within the GW approximation;PHYSICAL REVIEW B;86;24;245126;10.1103/PhysRevB.86.245126;DEC 26 2012;2012;To investigate how far the GW approximation can treat systems with;strong on-site correlations, we perform calculations of the;self-energies and spectral functions of alpha-and gamma-Ce within the GW;approximation. For this strongly correlated material, the screened;interaction exhibits a complex and rich structure which is attributed to;strong particle-hole transitions involving localized 4f states. This;structure in the screened interaction is carried over to the;self-energy, which in turn yields spectral functions with multiple;peaks. A satellite at around 5 eV above the Fermi level is formed, which;is reminiscent of the experimentally observed upper Hubbard band, while;the experimentally observed peak structure below the Fermi level at -2;eV and disappearance of the quasiparticle peak in the. phase are not;reproduced. DOI: 10.1103/PhysRevB.86.245126;6;0;0;0;6;1098-0121;WOS:000312833400005;;;J;Schulze, T. P.;Smereka, P.;Kinetic Monte Carlo simulation of heteroepitaxial growth: Wetting;layers, quantum dots, capping, and nanorings;PHYSICAL REVIEW B;86;23;235313;10.1103/PhysRevB.86.235313;DEC 26 2012;2012;A new kinetic Monte Carlo algorithm that efficiently accounts for;elastic strain is presented and applied to study various phenomena that;take place during heteroepitaxial growth. For example, it is;demonstrated that faceted quantum dots occur via the layer-by-layer;nucleation of prepyramids on top of a critical layer with faceting;occurring by anisotropic surface diffusion. It is also shown that the;dot growth is enhanced by the depletion of the critical layer which;leaves behind a wetting layer. Capping simulations provide insight into;the mechanisms behind dot erosion and ring formation. The algorithm used;for the simulations presented here is based on the observation that;adatom and dimer motion is essentially decoupled from the elastic field.;This is exploited by decomposing the film into two parts: the weakly;bonded portion and the strongly bonded portion. The weakly bonded;portion is taken to evolve independent of the elastic field. In this way;the elastic field need only be updated infrequently. Extensive;validation reveals that there is little loss of fidelity but the;algorithm is fifteen to twenty times faster. DOI:;10.1103/PhysRevB.86.235313;Smereka, Peter/F-9974-2013;7;0;0;0;7;1098-0121;WOS:000312832600009;;;J;Shukla, D. K.;Francoual, S.;Skaugen, A.;von Zimmermann, M.;Walker, H. C.;Bezmaternykh, L. N.;Gudim, I. A.;Temerov, V. L.;Strempfer, J.;Ho and Fe magnetic ordering in multiferroic HoFe3(BO3)(4);PHYSICAL REVIEW B;86;22;224421;10.1103/PhysRevB.86.224421;DEC 26 2012;2012;Resonant and nonresonant x-ray scattering studies on HoFe3(BO3)(4);reveal competing magnetic ordering of Ho and Fe moments. Temperature and;x-ray polarization dependent measurements employed at the Ho L-3 edge;directly reveal a spiral spin order of the induced Ho moments in the ab;plane propagating along the c axis, a screw-type magnetic structure. At;about 22.5 K the Fe spins are observed to rotate within the basal plane;inducing spontaneous electric polarization, P. Components of P in the;basal plane and along the c axis can be scaled with the separated;magnetic x-ray scattering intensities of the Fe and Ho magnetic;sublattices, respectively. DOI: 10.1103/PhysRevB.86.224421;Walker, Helen/C-4201-2011; Shukla, Dinesh /D-2232-2012;Walker, Helen/0000-0002-7859-5388;;1;0;0;0;1;1098-0121;WOS:000312831800011;;;J;Smolenski, T.;Kazimierczuk, T.;Goryca, M.;Jakubczyk, T.;Klopotowski, L.;Cywinski, L.;Wojnar, P.;Golnik, A.;Kossacki, P.;In-plane radiative recombination channel of a dark exciton in;self-assembled quantum dots;PHYSICAL REVIEW B;86;24;241305;10.1103/PhysRevB.86.241305;DEC 26 2012;2012;We demonstrate evidence for a radiative recombination channel of dark;excitons in self-assembled quantum dots. This channel is due to a light;hole admixture in the excitonic ground state. Its presence was;experimentally confirmed by a direct observation of the dark exciton;photoluminescence from a cleaved edge of the sample. The;polarization-resolved measurements revealed that a photon created from;the dark exciton recombination is emitted only in the direction;perpendicular to the growth axis. Strong correlation between the dark;exciton lifetime and the in-plane hole g factor enabled us to show that;the radiative recombination is a dominant decay channel of the dark;excitons in CdTe/ZnTe quantum dots. DOI: 10.1103/PhysRevB.86.241305;Cywinski, Lukasz/E-5348-2010;8;0;0;0;8;1098-0121;WOS:000312833400004;;;J;Tahara, H.;Bamba, M.;Ogawa, Y.;Minami, F.;Observation of a dynamical mixing process of exciton-polaritons in a;ZnSe epitaxial layer using four-wave mixing spectroscopy;PHYSICAL REVIEW B;86;23;235208;10.1103/PhysRevB.86.235208;DEC 26 2012;2012;We have observed a coherent spectral change of exciton-polaritons in a;ZnSe epitaxial layer through spectrally resolved four-wave mixing;spectroscopy. The spectra exhibit an exchange of the dominant peak;position between the different polariton branches depending on the delay;time of the second pulse. This result reflects the initial creation;process of polaritons with many-body interactions. The calculation based;on the exciton-photon microscopic model reveals that the spectral change;occurs due to the four-particle correlations between heavy-hole and;light-hole excitons; it clearly shows the dynamical mixing process of;exciton-polaritons in the initial creation. DOI:;10.1103/PhysRevB.86.235208;1;0;0;0;1;1098-0121;WOS:000312832600008;;;J;Tomio, Yuh;Suzuura, Hidekatsu;Ando, Tsuneya;Cross-polarized excitons in double-wall carbon nanotubes;PHYSICAL REVIEW B;86;24;245428;10.1103/PhysRevB.86.245428;DEC 26 2012;2012;Optical absorption in double-wall carbon nanotubes for light polarized;perpendicular to the tube axis is studied by taking into account exciton;effects and depolarization effects within an effective-mass theory. The;Coulomb interaction is suppressed by not only intrawall screening;effects but also interwall screening, leading to the reduction of;exciton binding energies and band gaps. When two tubes are both;semiconducting, a clear exciton peak still survives even under;depolarization effects for the outer tube, but the exciton peak of the;inner tube has an asymmetric Fano line shape due to the coupling with;continuum states of the outer tube. When a double-wall nanotube contains;a metallic tube, either inner or outer, the exciton of the;semiconducting tube loses its peak structure under depolarization;effects. DOI: 10.1103/PhysRevB.86.245428;SUZUURA, Hidekatsu/F-7605-2012;0;0;0;0;0;1098-0121;WOS:000312833400013;;;J;Tsvelik, A. M.;Model description of the supersolid state in YBa2Cu3O6+x;PHYSICAL REVIEW B;86;22;220508;10.1103/PhysRevB.86.220508;DEC 26 2012;2012;I employ a semiphenomenological model introduced by Tsvelik and Chubukov;[Phys. Rev. Lett. 98, 237001 (2007)] to describe the state with;coexisting superconductivity (SC) and charge density wave (CDW) recently;discovered in YBa2Cu3O6+x (YBCO). The SC and the CDW order parameter;fields are united in a single pseudospin and can be rotated into each;other. It is suggested that disorder creates isolated pseudospins which;become centers of inelastic scattering of electrons. It is suggested;that this scattering is responsible for the logarithmic upturn in the;resistivity rho(T) similar to - ln T observed at low doping. DOI:;10.1103/PhysRevB.86.220508;0;0;0;0;0;1098-0121;WOS:000312831800003;;;J;Uebelacker, Stefan;Honerkamp, Carsten;Self-energy feedback and frequency-dependent interactions in the;functional renormalization group flow for the two-dimensional Hubbard;model;PHYSICAL REVIEW B;86;23;235140;10.1103/PhysRevB.86.235140;DEC 26 2012;2012;We study the impact of including self-energy feedback and;frequency-dependent interactions on functional renormalization group;flows for the two-dimensional Hubbard model on the square lattice at;weak to moderate coupling strength. Previous studies using the;functional renormalization group had ignored these two ingredients to a;large extent, and the question is how much the flows to strong coupling;analyzed by this method depend on these approximations. Here we include;the imaginary part of the self-energy on the imaginary axis and the;frequency dependence of the running interactions on a frequency mesh of;10 frequencies on the Matsubara axis. We find that (i) the critical;scales for the flows to strong coupling are shifted downward by a factor;that is usually of order 1 but can get larger in specific parameter;regions, and (ii) that the leading channel in this flow does not depend;strongly on whether self-energies and frequency dependence is included;or not. We also discuss the main features of the self-energies;developing during the flows. DOI: 10.1103/PhysRevB.86.235140;5;0;0;0;5;1098-0121;WOS:000312832600002;;;J;Velizhanin, Kirill A.;Shahbazyan, Tigran V.;Long-range plasmon-assisted energy transfer over doped graphene;PHYSICAL REVIEW B;86;24;245432;10.1103/PhysRevB.86.245432;DEC 26 2012;2012;We demonstrate that longitudinal plasmons in doped monolayer graphene;can mediate highly efficient long-range energy transfer between nearby;fluorophores, e.g., semiconductor quantum dots. We derive a simple;analytical expression for the energy transfer efficiency that;incorporates all the essential processes involved. We perform numerical;calculations of the transfer efficiency for a pair of PbSe quantum dots;near graphene for interfluorophore distances of up to 1 mu m and find;that the plasmon-assisted long-range energy transfer can be enhanced by;up to a factor of similar to 10(4) relative to the Forster's transfer in;vacuum.;Velizhanin, Kirill/C-4835-2008;3;0;0;0;3;1098-0121;WOS:000312833400017;;;J;Vivo, Edoardo;Nicoli, Matteo;Engler, Martin;Michely, Thomas;Vazquez, Luis;Cuerno, Rodolfo;Strong anisotropy in surface kinetic roughening: Analysis and;experiments;PHYSICAL REVIEW B;86;24;245427;10.1103/PhysRevB.86.245427;DEC 26 2012;2012;We report an experimental assessment of surface kinetic roughening;properties that are anisotropic in space. Working for two specific;instances of silicon surfaces irradiated by ion-beam sputtering under;diverse conditions (with and without concurrent metallic impurity;codeposition), we verify the predictions and consistency of a recently;proposed scaling Ansatz for surface observables like the two-dimensional;(2D) height power spectral density (PSD). In contrast with other;formulations, this ansatz is naturally tailored to the study of;two-dimensional surfaces, and allows us to readily explore the;implications of anisotropic scaling for other observables, such as;real-space correlation functions and PSD functions for 1D profiles of;the surface. Our results confirm that there are indeed actual;experimental systems whose kinetic roughening is strongly anisotropic,;as consistently described by this scaling analysis. In the light of our;work, some types of experimental measurements are seen to be more;affected by issues like finite space resolution effects, etc. that may;hinder a clear-cut assessment of strongly anisotropic scaling in the;present and other practical contexts. DOI: 10.1103/PhysRevB.86.245427;VAZQUEZ, LUIS/A-1272-2009;VAZQUEZ, LUIS/0000-0001-6220-2810;2;0;0;0;2;1098-0121;WOS:000312833400012;;;J;Weiler, S.;Ulhaq, A.;Ulrich, S. M.;Richter, D.;Jetter, M.;Michler, P.;Roy, C.;Hughes, S.;Phonon-assisted incoherent excitation of a quantum dot and its emission;properties;PHYSICAL REVIEW B;86;24;241304;10.1103/PhysRevB.86.241304;DEC 26 2012;2012;We present a detailed study of a phonon-assisted incoherent excitation;mechanism of single quantum dots. A spectrally detuned continuous-wave;laser couples to a quantum dot transition by mediation of acoustic;phonons, whereby excitation efficiencies up to 20% with respect to;strictly resonant excitation can be achieved at T = 9 K.;Laser-frequency-dependent analysis of the quantum dot intensity;distinctly maps the underlying acoustic phonon bath and shows good;agreement with our polaron master equation theory. An analytical;solution for the steady-state exciton density (which is proportional to;the photoluminescence) is introduced which predicts a broadband;incoherent coupling process mediated by electron-phonon scattering.;Moreover, we investigate the coherence properties of the emitted light;with respect to strictly resonant versus phonon-assisted excitation,;revealing the importance of narrow band triggered emitter-state;initialization for possible applications of a quantum dot exciton system;as a qubit. DOI: 10.1103/PhysRevB.86.241304;Jetter, Michael/I-8270-2012;8;0;0;0;8;1098-0121;WOS:000312833400003;;;J;Zhang, L.;Schwertfager, N.;Cheiwchanchamnangij, T.;Lin, X.;Glans-Suzuki, P. -A.;Piper, L. F. J.;Limpijumnong, S.;Luo, Y.;Zhu, J. F.;Lambrecht, W. R. L.;Guo, J. -H.;Electronic band structure of graphene from resonant soft x-ray;spectroscopy: The role of core-hole effects;PHYSICAL REVIEW B;86;24;245430;10.1103/PhysRevB.86.245430;DEC 26 2012;2012;The electronic structure and band dispersion of graphene on SiO2 have;been studied by x-ray-absorption spectroscopy (XAS), x-ray-emission;spectroscopy (XES), and resonant inelastic x-ray scattering (RIXS).;Using first-principles calculations, it is found that the core-hole;effect is dramatic in XAS while it has negligible consequences in XES.;Strong dispersive features, due to the conservation of crystal momentum,;are observed in RIXS spectra. Simulated RIXS spectra based on the;Kramers-Heisenberg theory agree well with the experimental results,;provided a shift between RIXS and XAS due to the absence or presence of;the core hole is taken into account. DOI: 10.1103/PhysRevB.86.245430;Luo, Yi/B-1449-2009; Zhu, Junfa/E-4020-2010;Luo, Yi/0000-0003-0007-0394; Zhu, Junfa/0000-0003-0888-4261;10;1;0;0;10;1098-0121;WOS:000312833400015;;;J;Zhang, Steven S. -L.;Zhang, Shufeng;Spin convertance at magnetic interfaces;PHYSICAL REVIEW B;86;21;214424;10.1103/PhysRevB.86.214424;DEC 26 2012;2012;Exchange interaction between conduction electrons and magnetic moments;at magnetic interfaces leads to mutual conversion between spin current;and magnon current. We introduce a concept of spin convertance which;quantitatively measures magnon current induced by spin accumulation and;spin current created by magnon accumulation at a magnetic interface. We;predict several phenomena on charge and spin drag across a magnetic;insulator spacer for a few layered structures. DOI:;10.1103/PhysRevB.86.214424;Zhang, Shufeng/G-7833-2011;10;1;0;0;10;1098-0121;WOS:000312830400003;;;J;Nakhmedov, Enver;Alekperov, Oktay;Oppermann, Reinhold;Effects of randomness on the critical temperature in;quasi-two-dimensional organic superconductors;PHYSICAL REVIEW B;86;21;214513;10.1103/PhysRevB.86.214513;DEC 21 2012;2012;The effects of nonmagnetic disorder on the critical temperature T-c of;organic weak-linked layered superconductors with singlet in-plane;pairing are considered. A randomness in the interlayer Josephson;coupling is shown to destroy phase coherence between the layers, and T-c;suppresses smoothly in a large extent of the disorder strength.;Nevertheless, the disorder of arbitrarily high strength cannot destroy;completely the superconducting phase. The obtained quasilinear decrease;of the critical temperature with increasing disorder strength is in good;agreement with experimental measurements. DOI:;10.1103/PhysRevB.86.214513;0;0;0;0;0;1098-0121;WOS:000312693200004;;;J;Sanson, Andrea;Giarola, Marco;Rossi, Barbara;Mariotto, Gino;Cazzanelli, Enzo;Speghini, Adolfo;Vibrational dynamics of single-crystal YVO4 studied by polarized;micro-Raman spectroscopy and ab initio calculations;PHYSICAL REVIEW B;86;21;214305;10.1103/PhysRevB.86.214305;DEC 21 2012;2012;The vibrational properties of yttrium orthovanadate (YVO4) single;crystals, with tetragonal zircon structure, have been investigated by;means of polarized micro-Raman spectroscopy and ab initio calculations.;Raman spectra were taken at different polarizations and orientations;carefully set by the use of a micromanipulator, so that all of the;twelve Raman-active modes, expected on the basis of the group theory,;were selected in turn and definitively assigned in wave number and;symmetry. In particular the E-g(4) mode, assigned incorrectly in;previous literature, has been observed at 387 cm(-1). Moreover, the very;weak E-g(1) mode, peaked at about 137 cm(-1), was clearly observed only;under some excitation wavelengths, and its peculiar Raman excitation;profile was measured within a wide region of the visible. Finally, ab;initio calculations based on density-functional theory have been;performed in order to determine both Raman and infrared vibrational;modes and to corroborate the experimental results. The rather good;agreement between computational and experimental frequencies is slightly;better than in previous computational works and supports our;experimental symmetry assignments. DOI: 10.1103/PhysRevB.86.214305;Mariotto, Gino/B-1629-2013; Speghini, Adolfo/G-3474-2012;1;0;0;0;1;1098-0121;WOS:000312693200002;;;J;Thomson, R. I.;Jain, P.;Cheetham, A. K.;Carpenter, M. A.;Elastic relaxation behavior, magnetoelastic coupling, and order-disorder;processes in multiferroic metal-organic frameworks;PHYSICAL REVIEW B;86;21;214304;10.1103/PhysRevB.86.214304;DEC 21 2012;2012;Resonant ultrasound spectroscopy has been used to analyze magnetic and;ferroelectric phase transitions in two multiferroic metal-organic;frameworks (MOFs) with perovskite-like structures;[(CH3)(2)NH2]M(HCOO)(3)(DMA[M] F, M = Co, Mn). Elastic and anelastic;anomalies are evident at both the magnetic ordering temperature and;above the higher temperature ferroelectric transition. Broadening of;peaks above the ferroelectric transition implies the diminishing;presence of a dynamic process and is caused by an ordering of the;central DMA ([(CH3)(2)NH2](+)) cation which ultimately causes a change;in the hydrogen bond conformation and provides the driving mechanism for;ferroelectricity. This is unlike traditional mechanisms for;ferroelectricity in perovskites which typically involve ionic;displacements. A comparison of these mechanisms is made by drawing on;examples from the literature. Small elastic stiffening at low;temperatures suggests weak magnetoelastic coupling in these materials.;This behavior is consistent with other magnetic systems studied,;although there is no change in Q(-1) associated with magnetic;order-disorder, and is the first evidence of magnetoelastic coupling in;MOFs. This could help lead to the tailoring of MOFs with a larger;coupling leading to magnetoelectric coupling via a common strain;mechanism. DOI: 10.1103/PhysRevB.86.214304;Jain, Prashant/C-8135-2009;15;4;0;0;15;1098-0121;WOS:000312693200001;;;J;Yin, Junqi;Eisenbach, Markus;Nicholson, Don M.;Rusanu, Aurelian;Effect of lattice vibrations on magnetic phase transition in bcc iron;PHYSICAL REVIEW B;86;21;214423;10.1103/PhysRevB.86.214423;DEC 21 2012;2012;The most widely taught example of a magnetic transition is that of Fe at;1043 K. Despite the high temperature most discussions of this transition;focus on the magnetic states of a fixed spin lattice with lattice;vibrations analyzed separately and simply added. We propose a model of;alpha iron that fully couples spin and displacement degrees of freedom.;Results demonstrate a significant departure from models that treat these;coordinates independently. The success of the model rests on a first;principles calculation of changes in energy with respect to spin;configurations on a bcc-iron lattice with displacements. Complete;details of environment-dependent exchange interactions that augment the;Finnis-Sinclair potential are given and comparisons to measurements are;made. We find that coupling has no effect on critical exponents, a small;effect on the transition temperature, T-c, and a large effect on the;entropy of transformation. DOI: 10.1103/PhysRevB.86.214423;Ni, Daye/F-6920-2014;5;0;0;0;5;1098-0121;WOS:000312693200003;;;J;Butler, Keith T.;Harding, John H.;Atomistic simulation of doping effects on growth and charge transport in;Si/Ag interfaces in high-performance solar cells;PHYSICAL REVIEW B;86;24;245319;10.1103/PhysRevB.86.245319;DEC 21 2012;2012;We present the results of a first-principles atomistic simulation study;of the effects of phosphorus doping on the silver/silicon interface as;found in high-performance solar cells. Calculating the interfacial;stabilities of the (110)/(110) and (111)/(111) interfaces we demonstrate;how the presence of phosphorus increases the nucleation rate of silver;crystallites and how the relative stabilities of the interfaces depend;on the doping. We then calculate the electronic structure of the;interfaces, demonstrating how the presence of phosphorus leads to a;buildup of positive charge in the silicon and an opposite negative;charge in the silver. Finally we show how this charge buildup;significantly affects the n-type Schottky barriers at the interfaces, in;both cases lowering the Schottky barrier by more than 100 meV. DOI:;10.1103/PhysRevB.86.245319;4;0;0;0;4;1098-0121;WOS:000312697500004;;;J;Carbotte, J. P.;Schachinger, E.;c-axis optical sum in underdoped superconducting cuprates;PHYSICAL REVIEW B;86;22;224512;10.1103/PhysRevB.86.224512;DEC 21 2012;2012;In conventional metals, the total optical spectral weight under the real;part of the dynamical conductivity remains unchanged in going from;normal to superconducting state. In the underdoped cuprates, however,;experiments found that the interlayer conductivity no longer respects;this sum rule. Here, we find that a recently proposed phenomenological;model of the pseudogap state which is based on ideas of a resonating;valence bond spin liquid naturally leads to such a sum-rule violation.;For the interplane charge transfer, a coherent tunneling model is used.;We also obtain analytic results based on a simplification of the theory;which reduces it to an arc model. This provides further insight into the;effect of the opening of a pseudogap on the c-axis optical conductivity;Re[sigma(c)(omega)]. The missing area under Re[sigma(c)(omega)];normalized to the superfluid density, which is found to be one in the;Fermi-liquid limit with no pseudogap, is considerably reduced when the;pseudogap becomes large and the size of the Luttinger pockets or arcs is;small.;2;0;0;0;2;1098-0121;WOS:000312693900004;;;J;Das Sarma, S.;Sau, Jay D.;Stanescu, Tudor D.;Splitting of the zero-bias conductance peak as smoking gun evidence for;the existence of the Majorana mode in a superconductor-semiconductor;nanowire;PHYSICAL REVIEW B;86;22;220506;10.1103/PhysRevB.86.220506;DEC 21 2012;2012;Recent observations of a zero-bias conductance peak in tunneling;transport measurements in superconductor-semiconductor nanowire devices;provide evidence for the predicted zero-energy Majorana modes, but not;the conclusive proof of their existence. We establish that direct;observation of a splitting of the zero-bias conductance peak can serve;as the smoking gun evidence for the existence of the Majorana mode. We;show that the splitting has an oscillatory dependence on the Zeeman;field (chemical potential) at fixed chemical potential (Zeeman field).;By contrast, when the density is constant rather than the chemical;potential-the likely situation in the current experimental setups-the;splitting oscillations are generically suppressed. Our theory predicts;the conditions under which the splitting oscillations can serve as the;smoking gun for the experimental confirmation of the elusive Majorana;mode.;Das Sarma, Sankar/B-2400-2009;23;0;0;0;23;1098-0121;WOS:000312693900001;;;J;Durach, Maxim;Rusina, Anastasia;Transforming Fabry-Perot resonances into a Tamm mode;PHYSICAL REVIEW B;86;23;235312;10.1103/PhysRevB.86.235312;DEC 21 2012;2012;We propose an optical structure composed of two metal nanolayers;enclosing a distributed Bragg reflector (DBR) mirror. The structure is;an open photonic system whose bound modes are coupled to external;radiation. We apply the special theoretical treatment based on inversion;symmetry of the structure to classify its resonances. We show that the;structure supports resonances transitional between Fabry-Perot modes and;Tamm plasmons. When the dielectric contrast of the DBR is removed these;modes are a pair of conventional Fabry-Perot resonances. They spectrally;merge into a Tamm mode at high contrast. The optical properties of the;structure in the frequency range of the DBR stop band, including highly;beneficial 50% transmittivity through thick structures with;sub-skin-depth metal films, are determined by the hybrid quasinormal;modes of the open nonconservative structure under consideration. The;results can find a broad range of applications in photonics and;optoelectronics, including the possibility of coherent control over;optical fields in the class of structures similar to the one proposed;here. DOI: 10.1103/PhysRevB.86.235312;3;0;1;0;4;1098-0121;WOS:000312694800003;;;J;Gumeniuk, Roman;Sarkar, Rajib;Geibel, Christoph;Schnelle, Walter;Paulmann, Carsten;Baenitz, Michael;Tsirlin, Alexander A.;Guritanu, Violeta;Sichelschmidt, Joerg;Grin, Yuri;Leithe-Jasper, Andreas;YbPtGe2: A multivalent charge-ordered system with an unusual spin;pseudogap;PHYSICAL REVIEW B;86;23;235138;10.1103/PhysRevB.86.235138;DEC 21 2012;2012;We performed a study of the structural and physical properties of;YbPtGe2. This compound is a multivalent charge-ordered system presenting;an unusual spin pseudogap below 200 K. The crystal structure of YbPtGe2;is refined from single-crystal and powder high-resolution synchrotron;x-ray diffraction data at different temperatures. Analysis of the;structural features of YbPtGe2, together with a combined study of Yb;L-III x-ray absorption spectroscopy, magnetic susceptibility chi(T),;thermopower S(T), and Yb-171 and Pt-195 NMR indicate half of the Yb;atoms to be in an intermediate valence state with an electronic;configuration close to 4f(13) (Yb3+), while for the remaining Yb atoms;the 4f(14) (Yb2+) configuration with almost no valence fluctuations is;most likely. A drastic drop of the magnetic susceptibility and a;decrease of the isotropic shift K-195(iso)(T) with decreasing;temperature in the temperature range of 50-200 K evidence the opening of;a spin pseudogap with an activation energy of Delta/k(B) similar to 200;K. Surprisingly, transport properties do not show clear evidence for the;opening of a charge gap, thus excluding a standard Kondo-insulator;scenario. Possible origins for this unusual electronic (valence);behavior are discussed. DOI: 10.1103/PhysRevB.86.235138;Sichelschmidt, Joerg/A-6005-2013; Sarkar, Rajib/G-9738-2011; Tsirlin, Alexander/D-6648-2013;3;1;0;0;3;1098-0121;WOS:000312694800002;;;J;Ivek, T.;Kovacevic, I.;Pinteric, M.;Korin-Hamzic, B.;Tomic, S.;Knoblauch, T.;Schweitzer, D.;Dressel, M.;Cooperative dynamics in charge-ordered state of alpha-(BEDT-TTF)(2)I-3;PHYSICAL REVIEW B;86;24;245125;10.1103/PhysRevB.86.245125;DEC 21 2012;2012;Electric-field-dependent pulse measurements are reported in the;charge-ordered state of alpha-(BEDT-TTF)(2)I-3. At low electric fields;up to about 50 V/cm only negligible deviations from Ohmic behavior can;be identified with no threshold field. At larger electric fields and up;to about 100 V/cm a reproducible negative differential resistance is;observed with a significant change in shape of the measured resistivity;in time. These changes critically depend on whether constant voltage or;constant current is applied to the single crystal. At high enough;electric fields the resistance displays a dramatic drop down to metallic;values and relaxes subsequently in a single-exponential manner to its;low-field steady-state value. We argue that such an;electric-field-induced negative differential resistance and switching to;transient states are fingerprints of cooperative domain-wall dynamics;inherent to two-dimensional bond-charge density waves with;ferroelectric-like nature. DOI: 10.1103/PhysRevB.86.245125;Dressel, Martin/D-3244-2012; Ivek, Tomislav/D-5298-2011; Tomic, Silvia/D-5466-2011;3;0;0;0;3;1098-0121;WOS:000312697500002;;;J;Katanin, A.;Longitudinal and transverse static spin fluctuations in layered;ferromagnets and antiferromagnets;PHYSICAL REVIEW B;86;22;224416;10.1103/PhysRevB.86.224416;DEC 21 2012;2012;We analyze the momentum dependence of static susceptibilities of layered;local-moment systems below Curie (Neel) temperature within the 1/S;expansion, the renormalization-group (RG) approach, and the first order;of the 1/N expansion. We argue that already at sufficiently low;temperatures the previously known results of the spin-wave theory and RG;approach for the transverse spin susceptibility acquire strong;corrections, which appear due to the interaction of the incoming magnon;having momentum q with virtual magnons having momenta k < q. Such;corrections cannot be treated in the standard RG approach but can be;described by both 1/S and 1/N expansions. The results of these;expansions can be successfully extrapolated to T = T-M, yielding the;correct weight of static spin fluctuations, determined by the O(3);symmetry. For the longitudinal susceptibility, the summation of leading;terms of the 1/S expansion within the parquet approach allows us to;fulfill the sum rule for the weights of transverse and longitudinal;fluctuations in a broad temperature region below T-M outside the;critical regime. We also discuss the effect of longitudinal spin;fluctuations on the (sublattice) magnetization of layered systems.;Katanin, Andrey/J-4706-2013;Katanin, Andrey/0000-0003-1574-657X;0;0;0;0;0;1098-0121;WOS:000312693900002;;;J;Liu, Jingbo;Mendis, Rajind;Mittleman, Daniel M.;Designer reflectors using spoof surface plasmons in the terahertz range;PHYSICAL REVIEW B;86;24;241405;10.1103/PhysRevB.86.241405;DEC 21 2012;2012;We show that spoof surface plasmons can be used to control the;reflection of terahertz radiation at the output facet of a;parallel-plate waveguide. Using a periodic groove pattern on the output;face, reflectivity approaching 100% can be achieved within a limited;spectral range. Unlike the conventional geometry for plasmon-enhanced;transmission, this approach enables a unique method for studying the;coupling between the guided mode and the surface plasmon through;angle-dependent measurement of the plasmon-mediated reflection. A simple;model incorporating the surface plasmon coupling to the waveguide mode;can adequately explain all of the observed phenomena, including the;observed Goos-Hanchen shift in the reflected beam. DOI:;10.1103/PhysRevB.86.241405;2;0;0;0;2;1098-0121;WOS:000312697500001;;;J;Sato, Toshihiro;Hattori, Kazumasa;Tsunetsugu, Hirokazu;Transport criticality at the Mott transition in a triangular-lattice;Hubbard model;PHYSICAL REVIEW B;86;23;235137;10.1103/PhysRevB.86.235137;DEC 21 2012;2012;We study electric transport near the Mott metal-insulator transition in;a triangular-lattice Hubbard model at half filling. We calculate optical;conductivity sigma(omega) based on a cellular dynamical mean-field;theory including vertex corrections inside the cluster. Near the Mott;critical end point, a Drude analysis in the metallic region suggests;that the change in the Drude weight is important rather than that in the;transport scattering rate for the Mott transition. In the insulating;region, there emerges an "in-gap" peak in sigma(omega) at low omega near;the Mott transition, and this smoothly connects to the Drude peak in the;metallic region with decreasing Coulomb repulsion. We find that the;weight of these peaks exhibits a power-law behavior upon controlling;Coulomb repulsion at the critical temperature. The obtained critical;exponent suggests that conductivity does not correspond to magnetization;or energy density of the Ising universality class in contrast to several;previous works. DOI: 10.1103/PhysRevB.86.235137;Hattori, Kazumasa/B-2554-2013;1;0;0;0;1;1098-0121;WOS:000312694800001;;;J;Schaffer, Robert;Bhattacharjee, Subhro;Kim, Yong Baek;Quantum phase transition in Heisenberg-Kitaev model;PHYSICAL REVIEW B;86;22;224417;10.1103/PhysRevB.86.224417;DEC 21 2012;2012;We explore the nature of the quantum phase transition between a;magnetically ordered state with collinear spin pattern and a gapless;Z(2) spin liquid in the Heisenberg-Kitaev model. We construct a slave;particle mean-field theory for the Heisenberg-Kitaev model in terms of;complex fermionic spinons. It is shown that this theory, formulated in;the appropriate basis, is capable of describing the Kitaev spin liquid;as well as the transition between the gapless Z(2) spin liquid and the;so-called stripy antiferromagnet. Within our mean-field theory, we find;a discontinuous transition from the Z(2) spin liquid to the stripy;antiferromagnet. We argue that subtle spinon confinement effects,;associated with the instability of gapped U(1) spin liquid in two;spatial dimensions, play an important role at this transition. The;possibility of an exotic continuous transition is briefly addressed.;13;0;0;0;13;1098-0121;WOS:000312693900003;;;J;Schaich, W. L.;Puscasu, Irina;Tuning infrared emission from microstrip arrays;PHYSICAL REVIEW B;86;24;245423;10.1103/PhysRevB.86.245423;DEC 21 2012;2012;Earlier work has shown that a narrow-frequency-band, wide-angle emission;is produced by an array of metal patches supported on a thin dielectric;layer covering a ground plane. The modes responsible for this emission;are local plasmons trapped under the metal patches. As the dielectric;layer thickness, h(d), is increased, the resonant emission fades in;strength because the plasmon modes can no longer be trapped under a;single patch. Further increases in h(d), making it comparable to the;light wavelength in the dielectric layer, lead to a collection of new;emission peaks. These are narrower than the one peak found for small;h(d) but they are not well separated. We have found that some of these;peaks can be suppressed over a narrow range of h(d). This leaves one;with well-separated, narrow-band emission peaks. We have identified the;physical mechanism for this selective suppression of emission peaks.;DOI: 10.1103/PhysRevB.86.245423;0;0;0;0;0;1098-0121;WOS:000312697500005;;;J;Teperik, T. V.;Degiron, A.;Design strategies to tailor the narrow plasmon-photonic resonances in;arrays of metallic nanoparticles;PHYSICAL REVIEW B;86;24;245425;10.1103/PhysRevB.86.245425;DEC 21 2012;2012;Arrays of metallic nanoparticles can support mixed plasmon-photonic;resonances known as lattice surface modes. Their properties are well;known, but a general strategy to control their properties is still;lacking. In this article, we offer a perspective on the formation of;these modes and show that their excitation depends on constructive and;destructive interferences between the excitation field and the light;scattered by the resonant nanoparticles. It is therefore possible to;design the response of the system through a careful choice of the;excitation conditions and/or by tuning the polarizability of the;particles forming the periodic arrays. DOI: 10.1103/PhysRevB.86.245425;10;0;0;0;10;1098-0121;WOS:000312697500007;;;J;Thakurathi, Manisha;Sen, Diptiman;Dutta, Amit;Fidelity susceptibility of one-dimensional models with twisted boundary;conditions;PHYSICAL REVIEW B;86;24;245424;10.1103/PhysRevB.86.245424;DEC 21 2012;2012;Recently it has been shown that the fidelity of the ground state of a;quantum many-body system can be used todetect its quantum critical;points (QCPs). If g denotes the parameter in the Hamiltonian with;respect to which the fidelity is computed, we find that for;one-dimensional models with large but finite size, the fidelity;susceptibility chi(F) can detect a QCP provided that the correlation;length exponent satisfies nu < 2. We then show that chi(F) can be used;to locate a QCP even if nu >= 2 if we introduce boundary conditions;labeled by a twist angle N theta, where N is the system size. If the QCP;lies at g = 0, we find that if N is kept constant, chi(F) has a scaling;form given by chi(F) similar to theta(-2/nu) f (g/theta(1/nu)) if theta;<< 2 pi/N. We illustrate this both in a tight-binding model of fermions;with a spatially varying chemical potential with amplitude h and period;2q in which nu = q, and in a XY spin-1/2 chain in which nu = 2. Finally;we show that when q is very large, the model has two additional QCPs at;h = +/- 2 which cannot be detected by studying the energy spectrum but;are clearly detected by chi(F). The peak value and width of chi(F) seem;to scale as nontrivial powers of q at these QCPs. We argue that these;QCPs mark a transition between extended and localized states at the;Fermi energy. DOI: 10.1103/PhysRevB.86.245424;3;0;0;0;3;1098-0121;WOS:000312697500006;;;J;Thalmeier, Peter;Akbari, Alireza;Inelastic magnetic scattering effect on local density of states of;topological insulators;PHYSICAL REVIEW B;86;24;245426;10.1103/PhysRevB.86.245426;DEC 21 2012;2012;Magnetic ions such as Fe, Mn, and Co with localized spins may be;adsorbed on the surface of topological insulators such as Bi2Se3. They;form scattering centers for the helical surface states which have a;Dirac cone dispersion as long as the local spins are disordered.;However, the local density of states (LDOS) may be severely modified by;the formation of bound states. Commonly, only elastic scattering due to;normal and exchange potentials of the adatom is assumed. Magnetization;measurements show, however, that considerable magnetic single-ion;anisotropies exist which lead to a splitting of the local impurity spin;states, resulting in a singlet ground state. Therefore inelastic;scattering processes of helical Dirac electrons become possible, as;described by a dynamical local self-energy of second order in the;exchange interaction. The self energy influences bound-state formation;and leads to significant new anomalies in the LDOS at low energies and;low temperatures, which we calculate within the T-matrix approach. We;propose that they may be used for spectroscopy of local impurity spin;states by appropriate tuning of the chemical potential and magnetic;field. DOI: 10.1103/PhysRevB.86.245426;Akbari, Alireza/A-3738-2012;0;0;0;0;0;1098-0121;WOS:000312697500008;;;J;Ungier, W.;Wilamowski, Z.;Jantsch, W.;Spin-orbit force due to Rashba coupling at the spin resonance condition;PHYSICAL REVIEW B;86;24;245318;10.1103/PhysRevB.86.245318;DEC 21 2012;2012;We analyze the effect of Rashba type of spin-orbit (SO) coupling on the;electron dynamics and the rf electrical conductivity. We show that in;addition to the momentum current an additional SO current occurs which;can be attributed to a SO contribution to the electric Lorentz force.;This Rashba SO force is proportional to the time derivative of the;electron magnetization. Therefore, in a static electromagnetic field SO;interaction does not affect the electric or the spin current. Applying;an rf electric current, however, an rf magnetization can be efficiently;induced via the rf Rashba field. Thus, at the Larmor frequency a;characteristic current induced electron spin resonance occurs. There the;absorbed electric power is efficiently converted into magnetic energy.;DOI: 10.1103/PhysRevB.86.245318;1;0;0;0;1;1098-0121;WOS:000312697500003;;;J;Chen, Xie;Wen, Xiao-Gang;Chiral symmetry on the edge of two-dimensional symmetry protected;topological phases;PHYSICAL REVIEW B;86;23;235135;10.1103/PhysRevB.86.235135;DEC 20 2012;2012;Symmetry protected topological (SPT) states are short-range entangled;states with symmetry. The boundary of a SPT phases has either gapless;excitations or degenerate ground states, around a gapped bulk. Recently,;we proposed a systematic construction of SPT phases in interacting;bosonic systems, however it is not very clear what is the form of the;low-energy excitations on the gapless edge. In this paper, we answer;this question for two-dimensional (2D) bosonic SPT phases with Z(N) and;U(1) symmetry. We find that while the low-energy modes of the gapless;edges are nonchiral, symmetry acts on them in a "chiral" way, i.e., acts;on the right movers and the left movers differently. This special;realization of symmetry protects the gaplessness of the otherwise;unstable edge states by prohibiting a direct scattering between the left;and right movers. Moreover, understanding of the low-energy effective;theory leads to experimental predictions about the SPT phases. In;particular, we find that all the 2D U(1) SPT phases have even integer;quantized Hall conductance. DOI: 10.1103/PhysRevB.86.235135;12;1;1;0;12;1098-0121;WOS:000312694400001;;;J;Croy, Alexander;Midtvedt, Daniel;Isacsson, Andreas;Kinaret, Jari M.;Nonlinear damping in graphene resonators;PHYSICAL REVIEW B;86;23;235435;10.1103/PhysRevB.86.235435;DEC 20 2012;2012;Based on a continuum mechanical model for single-layer graphene, we;propose and analyze a microscopic mechanism for dissipation in;nanoelectromechanical graphene resonators. We find that coupling between;flexural modes and in-plane phonons leads to linear and nonlinear;damping of out-of-plane vibrations. By tuning external parameters such;as bias and ac voltages, one can cross over from a linear-to a;nonlinear-damping dominated regime. We discuss the behavior of the;effective quality factor in this context. DOI:;10.1103/PhysRevB.86.235435;Isacsson, Andreas/A-6932-2008; Croy, Alexander/D-4149-2013;Croy, Alexander/0000-0001-9296-9350;13;1;0;0;13;1098-0121;WOS:000312694400004;;;J;Juarez-Reyes, L.;Pastor, G. M.;Stepanyuk, V. S.;Tuning substrate-mediated magnetic interactions by external surface;charging: Co and Fe impurities on Cu(111);PHYSICAL REVIEW B;86;23;235436;10.1103/PhysRevB.86.235436;DEC 20 2012;2012;The substrate-mediated magnetic interactions between substitutional Co;and Fe impurities at the Cu(111) surface have been theoretically;investigated as a function of external surface charging. The;modification of the interactions as a result of the metallic screening;and charge rearrangements are determined self-consistently from first;principles by using the Green's-function Korringa-Kohn-Rostoker method.;As in the neutral Cu(111) surface, the effective magnetic exchange;coupling Delta E between impurities shows;Ruderman-Kittel-Kasuya-Yosida-like (RKKY) oscillations as a function of;the interimpurity distance. At large interimpurity distances, the;wavelength of the RKKY oscillation is not significantly affected by the;value and polarity of the external surface charge. Still, important;changes in the magnitude of Delta E are observed. For short distances,;up to fourth nearest neighbors, surface charging offers remarkable;possibilities of controlling the sign and strength of the magnetic;coupling. A nonmonotonous dependence of Delta E, including changes from;ferromagnetic to antiferromagnetic coupling, is observed as a function;of overlayer charging. The charge-induced changes in the surface;electronic structure, local magnetic moments, electronic densities of;states, and interaction energies are analyzed from a local perspective.;The resulting possibilities of manipulating the magnetic interactions in;surface nanostructures are discussed. DOI: 10.1103/PhysRevB.86.235436;2;0;0;0;2;1098-0121;WOS:000312694400005;;;J;Kurahashi, M.;Sun, X.;Yamauchi, Y.;Magnetic properties of O-2 adsorbed on Cu(100): A spin-polarized;metastable He beam study;PHYSICAL REVIEW B;86;24;245421;10.1103/PhysRevB.86.245421;DEC 20 2012;2012;Magnetic properties of O-2 adsorbed on Cu(100) were investigated by;monitoring the spin dependence in Penning ionization of metastable;He(2(3)S) under external magnetic fields of 0-5 T. A clear spin;polarization was found for the 3 sigma and 1 pi(u) orbitals of;physisorbed O-2 under external fields, while the spin polarization;disappeared when O-2 was changed into the chemisorbed state at >50 K.;The magnetic susceptibility at the surface of multilayer and monolayer;of physisorbed O-2 on Cu(100) was similar to that for the bulk liquid;O-2. Observed exchange splittings and spin polarization suggest that a;physisorbed O-2 molecule has a magnetic moment close to that for an;isolated O-2 molecule even at submonolayer coverages, while a density;functional theory calculation predicts a much reduced magnetic moment;for O-2 directly adsorbed on Cu(100). DOI: 10.1103/PhysRevB.86.245421;KURAHASHI, Mitsunori/H-2801-2011;1;0;0;0;1;1098-0121;WOS:000312696900004;;;J;Livneh, Y.;Klipstein, P. C.;Klin, O.;Snapi, N.;Grossman, S.;Glozman, A.;Weiss, E.;k . p model for the energy dispersions and absorption spectra of;InAs/GaSb type-II superlattices;PHYSICAL REVIEW B;86;23;235311;10.1103/PhysRevB.86.235311;DEC 20 2012;2012;We have fitted the k . p model derived recently by one of the authors;[Klipstein, Phys. Rev. B 81, 235314 (2010)] to experimentally measured;photoabsorption spectra at 77 and 300 K for representative InAs/GaSb;superlattices with band-gap wavelengths between 4.3 and 10.5 mu m. The;model is able to reproduce the main features of the absorption spectra,;including a strong peak from the zone boundary HH2 -> E-1 transition. We;have also used the same model to predict the band-gap wavelengths of;over 30 more superlattices, measured by photoluminescence spectroscopy.;The maximum error is 0.6 mu m, which corresponds to an uncertainty of;less than 0.4 ML in layer width. This is comparable with the;experimental uncertainty in layer widths, determined by in situ;beam-flux measurements in the growth reactor. By eliminating all terms;from the Hamiltonian, the energy contribution of which is less than the;error due to the uncertainty in layer widths, the number of unknown;fitting parameters has been reduced to six: two Luttinger parameters,;three interface parameters, and the valence band offset. The remaining;four Luttinger parameters are not independent and are determined from;the two independent ones. Our set of Luttinger parameters is close to;that reported by Lawaetz [Phys. Rev. B 4, 3460 (1971)], with a maximum;deviation in any parameter of 0.6. The interface parameters are diagonal;and have values of D-S = 3 eV angstrom, D-X = 1.3 eV angstrom, and D-Z =;1.1 eV angstrom at 77 K. The off-diagonal interface parameters alpha and;beta are too small to be fitted with any accuracy and have negligible;effect on the unpolarized photoabsorption spectra. We also propose;values for the room-temperature Luttinger and interface parameters. The;fitted unstrained InAs/GaSb band overlap is 0.142 eV. DOI:;10.1103/PhysRevB.86.235311;5;0;0;0;5;1098-0121;WOS:000312694400003;;;J;Sales, Brian C.;May, Andrew F.;McGuire, Michael A.;Stone, Matthew B.;Singh, David J.;Mandrus, David;Transport, thermal, and magnetic properties of the narrow-gap;semiconductor CrSb2;PHYSICAL REVIEW B;86;23;235136;10.1103/PhysRevB.86.235136;DEC 20 2012;2012;Resistivity, the Hall effect, the Seebeck coefficient, thermal;conductivity, heat capacity, and magnetic susceptibility data are;reported for CrSb2 single crystals. In spite of some unusual features in;electrical transport and Hall measurements below 100 K, only one phase;transition is found in the temperature range from 2 to 750 K;corresponding to long-range antiferromagnetic order below T-N;approximate to 273 K. Many of the low-temperature properties can be;explained by the thermal depopulation of carriers from the conduction;band into a low-mobility band located approximately 16 meV below the;conduction-band edge, as deduced from the Hall effect data. In analogy;with what occurs in Ge, the low-mobility band is likely an impurity;band. The Seebeck coefficient, S, is large and negative for temperatures;from 2 to 300 K ranging from approximate to -70 mu V/K at 300 K to -4500;mu V/K at 18 K. A large maximum in vertical bar S vertical bar at 18 K;is likely due to phonon drag, with the abrupt drop in vertical bar S;vertical bar below 18 K due to the thermal depopulation of the;high-mobility conduction band. The large thermal conductivity between 10;and 20 K (approximate to 350 W/m K) is consistent with this;interpretation, as are detailed calculations of the Seebeck coefficient;made using the complete calculated electronic structure. These data are;compared to data reported for FeSb2, which crystallizes in the same;marcasite structure, and FeSi, another unusual narrow-gap semiconductor.;DOI: 10.1103/PhysRevB.86.235136;Stone, Matthew/G-3275-2011; McGuire, Michael/B-5453-2009; May, Andrew/E-5897-2011; Mandrus, David/H-3090-2014;McGuire, Michael/0000-0003-1762-9406;;7;0;0;0;7;1098-0121;WOS:000312694400002;;;J;Toews, W.;Pastor, G. M.;Spin-polarized density-matrix functional theory of the single-impurity;Anderson model;PHYSICAL REVIEW B;86;24;245123;10.1103/PhysRevB.86.245123;DEC 20 2012;2012;Lattice density functional theory (LDFT) is used to investigate spin;excitations in the single-impurity Anderson model. In this method, the;single-particle density matrix gamma(ij sigma) with respect to the;lattice sites replaces the wave function as the basic variable of the;many-body problem. A recently developed two-level approximation (TLA) to;the interaction-energy functional W[gamma] is extended to systems having;spin-polarized density distributions and bond orders. This allows us to;investigate the effect of external magnetic fields and, in particular,;the important singlet-triplet gap Delta E, which determines the Kondo;temperature. Applications to finite Anderson rings and square lattices;show that the gap Delta E as well as other ground-state and;excited-state properties are very accurately reproduced. One concludes;that the spin-polarized TLA is reliable in all interaction regimes, from;weak to strong correlations, for different hybridization strengths and;for all considered impurity valence states. In this way the efficiency;of LDFT to account for challenging electron-correlation effects is;demonstrated. DOI: 10.1103/PhysRevB.86.245123;1;0;0;0;1;1098-0121;WOS:000312696900002;;;J;Weichselbaum, Andreas;Tensor networks and the numerical renormalization group;PHYSICAL REVIEW B;86;24;245124;10.1103/PhysRevB.86.245124;DEC 20 2012;2012;The full-density-matrix numerical renormalization group has evolved as a;systematic and transparent setting for the calculation of;thermodynamical quantities at arbitrary temperatures within the;numerical renormalization group (NRG) framework. It directly evaluates;the relevant Lehmann representations based on the complete basis sets;introduced by Anders and Schiller [Phys. Rev. Lett. 95, 196801 (2005)].;In addition, specific attention is given to the possible feedback from;low-energy physics to high energies by the explicit and careful;construction of the full thermal density matrix, naturally generated;over a distribution of energy shells. Specific examples are given in;terms of spectral functions (fdmNRG), time-dependent NRG (tdmNRG),;Fermi-golden-rule calculations (fgrNRG) as well as the calculation of;plain thermodynamic expectation values. Furthermore, based on the very;fact that, by its iterative nature, the NRG eigenstates are naturally;described in terms of matrix product states, the language of tensor;networks has proven enormously convenient in the description of the;underlying algorithmic procedures. This paper therefore also provides a;detailed introduction and discussion of the prototypical NRG;calculations in terms of their corresponding tensor networks. DOI:;10.1103/PhysRevB.86.245124;Weichselbaum, Andreas/I-8858-2012;Weichselbaum, Andreas/0000-0002-5832-3908;8;0;0;0;8;1098-0121;WOS:000312696900003;;;J;Yan, Jun;Jacobsen, Karsten W.;Thygesen, Kristian S.;Conventional and acoustic surface plasmons on noble metal surfaces: A;time-dependent density functional theory study;PHYSICAL REVIEW B;86;24;241404;10.1103/PhysRevB.86.241404;DEC 20 2012;2012;First-principles calculations of the conventional and acoustic surface;plasmons (CSPs and ASPs) on the (111) surfaces of Cu, Ag, and Au are;presented. The effect of s-d interband transitions on both types of;plasmons is investigated by comparing results from the local density;approximation and an orbital-dependent exchange-correlation (xc);potential that improves the position and width of the d bands. The;plasmon dispersions calculated with the latter xc potential agree well;with electron energy loss spectroscopy (EELS) experiments. For both the;CSP and ASP, the same trend of Cu < Au < Ag is found for the plasmon;energies and is attributed to the reduced screening by interband;transitions from Cu, to Au and Ag. This trend for the ASP, however,;contradicts a previous model prediction. While the ASP is seen as a weak;feature in the EELS, it can be clearly identified in the static and;dynamic dielectric band structure. DOI: 10.1103/PhysRevB.86.241404;Jacobsen, Karsten/B-3602-2009; Yan, Jun/K-3474-2012; Thygesen, Kristian /B-1062-2011;7;0;0;0;7;1098-0121;WOS:000312696900001;;;J;Euchner, H.;Pailhes, S.;Nguyen, L. T. K.;Assmus, W.;Ritter, F.;Haghighirad, A.;Grin, Y.;Paschen, S.;de Boissieu, M.;Phononic filter effect of rattling phonons in the thermoelectric;clathrate Ba8Ge40+xNi6-x;PHYSICAL REVIEW B;86;22;224303;10.1103/PhysRevB.86.224303;DEC 20 2012;2012;One of the key requirements for good thermoelectric materials is a low;lattice thermal conductivity. Here we present a combined neutron;scattering and theoretical investigation of the lattice dynamics in the;type I clathrate system Ba-Ge-Ni, which fulfills this requirement. We;observe a strong hybridization between phonons of the Ba guest atoms and;acoustic phonons of the Ge-Ni host structure over a wide region of the;Brillouin zone, which is in contrast with the frequently adopted picture;of isolated Ba atoms in Ge-Ni host cages. It occurs without a strong;decrease of the acoustic phonon lifetime, which contradicts the usual;assumption of strong anharmonic phonon-phonon scattering processes.;Within the framework of ab initio density-functional theory calculations;we interpret these hybridizations as a series of anticrossings which act;as a low-pass filter, preventing the propagation of acoustic phonons. To;highlight the effect of such a phononic low-pass filter on the thermal;transport, we compute the contribution of acoustic phonons to the;thermal conductivity of Ba8Ge40Ni6 and compare it to those of pure Ge;and a Ge-46 empty-cage model system. DOI: 10.1103/PhysRevB.86.224303;Paschen, Silke/C-3841-2014;Paschen, Silke/0000-0002-3796-0713;8;1;0;0;8;1098-0121;WOS:000312693600002;;;J;Harvey, J. -P.;Gheribi, A. E.;Chartrand, P.;Thermodynamic integration based on classical atomistic simulations to;determine the Gibbs energy of condensed phases: Calculation of the;aluminum-zirconium system;PHYSICAL REVIEW B;86;22;224202;10.1103/PhysRevB.86.224202;DEC 20 2012;2012;In this work, an in silico procedure to generate a fully coherent set of;thermodynamic properties obtained from classical molecular dynamics (MD);and Monte Carlo (MC) simulations is proposed. The procedure is applied;to the Al-Zr system because of its importance in the development of high;strength Al-Li alloys and of bulk metallic glasses. Cohesive energies of;the studied condensed phases of the Al-Zr system (the liquid phase, the;fcc solid solution, and various orthorhombic stoichiometric compounds);are calculated using the modified embedded atom model (MEAM) in the;second-nearest-neighbor formalism (2NN). The Al-Zr MEAM-2NN potential is;parameterized in this work using ab initio and experimental data found;in the literature for the AlZr3-L1(2) structure, while its predictive;ability is confirmed for several other solid structures and for the;liquid phase. The thermodynamic integration (TI) method is implemented;in a general MC algorithm in order to evaluate the absolute Gibbs energy;of the liquid and the fcc solutions. The entropy of mixing calculated;from the TI method, combined to the enthalpy of mixing and the heat;capacity data generated from MD/MC simulations performed in the;isobaric-isothermal/canonical (NPT/NVT) ensembles are used to;parameterize the Gibbs energy function of all the condensed phases in;the Al-rich side of the Al-Zr system in a CALculation of PHAse Diagrams;(CALPHAD) approach. The modified quasichemical model in the pair;approximation (MQMPA) and the cluster variation method (CVM) in the;tetrahedron approximation are used to define the Gibbs energy of the;liquid and the fcc solid solution respectively for their entire range of;composition. Thermodynamic and structural data generated from our MD/MC;simulations are used as input data to parameterize these thermodynamic;models. A detailed analysis of the validity and transferability of the;Al-Zr MEAM-2NN potential is presented throughout our work by comparing;the predicted properties obtained from this formalism with available ab;initio and experimental data for both liquid and solid phases. DOI:;10.1103/PhysRevB.86.224202;0;0;0;0;0;1098-0121;WOS:000312693600001;;;J;Hoffman, Silas;Upadhyaya, Pramey;Tserkovnyak, Yaroslav;Spin-torque ac impedance in magnetic tunnel junctions;PHYSICAL REVIEW B;86;21;214420;10.1103/PhysRevB.86.214420;DEC 20 2012;2012;Subjecting a magnetic tunnel junction (MTJ) to a spin-transfer torque;and/or electric voltage-induced magnetic anisotropy induces magnetic;precession, which can reciprocally pump current through the circuit.;This results in an ac impedance, which is sensitive to the magnetic;field applied to the MTJ. Measurement of this impedance can be used to;characterize the nature of the coupling between the magnetic free layer;and the electric input as well as a readout of the magnetic;configuration of the MTJ. DOI: 10.1103/PhysRevB.86.214420;1;0;0;0;1;1098-0121;WOS:000312674200003;;;J;Martinez, Enrique;Caro, Alfredo;Atomistic modeling of long-term evolution of twist boundaries under;vacancy supersaturation;PHYSICAL REVIEW B;86;21;214109;10.1103/PhysRevB.86.214109;DEC 20 2012;2012;Vacancy accumulation in 4 degrees {110} bcc Fe and 2 degrees {111} fcc;Cu twist boundaries (TBs) has been studied. These interfaces are;characterized by different sets of screw dislocations: two sets of;a(0)/2 < 111 > and one set of a(0)/2 < 100 > in Fe and three sets of;a(0)/6 < 112 > in Cu. We observe that vacancies agglomerate;preferentially at the misfit dislocation intersections (MDIs), where;their formation energy is lower. In bcc the dislocation structure;remains stable, but in fcc the interface rearranges itself increasing;the stacking fault area. To perform this study a kinetic Monte Carlo;algorithm coupled with the molecular dynamics code LAMMPS has been;developed. Atomic positions are relaxed at every step after an event;takes place to account for long-range strain fields. The events;considered in this work are vacancy migration hops. The rates are;calculated via harmonic transition state theory with the energy at the;saddle point obtained either by a linear approximation considering the;relaxed energy of the initial and final configurations or the;nudged-elastic band method depending on the vacancy position in the;sample. Vacancy diffusivities at both interfaces have also been;calculated. For the {110} TB in Fe the diffusivity is of the same order;of magnitude as in bulk (D-TB(Fe) = 2.60 x 10(-13) m(2)/s) while at the;{111} TB in Cu, diffusivities are two orders of magnitude larger than in;bulk (D-TB(Cu) = 2.06 x 10(-12) m(2)/s). The correlation factors at both;interfaces are extremely low (f(TB)(Fe) = 1.61 x 10(-4) and f(TB)(Cu) =;3.34 x 10(-4)), highlighting the importance of trapping sites at these;interfaces. DOI: 10.1103/PhysRevB.86.214109;3;1;0;0;3;1098-0121;WOS:000312674200002;;;J;McCash, Kevin;Srikanth, A.;Ponomareva, I.;Competing polarization reversal mechanisms in ferroelectric nanowires;PHYSICAL REVIEW B;86;21;214108;10.1103/PhysRevB.86.214108;DEC 20 2012;2012;Polarization reversal in ferroelectrics has been a subject of intense;interest for many years owing to both its scientific appeal and;practical utility. In recent years the interest has increased even;further thanks to the expectations of achieving ultrafast polarization;reversal at the nanoscale. While most of the studies up to now are;focused on the polarization reversal in ferroelectric thin films, we;report the intrinsic dynamics of ultrafast polarization reversal in;ferroelectric nanowires. Using atomistic first-principles-based;simulations, we trace the time evolution of polarization under applied;electric field to reveal the existence of two competing polarization;reversal mechanisms: (i) domain-driven and (ii) homogeneous. The;analysis of their microscopic origin allows us to postulate the;associated laws and leads to a deeper understanding of polarization;reversal dynamics in general. In addition, we find that in defect-free;nanowires the polarization reversal can occur within picoseconds, which;potentially is very promising for ultrafast memory and other;applications. DOI: 10.1103/PhysRevB.86.214108;Ponomareva, Inna/C-4067-2012;6;0;0;0;6;1098-0121;WOS:000312674200001;;;J;Silaev, M. A.;Volovik, G. E.;Topological Fermi arcs in superfluid He-3;PHYSICAL REVIEW B;86;21;214511;10.1103/PhysRevB.86.214511;DEC 20 2012;2012;We consider fermionic states bound on domain walls in a Weyl superfluid;He-3-A and on interfaces between He-3-A and a fully gapped topological;superfluid He-3-B. We demonstrate that in both cases the fermionic;spectrum contains Fermi arcs that are continuous nodal lines of energy;spectrum terminating at the projections of two Weyl points to the plane;of surface states in momentum space. The number of Fermi arcs is;determined by the index theorem that relates bulk values of the;topological invariant to the number of zero-energy surface states. The;index theorem is consistent with an exact spectrum of Bogolubov-de;Gennes equation obtained numerically, meanwhile, the quasiclassical;approximation fails to reproduce the correct number of zero modes. Thus;we demonstrate that topology describes the properties of the exact;spectrum beyond the quasiclassical approximation. DOI:;10.1103/PhysRevB.86.214511;8;0;0;0;8;1098-0121;WOS:000312674200006;;;J;Sluka, V.;Kakay, A.;Deac, A. M.;Buergler, D. E.;Hertel, R.;Schneider, C. M.;Quenched Slonczewski windmill in spin-torque vortex oscillators;PHYSICAL REVIEW B;86;21;214422;10.1103/PhysRevB.86.214422;DEC 20 2012;2012;We present a combined analytical and numerical study on double-vortex;spin-torque nano-oscillators and describe a mechanism that suppresses;the windmill modes. The magnetization dynamics is dominated by the;gyrotropic precession of the vortex in one of the ferromagnetic layers.;In the other layer, the vortex gyration is strongly damped. The;dominating layer for the magnetization dynamics is determined by the;sign of the product between sample current and the chiralities.;Measurements on Fe/Ag/Fe nanopillars support these findings. The results;open up a new perspective for building high quality-factor spin-torque;oscillators operating at selectable, well-separated frequency bands.;DOI: 10.1103/PhysRevB.86.214422;Deac, Alina/D-2961-2012; Buergler, Daniel/I-7408-2012; Kakay, Attila/B-7106-2008; Schneider, Claus/H-7453-2012;Buergler, Daniel/0000-0002-5579-4886; Kakay, Attila/0000-0002-3195-219X;;Schneider, Claus/0000-0002-3920-6255;4;0;0;0;4;1098-0121;WOS:000312674200005;;;J;Strohm, C.;Roth, T.;Detlefs, C.;van der Linden, P.;Mathon, O.;Element-selective magnetometry in ferrimagnetic erbium iron garnet;PHYSICAL REVIEW B;86;21;214421;10.1103/PhysRevB.86.214421;DEC 20 2012;2012;The emergence of a field induced canted phase below a critical;temperature is one of the characteristic properties of ferrimagnets with;two inequivalent antiferromagnetically coupled sublattices. Using x-ray;magnetic circular dichroism at the Fe K edge, we have performed element;selective magnetometry in ferrimagnetic erbium iron garnet in fields up;to 30 T. The signal from the tetrahedral Fe sites at 70 K allows the;detection of the two transitions at 10 and 23 T bounding the canted;phase and the direct observation of the reversal of the Fe-sublattice;magnetization within this phase. DOI: 10.1103/PhysRevB.86.214421;Detlefs, Carsten/B-6244-2008;Detlefs, Carsten/0000-0003-2573-2286;0;0;0;0;0;1098-0121;WOS:000312674200004;;;J;Yang, Huan;Wang, Zhenyu;Fang, Delong;Li, Sheng;Kariyado, Toshikaze;Chen, Genfu;Ogata, Masao;Das, Tanmoy;Balatsky, A. V.;Wen, Hai-Hu;Unexpected weak spatial variation in the local density of states induced;by individual Co impurity atoms in superconducting Na(Fe1-xCox)As;crystals revealed by scanning tunneling spectroscopy;PHYSICAL REVIEW B;86;21;214512;10.1103/PhysRevB.86.214512;DEC 20 2012;2012;We use spatially resolved scanning tunneling spectroscopy in;Na(Fe1-xCox)As to investigate the impurity effect induced by Co dopants.;The Co impurities are successfully identified, and the spatial;distributions of local density of state at different energies around;these impurities are investigated. It is found that the spectrum shows;negligible spatial variation at different positions near the Co;impurity, although there is a continuum of the in-gap states which lifts;the zero-bias conductance to a finite value. Our results put constraints;on the S +/- and S++ models and sharpen the debate on the role of;scattering potentials induced by the Co dopants. DOI:;10.1103/PhysRevB.86.214512;Das, Tanmoy/F-7174-2013;9;0;1;0;9;1098-0121;WOS:000312674200007;;;J;Chen, Gang;Hermele, Michael;Magnetic orders and topological phases from f-d exchange in pyrochlore;iridates;PHYSICAL REVIEW B;86;23;235129;10.1103/PhysRevB.86.235129;DEC 19 2012;2012;We study theoretically the effects of f-d magnetic exchange interaction;in the R2Ir2O7 pyrochlore iridates. The R3+ f electrons form localized;Kramers or non-Kramers doublets, while the Ir4+ d electrons are more;itinerant and feel a strong spin-orbit coupling. We construct and;analyze a minimal model capturing this physics, treating the Ir;subsystem using a Hubbard-type model. First neglecting the Hubbard;interaction, we find Weyl semimetal and Axion insulator phases induced;by the f-d exchange. Next, we find that f-d exchange can cooperate with;the Hubbard interaction to stabilize the Weyl semimetal over a larger;region of parameter space than when it is induced by d-electron;correlations alone. Applications to experiments are discussed. DOI:;10.1103/PhysRevB.86.235129;15;1;0;0;15;1098-0121;WOS:000312495500002;;;J;Hung, Ling-Yan;Wan, Yidun;String-net models with Z(N) fusion algebra;PHYSICAL REVIEW B;86;23;235132;10.1103/PhysRevB.86.235132;DEC 19 2012;2012;We study the Levin-Wen string-net model with a Z(N) type fusion algebra.;Solutions of the local constraints of this model correspond to Z(N);gauge theory and double Chern-Simons theories with quantum groups. For;the first time, we explicitly construct a spin-(N - 1)/2 model with Z(N);gauge symmetry on a triangular lattice as an exact dual model of the;string-net model with a Z(N) type fusion algebra on a honeycomb lattice.;This exact duality exists only when the spins are coupled to a Z(N);gauge field living on the links of the triangular lattice. The ungauged;Z(N) lattice spin models are a class of quantum systems that bear;symmetry-protected topological phases that may be classified by the;third cohomology group H-3(Z(N), U(1)) of Z(N). Our results apply also;to any case where the fusion algebra is identified with a finite group;algebra or a quantum group algebra. DOI: 10.1103/PhysRevB.86.235132;9;0;0;0;9;1098-0121;WOS:000312495500005;;;J;Husser, H.;Pehlke, E.;Analysis of two-photon photoemission from Si(001);PHYSICAL REVIEW B;86;23;235134;10.1103/PhysRevB.86.235134;DEC 19 2012;2012;We have applied our ab initio simulation approach for the photoemission;process at solid surfaces to calculate two-photon photoemission spectra;from the p(2 x 2)-reconstructed Si(001) surface. In this approach, the;ground-state electronic structure of the surface is obtained within;density functional theory. The subsequent time-dependent simulation is;carried through at frozen effective potential, while an optical;potential is applied to account for inelastic scattering in the excited;state. We have derived normal emission spectra for s-and p-polarized;light with photon energies in the range (h) over bar omega = 3.85-4.75;eV. The dependence of the theoretical spectra on photon energy and;polarization is analyzed and compared to experimental spectra from the;literature. To unravel the role of the unoccupied states between Fermi;energy and the vacuum level which are acting as intermediate states in;the excitation process, we investigate the expression for the two-photon;photocurrent from perturbation theory. The scattering states, which;serve as the final states of photoemission, are obtained from a;time-dependent simulation of a LEED-type experiment. The evaluation of;the dipole matrix elements allows us to identify the relevant bulk band;transitions and to address the influence of surface states. DOI:;10.1103/PhysRevB.86.235134;0;0;0;0;0;1098-0121;WOS:000312495500007;;;J;Jenkins, Gregory S.;Sushkov, Andrei B.;Schmadel, Don C.;Kim, M. -H.;Brahlek, Matthew;Bansal, Namrata;Oh, Seongshik;Drew, H. Dennis;Giant plateau in the terahertz Faraday angle in gated Bi2Se3;PHYSICAL REVIEW B;86;23;235133;10.1103/PhysRevB.86.235133;DEC 19 2012;2012;We report gated terahertz Faraday angle measurements on epitaxial Bi2Se3;thin films capped with In2Se3. A plateau is observed in the real part of;the Faraday angle at an onset gate voltage corresponding to no band;bending at the surface, which persists into accumulation. The plateau is;two orders of magnitude flatter than the step size expected from a;single Landau level in the low-frequency limit, quantized in units of;the fine structure constant. At 8 T, the plateau extends over a range of;gate voltage that spans an electron density greater than 14 times the;quantum flux density. Both the imaginary part of the Faraday angle and;transmission measurements indicate dissipative off-axis and longitudinal;conductivity channels associated with the plateau. DOI:;10.1103/PhysRevB.86.235133;6;0;0;0;6;1098-0121;WOS:000312495500006;;;J;Maciejko, Joseph;Qi, Xiao-Liang;Karch, Andreas;Zhang, Shou-Cheng;Models of three-dimensional fractional topological insulators;PHYSICAL REVIEW B;86;23;235128;10.1103/PhysRevB.86.235128;DEC 19 2012;2012;Time-reversal invariant three-dimensional topological insulators can be;defined fundamentally by a topological field theory with a quantized;axion angle theta of 0 or pi. It was recently shown that fractional;quantized values of theta are consistent with time-reversal invariance;if deconfined, gapped, fractionally charged bulk excitations appear in;the low-energy spectrum due to strong correlation effects, leading to;the concept of a fractional topological insulator. These fractionally;charged excitations are coupled to emergent gauge fields, which ensure;that the microscopic degrees of freedom, the original electrons, are;gauge-invariant objects. A first step towards the construction of;microscopic models of fractional topological insulators is to understand;the nature of these emergent gauge theories and their corresponding;phases. In this work, we show that low-energy effective gauge theories;of both Abelian or non-Abelian type are consistent with a fractional;quantized axion angle if they admit a Coulomb phase or a Higgs phase;with gauge group broken down to a discrete subgroup. The Coulomb phases;support gapless but electrically neutral bulk excitations while the;Higgs phases are fully gapped. The Higgs and non-Abelian Coulomb phases;exhibit multiple ground states on boundaryless spatial three-manifolds;with nontrivial first homology, while the Abelian Coulomb phase has a;unique ground state. The ground-state degeneracy receives an additional;contribution on manifolds with boundary due to the induced boundary;Chern-Simons term. DOI: 10.1103/PhysRevB.86.235128;Zhang, Shou-Cheng/B-2794-2010;6;0;0;0;6;1098-0121;WOS:000312495500001;;;J;Mikheev, E.;Stolichnov, I.;De Ranieri, E.;Wunderlich, J.;Trodahl, H. J.;Rushforth, A. W.;Riester, S. W. E.;Campion, R. P.;Edmonds, K. W.;Gallagher, B. L.;Setter, N.;Magnetic domain wall propagation under ferroelectric control;PHYSICAL REVIEW B;86;23;235130;10.1103/PhysRevB.86.235130;DEC 19 2012;2012;Control of magnetic domain walls (DWs) and their propagation is among;the most promising development directions for future information-storage;devices. The well-established tools for such manipulation are the;spin-torque transfer from electrical currents and strain. The focus of;this paper is an alternative concept based on the nonvolatile;ferroelectric field effect on DWs in a ferromagnet with carrier-mediated;exchange coupling. The integrated ferromagnet/ferroelectric structure;yields two superimposed ferroic patterns strongly coupled by an electric;field. Using this coupling, we demonstrate an easy-to-form, stable,;nondestructive, and electrically rewritable switch on magnetic domain;wall propagation. DOI: 10.1103/PhysRevB.86.235130;Stolichnov, Igor/B-3331-2014; Wunderlich, Joerg/G-6918-2014;Stolichnov, Igor/0000-0003-0606-231X;;2;0;0;0;2;1098-0121;WOS:000312495500003;;;J;Yamaoka, Hitoshi;Zekko, Yumiko;Kotani, Akio;Jarrige, Ignace;Tsujii, Naohito;Lin, Jung-Fu;Mizuki, Jun'ichiro;Abe, Hideki;Kitazawa, Hideaki;Hiraoka, Nozomu;Ishii, Hirofumi;Tsuei, Ku-Ding;Electronic transitions in CePd2Si2 studied by resonant x-ray emission;spectroscopy at high pressures and low temperatures;PHYSICAL REVIEW B;86;23;235131;10.1103/PhysRevB.86.235131;DEC 19 2012;2012;Temperature and pressure dependences of the electronic structure of the;heavy-fermion system CePd2Si2 have been investigated using partial;fluorescence yield x-ray absorption spectroscopy and resonant x-ray;emission spectroscopy at the Ce L-3 edge. The temperature dependence has;also been measured for CeRh2Si2 for comparison. In both compounds Ce is;in a weakly mixed valence state at ambient pressure, mostly f(1) with a;small contribution from the f(0) component. No temperature dependence of;the Ce valence is observed at temperatures as low as 8 K. In CePd2Si2 at;19 K, however, the Ce valence shows a continuous increase with pressure,;indicating pressure-induced delocalization of the 4f states. Theoretical;calculations based on the single impurity Anderson model reproduce the;experimental results well. Pressure dependence of the difference between;the ground state valence and the measured valence including the final;state effect is also discussed. DOI: 10.1103/PhysRevB.86.235131;Lin, Jung-Fu/B-4917-2011;3;0;0;0;3;1098-0121;WOS:000312495500004;;;J;Zolyomi, V.;Ivady, V.;Gali, A.;Enhancement of electron-nuclear hyperfine interaction at lattice defects;in semiconducting single-walled carbon nanotubes studied by ab initio;density functional theory calculations;PHYSICAL REVIEW B;86;23;235433;10.1103/PhysRevB.86.235433;DEC 19 2012;2012;We present a first principles study of the electron-nuclear;hyperfine-interaction (HF) in achiral single-walled carbon nanotubes;(SWCNTs). We show that while HF coupling is small in perfect nanotubes,;it is significantly enhanced near lattice defects such as vacancies and;Stone-Wales pairs. The enhancement of hyperfine coupling near the;defects varies considerably in different nanotubes which might pave the;way to simultaneously identifying the chirality of carbon nanotubes and;the defects inside them by sophisticated magnetic resonance techniques.;Charged vacancy is proposed as a candidate for solid state qubit in;semiconducting SWCNTs. DOI: 10.1103/PhysRevB.86.235433;0;0;0;0;0;1098-0121;WOS:000312495500008;;;J;Castro, M.;Gago, R.;Vazquez, L.;Munoz-Garcia, J.;Cuerno, R.;Stress-induced solid flow drives surface nanopatterning of silicon by;ion-beam irradiation;PHYSICAL REVIEW B;86;21;214107;10.1103/PhysRevB.86.214107;DEC 19 2012;2012;Ion-beam sputtering (IBS) is known to produce surface nanopatterns over;macroscopic areas on a wide range of materials. However, in spite of the;technological potential of this route to nanostructuring, the physical;process by which these surfaces self-organize remains poorly understood.;We have performed detailed experiments of IBS on Si substrates that;validate dynamical and morphological predictions from a hydrodynamic;description of the phenomenon. We introduce a systematic approach to;perform the experiments under conditions that guarantee the;applicability of a linear description, helping to clarify the;experimental framework in which theories should be tested. Among our;results, the pattern wavelength is experimentally seen to depend almost;linearly on ion energy, in agreement with existing results for other;targets that are amorphous or become so under irradiation. Our work;substantiates flow of a nanoscopically thin and highly viscous surface;layer, driven by the stress created by the ion beam, as an accurate;description of this class of systems.;Gago, Raul/C-6762-2008; VAZQUEZ, LUIS/A-1272-2009; Munoz-Garcia, Javier/C-1135-2011; Castro, Mario/A-3585-2009;Gago, Raul/0000-0003-4388-8241; VAZQUEZ, LUIS/0000-0001-6220-2810;;Castro, Mario/0000-0003-3288-6144;22;0;0;0;22;1098-0121;WOS:000312494800001;;;J;Fishman, Randy S.;Furukawa, Nobuo;Haraldsen, Jason T.;Matsuda, Masaaki;Miyahara, Shin;Identifying the spectroscopic modes of multiferroic BiFeO3;PHYSICAL REVIEW B;86;22;220402;10.1103/PhysRevB.86.220402;DEC 19 2012;2012;We have identified the modes of multiferroic BiFeO3 measured by THz and;Raman spectroscopies. Excellent agreement with the observed peaks is;obtained by including the effects of easy-axis anisotropy along the;direction of the electric polarization. By distorting the cycloidal spin;state, anisotropy splits the Psi(perpendicular to 1) mode into peaks at;20 and 21.5 cm(-1) and activates the lower Phi(+/- 2) mode at 27 cm(-1);(T = 200 K). An electromagnon is identified with the upper Psi(+/- 1);mode at 21.5 cm(-1). Our results also explain recent inelastic;neutron-scattering measurements. DOI:10.1103/PhysRevB.86.220402;Haraldsen, Jason/B-9809-2012; Fishman, Randy/C-8639-2013; Lujan Center, LANL/G-4896-2012;Haraldsen, Jason/0000-0002-8641-5412;;8;0;0;0;8;1098-0121;WOS:000312495200001;;;J;Geraedts, Scott D.;Motrunich, Olexei I.;Monte Carlo study of a U(1) x U(1) loop model with modular invariance;PHYSICAL REVIEW B;86;24;245121;10.1103/PhysRevB.86.245121;DEC 19 2012;2012;We study a U(1) x U(1) system in (2+1) dimensions with long-range;interactions and mutual statistics. The model has the same form after;the application of operations from the modular group, a property which;we call modular invariance. Using the modular invariance of the model,;we propose a possible phase diagram. We obtain a sign-free reformulation;of the model and study it in Monte Carlo. This study confirms our;proposed phase diagram. We use the modular invariance to analytically;determine the current-current correlation functions and conductivities;in all the phases in the diagram, as well as at special "fixed" points;which are unchanged by an operation from the modular group. We;numerically determine the order of the phase transitions, and find;segments of second-order transitions. For the statistical interaction;parameter theta = pi, these second-order transitions are evidence of a;critical loop phase obtained when both loops are trying to condense;simultaneously. We also measure the critical exponents of the;second-order transitions. DOI: 10.1103/PhysRevB.86.245121;1;0;0;0;1;1098-0121;WOS:000312495800003;;;J;Giering, Kay-Uwe;Salmhofer, Manfred;Self-energy flows in the two-dimensional repulsive Hubbard model;PHYSICAL REVIEW B;86;24;245122;10.1103/PhysRevB.86.245122;DEC 19 2012;2012;We study the two-dimensional repulsive Hubbard model by functional;renormalization group methods, using our recently proposed channel;decomposition of the interaction vertex. The main technical advance of;this work is that we calculate the full Matsubara frequency dependence;of the self-energy and the interaction vertex in the whole frequency;range without simplifying assumptions on its functional form, and that;the effects of the self-energy are fully taken into account in the;equations for the flow of the two-body vertex function. At Van Hove;filling, we find that the Fermi-surface deformations remain small at;fixed particle density and have a minor impact on the structure of the;interaction vertex. The frequency dependence of the self-energy,;however, turns out to be important, especially at a transition from;ferromagnetism to d-wave superconductivity. We determine;non-Fermi-liquid exponents at this transition point. DOI:;10.1103/PhysRevB.86.245122;14;0;0;0;14;1098-0121;WOS:000312495800004;;;J;Le Roux, Sebastien;Bouzid, Assil;Boero, Mauro;Massobrio, Carlo;Structural properties of glassy Ge2Se3 from first-principles molecular;dynamics;PHYSICAL REVIEW B;86;22;224201;10.1103/PhysRevB.86.224201;DEC 19 2012;2012;The structural properties of glassy Ge2Se3 were studied in the framework;of first-principles molecular dynamics by using the Becke-Lee-Yang-Parr;scheme for the treatment of the exchange-correlation functional in;density functional theory. Our results for the total neutron structure;factor and the total pair distribution function are in very good;agreement with the experimental results. When compared to the structural;description obtained for liquid Ge2Se3, glassy Ge2Se3 is found to be;characterized by a larger percentage of fourfold coordinated Ge atoms;and a lower number of miscoordinations. However, Ge-Ge homopolar bonds;inevitably occur due to the lack of Se atoms available, at this;concentration, to form GeSe4 tetrahedra. Focusing on the family of;glasses GexSe1-x, the present results allow a comparison to be carried;out in reciprocal and real space among three prototypical glassy;structures. The first was obtained at the stoichiometric composition;(glassy GeSe2), the second at a Se-rich composition (glassy GeSe4) and;the third at a Ge-rich composition (glassy Ge2Se3). All networks are;consistent with the "8 - N" rule, in particular, glassy GeSe4, which;exhibits the highest degree of chemical order. The electronic structure;of glassy Ge2Se3 has been characterized by using the Wannier localized;orbital formalism. The analysis of the Ge environment shows the presence;of dangling, ionocovalent Ge-Se, and covalent bonds, the latter related;to Ge-Ge connections. DOI: 10.1103/PhysRevB.86.224201;BOERO, Mauro/M-2358-2014;BOERO, Mauro/0000-0002-5052-2849;6;0;0;0;6;1098-0121;WOS:000312495200004;;;J;Matthews, M. J.;Castelnovo, C.;Moessner, R.;Grigera, S. A.;Prabhakaran, D.;Schiffer, P.;High-temperature onset of field-induced transitions in the spin-ice;compound Dy2Ti2O7;PHYSICAL REVIEW B;86;21;214419;10.1103/PhysRevB.86.214419;DEC 19 2012;2012;We have studied the field-dependent ac magnetic susceptibility of single;crystals of Dy2Ti2O7 spin ice along the [111] direction in the;temperature range 1.8-7 K. Our data reflect the onset of local spin-ice;order in the appearance of different field regimes. In particular, we;observe a prominent feature at approximately 1.0 T that is a precursor;of the low-temperature metamagnetic transition out of field-induced;kagome ice, below which the kinetic constraints imposed by the ice rules;manifest themselves in a substantial frequency dependence of the;susceptibility. Despite the relatively high temperatures, our results;are consistent with a monopole picture, and they demonstrate that such a;picture can give physical insight into spin-ice systems even outside the;low-temperature, low-density limit where monopole excitations are;well-defined quasiparticles.;6;2;0;0;6;1098-0121;WOS:000312494800002;;;J;Nuss, Martin;Heil, Christoph;Ganahl, Martin;Knap, Michael;Evertz, Hans Gerd;Arrigoni, Enrico;von der Linden, Andwolfgang;Steady-state spectra, current, and stability diagram of a quantum dot: A;nonequilibrium variational cluster approach;PHYSICAL REVIEW B;86;24;245119;10.1103/PhysRevB.86.245119;DEC 19 2012;2012;We calculate steady-state properties of a strongly correlated quantum;dot under voltage bias by means of nonequilibrium cluster perturbation;theory and the nonequilibrium variational cluster approach,;respectively. Results for the steady-state current are benchmarked;against data from accurate matrix product state based time evolution. We;show that for low to medium interaction strength, nonequilibrium cluster;perturbation theory already yields good results, while for higher;interaction strength the self-consistent feedback of the nonequilibrium;variational cluster approach significantly enhances the accuracy. We;report the current-voltage characteristics for different interaction;strengths. Furthermore we investigate the nonequilibrium local density;of states of the quantum dot and illustrate that within the variational;approach a linear splitting and broadening of the Kondo resonance is;predicted which depends on interaction strength. Calculations with;applied gate voltage, away from particle-hole symmetry, reveal that the;maximum current is reached at the crossover from the Kondo regime to the;doubly occupied or empty quantum dot. Obtained stability diagrams;compare very well to recent experimental data [A. V. Kretinin et al.,;Phys. Rev. B 84, 245316 (2011)]. DOI: 10.1103/PhysRevB.86.245119;Knap, Michael/H-3344-2011; Arrigoni, Enrico/E-4507-2012; Nuss, Martin/J-5674-2014;Knap, Michael/0000-0002-7093-9502; Arrigoni, Enrico/0000-0002-1347-3080;;;7;0;0;0;7;1098-0121;WOS:000312495800001;;;J;Rottler, Andreas;Krueger, Benjamin;Heitmann, Detlef;Pfannkuche, Daniela;Mendach, Stefan;Route towards cylindrical cloaking at visible frequencies using an;optimization algorithm;PHYSICAL REVIEW B;86;24;245120;10.1103/PhysRevB.86.245120;DEC 19 2012;2012;We derive a model based on the Maxwell-Garnett effective-medium theory;that describes a cylindrical cloaking shell composed of metal rods which;are radially aligned in a dielectric host medium. We propose and;demonstrate a minimization algorithm that calculates for given material;parameters the optimal geometrical parameters of the cloaking shell such;that its effective optical parameters fit the best to the required;permittivity distribution for cylindrical cloaking. By means of;sophisticated full-wave simulations we find that a cylindrical cloak;with good performance using silver as the metal can be designed with our;algorithm for wavelengths in the red part of the visible spectrum (623;nm < lambda < 773 nm). We also present a full-wave simulation of such a;cloak at an exemplary wavelength of lambda = 729 nm (h omega = 1.7 eV);which indicates that our model is useful to find design rules of cloaks;with good cloaking performance. Our calculations investigate a structure;that is easy to fabricate using standard preparation techniques and;therefore pave the way to a realization of guiding light around an;object at visible frequencies, thus rendering it invisible. DOI:;10.1103/PhysRevB.86.245120;Krueger, Benjamin/B-7466-2009;Krueger, Benjamin/0000-0001-8502-368X;0;0;0;0;0;1098-0121;WOS:000312495800002;;;J;Tokiwa, Y.;Huebner, S. -H.;Beck, O.;Jeevan, H. S.;Gegenwart, P.;Unique phase diagram with narrow superconducting dome in;EuFe2(As1-xPx)(2) due to Eu2+ local magnetic moments;PHYSICAL REVIEW B;86;22;220505;10.1103/PhysRevB.86.220505;DEC 19 2012;2012;The interplay between superconductivity and Eu2+ magnetic moments in;EuFe2(As1-xPx)(2) is studied with electrical resistivity measurements;under hydrostatic pressure on x = 0.13 and x = 0.18 single crystals. We;can map hydrostatic pressure to chemical pressure x and show that;superconductivity is confined to a very narrow range 0.18 <= x <= 0.23;in the phase diagram, beyond which ferromagnetic (FM) Eu ordering;suppresses superconductivity. The change from antiferro- to FM Eu;ordering at the latter concentration coincides with a Lifshitz;transition and the complete depression of iron magnetic order. DOI:;10.1103/PhysRevB.86.220505;6;0;0;0;6;1098-0121;WOS:000312495200002;;;J;Tran Doan Huan;Amsler, Maximilian;Vu Ngoc Tuoc;Willand, Alexander;Goedecker, Stefan;Low-energy structures of zinc borohydride Zn(BH4)(2);PHYSICAL REVIEW B;86;22;224110;10.1103/PhysRevB.86.224110;DEC 19 2012;2012;We present a systematic study of the low-energy structures of zinc;borohydride, a crystalline material proposed for the purpose of hydrogen;storage. In addition to previously proposed structures, many new;low-energy structures of zinc borohydride are found by utilizing;theminima-hopping method. We identify a new dynamically stable structure;which belongs to the I4(1)22 space group as the lowest-energy phase of;zinc borohydride at low temperatures. A low transition barrier between;I4(1)22 and P1, the two lowest-lying phases of zinc borohydride, is;predicted, implying that a coexistence of low-energy phases of zinc;borohydride is possible at ambient conditions. An analysis based on the;simulated x-ray-diffraction pattern reveals that the I4(1)22 structure;exhibits the same major features as the experimentally synthesized zinc;borohydride samples. DOI: 10.1103/PhysRevB.86.224110;Amsler, Maximilian/H-4718-2013; Tran, Huan/K-3587-2013;Tran, Huan/0000-0002-8093-9426;4;0;0;0;4;1098-0121;WOS:000312495200003;;;J;van den Berg, T. L.;Raymond, L.;Verga, A.;Enhanced spin Hall effect in strong magnetic disorder;PHYSICAL REVIEW B;86;24;245420;10.1103/PhysRevB.86.245420;DEC 19 2012;2012;We consider a two-dimensional electron gas in an inversion asymmetric;layer and in the presence of spatially distributed magnetic impurities.;We investigate the relationship between the geometrical properties of;the wave function and the system's spin-dependent transport properties.;A localization transition, arising when disorder is increased, is;exhibited by the appearance of a fractal state with finite inverse;participation ratio. Below the transition, interference effects modify;the carrier's diffusion, as revealed by the dependence on the scattering;time of the power law exponents characterizing the spreading of a wave;packet. Above the transition, in the strong disorder regime, we find;that the states are spin polarized and localized around the impurities.;A significant enhancement of the spin current develops in this regime.;DOI: 10.1103/PhysRevB.86.245420;RAYMOND, Laurent/B-6025-2008;RAYMOND, Laurent/0000-0002-5014-1333;0;0;0;0;0;1098-0121;WOS:000312495800005;;;J;Bauer, Oliver;Mercurio, Giuseppe;Willenbockel, Martin;Reckien, Werner;Schmitz, Christoph Heinrich;Fiedler, Benjamin;Soubatch, Serguei;Bredow, Thomas;Tautz, Frank Stefan;Sokolowski, Moritz;Role of functional groups in surface bonding of planar pi-conjugated;molecules;PHYSICAL REVIEW B;86;23;235431;10.1103/PhysRevB.86.235431;DEC 18 2012;2012;The trends in the bonding mechanism of 3,4,9,10-perylenetetracarboxylic;acid dianhydride (PTCDA) to the Ag(111), Ag(100), and Ag(110) surfaces;were analyzed on the basis of data obtained from x-ray standing waves;and dispersion-corrected density functional theory. Of importance are;the attractive local O-Ag bonds on the anhydride groups. They are the;shorter, the more open the surface is, and lead even to partly repulsive;interactions between the perylene core and the surface. In parallel,;there is an increasing charge donation from the Ag surface into the pi;system of the PTCDA. This synergism explains the out-of-plane distortion;of the adsorbed PTCDA and the surface buckling. DOI:;10.1103/PhysRevB.86.235431;13;1;0;0;13;1098-0121;WOS:000312445200001;;;J;Saptsov, R. B.;Wegewijs, M. R.;Fermionic superoperators for zero-temperature nonlinear transport:;Real-time perturbation theory and renormalization group for Anderson;quantum dots;PHYSICAL REVIEW B;86;23;235432;10.1103/PhysRevB.86.235432;DEC 18 2012;2012;We study electron quantum transport through a strongly interacting;Anderson quantum dot at finite bias voltage and magnetic field at zero;temperature using the real-time renormalization group (RT-RG) in the;framework of a kinetic (generalized master) equation for the reduced;density operator. To this end, we further develop the general,;finite-temperature real-time transport formalism by introducing field;superoperators that obey fermionic statistics. This direct second;quantization in Liouville Fock space strongly simplifies the;construction of operators and superoperators that transform irreducibly;under the Anderson-model symmetry transformations. The fermionic field;superoperators naturally arise from the univalence (fermion-parity);superselection rule of quantum mechanics for the total system of quantum;dot plus reservoirs. Expressed in these field superoperators, the causal;structure of the perturbation theory for the effective time-evolution;superoperator kernel becomes explicit. Using the constraints of the;causal structure, we construct a parametrization of the exact effective;time-evolution kernel for which we analytically find the eigenvectors;and eigenvalues in terms of a minimal set of only 30 independent;coefficients. The causal structure also implies the existence of a;fermion-parity protected eigenvector of the exact Liouvillian,;explaining a recently reported result on adiabatic driving;[Contreras-Pulido et al., Phys. Rev. B 85, 075301 (2012)] and;generalizing it to arbitrary order in the tunnel coupling Gamma.;Furthermore, in the wide-band limit, the causal representation;exponentially reduces the number of diagrams for the time-evolution;kernel. The remaining diagrams can be identified simply by their;topology and are manifestly independent of the energy cutoff term by;term. By an exact reformulation of this series, we integrate out all;infinite-temperature effects, obtaining an expansion targeting only the;nontrivial, finite-temperature corrections, and the exactly conserved;transport current follows directly from the time-evolution kernel. From;this new series, the previously formulated RT-RG equations are obtained;naturally. We perform a complete one-plus-two-loop RG analysis at finite;voltage and magnetic field, while systematically accounting for the;dependence of all renormalized quantities on both the quantum dot and;reservoir frequencies. Using the second quantization in Liouville space;and symmetry restrictions, we obtain analytical RT-RG equations, which;can be solved numerically in an efficient way, and we extensively study;the model parameter space, excluding the Kondo regime where the;one-plus-two-loop approach is obviously invalid. The incorporated;renormalization effects result in an enhancement of the inelastic;cotunneling peak, even at a voltage similar to magnetic field similar to;tunnel coupling Gamma. Moreover, we find a tunnel-induced nonlinearity;of the stability diagrams (Coulomb diamonds) at finite voltage, both in;the single-electron tunneling and inelastic cotunneling regime. DOI:;10.1103/PhysRevB.86.235432;Wegewijs, Maarten/A-3512-2012;Wegewijs, Maarten/0000-0002-2972-3822;9;0;0;0;9;1098-0121;WOS:000312445200002;;;J;Tyrrell, E. J.;Smith, J. M.;Effective mass modeling of excitons in type-II quantum dot;heterostructures (vol 84, 165328, 2011);PHYSICAL REVIEW B;86;23;239905;10.1103/PhysRevB.86.239905;DEC 18 2012;2012;0;0;0;0;0;1098-0121;WOS:000312445200003;;;J;Buividovich, P. V.;Polikarpov, M. I.;Monte Carlo study of the electron transport properties of monolayer;graphene within the tight-binding model;PHYSICAL REVIEW B;86;24;245117;10.1103/PhysRevB.86.245117;DEC 18 2012;2012;We study the effect of Coulomb interaction between charge carriers on;the properties of graphene monolayer, assuming that the strength of the;interaction is controlled by the dielectric permittivity of the;substrate on which the graphene layer is placed. To this end, we;consider the tight-binding model on the hexagonal lattice coupled to the;noncompact gauge field. The action of the latter is also discretized on;the hexagonal lattice. Equilibrium ensembles of gauge field;configurations are obtained using the hybrid Monte Carlo algorithm. Our;numerical results indicate that at sufficiently strong coupling, that;is, at sufficiently small substrate dielectric permittivities epsilon;less than or similar to 4 and at sufficiently small temperatures T less;than or similar to 1 x 10(4) K, the symmetry between simple sublattices;of hexagonal lattice breaks down spontaneously and the low-frequency;conductivity gradually decreases down to 20-30% of its weak-coupling;value. On the other hand, in the weak-coupling regime (with epsilon;greater than or similar to 4), the conductivity practically does not;depend on epsilon and is close to the universal value sigma(0) = 1/4.;DOI: 10.1103/PhysRevB.86.245117;15;0;0;0;15;1098-0121;WOS:000312445700002;;;J;Cheng, Ran;Niu, Qian;Electron dynamics in slowly varying antiferromagnetic texture;PHYSICAL REVIEW B;86;24;245118;10.1103/PhysRevB.86.245118;DEC 18 2012;2012;Adiabatic dynamics of conduction electrons in antiferromagnetic (AFM);materials with slowly varying spin texture is developed. Quite different;from the ferromagnetic (FM) case, adiabaticity in AFM texture does not;imply perfect alignment of conduction electron spins with background;profile, instead, it introduces an internal dynamics between degenerate;bands. As a result, the orbital motion of conduction electrons becomes;spin dependent and is affected by two emergent gauge fields: one of them;is the non-Abelian version of what has been discovered in FM systems;;the other leads to an anomalous velocity that has no FM counterpart. Two;examples with experimental predictions are provided. DOI:;10.1103/PhysRevB.86.245118;Niu, Qian/G-9908-2013; Cheng, Ran/M-9260-2014;Cheng, Ran/0000-0003-0166-2172;12;0;0;0;12;1098-0121;WOS:000312445700003;;;J;Cuadrado, R.;Chantrell, R. W.;Electronic and magnetic properties of bimetallic L1(0) cuboctahedral;clusters by means of fully relativistic density-functional-based;calculations;PHYSICAL REVIEW B;86;22;224415;10.1103/PhysRevB.86.224415;DEC 18 2012;2012;By means of density functional theory and the generalized gradient;approximation, we present a structural, electronic, and magnetic study;of FePt-, CoPt-, FeAu-, and FePd-based L1(0) ordered cuboctahedral;nanoparticles, with total numbers of atoms N-tot = 13, 55, 147. After a;conjugate gradient relaxation, the nanoparticles retain their L1(0);symmetry, but the small displacements of the atomic positions tune the;electronic and magnetic properties. The value of the total magnetic;moment stabilizes as the size increases. We also show that the magnetic;anisotropy energy (MAE) depends on the size as well as the position of;the Fe-atomic planes in the clusters. We address the influence on the;MAE of the surface shape, finding a small in-plane MAE for (Fe,;Co)(24)Pt-31 nanoparticles. DOI: 10.1103/PhysRevB.86.224415;7;0;0;0;7;1098-0121;WOS:000312445000002;;;J;Deisenhofer, J.;Schaile, S.;Teyssier, J.;Wang, Zhe;Hemmida, M.;von Nidda, H. -A. Krug;Eremina, R. M.;Eremin, M. V.;Viennois, R.;Giannini, E.;van der Marel, D.;Loidl, A.;Electron spin resonance and exchange paths in the orthorhombic dimer;system Sr2VO4;PHYSICAL REVIEW B;86;21;214417;10.1103/PhysRevB.86.214417;DEC 18 2012;2012;We report on susceptibility and electron spin resonance (ESR);measurements at X- and Q-band frequencies of Sr2VO4 with orthorhombic;symmetry. In this dimer system, the V4+ ions are in tetrahedral;environment and are coupled by an antiferromagnetic intradimer exchange;constant J/k(B) approximate to 100 K to form a singlet ground state;without any phase transitions between room temperature and 2 K. Based on;an extended Huckel tight-binding analysis, we identify the strongest;exchange interaction to occur between two inequivalent vanadium sites;via two intermediate oxygen ions. The ESR absorption spectra can be well;fitted by a single Lorentzian line and the temperature dependence of the;ESR intensity, and the dc susceptibility can be modeled by using the;Bleaney-Bowers approach for independent dimers. The temperature;dependence of the ESR linewidth at X-band frequency can be modeled by a;superposition of a linear increase with temperature with a slope alpha =;1.35 Oe/K and a thermally activated behavior with an activation energy;Delta/k(B) = 1418 K, both of which point to spin-phonon coupling as the;dominant relaxation mechanism in this compound.;Teyssier, Jeremie/A-6867-2013; Deisenhofer, Joachim/G-8937-2011;Deisenhofer, Joachim/0000-0002-7645-9390;3;0;0;0;3;1098-0121;WOS:000312444700001;;;J;Hsu, Chen-Hsuan;Wang, Zhiqiang;Chakravarty, Sudip;Spin dynamics of possible density wave states in the pseudogap phase of;high-temperature superconductors;PHYSICAL REVIEW B;86;21;214510;10.1103/PhysRevB.86.214510;DEC 18 2012;2012;In a recent inelastic neutron scattering experiment in the pseudogap;state of the high-temperature superconductor YBa2Cu3O6.6, an unusual;"vertical" dispersion of the spin excitations with a large in-plane;anisotropy was observed. In this paper, we discuss in detail the spin;susceptibility of the singlet d-density wave, the triplet d-density wave;as well as the more common spin density wave orders with hopping;anisotropies. From numerical calculations within the framework of random;phase approximation, we find nearly vertical dispersion relations for;spin excitations with anisotropic incommensurability at low energy omega;<= 90 meV, which are reminiscent of the experiments. At very high energy;omega >= 165 meV, we also find energy-dependent incommensurability.;Although there are some important differences between the three cases,;unpolarized neutron measurements cannot discriminate between these;alternate possibilities; the vertical dispersion, however, is a distinct;feature of all three density wave states in contrast to the;superconducting state, which shows an hour-glass shape dispersion.;0;0;0;0;0;1098-0121;WOS:000312444700003;;;J;Jain, S.;Schultheiss, H.;Heinonen, O.;Fradin, F. Y.;Pearson, J. E.;Bader, S. D.;Novosad, V.;Coupled vortex oscillations in mesoscale ferromagnetic double-disk;structures;PHYSICAL REVIEW B;86;21;214418;10.1103/PhysRevB.86.214418;DEC 18 2012;2012;Coupled resonance modes in connected ferromagnetic double-dot structures;have been investigated as a function of the overlap between the dots,;both experimentally and via micromagnetic simulations. An asymmetry is;observed in the frequency spectrum about zero field. Softening of the;magnetization during vortex core precession when the cores are near the;overlap region results in low-frequency modes and a splitting;corresponding to different polarity combinations. A range of vortex;resonance frequencies are identified that can be tuned by varying the;overlap area. This study provides insight into the control of the;dynamic response in coupled mesoscale magnetic structures.;Jain, Shikha/J-4734-2012; Novosad, Valentyn/C-2018-2014;7;0;0;0;7;1098-0121;WOS:000312444700002;;;J;Kim, Isaac H.;Perturbative analysis of topological entanglement entropy from;conditional independence;PHYSICAL REVIEW B;86;24;245116;10.1103/PhysRevB.86.245116;DEC 18 2012;2012;We use the structure of conditionally independent states to analyze the;stability of topological entanglement entropy. For the ground state of;the quantum double or Levin-Wen model, we obtain a bound on the;first-order perturbation of topological entanglement entropy in terms of;its energy gap and subsystem size. The bound decreases superpolynomially;with the size of the subsystem, provided the energy gap is nonzero. We;also study the finite-temperature stability of stabilizer models, for;which we prove a stronger statement than the strong subadditivity of;entropy. Using this statement and assuming (i) finite correlation length;and (ii) small conditional mutual information of certain configurations,;first-order perturbation effect for arbitrary local perturbation can be;bounded. We discuss the technical obstacles in generalizing these;results. DOI: 10.1103/PhysRevB.86.245116;4;0;0;0;4;1098-0121;WOS:000312445700001;;;J;Metelmann, A.;Brandes, T.;Transport through single-level systems: Spin dynamics in the;nonadiabatic regime;PHYSICAL REVIEW B;86;24;245317;10.1103/PhysRevB.86.245317;DEC 18 2012;2012;We investigate the Fano-Anderson model coupled to a large ensemble of;spins under the influence of an external magnetic field. The interaction;between the two spin systems is treated within a mean-field approach,;and we assume an anisotropic coupling between these two systems. By;using a nonadiabatic approach, we make no further approximations in the;theoretical description of our system, apart from the semiclassical;treatment. Therewith, we can include the short-time dynamics as well as;the broadening of the energy levels arising due to the coupling to the;external electronic reservoirs. We study the spin dynamics in the regime;of low and high bias. For the infinite bias case, we compare our results;to those obtained from a simpler rate equation approach, where;higher-order transitions are neglected. We show that these higher-order;terms are important in the range of low magnetic field. Additionally, we;analyze extensively the finite bias regime with methods from nonlinear;dynamics, and we discuss the possibility of switching of the large spin.;DOI: 10.1103/PhysRevB.86.245317;2;0;0;0;2;1098-0121;WOS:000312445700004;;;J;Nastar, M.;Soisson, F.;Atomistic modeling of phase transformations: Point-defect concentrations;and the time-scale problem;PHYSICAL REVIEW B;86;22;220102;10.1103/PhysRevB.86.220102;DEC 18 2012;2012;The time scale of diffusive phase transformations in alloys depends on;point-defect concentrations, which evolve with the microstructure. We;present a simple method that provides a physical time scale for;atomistic simulations of such transformations, even when performed with;constant point-defect numbers. It also gives an on-the-fly evaluation of;the real point-defect concentration, when equilibrium conditions are;fulfilled. The method is applied to kinetic Monte Carlo simulations of;precipitation in binary alloys occurring by vacancy diffusion. The;vacancy concentration is found to be very dependent on the difference in;formation energy between the matrix and the precipitates, and therefore;on the composition and volume fraction of these two phases. The effect;of the interface curvature, through a Gibbs-Thomson effect, is revealed.;A mean-field approximation is also developed for computing the;point-defect concentrations. Contrary to previous models, it takes into;account the short range order in nonideal and concentrated solutions.;Atomistic simulations and mean-field simulations are validated by direct;comparisons. DOI: 10.1103/PhysRevB.86.220102;soisson, frederic/B-2917-2009;soisson, frederic/0000-0001-6435-6119;6;0;0;0;6;1098-0121;WOS:000312445000001;;;J;Abd El-Fattah, Z. M.;Matena, M.;Corso, M.;Ormaza, M.;Ortega, J. E.;Schiller, F.;Modifying the Cu(111) Shockley surface state by Au alloying;PHYSICAL REVIEW B;86;24;245418;10.1103/PhysRevB.86.245418;DEC 17 2012;2012;The deposition of submonolayer amounts of Au onto Cu(111) results in a;Au-Cu surface alloy with temperature- and thickness-dependent;stoichiometry. Upon alloying, the characteristic Shockley state of;Cu(111) is modified, shifting to 0.53 eV binding energy for a particular;surface Au2Cu concentration, which is a very high binding energy for a;noble-metal surface. Based on a phase accumulation model analysis, we;discuss how this unusually large shift is likely reflecting an effective;increase in the topmost layer thickness of the order of, but smaller;than, the value expected from the moire undulation. DOI:;10.1103/PhysRevB.86.245418;CSIC-UPV/EHU, CFM/F-4867-2012; ortega, enrique/I-4445-2012; Corso, Martina/B-7768-2014; DONOSTIA INTERNATIONAL PHYSICS CTR., DIPC/C-3171-2014;1;0;0;0;1;1098-0121;WOS:000312365800013;;;J;Baledent, V.;Rullier-Albenque, F.;Colson, D.;Monaco, G.;Rueff, J. -P.;Stability of the Fe electronic structure through temperature-, doping-,;and pressure-induced transitions in the BaFe2As2 superconductors;PHYSICAL REVIEW B;86;23;235123;10.1103/PhysRevB.86.235123;DEC 17 2012;2012;We report on a survey of Fe electronic properties in the;temperature-pressure phase diagram of the Co-doped pnictides BaFe2As2;superconductors by hard x-ray absorption spectroscopy at the Fe K edge;in the high-resolution, partial fluorescence yield mode. The absorption;spectra are found remarkably stable through the temperature-induced;phase transitions while pressure leads to slight energy shift of the;main edge but not of the pre-edge. The latter effect is ascribed to the;lattice compression and band widening effects under pressure as;confirmed by multiple scattering simulations. Our results suggest that;from the Fe electronic structure point of view, doping and pressure are;equivalent ways to destabilize the magnetic phase to the advantage of;superconductivity. DOI: 10.1103/PhysRevB.86.235123;0;0;0;0;0;1098-0121;WOS:000312365200003;;;J;Bejas, Matias;Greco, Andres;Yamase, Hiroyuki;Possible charge instabilities in two-dimensional doped Mott insulators;PHYSICAL REVIEW B;86;22;224509;10.1103/PhysRevB.86.224509;DEC 17 2012;2012;Motivated by the growing evidence of the importance of charge;fluctuations in the pseudogap phase in high-temperature cuprate;superconductors, we apply a large-N expansion formulated in a path;integral representation of the two-dimensional t - J model on a square;lattice. We study all possible charge instabilities of the paramagnetic;state in leading order of the 1/N expansion. While the d-wave charge;density wave (flux phase) becomes the leading instability for various;choices of model parameters, we find that a d-wave Pomeranchuk;(electronic nematic phase) instability occurs as a next leading one. In;particular, the nematic state has a strong tendency to become;inhomogeneous. In the presence of a large second nearest-neighbor;hopping integral, the flux phase is suppressed and the electronic;nematic instability becomes leading in a high doping region. Besides;these two major instabilities, bond-order phases occur as weaker;instabilities close to half-filling. Phase separation is also detected;in a finite temperature region near half-filling. DOI:;10.1103/PhysRevB.86.224509;7;0;0;0;7;1098-0121;WOS:000312364700006;;;J;Chen, S. L.;Chen, W. M.;Buyanova, I. A.;Zeeman splitting and dynamics of an isoelectronic bound exciton near the;band edge of ZnO;PHYSICAL REVIEW B;86;23;235205;10.1103/PhysRevB.86.235205;DEC 17 2012;2012;Comprehensive time-resolved photoluminescence and magneto-optical;measurements are performed on a bound exciton (BX) line peaking at;3.3621 eV (labeled as I*). Though the energy position of I* lies within;the same energy range as that for donor bound exciton (DX) transitions,;its behavior in an applied magnetic field is found to be distinctly;different from that observed for DXs bound to either ionized or neutral;donors. An exciton bound to an isoelectronic center with a;hole-attractive local potential is shown to provide a satisfactory model;that can account for all experimental results of the I* transition. DOI:;10.1103/PhysRevB.86.235205;Chen, Weimin/J-4660-2012;Chen, Weimin/0000-0002-6405-9509;5;0;0;0;5;1098-0121;WOS:000312365200008;;;J;Chen, Zuhuang;Zou, Xi;Ren, Wei;You, Lu;Huang, Chuanwei;Yang, Yurong;Yang, Ping;Wang, Junling;Sritharan, Thirumany;Bellaiche, L.;Chen, Lang;Study of strain effect on in-plane polarization in epitaxial BiFeO3 thin;films using planar electrodes;PHYSICAL REVIEW B;86;23;235125;10.1103/PhysRevB.86.235125;DEC 17 2012;2012;Epitaxial strain plays an important role in determining physical;properties of perovskite ferroelectric oxide thin films because of the;inherent coupling between the strain and the polarization. However, it;is very challenging to directly measure properties such as polarization;in ultrathin strained films, using traditional sandwich capacitor;devices, because of high leakage current. Hence, a planar electrode;device with different crystallographical orientations between;electrodes, which is able to measure the polarization response with;different electric field orientation, is used successfully in this work;to directly measure the in-plane polarization-electric-field (P-E);hysteresis loops in fully strained thin films. We used BiFeO3 (BFO) as a;model system and measured in-plane P-E loops not only in the;rhombohedral-like (R-like) BFO thin films but also in largely strained;BFO films exhibiting the pure tetragonal-like (T-like) phase. The exact;magnitude and direction of the spontaneous polarization vector of the;T-like phase is deduced thanks to the collection of in-plane;polarization components along different orientations. It is also shown;that the polarization vector in the R-like phase of BiFeO3 is;constrained to lie within the (1 (1) over bar 10) plane and rotates from;the [111] towards the [001] pseudocubic direction when the compressive;strain is increased from zero. At high misfit strains such as -4.4%, the;pure T-like phase is obtained and its polarization vector is constrained;to lie in the (010) plane with a significantly large in-plane component,;similar to 44 mu C/cm(2). First-principles calculations are carried out;in parallel, and provide a good agreement with the experimental results.;DOI: 10.1103/PhysRevB.86.235125;CHEN, LANG/A-2251-2011; You, Lu/H-1512-2011; Ren, Wei/D-2081-2009; HUANG, CHUANWEI/F-9858-2011; WANG, Junling/B-3596-2009; Yang, Ping/C-5612-2008; Chen, Zuhuang/E-7131-2011; Sritharan, Thirumany/G-4890-2010;WANG, Junling/0000-0003-3663-7081; Chen, Zuhuang/0000-0003-1912-6490;;8;1;0;0;8;1098-0121;WOS:000312365200005;;;J;Croitoru, M. D.;Buzdin, A. I.;Extended Lawrence-Doniach model: The temperature evolution of the;in-plane magnetic field anisotropy;PHYSICAL REVIEW B;86;22;224508;10.1103/PhysRevB.86.224508;DEC 17 2012;2012;Using the quasiclassical formalism, we provide the description of the;temperature and field-direction dependence of the in-plane upper;critical field in layered superconductors, taking into account the;interlayer Josephson coupling and the paramagnetic spin splitting. We;generalize the Lawrence-Doniach model for the case of high magnetic;fields and show that the reentrant superconductivity is naturally;described by our formalism when neglecting the Pauli pair-breaking;effect. We demonstrate that in layered superconductors the in-plane;anisotropy of the onset of superconductivity exhibits four different;temperature regimes: from the Ginzburg-Landau type in the vicinity of;the critical temperature T-c0 with anisotropies of coherence lengths, up;to the Fulde-Ferell-Larkin-Ovchinnikov type induced by the strong;interference between the modulation vector and the orbital effect. Our;results are in agreement with the experimental measurements of the;field-angle dependence of the superconducting onset temperature of the;organic compound (TMTSF)(2)ClO4. DOI: 10.1103/PhysRevB.86.224508;Buzdin, Alexander/I-6038-2013; Croitoru, Mihail/J-9934-2014;Croitoru, Mihail/0000-0002-3014-8634;3;0;0;0;3;1098-0121;WOS:000312364700005;;;J;Dhital, Chetan;Abernathy, D. L.;Zhu, Gaohua;Ren, Zhifeng;Broido, D.;Wilson, Stephen D.;Inelastic neutron scattering study of phonon density of states in;nanostructured Si1-xGex thermoelectrics;PHYSICAL REVIEW B;86;21;214303;10.1103/PhysRevB.86.214303;DEC 17 2012;2012;Inelastic neutron scattering measurements are utilized to explore;relative changes in the generalized phonon density of states of;nanocrystalline Si1-xGex thermoelectric materials prepared via;ball-milling and hot-pressing techniques. Dynamic signatures of Ge;clustering can be inferred from the data by referencing the resulting;spectra to a density functional theoretical model assuming homogeneous;alloying via the virtual-crystal approximation. Comparisons are also;presented between as-milled Si nanopowder and bulk, polycrystalline Si;where a preferential low-energy enhancement and lifetime broadening of;the phonon density of states appear in the nanopowder. Negligible;differences are however observed between the phonon spectra of bulk Si;and hot-pressed, nanostructured Si samples suggesting that changes to;the single-phonon dynamics above 4 meV play only a secondary role in the;modified heat conduction of this compound.;BL18, ARCS/A-3000-2012; Abernathy, Douglas/A-3038-2012; Ren, Zhifeng/B-4275-2014;1;0;0;0;1;1098-0121;WOS:000312364200002;;;J;Farahani, S. K. Vasheghani;Veal, T. D.;Sanchez, A. M.;Bierwagen, O.;White, M. E.;Gorfman, S.;Thomas, P. A.;Speck, J. S.;McConville, C. F.;Influence of charged-dislocation density variations on carrier mobility;in heteroepitaxial semiconductors: The case of SnO2 on sapphire;PHYSICAL REVIEW B;86;24;245315;10.1103/PhysRevB.86.245315;DEC 17 2012;2012;In highly mismatched heteroepitaxial systems, the influence of carrier-;and dislocation-density variations on carrier mobility is revealed.;Transmission electronmicroscopy reveals the variation of dislocation;density through a series of SnO2 films grown by molecular-beam epitaxy;on sapphire substrates where the lattice mismatch exceeds 11%. A;layer-by-layer parallel conduction treatment of the carrier mobility in;SnO2 epilayers is used to illustrate the dominant role of the;depth-dependent dislocation density and charge profile in determining;the film-thickness dependence of the transport properties.;Thomas, Pam/G-3532-2010; Sanchez, Ana/F-3153-2010;Sanchez, Ana/0000-0002-8230-6059;0;0;0;0;0;1098-0121;WOS:000312365800009;;;J;Ferraz, Alvaro;Kochetov, Evgeny;Comment on "Fermi surface reconstruction in hole-doped t-J models;without long-range antiferromagnetic order";PHYSICAL REVIEW B;86;24;247103;10.1103/PhysRevB.86.247103;DEC 17 2012;2012;0;0;0;0;0;1098-0121;WOS:000312365800015;;;J;Frimmer, Martin;Koenderink, A. Femius;Superemitters in hybrid photonic systems: A simple lumping rule for the;local density of optical states and its breakdown at the unitary limit;PHYSICAL REVIEW B;86;23;235428;10.1103/PhysRevB.86.235428;DEC 17 2012;2012;We theoretically investigate how the enhancement of the radiative decay;rate of a spontaneous emitter provided by coupling to an optical antenna;is modified when this "superemitter" is introduced into a complex;photonic environment that provides an enhanced local density of optical;states (LDOS) itself, such as a microcavity or stratified medium. We;show that photonic environments with increased LDOS further boost the;performance of antennas that scatter weakly, for which a simple;multiplicative LDOS lumping rule holds. In contrast, enhancements;provided by antennas close to the unitary limit, i.e., close to the;limit of maximally possible scattering strength, are strongly reduced by;an enhanced LDOS of the environment. Thus, we identify multiple;scattering in hybrid photonic systems as a powerful mechanism for LDOS;engineering. DOI: 10.1103/PhysRevB.86.235428;Koenderink, A. Femius/A-3955-2008;Koenderink, A. Femius/0000-0003-1617-5748;7;0;0;0;7;1098-0121;WOS:000312365200011;;;J;Gasparinetti, S.;Kamleitner, I.;Coherent Cooper-pair pumping by magnetic flux control;PHYSICAL REVIEW B;86;22;224510;10.1103/PhysRevB.86.224510;DEC 17 2012;2012;We introduce and discuss a scheme for Cooper-pair pumping. The scheme;relies on the coherent transfer of a superposition of charge states;across a superconducting island and is realized by adiabatic;manipulation of magnetic fluxes. Differently from previous;implementations, it does not require any modulation of electrostatic;potentials. We find a peculiar dependence of the pumped charge on the;superconducting phase bias across the pump and that an arbitrarily large;amount of charge can be pumped in a single cycle when the phase bias is;pi. We explain these features and their relation to the adiabatic;theorem. DOI: 10.1103/PhysRevB.86.224510;Gasparinetti, Simone/C-2991-2014;Gasparinetti, Simone/0000-0002-7238-693X;3;0;0;0;3;1098-0121;WOS:000312364700007;;;J;Gu, B.;Ziman, T.;Maekawa, S.;Theory of the spin Hall effect, and its inverse, in a ferromagnetic;metal near the Curie temperature;PHYSICAL REVIEW B;86;24;241303;10.1103/PhysRevB.86.241303;DEC 17 2012;2012;We give a theory of the inverse spin Hall effect (ISHE) in ferromagnetic;metals based on skew scattering via collective spin fluctuations. This;extends Kondo's theory of the anomalous Hall effect (AHE) to include;short-range spin-spin correlations. We find a relation between the ISHE;and the four-spin correlations near the Curie temperature T-C. Such;four-spin correlations do not contribute to the AHE, which relates to;the three-spin correlations. Thus our theory shows an essential;difference between the AHE and ISHE, providing an essential complement;to Kondo's classic theory of the AHE in metals. We note the relation to;skew-scattering mechanisms based on impurity scattering. Our theory can;be compared to recent experimental results by Wei et al. [Nat. Commun.;3, 1058 (2012)] for the ISHE in ferromagnetic alloys. DOI:;10.1103/PhysRevB.86.241303;Gu, Bo/B-6145-2011;Gu, Bo/0000-0003-2216-8413;1;0;0;0;1;1098-0121;WOS:000312365800003;;;J;Guedes, E. B.;Abbate, M.;Ishigami, K.;Fujimori, A.;Yoshimatsu, K.;Kumigashira, H.;Oshima, M.;Vicentin, F. C.;Fonseca, P. T.;Mossanek, R. J. O.;Core level and valence band spectroscopy of SrRuO3: Electron correlation;and covalence effects;PHYSICAL REVIEW B;86;23;235127;10.1103/PhysRevB.86.235127;DEC 17 2012;2012;We studied the electronic structure of SrRuO3 using several;spectroscopic techniques. These include ( resonant) photoemission, x-ray;absorption, and optical conductivity. The experimental results were;interpreted using an extended cluster model, which takes into account;electron correlation and the Ru 4d-O 2p covalence. The analysis shows;that this material is in the negative charge transfer regime, where the;ground state is dominated by the 4d(5) (L) under bar configuration with;an occupation of 47%. This is mainly due to the relatively large crystal;field and exchange splitting in the Ru 4d states. The electronic;structure of SrRuO3 is strongly influenced by the Ru 4d-O 2p;hybridization. Thus, the oxygen states should be explicitly considered;in the analysis of the physical properties of this system. However,;correlation effects are also important in this system giving rise to the;coherent peak in the valence band spectra. DOI:;10.1103/PhysRevB.86.235127;Mossanek, Rodrigo /E-8113-2010;1;0;0;0;1;1098-0121;WOS:000312365200007;;;J;Gull, E.;Millis, A. J.;Energetics of superconductivity in the two-dimensional Hubbard model;PHYSICAL REVIEW B;86;24;241106;10.1103/PhysRevB.86.241106;DEC 17 2012;2012;The energetics of the interplay between superconductivity and the;pseudogap in high-temperature superconductivity is examined using the;eight-site dynamical cluster approximation to the two-dimensional;Hubbard model. Two regimes of superconductivity are found: a;weak-coupling/large-doping regime in which the onset of;superconductivity causes a reduction in potential energy and an increase;in kinetic energy, and a strong-coupling regime in which;superconductivity is associated with an increase in potential energy and;a decrease in kinetic energy. The crossover between the two regimes is;found to coincide with the boundary of the normal-state pseudogap,;providing further evidence of the unconventional nature of;superconductivity in the pseudogap regime. However, the absence, in the;strongly correlated but nonsuperconducting state, of discernibly;nonlinear response to an applied pairing field suggests that resonating;valence bond physics is not the origin of the kinetic-energy driven;superconductivity. DOI: 10.1103/PhysRevB.86.241106;Gull, Emanuel/A-2362-2010;Gull, Emanuel/0000-0002-6082-1260;10;1;0;0;10;1098-0121;WOS:000312365800001;;;J;Hiltscher, Bastian;Governale, Michele;Koenig, Juergen;ac Josephson transport through interacting quantum dots;PHYSICAL REVIEW B;86;23;235427;10.1103/PhysRevB.86.235427;DEC 17 2012;2012;We investigate the ac Josephson current through a quantum dot with;strong Coulomb interaction attached to two superconducting and one;normal lead. To this end, we perform a perturbation expansion in the;tunneling couplings within a diagrammatic real-time technique. The ac;Josephson current is connected to the reduced density matrix elements;that describe superconducting correlations induced on the quantum dot;via proximity effect. We analyze the dependence of the ac signal on the;level position of the quantum dot, the charging energy, and the applied;bias voltages. DOI: 10.1103/PhysRevB.86.235427;2;0;0;0;2;1098-0121;WOS:000312365200010;;;J;Kambe, Takashi;He, Xuexia;Takahashi, Yosuke;Yamanari, Yusuke;Teranishi, Kazuya;Mitamura, Hiroki;Shibasaki, Seiji;Tomita, Keitaro;Eguchi, Ritsuko;Goto, Hidenori;Takabayashi, Yasuhiro;Kato, Takashi;Fujiwara, Akihiko;Kariyado, Toshikaze;Aoki, Hideo;Kubozono, Yoshihiro;Synthesis and physical properties of metal-doped picene solids;PHYSICAL REVIEW B;86;21;214507;10.1103/PhysRevB.86.214507;DEC 17 2012;2012;We report electronic-structure and physical properties of metal-doped;picene as well as selective synthesis of the phase that exhibits 18-K;superconducting transition. First, Raman scattering is used to;characterize the number of electrons transferred from the dopants to;picene molecules, where a softening of Raman scattering peaks enables us;to determine the number of transferred electrons. From this, we have;identified that three electrons are transferred to each picene molecule;in the superconducting doped picene solids. Second, we report pressure;dependence of T-c in 7- and 18-K phases of K(3)picene. The 7-K phase;shows a negative pressure dependence, while the 18-K phase exhibits a;positive pressure dependence which can not be understood with a simple;phonon mechanism of BCS superconductivity. Third, we report a synthesis;method for superconducting K(3)picene by a solution process with;monomethylamine CH3NH2. This method enables us to prepare selectively;the K(3)picene sample exhibiting 18-K superconducting transition. The;method for preparing K(3)picene with T-c = 18 K found here may;facilitate clarification of the mechanism of superconductivity.;Takabayashi, Yasuhiro/A-5014-2013; EGUCHI, Ritsuko/H-4129-2011; Aoki, Hideo/A-2525-2009; KUBOZONO, Yoshihiro/B-2091-2011; KAMBE, Takashi/B-2117-2011;Takabayashi, Yasuhiro/0000-0002-3493-2194; Aoki,;Hideo/0000-0002-7332-9355;;14;0;0;0;14;1098-0121;WOS:000312364200006;;;J;Kandpal, Hem C.;Koepernik, Klaus;Richter, Manuel;Strong magnetic anisotropy of chemically bound Co dimers in a graphene;sheet;PHYSICAL REVIEW B;86;23;235430;10.1103/PhysRevB.86.235430;DEC 17 2012;2012;The magnetism of cobalt atoms and dimers bound by single vacancies in a;graphene sheet is investigated by means of relativistic density;functional calculations. In both cases, local magnetic moments are;formed despite strong chemical binding. While orbital magnetism is;suppressed in the Co atoms, magnetic bistability with an anisotropy;barrier of about 50 meV is possible in the chemically bound Co dimers.;The feasibility of their preparation is demonstrated and a general;construction principle for similar (sub-)nanometer size magnets is;proposed. DOI: 10.1103/PhysRevB.86.235430;3;0;0;0;3;1098-0121;WOS:000312365200013;;;J;Kawai, Shigeki;Glatzel, Thilo;Such, Bartosz;Koch, Sascha;Baratoff, Alexis;Meyer, Ernst;Energy dissipation in dynamic force microscopy on KBr(001) correlated;with atomic-scale adhesion phenomena;PHYSICAL REVIEW B;86;24;245419;10.1103/PhysRevB.86.245419;DEC 17 2012;2012;Atomic-scale adhesion phenomena between KBr tip and sample were studied;by dynamic force spectroscopy with a small amplitude of down to 285 pm;at room temperature. The high-resonance frequency of the second flexural;mode of a silicon cantilever (approximate to 1 MHz) suppresses an;apparent dissipation energy caused by undesirable mechanical couplings;in between the cantilever and the dither piezo actuator. Further, the;Joule heating dissipation contribution and the noise-equivalent;dissipation energy were reduced by setting a smaller amplitude. Usage of;a high resonance frequency and a smaller amplitude enables us to perform;highly sensitive measurements of the atomic-scale adhesion and the;tip-instability-related energy dissipation. Tip changes, caused by;tip-sample interactions and thermal energy, resulted in three different;dissipation energy levels (Delta E-ts approximate to 25 meV/cycle). This;infrequent change of the tip apex condition often prevents a stable;imaging with small amplitude. Our systematic measurement shows that the;atomic adhesion is caused mainly in the tip itself, and a sharper and;softer tip induced a larger energy dissipation. DOI:;10.1103/PhysRevB.86.245419;Glatzel, Thilo/F-2639-2011; Kawai, Shigeki/C-8517-2012;2;0;0;0;2;1098-0121;WOS:000312365800014;;;J;Kim, Younghyun;Cano, Jennifer;Nayak, Chetan;Majorana zero modes in semiconductor nanowires in contact with;higher-T-c superconductors;PHYSICAL REVIEW B;86;23;235429;10.1103/PhysRevB.86.235429;DEC 17 2012;2012;We analyze the prospects for stabilizing Majorana zero modes in;semiconductor nanowires that are proximity coupled to higher-temperature;superconductors. We begin with the case of iron pnictides which, though;they are s-wave superconductors, are believed to have superconducting;gaps that change sign. We then consider the case of cuprate;superconductors. We show that a nanowire on a steplike surface,;especially in an orthorhombic material such as YBCO, can support;Majorana zero modes at an elevated temperature. DOI:;10.1103/PhysRevB.86.235429;1;0;0;0;1;1098-0121;WOS:000312365200012;;;J;Kovylina, Miroslavna;Morales, Rafael;Labarta, Amilcar;Batlle, Xavier;Magnetization reversal in Ni/FeF2 heterostructures with the coexistence;of positive and negative exchange bias;PHYSICAL REVIEW B;86;22;224414;10.1103/PhysRevB.86.224414;DEC 17 2012;2012;Magnetization reversal mechanisms are studied in Ni/FeF2;heterostructures with the coexistence of positive and negative exchanged;bias (PEB/NEB), showing single and double hysteresis loops (DHL) in;magnetoresistance measurements. Micromagnetic simulations show that PEB;and NEB domains of a minimum critical size must be introduced in order;to reproduce the occurrence of DHLs. The simulations reveal that;different magnetic configurations and, hence, different magnetization;reversal processes take place in a ferromagnet (FM) on top of minority;PEB domains that are either greater or smaller than the critical size.;In particular, for the case of DHLs, core reversal of a depthwise domain;wall is observed over minority PEB domains when the magnetic field is;decreased from positive saturation. As the field is further decreased, a;complex domain-wall evolution takes place in the FM, including the;dependences of the domain-wall width and domain size on the magnetic;field and distance from the antiferromagnet (AF). These effects should;be taken into account when the domain size is estimated from data;measured by depth-dependent techniques since they average the;distribution of domain sizes in the FM for different distances from the;AF. DOI: 10.1103/PhysRevB.86.224414;Labarta, Amilcar/B-4539-2012; Batlle, Xavier/H-5795-2012;Labarta, Amilcar/0000-0003-0904-4678;;2;0;0;0;2;1098-0121;WOS:000312364700004;;;J;Kuga, Kentaro;Morrison, Gregory;Treadwell, LaRico;Chan, Julia Y.;Nakatsuji, Satoru;Magnetic order induced by Fe substitution of Al site in the;heavy-fermion systems alpha-YbAlB4 and beta-YbAlB4;PHYSICAL REVIEW B;86;22;224413;10.1103/PhysRevB.86.224413;DEC 17 2012;2012;beta-YbAlB4 is a heavy-fermion superconductor that exhibits a quantum;criticality without tuning at zero field and under ambient pressure. We;have succeeded in substituting Fe for Al in beta-YbAlB4 as well as the;polymorphous compound alpha-YbAlB4, which in contrast has a heavy;Fermi-liquid ground state. Full structure determination by;single-crystal x-ray diffraction confirmed no change in crystal;structure for both alpha- and beta-YbAlB4, in addition to volume;contraction with Fe substitution. Our measurements of the magnetization;and specific heat indicate that both alpha-YbAl0.93Fe0.07B4 and;beta-YbAl0.94Fe0.06B4 exhibit a magnetic order, most likely of a canted;antiferromagnetic type, at 7 similar to 9 K. The increase in the entropy;as well as the decrease in the antiferromagnetic Weiss temperature with;the Fe substitution in both systems indicates that the chemical pressure;due to the Fe substitution suppresses the Kondo temperature and induces;the magnetism. DOI: 10.1103/PhysRevB.86.224413;Chan, Julia/C-5392-2008;2;0;0;0;2;1098-0121;WOS:000312364700003;;;J;Lee, Yu-Wen;Lee, Yu-Li;Chung, Chung-Hou;Nonequilibrium noise correlations in a point contact of helical edge;states;PHYSICAL REVIEW B;86;23;235121;10.1103/PhysRevB.86.235121;DEC 17 2012;2012;We investigate theoretically the nonequilibrium finite-frequency current;noise in a four-terminal quantum point contact of interacting helical;edge states at a finite bias voltage. Special focus is put on the;effects of the single-particle and two-particle scattering between the;two helical edge states on the fractional charge quasiparticle;excitations shown in the nonequilibrium current noise spectra. Via the;Keldysh perturbative approach, we find that the effects of the;single-particle and the two-particle scattering processes on the current;noise depend sensitively on the Luttinger liquid parameter. Moreover,;the Fano factors for the auto-and cross correlations of the currents in;the terminals are distinct from the ones for tunneling between the;chiral edge states in the quantum Hall liquid. The current noise spectra;in the single-particle-scattering-dominated and the;two-particle-scattering-dominated regime are shown. Experimental;implications of our results on the transport through the helical edges;in two-dimensional topological insulators are discussed. DOI:;10.1103/PhysRevB.86.235121;6;0;0;0;6;1098-0121;WOS:000312365200001;;;J;Leppert, L.;Albuquerque, R. Q.;Kuemmel, S.;Gold-platinum alloys and Vegard's law on the nanoscale;PHYSICAL REVIEW B;86;24;241403;10.1103/PhysRevB.86.241403;DEC 17 2012;2012;The structure of gold-platinum nanoparticles is heavily debated as;theoretical calculations predict core-shell particles, whereas x-ray;diffraction experiments frequently detect randomly mixed alloys. By;calculating the structure of gold-platinum nanoparticles with diameters;of up to approximate to 3.5 nm and simulating their x-ray diffraction;patterns, we show that these seemingly opposing findings need not be in;contradiction: Shells of gold are hardly visible in usual x-ray;scattering, and the interpretation of Vegard's law is ambiguous on the;nanoscale. DOI: 10.1103/PhysRevB.86.241403;Albuquerque, Rodrigo/A-8433-2013; Kummel, Stephan/K-5634-2014;4;0;0;0;4;1098-0121;WOS:000312365800004;;;J;Lin, Chien-Hung;Sau, Jay D.;Das Sarma, S.;Zero-bias conductance peak in Majorana wires made of;semiconductor/superconductor hybrid structures;PHYSICAL REVIEW B;86;22;224511;10.1103/PhysRevB.86.224511;DEC 17 2012;2012;Motivated by a recent experimental report Mourik et al. [Science 336,;1003 (2012)] claiming the likely observation of the Majorana mode in a;semiconductor-superconductor hybrid structure, we study theoretically;the dependence of the zero-bias conductance peak associated with the;zero-energy Majorana mode in the topological superconducting phase as a;function of temperature, tunnel barrier potential, and a magnetic field;tilted from the direction of the wire for realistic wires of finite;lengths. We find that higher temperatures and tunnel barriers as well as;a large magnetic field in the direction transverse to the wire length;could very strongly suppress the zero- bias conductance peak as observed;in recent experiments. We also show that a strong magnetic field along;the wire could eventually lead to the splitting of the zero bias peak;into a doublet with the doublet energy splitting oscillating as a;function of increasing magnetic field. Our results based on the standard;theory of topological superconductivity in a semiconductor hybrid;structure in the presence of proximity-induced superconductivity,;spin-orbit coupling, and Zeeman splitting show that the recently;reported experimental data are generally consistent with the existing;theory that led to the predictions for the existence of the Majorana;modes in the semiconductor hybrid structures in spite of some apparent;anomalies in the experimental observations at first sight. We also make;a prediction for the future observation of Majorana splitting in finite;wires used in the experiments. DOI: 10.1103/PhysRevB. 86.224511;Das Sarma, Sankar/B-2400-2009;22;0;1;0;22;1098-0121;WOS:000312364700008;;;J;Marchal, R.;Boyko, O.;Bonello, B.;Zhao, J.;Belliard, L.;Oudich, M.;Pennec, Y.;Djafari-Rouhani, B.;Dynamics of confined cavity modes in a phononic crystal slab;investigated by in situ time-resolved experiments;PHYSICAL REVIEW B;86;22;224302;10.1103/PhysRevB.86.224302;DEC 17 2012;2012;The confinement of elastic waves within a single defect in a phononic;crystal slab is investigated both experimentally and theoretically. The;structure is formed by a honeycomb lattice of air holes in a silicon;plate with one hole missing in its center. The frequencies and;polarizations of the localized modes in the first band gap are computed;with a finite element method. A noncontact laser ultrasonic technique is;used both to excite flexural Lamb waves and to monitor in situ the;displacement field within the cavity. We report on the time evolution of;confinement, which is distinct according to the symmetry of the;eigenmode. DOI: 10.1103/PhysRevB.86.224302;3;0;0;0;3;1098-0121;WOS:000312364700002;;;J;Martinez, Enrique;Senninger, Oriane;Fu, Chu-Chun;Soisson, Frederic;Decomposition kinetics of Fe-Cr solid solutions during thermal aging;PHYSICAL REVIEW B;86;22;224109;10.1103/PhysRevB.86.224109;DEC 17 2012;2012;The decomposition of Fe-Cr solid solutions during thermal aging is;modeled by atomistic kinetic Monte Carlo simulations, using a rigid;lattice approximation with pair interactions that depend on the local;composition and temperature. The pair interactions are fitted on ab;initio calculations of mixing energies and vacancy migration barriers at;0 K. The entropic contributions to the mixing of Fe-Cr alloys and to the;vacancy formation and migration free energies are taken into account.;The model reproduces the change in sign of the mixing energy with the;alloy composition and gives realistic thermodynamic and kinetic;properties, including an asymmetrical miscibility gap at low temperature;and diffusion coefficients in good agreement with available experimental;data. Simulations of short-range ordering and alpha-alpha' decomposition;are performed at 773 and 813 K for Cr concentrations between 10% and;50%. They are compared with experimental kinetics based on;three-dimensional atom probe and neutron scattering measurements. The;possible effect of magnetic properties on diffusion in the alpha and;alpha' phases, and therefore on the decomposition kinetics, is;emphasized. DOI: 10.1103/PhysRevB.86.224109;soisson, frederic/B-2917-2009; Lujan Center, LANL/G-4896-2012;soisson, frederic/0000-0001-6435-6119;;6;0;0;0;6;1098-0121;WOS:000312364700001;;;J;Moon, Eun-Gook;Xu, Cenke;Exotic continuous quantum phase transition between Z(2) topological spin;liquid and Neel order;PHYSICAL REVIEW B;86;21;214414;10.1103/PhysRevB.86.214414;DEC 17 2012;2012;Recent numerical simulations with different techniques have all;suggested the existence of a continuous quantum phase transition between;the Z(2) topological spin-liquid phase and a conventional Neel order.;Motivated by this numerical progress, we propose a candidate theory for;such Z(2)-Neel transition. We first argue on general grounds that, for a;SU(2)-invariant system, this transition can not be interpreted as the;condensation of spinons in the Z(2) spin-liquid phase. Then, we propose;that such Z(2)-Neel transition is driven by proliferating the bound;state of the bosonic spinon and vison excitation of the Z(2) spin;liquid, i.e., the so-called (e, m)-type excitation. Universal critical;exponents associated with this exotic transition are computed using 1/N;expansion. This theory predicts that at the Z(2)-Neel transition, there;is an emergent quasi-long-range power-law correlation of columnar;valence bond solid order parameter.;6;0;0;0;6;1098-0121;WOS:000312364200003;;;J;Moskvin, A. S.;Gippius, A. A.;Tkachev, A. V.;Mahajan, A. V.;Chakrabarty, T.;Presniakov, I. A.;Sobolev, A. V.;Demazeau, G.;Direct evidence of non-Zhang-Rice Cu3+ centers in La2Li0.5Cu0.5O4;PHYSICAL REVIEW B;86;24;241107;10.1103/PhysRevB.86.241107;DEC 17 2012;2012;A well-isolated Zhang-Rice (ZR) singlet as a ground state of the Cu3+;center in hole-doped cuprates is a leading paradigm in modern theories;of high-temperature superconductivity. However, a dramatic temperature;evolution of the Li-6,Li-7 NMR signal in La2Li0.5Cu0.5O4, a system with;a regular lattice of well-isolated Cu3+ centers, reveals significant;magnetic fluctuations and suggests a quasidegeneracy to be a generic;property of their ground state at variance with the simple ZR model. We;argue for a competition of the ZR state with nearby states formed by a;"doped" hole occupying purely oxygen nonbonding a(2g)(pi) and e(u)(pi);orbitals rather than a conventional b(1g)(d(x2-y2))Cu 3d-O 2p hybrid.;The temperature variation of the Li-6,Li-7 NMR line shape and;spin-lattice relaxation rate point to a gradual slowing down of some;magnetic order parameter's fluctuations without distinct signatures of a;phase transition down to T = 2 K. This behavior agrees with a stripelike;ferrodistortive fluctuating Ammm order in a two-dimensional structure of;the (CuLi)O-2 planes accompanied by unconventional oxygen orbital;antiferromagnetic fluctuations. DOI: 10.1103/PhysRevB.86.241107;Gippius, Andrey/D-1139-2010; Sobolev, Alexey/C-3832-2009;Sobolev, Alexey/0000-0002-8085-5425;0;0;0;0;0;1098-0121;WOS:000312365800002;;;J;Nguyen, P. D.;Kepaptsoglou, D. M.;Erni, R.;Ramasse, Q. M.;Olsen, A.;Quantum confinement of volume plasmons and interband transitions in;germanium nanocrystals;PHYSICAL REVIEW B;86;24;245316;10.1103/PhysRevB.86.245316;DEC 17 2012;2012;The plasmonic properties of individual quantum-sized Ge nanocrystals;(NCs) were observed and systematically analyzed by aberration-corrected;scanning transmission electron microscopy (STEM) and electron energy;loss spectroscopy (EELS). For this purpose, Ge NCs embedded in an SiO2;matrix with controllable size, density, and structure were fabricated;using magnetron sputtering. The size dependence of the Ge plasmon;energies in the size range of 5-9 nm is shown to be well depicted by the;so-called medium quantum confinement (QC) model, with an effective mass;of 0.57m(0) (contrary to expectations of a stronger quantum effect). In;the very low-loss region of the EEL spectra, an apparent blue shift of;the E-2 interband transition peak up to 2 eV and a strong reduction in;the oscillator strength were measured for the NCs in the size range of;4-6 nm. It indicates for this smaller size range a transition to a QC;regime where the band structure and the density of states are modified;dramatically. These trends are explained by a combination of low-loss;and core-loss EELS results, which show that the Ge NCs are surrounded;uniformly by nearly stoichiometric SiO2. This local chemistry is shown;to provide an infinite potential barrier and to confine electrons and;holes in the spherically shaped Ge NCs. In addition to pure QC effects;in the Ge NCs, the SiO2 matrix thus plays an important role in the;strength of the observed QC and interband transitions. DOI:;10.1103/PhysRevB.86.245316;2;0;0;0;2;1098-0121;WOS:000312365800010;;;J;Roedl, Claudia;Bechstedt, Friedhelm;Optical and energy-loss spectra of the antiferromagnetic transition;metal oxides MnO, FeO, CoO, and NiO including quasiparticle and;excitonic effects;PHYSICAL REVIEW B;86;23;235122;10.1103/PhysRevB.86.235122;DEC 17 2012;2012;We calculate the frequency-dependent dielectric function for the series;of antiferromagnetic transition metal oxides (TMOs) from MnO to NiO;using many-body perturbation theory. Quasiparticle, excitonic, and;local-field effects are taken into account by solving the Bethe-Salpeter;equation in the framework of collinear spin polarization. The optical;spectra are based on electronic structures which have been obtained;using density-functional theory with a hybrid functional containing;screened exchange (HSE03) and a subsequent quasiparticle calculation in;the GW approximation to describe exchange and correlation effects;adequately. These sophisticated quasiparticle band structures are mapped;to electronic structures resulting from the computationally less;expensive GGA + U + Delta scheme that includes an on-site interaction U;and a scissors shift Delta and allows us to calculate the large number;of electronic states that is necessary to construct the Bethe-Salpeter;Hamiltonian. For an accurate description of the optical spectra, an;appropriate treatment of the strong electron-hole attraction is;mandatory to obtain agreement with the experimentally observed;absorption-peak positions. The itinerant s and p states as well as the;localized transition metal 3d states have to be considered on an equal;footing. We find that a purely atomic picture is not suitable to;understand the optical absorption spectra of the TMOs. Reflectivity;spectra, absorption coefficients, and loss functions at vanishing;momentum transfer are computed in a wide spectral range and discussed in;light of the available experimental data. DOI:;10.1103/PhysRevB.86.235122;8;1;0;0;8;1098-0121;WOS:000312365200002;;;J;Schlickeiser, F.;Atxitia, U.;Wienholdt, S.;Hinzke, D.;Chubykalo-Fesenko, O.;Nowak, U.;Temperature dependence of the frequencies and effective damping;parameters of ferrimagnetic resonance;PHYSICAL REVIEW B;86;21;214416;10.1103/PhysRevB.86.214416;DEC 17 2012;2012;Recent experiments on all-optical switching in GdFeCo and CoGd have;raised the question about the importance of the angular momentum or the;magnetization compensation point for ultrafast magnetization dynamics.;We investigate the dynamics of ferrimagnets by means of computer;simulations as well as analytically. The results from atomistic modeling;are explained by a theory based on the two-sublattice;Landau-Lifshitz-Bloch equation. Similarly to the experimental results;and unlike predictions based on the macroscopic Landau-Lifshitz;equation, we find an increase in the effective damping at temperatures;approaching the Curie temperature. Further results for the temperature;dependence of the frequencies and effective damping parameters of the;normal modes represent an improvement of former approximated solutions,;building a better basis for comparison to recent experiments.;Atxitia, Unai/A-8870-2010;4;0;0;0;4;1098-0121;WOS:000312364200005;;;J;Smith, R. F.;Minich, R. W.;Rudd, R. E.;Eggert, J. H.;Bolme, C. A.;Brygoo, S. L.;Jones, A. M.;Collins, G. W.;Orientation and rate dependence in high strain-rate compression of;single-crystal silicon;PHYSICAL REVIEW B;86;24;245204;10.1103/PhysRevB.86.245204;DEC 17 2012;2012;High strain-rate ((epsilon)over dot similar to 10(6)-10(9) s(-1));compression of single crystal Si reveals strong orientation- and;rate-dependent precursor stresses. At these high compression rates, the;peak elastic stress, sigma(E_Peak), for Si [100], [110], and [111];exceeds twice the Hugoniot elastic limit. Near the loading surface, the;rate at which Si evolves from uniaxial compression to a;three-dimensional relaxed state is exponentially dependent on;sigma(E_Peak) and independent of initial crystal orientation. At later;times, the high elastic wave speed results in a temporal decoupling of;the elastic precursor from the main inelastic wave. A rapid;high-(epsilon)over dot increase in the measured elastic stress at the;onset of inelastic deformation is consistent with a transition from;dislocation flow mediated by thermal activation to a phonon drag regime.;DOI: 10.1103/PhysRevB.86.245204;3;0;0;0;3;1098-0121;WOS:000312365800006;;;J;Svensson, S. P.;Sarney, W. L.;Hier, H.;Lin, Y.;Wang, D.;Donetsky, D.;Shterengas, L.;Kipshidze, G.;Belenky, G.;Band gap of InAs1-xSbx with native lattice constant;PHYSICAL REVIEW B;86;24;245205;10.1103/PhysRevB.86.245205;DEC 17 2012;2012;The band gap energy of the alloy InAsSb has been studied as a function;of composition with special emphasis on minimization of strain-induced;artifacts. The films were grown by molecular beam epitaxy on GaSb;substrates with compositionally graded buffer layers that were designed;to produce strain-free films. The compositions were precisely determined;by high-resolution x-ray diffraction. Evidence for weak, long-range,;group-V ordering was detected in materials exhibiting residual strain;and relaxation. In contrast, unstrained films having the nondistorted;cubic form showed no evidence of group-V ordering. The photoluminescence;(PL) peak positions therefore corresponds to the inherent band gap of;unstrained, unrelaxed, InAsSb. PL peaks were recorded for compositions;up to 46% Sb, reaching a peak wavelength of 10.3 mu m, observed under;low excitation at T = 13 K. The alloy band gap energies determined from;PL maxima are described with a bowing parameter of 0.87 eV, which is;significantly larger than measured for InAsSb in earlier work. The;sufficiently large bowing parameter and the ability to grow the alloys;without ordering allows direct band gap InAsSb to be a candidate;material for low-temperature long-wavelength infrared detector;applications. DOI: 10.1103/PhysRevB.86.245205;8;0;0;0;8;1098-0121;WOS:000312365800007;;;J;Thirupathaiah, S.;Evtushinsky, D. V.;Maletz, J.;Zabolotnyy, V. B.;Kordyuk, A. A.;Kim, T. K.;Wurmehl, S.;Roslova, M.;Morozov, I.;Buechner, B.;Borisenko, S. V.;Weak-coupling superconductivity in electron-doped NaFe0.95Co0.05As;revealed by ARPES;PHYSICAL REVIEW B;86;21;214508;10.1103/PhysRevB.86.214508;DEC 17 2012;2012;We report a systematic study on the electronic structure and;superconducting (SC) gaps in electron-doped NaFe0.95Co0.05As;superconductor using angle-resolved photoemission spectroscopy. Holelike;Fermi sheets are at the zone center and electronlike Fermi sheets are at;the zone corner, and are mainly contributed by xz and yz orbital;characters. Our results reveal a Delta/KBTc in the range of 1.8-2.1,;suggesting a weak-coupling superconductivity in these compounds. Gap;closing above the transition temperature (T-c) shows the absence of;pseudogaps. Gap evolution with temperature follows the BCS gap equation;near the Gamma, Z, and M high symmetry points. Furthermore, an almost;isotropic superconductivity along the k(z) direction in the momentum;space is observed by varying the excitation energies.;Wurmehl, Sabine/A-5872-2009; Morozov, Igor/C-4329-2011; Borisenko, Sergey/G-6743-2012; Roslova, Maria/F-7352-2013;Borisenko, Sergey/0000-0002-5046-4829;;6;0;0;0;6;1098-0121;WOS:000312364200007;;;J;Tsuda, Kenji;Sano, Rikiya;Tanaka, Michiyoshi;Nanoscale local structures of rhombohedral symmetry in the orthorhombic;and tetragonal phases of BaTiO3 studied by convergent-beam electron;diffraction;PHYSICAL REVIEW B;86;21;214106;10.1103/PhysRevB.86.214106;DEC 17 2012;2012;The symmetries of the rhombohedral, orthorhombic, and tetragonal phases;of barium titanate (BaTiO3) are investigated using convergent-beam;electron diffraction. Nanometer-sized local structures with rhombohedral;symmetry are observed in both the orthorhombic and tetragonal phases.;This indicates that an order-disorder character exists in phase;transformations of BaTiO3. The nanostructures in these phases are;discussed in terms of an order-disorder model with off-centered Ti in;the < 111 > directions.;6;0;0;0;6;1098-0121;WOS:000312364200001;;;J;Ulstrup, Soren;Frederiksen, Thomas;Brandbyge, Mads;Nonequilibrium electron-vibration coupling and conductance fluctuations;in a C-60 junction;PHYSICAL REVIEW B;86;24;245417;10.1103/PhysRevB.86.245417;DEC 17 2012;2012;We investigate chemical bond formation and conductance in a molecular;C-60 junction under finite bias voltage using first-principles;calculations based on density functional theory and nonequilibrium;Green's functions (DFT-NEGF). At the point of contact formation we;identify a remarkably strong coupling between the C-60 motion and the;molecular electronic structure. This is only seen for positive sample;bias, although the conductance itself is not strongly polarity;dependent. The nonequilibrium effect is traced back to a sudden shift in;the position of the voltage drop with a small C-60 displacement.;Combined with a vibrational heating mechanism we construct a model from;our results that explain the polarity-dependent two-level conductance;fluctuations observed in recent scanning tunneling microscopy (STM);experiments [N. Neel et al., Nano Lett. 11, 3593 (2011)]. These findings;highlight the significance of nonequilibrium effects in chemical bond;formation/breaking and in electron-vibration coupling in molecular;electronics. DOI: 10.1103/PhysRevB.86.245417;Frederiksen, Thomas/D-3545-2011; Brandbyge, Mads/C-6095-2008; DONOSTIA INTERNATIONAL PHYSICS CTR., DIPC/C-3171-2014;Frederiksen, Thomas/0000-0001-7523-7641;;4;0;0;0;4;1098-0121;WOS:000312365800012;;;J;Urdaniz, M. C.;Barral, M. A.;Llois, A. M.;Magnetic exchange coupling in 3d-transition-metal atomic chains adsorbed;on Cu2N/Cu(001);PHYSICAL REVIEW B;86;24;245416;10.1103/PhysRevB.86.245416;DEC 17 2012;2012;Covalent substrates can give rise to a variety of magnetic interaction;mechanisms among adsorbed transition-metal atoms building atomic;nanostructures. We show this by calculating the ground state magnetic;configuration of monoatomic 3d chains deposited on a monolayer of Cu2N;grown on Cu(001) as a function of d filling and of adsorption sites of;these nanostructures. DOI: 10.1103/PhysRevB.86.245416;1;0;0;0;1;1098-0121;WOS:000312365800011;;;J;Vaz, Eduardo;Kyriakidis, Jordan;Resonant regimes in the Fock-space coherence of multilevel quantum dots;PHYSICAL REVIEW B;86;23;235310;10.1103/PhysRevB.86.235310;DEC 17 2012;2012;The coherence between quantum states with different particle numbers-the;Fock-space coherence-qualitatively differs from the more common;Hilbert-space coherence between states with equal particle numbers. For;a quantum dot with multiple channels available for transport, we find;the conditions for decoupling the dynamics of the Fock-space coherence;from both the Hilbert-space coherence as well as the population;dynamics. We further find specific energy and coupling regimes where a;long-lived resonance in the Fock-space coherence of the system is;realized, even where no resonances are found either in the populations;or Hilbert-space coherence. Numerical calculations show this resonance;remains robust in the presence of both boson-mediated relaxation and;transport through the quantum dot. DOI: 10.1103/PhysRevB.86.235310;1;0;0;0;1;1098-0121;WOS:000312365200009;;;J;Ward, D. K.;Zhou, X. W.;Wong, B. M.;Doty, F. P.;Zimmerman, J. A.;Analytical bond-order potential for the Cd-Zn-Te ternary system;PHYSICAL REVIEW B;86;24;245203;10.1103/PhysRevB.86.245203;DEC 17 2012;2012;Cd-Zn-Te ternary alloyed semiconductor compounds are key materials in;radiation detection and photovoltaic applications. Currently,;crystalline defects such as dislocations limit the performance of these;materials. Atomistic simulations are a powerful method for exploring;crystalline defects at a resolution unattainable by experimental;techniques. To enable accurate atomistic simulations of defects in the;Cd-Zn-Te systems, we develop a full Cd-Zn-Te ternary bond-order;potential. This Cd-Zn-Te potential has numerous unique advantages over;other potential formulations: (1) It is analytically derived from;quantum mechanical theories and is therefore more likely to be;transferable to environments that are not explicitly tested. (2) A;variety of elemental and compound configurations (with coordination;varying from 1 to 12) including small clusters, bulk lattices, defects,;and surfaces are explicitly considered during parameterization. As a;result, the potential captures structural and property trends close to;those seen in experiments and quantum mechanical calculations and;provides a good description of melting temperature, defect;characteristics, and surface reconstructions. (3) Most importantly, this;potential is validated to correctly predict the crystalline growth of;the ground-state structures for Cd, Zn, Te elements as well as CdTe,;ZnTe, and Cd1-xZnxTe compounds during highly challenging molecular;dynamics vapor deposition simulations. DOI: 10.1103/PhysRevB.86.245203;Wong, Bryan/B-1663-2009;Wong, Bryan/0000-0002-3477-8043;7;0;0;0;7;1098-0121;WOS:000312365800005;;;J;Williams, M. E.;Sims, H.;Mazumdar, D.;Butler, W. H.;Effects of 3d and 4d transition metal substitutional impurities on the;electronic properties of CrO2;PHYSICAL REVIEW B;86;23;235124;10.1103/PhysRevB.86.235124;DEC 17 2012;2012;We present first-principles-based density functional theory calculations;of the electronic and magnetic structure of CrO2 with 3d and 4d;substitutional impurities. We find that the half-metallicity of CrO2;remains intact for the ground state of all of the calculated;substitutions. We also observe two periodic trends as a function of the;number of valence electrons: if the substituted atom has six or fewer;valence electrons, the number of down spin electrons associated with the;impurity ion is zero, resulting in ferromagnetic alignment of the;impurity magnetic moment with the magnetization of the CrO2 host. For;substituent atoms with eight to ten valence electrons (with the;exception of Ni), the number of down-spin electrons contributed by the;impurity ion remains fixed at three as the number contributed to the;majority increases from one to three resulting in antiferromagnetic;alignment between impurity moment and host magnetization. In impurities;with seven valence electrons, the zero down-spin and threse down-spin;configurations are very close in energy. At 11 valence electrons, the;energy is minimized when the substituent ion contributes five down-spin;electrons. The moments on the 4d impurities, particularly Nb and Mo,;tend to be delocalized compared with those of the 3ds. DOI:;10.1103/PhysRevB.86.235124;0;0;0;0;0;1098-0121;WOS:000312365200004;;;J;Yan, Xin-Zhong;Ting, C. S.;Possible broken inversion and time-reversal symmetry state of electrons;in bilayer graphene;PHYSICAL REVIEW B;86;23;235126;10.1103/PhysRevB.86.235126;DEC 17 2012;2012;With the two-band continuum model, we study the broken inversion and;time-reversal symmetry state of electrons with finite-range repulsive;interactions in bilayer graphene. In the state, there are overlapped;loop currents in each layer. With the analytical solution to the;mean-field Hamiltonian, we obtain the electronic spectra. The ground;state is gapped. In the presence of the magnetic field B, the energy gap;grows with increasing B, in excellent agreement with the experimental;observation. Such an energy-gap behavior originates from the;disappearance of a Landau level of n = 0 and 1 states. The present;result resolves explicitly the puzzle of the gap dependence of B. DOI:;10.1103/PhysRevB.86.235126;6;0;0;0;6;1098-0121;WOS:000312365200006;;;J;Yin, Z. P.;Haule, K.;Kotliar, G.;Fractional power-law behavior and its origin in iron-chalcogenide and;ruthenate superconductors: Insights from first-principles calculations;(vol 86, 195141, 2012);PHYSICAL REVIEW B;86;23;239904;10.1103/PhysRevB.86.239904;DEC 17 2012;2012;2;0;0;0;2;1098-0121;WOS:000312365200014;;;J;Zhigadlo, N. D.;Weyeneth, S.;Katrych, S.;Moll, P. J. W.;Rogacki, K.;Bosma, S.;Puzniak, R.;Karpinski, J.;Batlogg, B.;High-pressure flux growth, structural, and superconducting properties of;LnFeAsO (Ln = Pr, Nd, Sm) single crystals;PHYSICAL REVIEW B;86;21;214509;10.1103/PhysRevB.86.214509;DEC 17 2012;2012;Single crystals of the LnFeAsO (Ln1111, Ln = Pr, Nd, and Sm) family with;lateral dimensions up to 1 mm were grown from NaAs and KAs flux at high;pressure. The crystals are of good structural quality and become;superconducting when O is partially substituted by F (PrFeAsO1-xFx and;NdFeAsO1-xFx) or when Fe is substituted by Co (SmFe1-xCoxAsO). From;magnetization measurements, we estimate the temperature dependence and;anisotropy of the upper critical field and the critical current density;of underdoped PrFeAsO0.7F0.3 crystal with T-c approximate to 25 K.;Single crystals of SmFe1-xCoxAsO with maximal T-c up to 16.3 K for x;approximate to 0.08 were grown. From transport and magnetic;measurements, we estimate the critical fields and their anisotropy and;find these superconducting properties to be quite comparable to the ones;in SmFeAsO1-xFx with a much higher T-c approximate to 50 K. The;magnetically measured critical current densities are as high as 10(9);A/m(2) at 2 K up to 7 T, with indication of the usual fishtail effect.;The upper critical field estimated from resistivity measurements is;anisotropic with slopes of similar to - 8.7 T/K (H parallel to ab plane);and similar to - 1.7 T/K (H parallel to c axis). This anisotropy;(similar to 5) is similar to that in other Ln1111 crystals with various;higher T-c's.;Puzniak, Roman/N-1643-2013;Puzniak, Roman/0000-0001-5636-5541;7;0;0;0;7;1098-0121;WOS:000312364200008;;;J;Zhu, Guobao;Yang, Shengyuan A.;Fang, Cheng;Liu, W. M.;Yao, Yugui;Theory of orbital magnetization in disordered systems;PHYSICAL REVIEW B;86;21;214415;10.1103/PhysRevB.86.214415;DEC 17 2012;2012;We present a general formula of the orbital magnetization of disordered;systems based on the Keldysh Green's function theory in the;gauge-covariant Wigner space. In our approach, the gauge invariance of;physical quantities is ensured from the very beginning, and the vertex;corrections are easily included. Our formula applies not only for;insulators but also for metallic systems where the quasiparticle;behavior is usually strongly modified by the disorder scattering. In the;absence of disorders, our formula recovers the previous results obtained;from the semiclassical theory and the perturbation theory. As an;application, we calculate the orbital magnetization of a weakly;disordered two-dimensional electron gas with Rashba spin-orbit coupling.;We find that for the short-range disorder scattering, its major effect;is to the shifting of the distribution of orbital magnetization;corresponding to the quasiparticle energy renormalization.;Yao, Yugui/A-8411-2012; Yang, Shengyuan/L-2848-2014;6;0;1;0;7;1098-0121;WOS:000312364200004;;;J;Zhukov, E. A.;Yugov, O. A.;Yugova, I. A.;Yakovlev, D. R.;Karczewski, G.;Wojtowicz, T.;Kossut, J.;Bayer, M.;Resonant spin amplification of resident electrons in CdTe/(Cd,Mg)Te;quantum wells subject to tilted magnetic fields;PHYSICAL REVIEW B;86;24;245314;10.1103/PhysRevB.86.245314;DEC 17 2012;2012;Electron spin coherence in CdTe/(Cd,Mg)Te quantum wells is studied;experimentally and theoretically in tilted external magnetic fields;generated by a superconducting vector magnet. The long-lived spin;coherence is measured by pump-probe Kerr rotation in the resonant spin;amplification (RSA) regime. The shape of RSA signals is very sensitive;to weak magnetic field components deviating from the Voigt or Faraday;geometries. DOI: 10.1103/PhysRevB.86.245314;Yugova, Irina/F-6823-2011;Yugova, Irina/0000-0003-0020-3679;3;0;0;0;3;1098-0121;WOS:000312365800008;;;J;Adelstein, Nicole;Mun, B. Simon;Ray, Hannah L.;Ross, Philip N., Jr.;Neaton, Jeffrey B.;De Jonghe, Lutgard C.;Structure and electronic properties of cerium orthophosphate: Theory and;experiment (vol 83, 205104, 2011);PHYSICAL REVIEW B;86;23;239903;10.1103/PhysRevB.86.239903;DEC 14 2012;2012;Mun, Bongjin /G-1701-2013;0;0;0;0;0;1098-0121;WOS:000312365100009;;;J;Bagchi, Debarshee;Mohanty, P. K.;Thermally driven classical Heisenberg model in one dimension;PHYSICAL REVIEW B;86;21;214302;10.1103/PhysRevB.86.214302;DEC 14 2012;2012;We study thermal transport in a classical one-dimensional Heisenberg;model employing a discrete-time odd-even precessional update scheme.;This dynamics equilibrates a spin chain for any arbitrary temperature;and finite value of the integration time step Delta t. We rigorously;show that in presence of driving, the system attains local thermal;equilibrium, which is a strict requirement of Fourier law. In the;thermodynamic limit, heat current for such a system obeys Fourier law;for all temperatures, as has been recently shown [A. V. Savin, G. P.;Tsironis, and X. Zotos, Phys. Rev. B 72, 140402(R) (2005)]. Finite;systems, however, show an apparent ballistic transport which crosses;over to a diffusive one as the system size is increased. We provide;exact results for current and energy profiles in zero- and;infinite-temperature limits. DOI: 10.1103/PhysRevB.86.214302;3;0;0;0;3;1098-0121;WOS:000312364100001;;;J;Barasinski, A.;Kamieniarz, G.;Drzewinski, A.;Magnetization-based assessment of correlation energy in canted;single-chain magnets;PHYSICAL REVIEW B;86;21;214412;10.1103/PhysRevB.86.214412;DEC 14 2012;2012;We demonstrate numerically that for the strongly anisotropic;homometallic S = 2 canted single-chain magnet described by the quantum;antiferromagnetic Heisenberg model, the correlation energy and exchange;coupling constant can be directly estimated from the;in-field-magnetization profile found along the properly selected;crystallographic direction. In the parameter space defined by the;spherical angles (phi, theta) determining the axes orientation, four;regions are identified with different sequences of the characteristic;field-dependent magnetization profiles representing the;antiferromagnetic, metamagnetic, and weak ferromagnetic type behavior.;These sequences provide a criterion for the applicability of the;anisotropic quantum Heisenberg model to a given experimental system. Our;analysis shows that the correlation energy decreases linearly with field;and vanishes for a given value H-cr, which defines a special coordinates;in the metamagnetic profile relevant for the zero-field correlation;energy and magnetic coupling. For the single-chain magnet formed by the;strongly anisotropic manganese(III) acetate meso-tetraphenylporphyrin;complexes coupled to the phenylphosphinate ligands, the experimental;metamagnetic-type magnetization curve in the c direction yields an;accurate estimate of the values of correlation energy Delta(xi)/k(B) =;7.93 K and exchange coupling J/k(B) = 1.20 K. DOI:;10.1103/PhysRevB.86.214412;1;0;0;0;1;1098-0121;WOS:000312364100004;;;J;Brinzari, T. V.;Chen, P.;Tung, L. -C.;Kim, Y.;Smirnov, D.;Singleton, J.;Miller, Joel. S.;Musfeldt, J. L.;Magnetoelastic coupling in [Ru-2(O2CMe)(4)](3)[Cr(CN)(6)] molecule-based;magnet;PHYSICAL REVIEW B;86;21;214411;10.1103/PhysRevB.86.214411;DEC 14 2012;2012;Infrared and Raman vibrational spectroscopies were employed to explore;the lattice dynamics of [Ru-2(O2CMe)(4)](3)[Cr(CN)(6)] through the;field- and temperature-driven magnetic transitions. The high field work;reveals systematic changes in the C equivalent to N stretching mode and;Cr-containing phonons as the system is driven away from the;antiferromagnetic state. The magnetic intersublattice coalescence;transition at B-c similar or equal to 0.08 T, on the contrary, is purely;magnetic and takes place with no lattice involvement. The variable;temperature spectroscopy affirms overall [Cr(CN)(6)](3-) flexibility;along with stronger intermolecular interactions at low temperature.;Based on a displacement pattern analysis, we discuss the local lattice;distortions in terms of an adaptable chromium environment. These;findings provide deeper understanding of spin-lattice coupling in;[Ru-2(O2CMe)(4)](3)[Cr(CN)(6)] and may be useful in the development of;technologically important molecule-based magnets. DOI:;10.1103/PhysRevB.86.214411;4;2;0;0;4;1098-0121;WOS:000312364100003;;;J;Chan, Tzu-Liang;Capacitance of metallic and semiconducting nanowires examined by;first-principles calculations;PHYSICAL REVIEW B;86;24;245414;10.1103/PhysRevB.86.245414;DEC 14 2012;2012;The capacitance of Al < 110 > and P-doped Si < 110 > nanowires a few;nanometers in diameter are examined by first-principles calculations.;During charging, the metallic nanowire expels the charge to its surface,;and its capacitance stays relatively constant. For the semiconducting;nanowire, depletion of conduction electrons can lead to an increase in;the work function, which results in a drop in the capacitance when;charged beyond a threshold. This study is made possible by developing a;formalism for total energy calculations of charged periodic systems with;a specific electrostatic boundary condition. DOI:;10.1103/PhysRevB.86.245414;1;0;0;0;1;1098-0121;WOS:000312365400006;;;J;Dias, R. G.;del Rio, Lidia;Goltsev, A. V.;Interplay between potential and spin-flip scattering in systems with;depleted density of states;PHYSICAL REVIEW B;86;23;235120;10.1103/PhysRevB.86.235120;DEC 14 2012;2012;We study the behavior of a magnetic impurity in systems with a depleted;density of states by use of the spin-1/2 single-impurity Anderson model;and the equation of motion approach. We calculate the impurity spectral;function and study the role of potential and spin-flip scattering. We;show that in these systems, if the hybridization is larger than a;critical value, a narrow virtual bound resonance emerges. The resonance;peak appears much below the Fermi energy and is dominated by the;contribution of potential scattering of conduction electrons by the;magnetic impurity while spin-flip scattering only gives a nonsingular;temperature-dependent contribution to this peak. These results are in;contrast to behavior of impurities in normal metals where it is;spin-flip scattering that is responsible for the Kondo peak near the;Fermi level while potential scattering gives a nonsignificant;renormalization of the exchange coupling. We also show that the virtual;bound resonance leads to a strong renormalization of the effective;exchange coupling between conduction and impurity spins. The narrow;virtual bound resonance can be observed in graphene with magnetic;impurities where its spectral weight and position is strongly influenced;by the van Hove singularity. DOI: 10.1103/PhysRevB.86.235120;Universidade Aveiro, Departamento Fisica/E-4128-2013; Dias, Ricardo/J-6007-2013;Dias, Ricardo/0000-0002-5128-5531;0;0;0;0;0;1098-0121;WOS:000312365100001;;;J;Ganeshan, Sriram;Abanov, Alexander G.;Averin, Dmitri V.;Fractional quantum Hall interferometers in a strong tunneling regime:;The role of compactness in edge fields;PHYSICAL REVIEW B;86;23;235309;10.1103/PhysRevB.86.235309;DEC 14 2012;2012;We consider multiple-point tunneling in the interferometers formed;between edges of electron liquids with, in general, different filling;factors in the regime of the fractional quantum Hall effect (FQHE). We;derive an effective matrix Caldeira-Leggett model for the multiple;tunneling contacts connecting the chiral single-mode FQHE edges. It is;shown that the compactness of the Wen-Frohlich chiral boson fields;describing the FQHE edge modes plays a crucial role in eliminating the;spurious nonlocality of the electron transport properties of the FQHE;interferometers arising in the regime of strong tunneling. DOI:;10.1103/PhysRevB.86.235309;0;0;0;0;0;1098-0121;WOS:000312365100004;;;J;Giannazzo, F.;Deretzis, I.;La Magna, A.;Roccaforte, F.;Yakimova, R.;Electronic transport at monolayer-bilayer junctions in epitaxial;graphene on SiC;PHYSICAL REVIEW B;86;23;235422;10.1103/PhysRevB.86.235422;DEC 14 2012;2012;Two-dimensional maps of the electronic conductance in epitaxial graphene;grown on SiC were obtained by calibrated conductive atomic force;microscopy. The correlation between morphological and electrical maps;revealed the local conductance degradation in epitaxial graphene over;the SiC substrate steps or at the junction between monolayer (1L) and;bilayer (2L) graphene regions. The effect of steps strongly depends on;the charge transfer phenomena between the step sidewall and graphene,;whereas the resistance increase at the 1L/2L junction is a purely;quantum-mechanical effect independent on the interaction with the;substrate. First-principles transport calculations indicate that the;weak wave-function coupling between the 1L pi/pi* bands with the;respective first bands of the 2L region gives rise to a strong;suppression of the conductance for energies within +/- 0.48 eV from the;Dirac point. Conductance degradation at 1L/2L junctions is therefore a;general issue for large area graphene with a certain fraction of;inhomogeneities in the layer number, including graphene grown by;chemical vapor deposition on metals. DOI: 10.1103/PhysRevB.86.235422;Materials, Semiconductor/I-6323-2013;11;0;0;0;11;1098-0121;WOS:000312365100005;;;J;Hintzsche, L. E.;Fang, C. M.;Watts, T.;Marsman, M.;Jordan, G.;Lamers, M. W. P. E.;Weeber, A. W.;Kresse, G.;Density functional theory study of the structural and electronic;properties of amorphous silicon nitrides: Si3N4-x:H;PHYSICAL REVIEW B;86;23;235204;10.1103/PhysRevB.86.235204;DEC 14 2012;2012;We present ab initio density functional theory studies for;stoichiometric as well as nonstoichiometric amorphous silicon nitride,;varying the stoichiometry between Si3N4.5 and Si3N3. Stoichiometric;amorphous Si3N4 possesses the same local structure as crystalline Si3N4,;with Si being fourfold coordinated and N being threefold coordinated.;Only few Si-Si and N-N bonds and other defects are found in;stoichiometric silicon nitride, and the electronic properties are very;similar to the crystalline bulk. In over-stoichiometric Si3N4+x, the;additional N results in N-N bonds, whereas in under-stoichiometric;Si3N4-x the number of homopolar Si-Si bonds increases with decreasing N;content. Analysis of the structure factor and the local coordination of;the Si atoms indicates a slight tendency towards Si clustering, although;at the investigated stoichiometries, phase separation is not observed.;In the electronic properties, the conduction-band minimum is dominated;by Si states, whereas the valence-band maximum is made up by lone pair N;states. Towards Si rich samples, the character of the valence-band;maximum becomes dominated by Si states corresponding to Si-Si bonding;linear combinations. Adding small amounts of hydrogen, as typically used;in passivating layers of photovoltaic devices, has essentially no impact;on the overall structural and electronic properties. DOI:;10.1103/PhysRevB.86.235204;Fang, Chang Ming/E-9213-2013;3;0;0;0;3;1098-0121;WOS:000312365100002;;;J;Joung, Daeha;Khondaker, Saiful I.;Efros-Shklovskii variable-range hopping in reduced graphene oxide sheets;of varying carbon sp(2) fraction;PHYSICAL REVIEW B;86;23;235423;10.1103/PhysRevB.86.235423;DEC 14 2012;2012;We investigate the low-temperature electron transport properties of;chemically reduced graphene oxide (RGO) sheets with different carbon;sp(2) fractions of 55% to 80%. We show that in the low-bias (Ohmic);regime, the temperature (T) dependent resistance (R) of all the devices;follow Efros-Shklovskii variable range hopping (ES-VRH) R similar to;exp[(T-ES/T)(1/2)] with T-ES decreasing from 3.1 x 10(4) to 0.42 x 10(4);K and electron localization length increasing from 0.46 to 3.21 nm with;increasing sp(2) fraction. From our data, we predict that for the;temperature range used in our study, Mott-VRH may not be observed even;at 100% sp(2) fraction samples due to residual topological defects and;structural disorders. From the localization length, we calculate a;band-gap variation of our RGO from 1.43 to 0.21 eV with increasing sp(2);fraction from 55 to 80%, which agrees remarkably well with theoretical;predictions. We also show that, in the high bias non-Ohmic regime at low;temperature, the hopping is field driven and the data follow R similar;to exp[(E0/E)(1/2)] providing further evidence of ES-VRH. DOI:;10.1103/PhysRevB.86.235423;14;0;0;0;14;1098-0121;WOS:000312365100006;;;J;Kim, Se-Heon;Homyk, Andrew;Walavalkar, Sameer;Scherer, Axel;High-Q impurity photon states bounded by a photonic band pseudogap in an;optically thick photonic crystal slab;PHYSICAL REVIEW B;86;24;245114;10.1103/PhysRevB.86.245114;DEC 14 2012;2012;We show that, taking a two-dimensional photonic crystal slab system as;an example, surprisingly high quality factors (Q) over 10(5) are;achievable, even in the absence of a rigorous photonic band gap. We find;that the density of in-plane Bloch modes can be controlled by creating;additional photon feedback from a finite-size photonic-crystal boundary;that serves as a low-Q resonator. This mechanism enables significant;reduction in the coupling strength between the bound state and the;extended Bloch modes by more than a factor of 40. DOI:;10.1103/PhysRevB.86.245114;Walavalkar, Sameer/B-3196-2013; Kim, Se-Heon/C-5498-2008;Walavalkar, Sameer/0000-0002-7628-9600;;2;0;0;0;2;1098-0121;WOS:000312365400001;;;J;Kravets, A. F.;Timoshevskii, A. N.;Yanchitsky, B. Z.;Bergmann, M. A.;Buhler, J.;Andersson, S.;Korenivski, V.;Temperature-controlled interlayer exchange coupling in strong/weak;ferromagnetic multilayers: A thermomagnetic Curie switch;PHYSICAL REVIEW B;86;21;214413;10.1103/PhysRevB.86.214413;DEC 14 2012;2012;We investigate interlayer exchange coupling based on driving a;strong/weak/strong ferromagnetic trilayer through the Curie point of the;weakly ferromagnetic spacer, with exchange coupling between the strongly;ferromagnetic outer layers that can be switched on and off, or varied;continuously in magnitude by controlling the temperature of the;material. We use Ni-Cu alloys of varied composition as the spacer;material and model the effects of proximity-induced magnetism and the;interlayer exchange coupling through the spacer from first principles,;taking into account not only thermal spin disorder but also the;dependence of the atomic moment of Ni on the nearest-neighbor;concentration of the nonmagnetic Cu. We propose and demonstrate a;gradient-composition spacer, with a lower Ni concentration at the;interfaces, for greatly improved effective-exchange uniformity and;significantly improved thermomagnetic switching in the structure. The;reported multilayer materials can form the base for a variety of;magnetic devices, such as sensors, oscillators, and memory elements;based on thermomagnetic Curie switching. DOI: 10.1103/PhysRevB.86.214413;Korenivski, Vladislav/N-7355-2014;Korenivski, Vladislav/0000-0003-2339-1692;4;0;0;0;4;1098-0121;WOS:000312364100005;;;J;Little, C. E.;Anufriev, R.;Iorsh, I.;Kaliteevski, M. A.;Abram, R. A.;Brand, S.;Tamm plasmon polaritons in multilayered cylindrical structures;PHYSICAL REVIEW B;86;23;235425;10.1103/PhysRevB.86.235425;DEC 14 2012;2012;It is shown that cylindrical Bragg reflector structures with either a;metal core, a metal cladding, or both can support Tamm plasmon;polaritons (TPPs) that can propagate axially along the interface between;the metallic layer and the adjacent dielectric. A transfer matrix;formalism for cylindrical multilayered structures is used in association;with cavity phase matching considerations to design structures that;support Tamm plasmon polaritons at specified frequencies, and to explore;the field distributions and the dispersion relations of the excitations.;The cylindrical TPPs can exist in both the TE and TM polarizations for;the special cases of modes with either azimuthal isotropy or zero axial;propagation constant and also as hybrid cylindrical modes when neither;of those conditions applies. In the cases considered the TPPs have low;effective masses and low group velocities. Also, when there is both;metallic core and cladding, near degenerate modes localized at each;metallic interface can couple to produce symmetric and antisymmetric;combinations whose frequency difference is in the terahertz regime. DOI:;10.1103/PhysRevB.86.235425;Brand, Stuart/A-1658-2009;Brand, Stuart/0000-0002-1757-5017;3;0;0;0;3;1098-0121;WOS:000312365100008;;;J;Machida, Manabu;Iitaka, Toshiaki;Miyashita, Seiji;ESR intensity and the Dzyaloshinsky-Moriya interaction of the nanoscale;molecular magnet V-15;PHYSICAL REVIEW B;86;22;224412;10.1103/PhysRevB.86.224412;DEC 14 2012;2012;The intensity of electron spin resonance (ESR) of the nanoscale;molecular magnet V-15 is studied. We calculate the temperature;dependence of the intensity at temperatures from high to low. In;particular, we find that the low-temperature ESR intensity is;significantly affected by the Dzyaloshinsky-Moriya interaction. DOI:;10.1103/PhysRevB.86.224412;1;0;0;0;1;1098-0121;WOS:000312364500003;;;J;Meinert, Markus;Friedrich, Christoph;Reiss, Guenter;Bluegel, Stefan;GW study of the half-metallic Heusler compounds Co2MnSi and Co2FeSi;PHYSICAL REVIEW B;86;24;245115;10.1103/PhysRevB.86.245115;DEC 14 2012;2012;Quasiparticle spectra of potentially half-metallic Co2MnSi and Co2FeSi;Heusler compounds have been calculated within the one-shot GW;approximation in an all-electron framework without adjustable;parameters. For Co2FeSi the many-body corrections are crucial: a;pseudogap opens and good agreement of the magnetic moment with;experiment is obtained. Otherwise, however, the changes with respect to;the density-functional-theory starting point are moderate. For both;cases we find that photoemission and x-ray absorption spectra are well;described by the calculations. By comparison with the GW density of;states, we conclude that the Kohn-Sham eigenvalue spectrum provides a;reasonable approximation for the quasiparticle spectrum of the Heusler;compounds considered in this work. DOI: 10.1103/PhysRevB.86.245115;Reiss, Gunter/A-3423-2010; Meinert, Markus/E-8794-2011; Blugel, Stefan/J-8323-2013; Friedrich, Christoph/L-5029-2013;Reiss, Gunter/0000-0002-0918-5940; Blugel, Stefan/0000-0001-9987-4733;;Friedrich, Christoph/0000-0002-3315-7536;7;1;0;0;7;1098-0121;WOS:000312365400002;;;J;Misiorny, Maciej;Weymann, Ireneusz;Barnas, Jozef;Underscreened Kondo effect in S=1 magnetic quantum dots: Exchange,;anisotropy, and temperature effects;PHYSICAL REVIEW B;86;24;245415;10.1103/PhysRevB.86.245415;DEC 14 2012;2012;We present a theoretical analysis of the effects of uniaxial magnetic;anisotropy and contact-induced exchange field on the underscreened Kondo;effect in S = 1 magnetic quantum dots coupled to ferromagnetic leads.;First, by using the second-order perturbation theory we show that the;coupling to spin-polarized electrode results in an effective exchange;field B-eff and an effective magnetic anisotropy D-eff. Second, we;confirm these findings by using the numerical renormalization group;method, which is employed to study the dependence of the quantum-dot;spectral functions, as well as quantum-dot spin, on various parameters;of the system. We show that the underscreened Kondo effect is generally;suppressed due to the presence of effective exchange field and can be;restored by tuning the anisotropy constant, when vertical bar D-eff;vertical bar = |B-eff vertical bar. The Kondo effect can also be;restored by sweeping an external magnetic field, and the restoration;occurs twice in a single sweep. From the distance between the restored;Kondo resonances one can extract the information about both the exchange;field and the effective anisotropy. Finally, we calculate the;temperature dependence of linear conductance for the parameters where;the Kondo effect is restored and show that the restored Kondo resonances;display a universal scaling of S = 1/2 Kondo effect. DOI:;10.1103/PhysRevB.86.245415;3;0;0;0;3;1098-0121;WOS:000312365400007;;;J;Monette, Gabriel;Nateghi, Nima;Masut, Remo A.;Francoeur, Sebastien;Menard, David;Plasmonic enhancement of the magneto-optical response of MnP;nanoclusters embedded in GaP epilayers;PHYSICAL REVIEW B;86;24;245312;10.1103/PhysRevB.86.245312;DEC 14 2012;2012;We report on the magneto-optical activity of MnP nanoclusters embedded;in GaP epilayers and MnP thin film as a function of temperature,;magnetic field, and wavelength in the near infrared and visible. The;measured Faraday rotation originates from the ferromagnetic;magnetization of the metallic MnP phase and exhibits a hysteretic;behavior as a function of an externally applied magnetic field closely;matching that of the magnetization. The Faraday rotation spectrum of MnP;shows a magnetoplasmonic resonance whose energy depends on the MnP;filling factor and surrounding matrix permittivity. At resonance, the;measured rotary power for the epilayer systems increases by a factor of;2 compared to that of the MnP film in terms of degrees of rotation per;MnP thickness for an applied magnetic field of 410 mT. We propose an;effective medium model, which qualitatively reproduces the Faraday;rotation and the magnetocircular dichroism spectra, quantitatively;determines the spectral shift induced by variations in the MnP volume;fraction, and demonstrates the influence of the shape and orientation;distributions of ellipsoidal MnP nanoclusters on the magneto-optical;activity and absorption spectra. DOI: 10.1103/PhysRevB.86.245312;Menard, David/A-6862-2010; Francoeur, Sebastien/E-6614-2011; Masut, Remo/I-3727-2014;Menard, David/0000-0003-2207-3422;;2;0;0;0;2;1098-0121;WOS:000312365400003;;;J;Morgan, Steven W.;Oganesyan, Vadim;Boutis, Gregory S.;Multispin correlations and pseudothermalization of the transient density;matrix in solid-state NMR: Free induction decay and magic echo;PHYSICAL REVIEW B;86;21;214410;10.1103/PhysRevB.86.214410;DEC 14 2012;2012;Quantum unitary evolution typically leads to thermalization of generic;interacting many-body systems. There are very few known general methods;for reversing this process, and we focus on the magic echo, a;radio-frequency pulse sequence known to approximately "rewind" the time;evolution of dipolar coupled homonuclear spin systems in a large;magnetic field. By combining analytic, numerical, and experimental;results, we systematically investigate factors leading to the;degradation of magic echoes, as observed in reduced revival of mean;transverse magnetization. Going beyond the conventional analysis based;on mean magnetization, we use a phase-encoding technique to measure the;growth of spin correlations in the density matrix at different points in;time following magic echoes of varied durations and compare the results;to those obtained during a free induction decay. While considerable;differences are documented at short times, the long-time behavior of the;density matrix appears to be remarkably universal among the types of;initial states considered: simple low-order multispin correlations are;observed to decay exponentially at the same rate, seeding the onset of;increasingly complex high-order correlations. This manifestly athermal;process is constrained by conservation of the second moment of the;spectrum of the density matrix and proceeds indefinitely, assuming;unitary dynamics. DOI: 10.1103/PhysRevB.86.214410;3;0;0;0;3;1098-0121;WOS:000312364100002;;;J;Sung, N. H.;Roh, C. J.;Kim, K. S.;Cho, B. K.;Possible multigap superconductivity and magnetism in single crystals of;superconducting La2Pt3Ge5 and Pr2Pt3Ge5;PHYSICAL REVIEW B;86;22;224507;10.1103/PhysRevB.86.224507;DEC 14 2012;2012;We herein describe our investigation of the superconducting and magnetic;properties of the rare-earth ternary germanide intermetallic compounds;La2Pt3Ge5 and Pr2Pt3Ge5. Single crystals of La2Pt3Ge5 and Pr2Pt3Ge5 were;synthesized using the high-temperature metal flux method. Both types of;crystal formed in a U2Co3Si5-type orthorhombic structure (space group;Ibam). La2Pt3Ge5 showed the onset of superconducting phase transition at;T-c = 8.1 K, which, to the best of our knowledge, is the highest Tc of;all the R2M3X5 (R = rare-earth elements, M = transition metal, and X =;s-p metal) superconductors, and from the specific heat data, it was;found to have multigap superconductivity. Pr2Pt3Ge5 showed both a;superconducting phase transition at T-c = 7.8 K and two;antiferromagnetic transitions at T-N1 = 3.5 K and T-N2 = 4.2 K, which;indicates the coexistence of superconductivity and magnetism. However,;the correlation between the superconductivity and the magnetism was too;weak to be observed. In its normal state, Pr2Pt3Ge5 revealed strong;magnetic anisotropy, probably due to the crystalline electric field;effect. DOI: 10.1103/PhysRevB.86.224507;1;0;0;0;1;1098-0121;WOS:000312364500004;;;J;Suzuki, Takafumi;Sato, Masahiro;Gapless edge states and their stability in two-dimensional quantum;magnets;PHYSICAL REVIEW B;86;22;224411;10.1103/PhysRevB.86.224411;DEC 14 2012;2012;We study the nature of edge states in extrinsically and spontaneously;dimerized states of two-dimensional spin-1/2 antiferromagnets, by;performing quantum Monte Carlo simulation. We show that a gapless edge;mode emerges in the wide region of the dimerized phases, and the;critical exponent of spin correlators along the edge deviates from the;value of Tomonaga-Luttinger liquid (TLL) universality in large but;finite systems at low temperatures. We also demonstrate that the gapless;nature at edges is stable against several perturbations such as external;magnetic field, easy-plane XXZ anisotropy, Dzyaloshinskii-Moriya;interaction, and further-neighbor exchange interactions. The edge states;exhibit non-TLL behavior, depending strongly on model parameters and;kinds of perturbations. Possible ways of detecting these edge states are;discussed. Properties of edge states we show in this paper could also be;used as reference points to study other edge states of more exotic;gapped magnetic phases such as spin liquids. DOI:;10.1103/PhysRevB.86.224411;0;0;0;0;0;1098-0121;WOS:000312364500002;;;J;Tian, H. Y.;Chan, K. S.;Wang, J.;Efficient spin injection in graphene using electron optics;PHYSICAL REVIEW B;86;24;245413;10.1103/PhysRevB.86.245413;DEC 14 2012;2012;We investigate theoretically spin injection efficiency from the;ferromagnetic graphene to normal graphene (FG/NG) based on electron;optics, where the magnetization in the FG is assumed from the magnetic;proximity effect. Based on a graphene lattice model, we demonstrated;that one spin-species electron flow from a point source could be nearly;suppressed through the FG-NG interface, when the total internal;reflection effect occurs with the help of an additional barrier masking;the Klein tunneling, while the opposite spin-species electron flow could;even be collimated due to the negative refraction under suitable;parameters. Not only at the focusing point is the efficient spin;injection achieved, but in the whole NG region the spin injection;efficiency can also be maintained at a high level. It is also shown that;the nonideal FG-NG interface could reduce the spin injection efficiency;since the electron optics phenomena are weakened owing to the;interfacial backscattering. Our findings may shed light on making;graphene-based spin devices in the spintronics field. DOI:;10.1103/PhysRevB.86.245413;3;0;2;0;3;1098-0121;WOS:000312365400005;;;J;Vasko, F. T.;Mitin, V. V.;Ryzhii, V.;Otsuji, T.;Interplay of intra- and interband absorption in a disordered graphene;PHYSICAL REVIEW B;86;23;235424;10.1103/PhysRevB.86.235424;DEC 14 2012;2012;The absorption of heavily doped graphene in the terahertz and;midinfrared spectral regions is considered, taking into account both the;elastic scattering due to finite-range disorder and the variations of;concentration due to long-range disorder. The interplay between intra-;and interband transitions is analyzed for the high-frequency regime of;response, near the Pauli blocking threshold. The gate voltage and;temperature dependencies of the absorption efficiency are calculated. It;is demonstrated that for typical parameters, the smearing of the;interband absorption edge is determined by a partly screened;contribution to long-range disorder while the intraband absorption is;determined by finite-range scattering. The latter yields the spectral;dependencies which deviate from those following from the Drude formula.;The obtained dependencies are in agreement with recent experimental;results. The comparison of the results of our calculations with the;experimental data provides a possibility to extract the disorder;characteristics. DOI: 10.1103/PhysRevB.86.235424;10;0;0;0;10;1098-0121;WOS:000312365100007;;;J;Violante, C.;Conte, A. Mosca;Bechstedt, F.;Pulci, O.;Geometric, electronic, and optical properties of the Si(111)2x1 surface:;Positive and negative buckling;PHYSICAL REVIEW B;86;24;245313;10.1103/PhysRevB.86.245313;DEC 14 2012;2012;The Si(111)2x1 is among the most investigated surfaces. Nonetheless,;several issues are still not understood. Its reconstruction is well;explained in terms of the Pandey model with a slight buckling (tilting);of the topmost atoms; two different isomers of the surface,;conventionally named positive and negative buckling, exist. Usually,;scanning tunneling microscopy (STM) experiments identify the positive;buckling isomer as the stable reconstruction at room temperature.;However, at low temperatures and for high n doping of the substrate,;recent scanning tunneling spectroscopy (STS) measurements found the;coexistence of positive and negative buckling on the Si(111) 2x1;surface. In this work, state-of-the-art ab initio methods, based on;density functional theory and on many-body perturbation theory, have;been used to obtain structural, electronic, and optical properties of;Si(111) 2x1 positive and negative buckling. The theoretical reflectance;anisotropy spectra (RAS), with the inclusion of the excitonic effects,;can provide a way to deepen the understanding of the coexistence of the;isomers. DOI: 10.1103/PhysRevB.86.245313;5;0;0;0;5;1098-0121;WOS:000312365400004;;;J;Yuge, Tatsuro;Sagawa, Takahiro;Sugita, Ayumu;Hayakawa, Hisao;Geometrical pumping in quantum transport: Quantum master equation;approach;PHYSICAL REVIEW B;86;23;235308;10.1103/PhysRevB.86.235308;DEC 14 2012;2012;For an open quantum system, we investigate the pumped current induced by;a slow modulation of control parameters on the basis of the quantum;master equation and full counting statistics. We find that the average;and the cumulant generating function of the pumped quantity are;characterized by the geometrical Berry-phase-like quantities in the;parameter space, which is associated with the generator of the master;equation. From our formulation, we can discuss the geometrical pumping;under the control of the chemical potentials and temperatures of;reservoirs. We demonstrate the formulation by spinless electrons in;coupled quantum dots. We show that the geometrical pumping is prohibited;for the case of noninteracting electrons if we modulate only;temperatures and chemical potentials of reservoirs, while the;geometrical pumping occurs in the presence of an interaction between;electrons. DOI: 10.1103/PhysRevB.86.235308;5;0;0;0;5;1098-0121;WOS:000312365100003;;;J;Zhang, Yanning;Wang, Hui;Wu, Ruqian;First-principles determination of the rhombohedral magnetostriction of;Fe100-xAlx and Fe100-xGax alloys;PHYSICAL REVIEW B;86;22;224410;10.1103/PhysRevB.86.224410;DEC 14 2012;2012;Through systematic density functional calculations using the full;potential linearized augmented plane-wave (FLAPW) method, the;rhombohedral magnetostriction (lambda(111)) of Fe100-xAlx and Fe100-xGax;alloys are studied for x up to 25. Theoretical calculations;satisfactorily reproduce the main features of experimental;lambda(111)(x) curves, except for dilute alloys with x < 5. Detailed;analyses on electronic and structural properties indicate the importance;of availability and symmetry of dangling bonds for the sign change of;lambda(111) around x = 16. In addition, the impurity induced local;distortion might be a possible reason for the disagreement between;theory and experiment for lambda(111) of the bulk bcc Fe. DOI:;10.1103/PhysRevB.86.224410;ZHANG, YANNING/A-3316-2013; Wu, Ruqian/C-1395-2013;0;0;0;0;0;1098-0121;WOS:000312364500001;;;J;Al Attar, Hameed A.;Monkman, Andrew P.;Controlled energy transfer between isolated donor-acceptor molecules;intercalated in thermally self-ensemble two-dimensional hydrogen bonding;cages;PHYSICAL REVIEW B;86;23;235420;10.1103/PhysRevB.86.235420;DEC 13 2012;2012;Thermally assembled hydrogen bonding cages which are neither size nor;guest specific have been developed using a poly (vinyl alcohol) (PVA);host. A water-soluble conjugated polymer;poly(2,5-bis(3-sulfonatopropoxy)-1,4-phenylene, disodium;salt-alt-1,4-phenylene) (PPP-OPSO3) as a donor and;tris(2,2-bipyridyl)-ruthenium(II) [Ru(bpy)(3)(2+)] as an acceptor have;been isolated and trapped in such a PVA matrix network. This is a unique;system that shows negligible exciton diffusion and the donor and;acceptor predominantly interact by a direct single step excitation;transfer process (DSSET). Singlet and triplet exciton quenching have;been studied. Time-resolved fluorescence lifetime measurement at;different acceptor concentrations has enabled us to determine the;dimensionality of the energy-transfer process within the PVA scaffold.;Our results reveal that the PVA hydrogen bonding network effectively;isolates the donor-acceptor molecules in a two-dimensional layer;structure (lamella) leading to the condition where a precise control of;the energy and charge transfer is possible.;Monkman, Andy/B-1521-2013;Monkman, Andy/0000-0002-0784-8640;0;0;0;0;0;1098-0121;WOS:000312291900005;;;J;Anzenberg, Eitan;Perkinson, Joy C.;Madi, Charbel S.;Aziz, Michael J.;Ludwig, Karl F., Jr.;Nanoscale surface pattern formation kinetics on germanium irradiated by;Kr+ ions;PHYSICAL REVIEW B;86;24;10.1103/PhysRevB.86.245412;DEC 13 2012;2012;Nanoscale surface topography evolution on Ge surfaces irradiated by 1;keV Kr+ ions is examined in both directions perpendicular and parallel;to the projection of the ion beam on the surface. Grazing incidence;small angle x-ray scattering is used to measure in situ the evolution of;surface morphology via the linear dispersion relation. A transition from;smoothing (stability) to pattern-forming instability is observed at a;critical ion incidence angle of approximately 62 degrees with respect to;the surface normal. The linear theory quadratic coefficients which;determine the surface stability/instability are determined as a function;of bombardment angle. The Ge surface evolution during Kr+ irradiation is;qualitatively similar to that observed for Ar+ irradiation of Si.;However, in contrast to the case of Si under Ar+ irradiation, the;critical angle separating stability and instability for Ge under Kr+;irradiation cannot be quantitatively reproduced by the simple;Carter-Vishnyakov mass redistribution model. DOI:;10.1103/PhysRevB.86.245412;5;0;0;0;5;1098-0121;WOS:000312292600006;;;J;Arnardottir, K. B.;Kyriienko, O.;Shelykh, I. A.;Hall effect for indirect excitons in an inhomogeneous magnetic field;PHYSICAL REVIEW B;86;24;245311;10.1103/PhysRevB.86.245311;DEC 13 2012;2012;We study the effect of an inhomogeneous out-of-plane magnetic field on;the behavior of two-dimensional (2D) spatially indirect excitons. Due to;the difference of the magnetic field acting on electrons and holes, the;total Lorentz force affecting the center of mass motion of an indirect;exciton appears. Consequently, an indirect exciton acquires an effective;charge proportional to the gradient of the magnetic field. The;appearance of the Lorentz force causes the Hall effect for neutral;bosons, which can be detected by measurement of the spatially;inhomogeneous blueshift of the photoluminescence using a counterflow;experiment. DOI: 10.1103/PhysRevB.86.245311;Kyriienko, Oleksandr/M-5163-2014;Kyriienko, Oleksandr/0000-0002-6259-6570;2;0;0;0;2;1098-0121;WOS:000312292600004;;;J;Baek, S. -H.;Loew, T.;Hinkov, V.;Lin, C. T.;Keimer, B.;Buechner, B.;Grafe, H. -J.;Evidence of a critical hole concentration in underdoped YBa2Cu3Oy single;crystals revealed by Cu-63 NMR;PHYSICAL REVIEW B;86;22;220504;10.1103/PhysRevB.86.220504;DEC 13 2012;2012;We report a Cu-63 NMR investigation in detwinned YBa2Cu3Oy single;crystals, focusing on the highly underdoped regime (y = 6.35-6.6).;Measurements of both the spectra and the spin-lattice relaxation rates;of Cu-63 uncover the emergence of static order at a well-defined onset;temperature T-0 with an as yet unknown order parameter. While T-0 is;rapidly suppressed with increasing hole doping concentration p, the spin;pseudogap was identified only near and above the doping content at which;T-0 -> 0. Our data indicate the presence of a critical hole doping p(c);similar to 0.1, which may control both the static order at p < p(c) and;the spin pseudogap at p > p(c). DOI: 10.1103/PhysRevB.86.220504;Baek, Seung-Ho/F-4733-2011;Baek, Seung-Ho/0000-0002-0059-8255;6;1;0;0;6;1098-0121;WOS:000312291200001;;;J;Bieri, Samuel;Serbyn, Maksym;Senthil, T.;Lee, Patrick A.;Paired chiral spin liquid with a Fermi surface in S=1 model on the;triangular lattice;PHYSICAL REVIEW B;86;22;224409;10.1103/PhysRevB.86.224409;DEC 13 2012;2012;Motivated by recent experiments on Ba3NiSb2O9, we investigate possible;quantum spin liquid ground states for spin S = 1 Heisenberg models on;the triangular lattice. We use variational Monte Carlo techniques to;calculate the energies of microscopic spin liquid wave functions where;spin is represented by three flavors of fermionic spinon operators.;These energies are compared with the energies of various competing;three-sublattice ordered states. Our approach shows that the;antiferromagnetic Heisenberg model with biquadratic term and single-ion;anisotropy does not have a low-temperature spin liquid phase. However,;for an SU(3)-invariant model with sufficiently strong ring-exchange;terms, we find a paired chiral quantum spin liquid with a Fermi surface;of deconfined spinons that is stable against all types of ordering;patterns we considered. We discuss the physics of this exotic spin;liquid state in relation to the recent experiment and suggest new ways;to test this scenario. DOI: 10.1103/PhysRevB.86.224409;Bieri, Samuel/L-1045-2013;11;0;0;0;11;1098-0121;WOS:000312291200002;;;J;Busch, M.;Seifert, J.;Meyer, E.;Winter, H.;Evidence for longitudinal coherence in fast atom diffraction;PHYSICAL REVIEW B;86;24;241402;10.1103/PhysRevB.86.241402;DEC 13 2012;2012;Angular distributions for grazing scattering of keV H atoms from an;Al2O3(11 (2) over bar0) surface were recorded. These distributions;reveal defined diffraction patterns which can be understood in terms of;quantum scattering from well-ordered surfaces. From the observation of;so-called Laue circles, we conclude a high degree of longitudinal;coherence for fast atom diffraction at surfaces which allows one to;resolve periodicity intervals of several 100 angstrom. We demonstrate;this feature in scattering experiments from the reconstructed (12 x 4);phase of an Al2O3(11 (2) over bar0) surface obtained after annealing at;temperatures of about 2000 K. DOI: 10.1103/PhysRevB.86.241402;4;0;0;0;4;1098-0121;WOS:000312292600002;;;J;Chen, Chien-Chun;Jiang, Huaidong;Rong, Lu;Salha, Sara;Xu, Rui;Mason, Thomas G.;Miao, Jianwei;Reply to "Comment on 'Three-dimensional imaging of a phase object from a;single sample orientation using an optical laser'";PHYSICAL REVIEW B;86;22;226102;10.1103/PhysRevB.86.226102;DEC 13 2012;2012;In a technical comment to our paper [Phys. Rev. B 84, 224104 (2011)],;Wei and Liu criticized our work without providing theoretical,;numerical, or experimental evidence. Furthermore, we believe they;misinterpreted our matrix rank analysis of ankylography and their;statements about our experiment are inaccurate. Below is our detailed;point-by-point response to their criticisms. DOI:;10.1103/PhysRevB.86.226102;Rong, Lu/L-6195-2014;Rong, Lu/0000-0003-4614-6411;0;0;0;0;0;1098-0121;WOS:000312291200004;;;J;Dubail, J.;Read, N.;Rezayi, E. H.;Edge-state inner products and real-space entanglement spectrum of trial;quantum Hall states;PHYSICAL REVIEW B;86;24;245310;10.1103/PhysRevB.86.245310;DEC 13 2012;2012;We consider the trial wave functions for the fractional quantum Hall;effect that are given by conformal blocks, and construct their;associated edge excited states in full generality. The inner products;between these edge states are computed in the thermodynamic limit,;assuming generalized screening (i.e., short-range correlations only);inside the quantum Hall droplet and using the language of boundary;conformal field theory (boundary CFT). These inner products take;universal values in this limit: they are equal to the corresponding;inner products in the bulk two-dimensional chiral CFT which underlies;the trial wave function. This is a bulk/edge correspondence; it shows;the equality between equal-time correlators along the edge and the;correlators of the bulk CFT up to a Wick rotation. This approach is then;used to analyze the entanglement spectrum of the ground state obtained;with a bipartition A boolean OR B in real space. Starting from our;universal result for inner products in the thermodynamic limit, we;tackle corrections to scaling using standard field-theoretic and;renormalization- group arguments. We prove that generalized screening;implies that the entanglement Hamiltonian H-E = -ln rho(A) is;isospectral to an operator that is local along the cut between A and B.;We also show that a similar analysis can be carried out for particle;partition. We discuss the close analogy between the formalism of trial;wave functions given by conformal blocks and tensor product states, for;which results analogous to ours have appeared recently. Finally, the;edge theory and entanglement spectrum of p(x) +/- ip(y) paired;superfluids are treated in a similar fashion in the Appendixes. DOI:;10.1103/PhysRevB.86.245310;Read, Nicholas/J-6030-2012;14;0;0;0;14;1098-0121;WOS:000312292600003;;;J;He, Jiangang;Franchini, Cesare;Screened hybrid functional applied to 3d(0)-> 3d(8) transition-metal;perovskites LaMO3 (M = Sc-Cu): Influence of the exchange mixing;parameter on the structural, electronic, and magnetic properties;PHYSICAL REVIEW B;86;23;235117;10.1103/PhysRevB.86.235117;DEC 13 2012;2012;We assess the performance of the Heyd-Scuseria-Ernzerhof (HSE) screened;hybrid density functional scheme applied to the perovskite family LaMO3;(M = Sc-Cu) and discuss the role of the mixing parameter alpha [which;determines the fraction of exact Hartree-Fock exchange included in the;density functional theory (DFT) exchange-correlation functional] on the;structural, electronic, and magnetic properties. The physical complexity;of this class of compounds, manifested by the largely varying electronic;characters (band/Mott-Hubbard/charge-transfer insulators and metals),;magnetic orderings, structural distortions (cooperative Jahn-Teller-type;instabilities), as well as by the strong competition between;localization/delocalization effects associated with the gradual filling;of the t(2g) and e(g) orbitals, symbolize a critical and challenging;case for theory. Our results indicate that HSE is able to provide a;consistent picture of the complex physical scenario encountered across;the LaMO3 series and significantly improve the standard DFT description.;The only exceptions are the correlated paramagnetic metals LaNiO3 and;LaCuO3, which are found to be treated better within DFT. By fitting the;ground-state properties with respect to alpha, we have constructed a set;of "optimum" values of alpha from LaScO3 to LaCuO3: it is found that the;optimum mixing parameter decreases with increasing filling of the d;manifold (LaScO3: 0.25; LaTiO3 and LaVO3: 0.10-0.15; LaCrO3, LaMnO3, and;LaFeO3: 0.15; LaCoO3: 0.05; LaNiO3 and LaCuO3: 0). This trend can be;nicely correlated with the modulation of the screening and dielectric;properties across the LaMO3 series, thus providing a physical;justification to the empirical fitting procedure. Finally, we show that;by using this set of optimum mixing parameter, HSE predict dielectric;constants in very good agreement with the experimental ones.;17;1;1;0;17;1098-0121;WOS:000312291900002;;;J;Imura, Ken-Ichiro;Yoshimura, Yukinori;Takane, Yositake;Fukui, Takahiro;Spherical topological insulator;PHYSICAL REVIEW B;86;23;235119;10.1103/PhysRevB.86.235119;DEC 13 2012;2012;The electronic spectrum on the spherical surface of a topological;insulator reflects an active property of the helical surface state that;stems from a constraint on its spin on a curved surface. The induced;spin connection can be interpreted as an effective vector potential;associated with a fictitious magnetic monopole induced at the center of;the sphere. The strength of the induced magnetic monopole is found to be;g = +/-2 pi, being the smallest finite (absolute) value compatible with;the Dirac quantization condition. We have established an explicit;correspondence between the bulk Hamiltonian and the effective Dirac;operator on the curved spherical surface. An explicit construction of;the surface spinor wave functions implies a rich spin texture possibly;realized on the surface of topological insulator nanoparticles. The;electronic spectrum inferred by the obtained effective surface Dirac;theory, confirmed also by the bulk tight-binding calculation, suggests a;specific photoabsorption/emission spectrum of such nanoparticles.;Imura, Ken/D-6633-2013;6;0;0;0;6;1098-0121;WOS:000312291900004;;;J;Kamburov, D.;Shayegan, M.;Winkler, R.;Pfeiffer, L. N.;West, K. W.;Baldwin, K. W.;Anisotropic Fermi contour of (001) GaAs holes in parallel magnetic;fields;PHYSICAL REVIEW B;86;24;241302;10.1103/PhysRevB.86.241302;DEC 13 2012;2012;We report a severe, spin-dependent, Fermi contour anisotropy induced by;parallel magnetic field in a high-mobility (001) GaAs two-dimensional;hole system. Employing commensurability oscillations created by a;unidirectional, surface-strain-induced, periodic potential modulation,;we directly probe the anisotropy of the two spin subband Fermi contours.;Their areas are obtained from the Fourier transform of the Shubnikov-de;Haas oscillations. Our findings are in semiquantitative agreement with;the results of parameter-free calculations of the energy bands. DOI:;10.1103/PhysRevB.86.241302;5;0;0;0;5;1098-0121;WOS:000312292600001;;;J;Kourtis, Stefanos;Venderbos, Joern W. F.;Daghofer, Maria;Fractional Chern insulator on a triangular lattice of strongly;correlated t(2g) electrons;PHYSICAL REVIEW B;86;23;235118;10.1103/PhysRevB.86.235118;DEC 13 2012;2012;We discuss the low-energy limit of three-orbital Kondo-lattice and;Hubbard models describing t(2g) orbitals on a triangular lattice near;half-filling. We analyze how very flat single-particle bands with;nontrivial topological character, a Chern number C = +/-1, arise both in;the limit of infinite on-site interactions as well as in more realistic;regimes. Exact diagonalization is then used to investigate an effective;one-orbital spinless-fermion model at fractional fillings including;nearest-neighbor interaction V; it reveals signatures of fractional;Chern insulator (FCI) states for several filling fractions. In addition;to indications based on energies, e. g., flux insertion and fractional;statistics of quasiholes, Chern numbers are obtained. It is shown that;FCI states are robust against disorder in the underlying magnetic;texture that defines the topological character of the band. We also;investigate competition between a FCI state and a charge density wave;(CDW) and discuss the effects of particle-hole asymmetry and;Fermi-surface nesting. FCI states turn out to be rather robust and do;not require very flat bands, but can also arise when filling or an;absence of Fermi-surface nesting disfavor the competing CDW.;Nevertheless, very flat bands allow FCI states to be induced by weaker;interactions than those needed for more dispersive bands.;Daghofer, Maria/C-5762-2008;Daghofer, Maria/0000-0001-9434-8937;10;0;0;0;10;1098-0121;WOS:000312291900003;;;J;Molenkamp, Laurens W.;Editorial: The End of PRB Brief Reports;PHYSICAL REVIEW B;86;23;230001;10.1103/PhysRevB.86.230001;DEC 13 2012;2012;0;0;0;0;0;1098-0121;WOS:000312291900001;;;J;Molenkamp, Laurens W.;Editorial: The End of PRB Brief Reports;PHYSICAL REVIEW B;86;21;210001;10.1103/PhysRevB.86.210001;DEC 13 2012;2012;0;0;0;0;0;1098-0121;WOS:000312290700001;;;J;Ochoa, H.;Castro Neto, A. H.;Fal'ko, V. I.;Guinea, F.;Spin-orbit coupling assisted by flexural phonons in graphene;PHYSICAL REVIEW B;86;24;245411;10.1103/PhysRevB.86.245411;DEC 13 2012;2012;We analyze the couplings between spins and phonons in graphene. We;present a complete analysis of the possible couplings between spins and;flexural, out-of-plane, vibrations. From tight-binding models, we obtain;analytical and numerical estimates of their strength. We show that;dynamical effects, induced by quantum and thermal fluctuations,;significantly enhance the spin-orbit gap. DOI:;10.1103/PhysRevB.86.245411;Guinea, Francisco/A-7122-2008; Castro Neto, Antonio/C-8363-2014;Guinea, Francisco/0000-0001-5915-5427; Castro Neto,;Antonio/0000-0003-0613-4010;9;1;0;0;9;1098-0121;WOS:000312292600005;;;J;Suewattana, Malliga;Singh, David J.;Limpijumnong, Sukit;Crystal structure and cation off-centering in Bi(Mg1/2Ti1/2)O-3 (vol 86,;064105, 2012);PHYSICAL REVIEW B;86;21;219903;10.1103/PhysRevB.86.219903;DEC 13 2012;2012;0;0;0;0;0;1098-0121;WOS:000312290700002;;;J;Wei, Haiqing;Liu, Shiyuan;Comment on "Three-dimensional imaging of a phase object from a single;sample orientation using an optical laser";PHYSICAL REVIEW B;86;22;226101;10.1103/PhysRevB.86.226101;DEC 13 2012;2012;A recent article by Chen et al. [Phys. Rev. B 84, 224104 (2011)];purports a "matrix rank analysis" and an optical experiment in support;of the three-dimensional (3D) imaging technique called "ankylography.";However, the mathematical analysis does not appear to be conclusive, and;the one used in the experiment is more a 3D-supported scattering object;of actually 2D complexity than a 3D-distributed scattering object of;truly 3D complexity. Consequently, the article provides little support;to the "ankylography" technique. DOI: 10.1103/PhysRevB.86.226101;Liu, Shiyuan/H-1463-2012;Liu, Shiyuan/0000-0002-0756-1439;1;0;0;0;1;1098-0121;WOS:000312291200003;;;J;Bobes, Omar;Zhang, Kun;Hofsaess, Hans;Ion beam induced surface patterns due to mass redistribution and;curvature-dependent sputtering;PHYSICAL REVIEW B;86;23;235414;10.1103/PhysRevB.86.235414;DEC 12 2012;2012;Recently it was reported that ion-induced mass redistribution would;solely determine nano pattern formation on ion-irradiated surfaces. We;investigate the pattern formation on amorphous carbon thin films;irradiated with Xe ions of energies between 200 eV and 10 keV. Sputter;yield as well as number of displacements within the collision cascade;vary strongly as function of ion energy and allow us to investigate the;contributions of curvature-dependent erosion according to the;Bradley-Harper model as well as mass redistribution according to the;Carter-Vishnyakov model. We find parallel ripple orientations for an ion;incidence angle of 60 degrees and for all energies. A transition to;perpendicular pattern orientation or a rather flat surface occurs around;80 degrees for energies between 1 keV and 10 keV. Our results are;compared with calculations based on both models. For the calculations we;extract the shape and size of Sigmund's energy ellipsoid (parameters a,;sigma, mu), the angle-dependent sputter yield, and the mean mass;redistribution distance from the Monte Carlo simulations with program;SDTrimSP. The calculated curvature coefficients S-x and S-y describing;the height evolution of the surface show that mass redistribution is;dominant for parallel pattern formation in the whole energy regime.;Furthermore, the angle where the parallel pattern orientation starts to;disappear is related to curvature-dependent sputtering. In addition, we;investigate the case of Pt erosion with 200 eV Ne ions, where mass;redistribution vanishes. In this case, we observe perpendicular ripple;orientation in accordance with curvature-dependent sputtering and the;predictions of the Bradley-Harper model.;10;0;0;0;10;1098-0121;WOS:000312291600004;;;J;Bradlyn, Barry;Goldstein, Moshe;Read, N.;Kubo formulas for viscosity: Hall viscosity, Ward identities, and the;relation with conductivity;PHYSICAL REVIEW B;86;24;245309;10.1103/PhysRevB.86.245309;DEC 12 2012;2012;Motivated by recent work on Hall viscosity, we derive from first;principles the Kubo formulas for the stress-stress response function at;zero wave vector that can be used to define the full complex;frequency-dependent viscosity tensor, both with and without a uniform;magnetic field. The formulas in the existing literature are frequently;incomplete, incorrect, or lack a derivation; in particular, Hall;viscosity is overlooked. Our approach begins from the response to a;uniform external strain field, which is an active time-dependent;coordinate transformation in d space dimensions. These transformations;form the group GL(d, R) of invertible matrices, and the infinitesimal;generators are called strain generators. These enable us to express the;Kubo formula in different ways, related by Ward identities; some of;these make contact with the adiabatic transport approach. The importance;of retaining contact terms, analogous to the diamagnetic term in the;familiar Kubo formula for conductivity, is emphasized. For;Galilean-invariant systems, we derive a relation between the stress;response tensor and the conductivity tensor that is valid at all;frequencies and in both the presence and absence of a magnetic field. In;the presence of a magnetic field and at low frequency, this yields a;relation between the Hall viscosity, the q(2) part of the Hall;conductivity, the inverse compressibility (suitably defined), and the;diverging part of the shear viscosity (if any); this relation;generalizes a result found recently by others. We show that the correct;value of the Hall viscosity at zero frequency can be obtained (at least;in the absence of low-frequency bulk and shear viscosity) by assuming;that there is an orbital spin per particle that couples to a perturbing;electromagnetic field as a magnetization per particle. We study several;examples as checks on our formulation. We also present formulas for the;stress response that directly generalize the Berry (adiabatic) curvature;expressions for zero-frequency Hall conductivity or viscosity to the;full tensors at all frequencies. DOI: 10.1103/PhysRevB.86.245309;Read, Nicholas/J-6030-2012;21;0;0;0;21;1098-0121;WOS:000312292400010;;;J;Calvo, Hernan L.;Classen, Laura;Splettstoesser, Janine;Wegewijs, Maarten R.;Interaction-induced charge and spin pumping through a quantum dot at;finite bias;PHYSICAL REVIEW B;86;24;245308;10.1103/PhysRevB.86.245308;DEC 12 2012;2012;We investigate charge and spin transport through an adiabatically;driven, strongly interacting quantum dot weakly coupled to two metallic;contacts with finite bias voltage. Within a kinetic equation approach,;we identify coefficients of response to the time-dependent external;driving and relate these to the concepts of charge and spin emissivities;previously discussed within the time-dependent scattering matrix;approach. Expressed in terms of auxiliary vector fields, the response;coefficients allow for a straightforward analysis of recently predicted;interaction-induced pumping under periodic modulation of the gate and;bias voltage [Reckermann et al., Phys. Rev. Lett. 104, 226803 (2010)].;We perform a detailed study of this effect and the related adiabatic;Coulomb blockade spectroscopy, and, in particular, extend it to spin;pumping. Analytic formulas for the pumped charge and spin in the regimes;of small and large driving amplitude are provided for arbitrary bias. In;the absence of a magnetic field, we obtain a striking, simple relation;between the pumped charge at zero bias and at bias equal to the Coulomb;charging energy. At finite magnetic field, there is a possibility to;have interaction-induced pure spin pumping at this finite bias value,;and generally, additional features appear in the pumped charge. For;large-amplitude adiabatic driving, the magnitude of both the pumped;charge and spin at the various resonances saturates at values which are;independent of the specific shape of the pumping cycle. Each of these;values provides an independent, quantitative measure of the junction;asymmetry. DOI: 10.1103/PhysRevB.86.245308;Calvo, Hernan/D-9825-2011; Wegewijs, Maarten/A-3512-2012; Splettstoesser, Janine/B-4003-2012;Wegewijs, Maarten/0000-0002-2972-3822;;6;0;1;0;6;1098-0121;WOS:000312292400009;;;J;Drummond, David;Pryadko, Leonid P.;Shtengel, Kirill;Suppression of hyperfine dephasing by spatial exchange of double quantum;dots;PHYSICAL REVIEW B;86;24;245307;10.1103/PhysRevB.86.245307;DEC 12 2012;2012;We examine the logical qubit system of a pair of electron spins in;double quantum dots. Each electron experiences a different hyperfine;interaction with the local nuclei of the lattice, leading to a relative;phase difference, and thus decoherence. Methods such as nuclei;polarization, state narrowing, and spin-echo pulses have been proposed;to delay decoherence. Instead we propose to suppress hyperfine dephasing;by the adiabatic rotation of the dots in real space, leading to the same;average hyperfine interaction. We show that the additional effects due;to the motion in the presence of spin-orbit coupling are still smaller;than the hyperfine interaction, and result in an infidelity below 10(-4);after ten decoupling cycles. We discuss a possible experimental setup;and physical constraints for this proposal. DOI:;10.1103/PhysRevB.86.245307;0;0;0;0;0;1098-0121;WOS:000312292400008;;;J;Estienne, B.;Regnault, N.;Bernevig, B. A.;D-algebra structure of topological insulators;PHYSICAL REVIEW B;86;24;241104;10.1103/PhysRevB.86.241104;DEC 12 2012;2012;In the quantum Hall effect, the density operators at different wave;vectors generally do not commute and give rise to the Girvin-MacDonald-;Plazmann (GMP) algebra, with important consequences such as ground-state;center-of-mass degeneracy at fractional filling fraction, and;W1+infinity symmetry of the filled Landau levels. We show that the;natural generalization of the GMP algebra to higher-dimensional;topological insulators involves the concept of a D commutator. For;insulators in even-dimensional space, the D commutator is isotropic and;closes, and its structure factors are proportional to the D/2 Chern;number. In odd dimensions, the algebra is not isotropic, contains the;weak topological insulator index (layers of the topological insulator in;one fewer dimension), and does not contain the Chern-Simons theta form.;This algebraic structure paves the way towards the identification of;fractional topological insulators through the counting of their;excitations. The possible relation to D-dimensional volume-preserving;diffeomorphisms and parallel transport of extended objects is also;discussed. DOI: 10.1103/PhysRevB.86.241104;7;0;0;0;7;1098-0121;WOS:000312292400001;;;J;Gingrich, E. C.;Quarterman, P.;Wang, Yixing;Loloee, R.;Pratt, W. P., Jr.;Birge, Norman O.;Spin-triplet supercurrent in Co/Ni multilayer Josephson junctions with;perpendicular anisotropy;PHYSICAL REVIEW B;86;22;224506;10.1103/PhysRevB.86.224506;DEC 12 2012;2012;We have measured spin-triplet supercurrent in Josephson junctions of the;form S/F'/F/F'/S, where S is superconducting Nb, F' is a thin Ni layer;with in-plane magnetization, and F is a Ni/[Co/Ni](n) multilayer with;out-of-plane magnetization. The supercurrent in these junctions decays;very slowly with F-layer thickness and is much larger than in similar;junctions not containing the two F' layers. Those two features are the;characteristic signatures of spin-triplet supercurrent, which is;maximized by the orthogonality of the magnetizations in the F and F';layers. Magnetic measurements confirm the out-of-plane anisotropy of the;Co/Ni multilayers. These samples have their critical current optimized;in the as-prepared state, which will be useful for future applications.;DOI: 10.1103/PhysRevB.86.224506;7;1;0;0;7;1098-0121;WOS:000312291100001;;;J;Golub, Anatoly;Grosfeld, Eytan;Charge resistance in a Majorana RC circuit;PHYSICAL REVIEW B;86;24;241105;10.1103/PhysRevB.86.241105;DEC 12 2012;2012;We investigate the dynamical charge response in a "Majorana Coulomb box";realized by two Majorana bound states hosted at the ends of a mesoscopic;topological superconductor. One side of the wire is coupled to a normal;lead and low frequency gate voltage is applied to the system. There is;no dc current; the system can be considered as an RC quantum circuit. We;calculate the effective capacitance and charge relaxation resistance.;The latter is in agreement with the Korringa-Shiba formula where,;however, the charge relaxation resistance is equal to h/2e(2). This;value corresponds to the strong Coulomb blockade limit described by a;resonant model formulated by Fu [Phys. Rev. Lett. 104, 056402 (2010)].;We also performed direct calculations using the latter model and defined;its parameters by direct comparison with our perturbation theory;results. DOI: 10.1103/PhysRevB.86.241105;4;1;0;0;4;1098-0121;WOS:000312292400002;;;J;Guenter, T.;Rubano, A.;Paparo, D.;Lilienblum, M.;Marrucci, L.;Granozio, F. Miletto;di Uccio, U. Scotti;Jany, R.;Richter, C.;Mannhart, J.;Fiebig, M.;Spatial inhomogeneities at the LaAlO3/SrTiO3 interface: Evidence from;second harmonic generation;PHYSICAL REVIEW B;86;23;235418;10.1103/PhysRevB.86.235418;DEC 12 2012;2012;Phase-sensitive, spatially resolved optical second-harmonic-generation;experiments were performed on LaAlO3/SrTiO3 heterostructures. Lateral;inhomogeneities on a length scale of approximate to 30 mu m are found;when a one-unit-cell-thick epitaxial monolayer of LaAlO3 is grown on;TiO2-terminated SrTiO3 single crystals. The inhomogeneity is absent in;samples with LaAlO3 layers of more than one unit cell. The results are;discussed in the framework of electronic, oxidic, and chemical;inhomogeneities.;Marrucci, Lorenzo/A-4331-2012; Richter, Christoph/A-6172-2013;Marrucci, Lorenzo/0000-0002-1154-8966; Richter,;Christoph/0000-0002-6591-1118;7;0;0;0;7;1098-0121;WOS:000312291600008;;;J;Huang, Zhoushen;Arovas, Daniel P.;Entanglement spectrum and Wannier center flow of the Hofstadter problem;PHYSICAL REVIEW B;86;24;245109;10.1103/PhysRevB.86.245109;DEC 12 2012;2012;We examine the quantum entanglement spectra and Wannier functions of the;square lattice Hofstadter model. Consistent with previous work on;entanglement spectra of topological band structures, we find that the;entanglement levels exhibit a spectral flow similar to that of the full;system's energy spectrum. While the energy spectra are continuous, with;cylindrical boundary conditions the entanglement spectra exhibit;discontinuities associated with the passage of an energy edge state;through the Fermi level. We show how the entanglement spectrum can be;understood by examining the band projectors of the full system and their;behavior under adiabatic pumping. In so doing we make connections with;the original work by Thouless, Kohmoto, Nightingale, and den Nijs (TKNN);[Phys. Rev. Lett. 49, 405 (1982)] on topological two-dimensional band;structures and their Chern numbers. Finally, we consider Wannier states;and their adiabatic flows and draw connections to the entanglement;properties. DOI: 10.1103/PhysRevB.86.245109;5;0;0;0;5;1098-0121;WOS:000312292400003;;;J;Humeniuk, Stephan;Roscilde, Tommaso;Quantum Monte Carlo calculation of entanglement Renyi entropies for;generic quantum systems;PHYSICAL REVIEW B;86;23;235116;10.1103/PhysRevB.86.235116;DEC 12 2012;2012;We present a general scheme for the calculation of the Renyi entropy of;a subsystem in quantum many-body models that can be efficiently;simulated via quantum Monte Carlo. When the simulation is performed at;very low temperature, the above approach delivers the entanglement Renyi;entropy of the subsystem, and it allows us to explore the crossover to;the thermal Renyi entropy as the temperature is increased. We implement;this scheme explicitly within the stochastic series expansion as well as;within path-integral Monte Carlo, and apply it to quantum spin and;quantum rotor models. In the case of quantum spins, we show that;relevant models in two dimensions with reduced symmetry (XX model or;hard-core bosons, transverse-field Ising model at the quantum critical;point) exhibit an area law for the scaling of the entanglement entropy.;23;0;0;0;23;1098-0121;WOS:000312291600002;;;J;Jacobs, Th;Katterwe, S. O.;Motzkau, H.;Rydh, A.;Maljuk, A.;Helm, T.;Putzke, C.;Kampert, E.;Kartsovnik, M. V.;Krasnov, V. M.;Electron-tunneling measurements of low-T-c single-layer;Bi2+xSr2-yCuO6+delta: Evidence for a scaling disparity between;superconducting and pseudogap states;PHYSICAL REVIEW B;86;21;214506;10.1103/PhysRevB.86.214506;DEC 12 2012;2012;We experimentally study intrinsic tunneling and high magnetic field (up;to 65 T) transport characteristics of the single-layer cuprate;Bi2+xSr2-yCuO6+delta, with a very low superconducting critical;temperature T-c less than or similar to 4 K. It is observed that the;superconducting gap, the collective bosonic mode energy, the upper;critical field, and the fluctuation temperature range are scaling down;with T-c, while the corresponding pseudogap characteristics remain the;same as in high-T-c cuprates with 20 to 30 times higher T-c. The;observed disparity of the superconducting and pseudogap scales clearly;reveals their different origins. DOI: 10.1103/PhysRevB.86.214506;Kartsovnik, Mark/E-3598-2013; Rydh, Andreas/A-7068-2012;Kartsovnik, Mark/0000-0002-3011-0169; Rydh, Andreas/0000-0001-6641-4861;4;1;0;0;4;1098-0121;WOS:000312290600002;;;J;Klinovaja, Jelena;Ferreira, Gerson J.;Loss, Daniel;Helical states in curved bilayer graphene;PHYSICAL REVIEW B;86;23;235416;10.1103/PhysRevB.86.235416;DEC 12 2012;2012;We study spin effects of quantum wires formed in bilayer graphene by;electrostatic confinement. With a proper choice of the confinement;direction, we show that in the presence of magnetic field, spin orbit;interaction induced by curvature, and intervalley scattering, bound;states emerge that are helical. The localization length of these helical;states can be modulated by the gate voltage which enables the control of;the tunnel coupling between two parallel wires. Allowing for proximity;effect via an s-wave superconductor, we show that the helical modes give;rise to Majorana fermions in bilayer graphene.;J. Ferreira, Gerson/K-1948-2013; Klinovaja, Jelena/L-2510-2013; Loss, Daniel/A-3721-2008;J. Ferreira, Gerson/0000-0002-4933-3119; Loss,;Daniel/0000-0001-5176-3073;17;0;0;0;17;1098-0121;WOS:000312291600006;;;J;Lee, Wei-Cheng;Phillips, Philip W.;Non-Fermi liquid due to orbital fluctuations in iron pnictide;superconductors;PHYSICAL REVIEW B;86;24;245113;10.1103/PhysRevB.86.245113;DEC 12 2012;2012;We study the influence of quantum fluctuations on the electron;self-energy in the normal state of iron pnictide superconductors using a;five-orbital tight-binding model with generalized Hubbard on-site;interactions. Within a one-loop treatment, we find that an overdamped;collective mode develops at low frequency in channels associated with;quasi-one-dimensional d(xz) and d(yz) bands. When the critical point for;the C-4-symmetry-broken phase (structural phase transition) is;approached, the overdamped collective modes soften, and acquire;increased spectral weight, resulting in non-Fermi-liquid behavior at the;Fermi surface characterized by a frequency dependence of the imaginary;part of the electron self-energy of the form. omega(lambda), 0 < lambda;< 1. We argue that this non-Fermi-liquid behavior is responsible for the;recently observed zero-bias enhancement in the tunneling signal in;point-contact spectroscopy. A key experimental test of this proposal is;the absence of non-Fermi-liquid behavior in the hole-doped materials.;Our result suggests that quantum criticality plays an important role in;understanding the normal-state properties of iron pnictide;superconductors. DOI: 10.1103/PhysRevB.86.245113;11;0;0;0;11;1098-0121;WOS:000312292400007;;;J;McKenna, Keith P.;Blumberger, Jochen;Crossover from incoherent to coherent electron tunneling between defects;in MgO;PHYSICAL REVIEW B;86;24;245110;10.1103/PhysRevB.86.245110;DEC 12 2012;2012;Long-range electron tunneling is a fundamental process that is critical;to the performance of oxide materials in microelectronics, energy;generation, and photocatalysis, but extremely challenging to probe;experimentally. Here we devise a computational approach that allows one;to probe the mechanism and calculate the rate of electron transfer (ET);in such materials from first principles. Application to ET between;defects in MgO reveals that the activation energy for ET depends;strongly on defect separation, an effect not usually taken into account;in semiempirical models of ET processes in oxides. Importantly, for;distances below a critical defect separation (6 angstrom), the nature of;ET changes from incoherent to coherent tunneling, suggesting that;existing empirical models require essential modifications. These;calculations extend first-principles modeling of ET in oxides to the;regime of long-range incoherent transport, an outstanding problem;important for modeling many processes of technological relevance. DOI:;10.1103/PhysRevB.86.245110;Blumberger, Jochen/L-5949-2013; McKenna, Keith/A-5084-2010;6;1;0;0;6;1098-0121;WOS:000312292400004;;;J;Mol, L. A. S.;Pereira, A. R.;Moura-Melo, W. A.;Extending spin ice concepts to another geometry: The artificial;triangular spin ice (vol 85, 184410, 2012);PHYSICAL REVIEW B;86;21;219902;10.1103/PhysRevB.86.219902;DEC 12 2012;2012;Mol, Lucas/D-9575-2013;Mol, Lucas/0000-0002-5001-0499;0;0;0;0;0;1098-0121;WOS:000312290600003;;;J;Palotas, Krisztian;Mandi, Gabor;Szunyogh, Laszlo;Orbital-dependent electron tunneling within the atom superposition;approach: Theory and application to W(110);PHYSICAL REVIEW B;86;23;235415;10.1103/PhysRevB.86.235415;DEC 12 2012;2012;We introduce an orbital-dependent electron tunneling model and implement;it within the atom superposition approach for simulating scanning;tunneling microscopy (STM) and spectroscopy (STS). Applying our method,;we analyze the convergence and the orbital contributions to the;tunneling current and the corrugation of constant-current STM images;above the W(110) surface. In accordance with a previous study [Heinze et;al., Phys. Rev. B 58, 16432 (1998)], we find atomic contrast reversal;depending on the bias voltage. Additionally, we analyze this effect;depending on the tip-sample distance using different tip models and find;two qualitatively different behaviors based on the tip orbital;composition. As an explanation, we highlight the role of the real-space;shape of the orbitals involved in the tunneling. STM images calculated;by our model agree well with those obtained using Tersoff and Hamann's;and Bardeen's approaches. The computational efficiency of our model is;remarkable as the k-point samplings of the surface and tip Brillouin;zones do not affect the computation time, in contrast to the Bardeen;method.;Palotas, Krisztian/C-5338-2009;5;0;0;0;5;1098-0121;WOS:000312291600005;;;J;Rodrigues, J. N. B.;Peres, N. M. R.;Lopes dos Santos, J. M. B.;Scattering by linear defects in graphene: A continuum approach;PHYSICAL REVIEW B;86;21;214206;10.1103/PhysRevB.86.214206;DEC 12 2012;2012;We study the low-energy electronic transport across periodic extended;defects in graphene. In the continuum low-energy limit, such defects act;as infinitessimally thin stripes separating two regions where the Dirac;Hamiltonian governs the low-energy phenomena. The behavior of these;systems is defined by the boundary condition imposed by the defect on;the massless Dirac fermions. We demonstrate how this low-energy boundary;condition can be computed from the tight-binding model of the defect;line. For simplicity we consider defect lines oriented along the zigzag;direction, which requires the consideration of only one copy of the;Dirac equation. Three defect lines of this kind are studied and shown to;be mappable between them: the pentagon-only, the zz(558), and the;zz(5757) defect lines. In addition, in this same limit, we calculate the;conductance across such defect lines with size L and find it to be;proportional to k(F)L at low temperatures. DOI:;10.1103/PhysRevB.86.214206;6;0;0;0;6;1098-0121;WOS:000312290600001;;;J;Saloriutta, Karri;Uppstu, Andreas;Harju, Ari;Puska, Martti J.;Ab initio transport fingerprints for resonant scattering in graphene;PHYSICAL REVIEW B;86;23;235417;10.1103/PhysRevB.86.235417;DEC 12 2012;2012;We have recently shown that by using a scaling approach for randomly;distributed topological defects in graphene, reliable estimates for;transmission properties of macroscopic samples can be calculated based;even on single-defect calculations [A. Uppstu et al., Phys. Rev. B 85,;041401 (2012)]. We now extend this approach of energy-dependent;scattering cross sections to the case of adsorbates on graphene by;studying hydrogen and carbon adatoms as well as epoxide and hydroxyl;groups. We show that a qualitative understanding of resonant scattering;can be gained through density functional theory results for a;single-defect system, providing a transmission "fingerprint";characterizing each adsorbate type. This information can be used to;reliably predict the elastic mean free path for moderate defect;densities directly using ab initio methods. We present tight-binding;parameters for carbon and epoxide adsorbates, obtained to match the;density-functional theory based scattering cross sections.;Puska, Martti/E-7362-2012; Harju, Ari/C-2828-2009;Harju, Ari/0000-0002-2233-2896;4;0;0;0;4;1098-0121;WOS:000312291600007;;;J;Schuster, R.;Pyon, S.;Knupfer, M.;Azuma, M.;Takano, M.;Takagi, H.;Buechner, B.;Angle-dependent spectral weight transfer and evidence of a;symmetry-broken in-plane charge response in Ca1.9Na0.1CuO2Cl2;PHYSICAL REVIEW B;86;24;245112;10.1103/PhysRevB.86.245112;DEC 12 2012;2012;We report about the energy and momentum dependent charge response in;Ca1.9Na0.1CuO2Cl2 employing electron energy-loss spectroscopy. Along the;diagonal of the Brillouin zone (BZ) we find a plasmon peak-indicating;the presence of metallic states in this momentum region-which emerges as;a consequence of substantial spectral-weight transfer from excitations;across the charge-transfer (CT) gap and is the two-particle;manifestation of the small Fermi pocket or arc observed with;photoemission in this part of the BZ. In contrast, the spectrum along;the [100] direction is almost entirely dominated by CT excitations,;reminiscent of the insulating parent compound. We argue that the;observed polarization dependent shape of the spectrum is suggestive of a;breaking of the underlying tetragonal lattice symmetry, possibly due to;fluctuating nematic order in the charge channel. In addition we find the;plasmon bandwidth to be suppressed compared to optimally doped cuprates.;DOI: 10.1103/PhysRevB.86.245112;Takagi, Hidenori/B-2935-2010; PYON, Sunseng/B-2618-2011; Azuma, Masaki/C-2945-2009;0;0;0;0;0;1098-0121;WOS:000312292400006;;;J;Swingle, Brian;Experimental signatures of three-dimensional fractional topological;insulators;PHYSICAL REVIEW B;86;24;245111;10.1103/PhysRevB.86.245111;DEC 12 2012;2012;In this paper we explore experimental signatures of fractional;topological insulators in three dimensions. These are states of matter;with a fully gapped bulk that host exotic gapless surface states and;fractionally charged quasiparticles. They are partially characterized by;a nontrivial magneto-electric response while preserving time reversal.;We describe how these phases appear in a variety of probes including;photoemmission, tunneling, and quantum oscillations. We also discuss the;effects of doping and proximate superconductivity. We argue that despite;our current theoretical inability to predict materials where such phases;will be realized, they should be relatively easy to detect;experimentally. DOI:10.1103/PhysRevB.86.245111;0;0;0;0;0;1098-0121;WOS:000312292400005;;;J;Thomas, Mark;Romito, Alessandro;Decoherence effects on weak value measurements in double quantum dots;PHYSICAL REVIEW B;86;23;235419;10.1103/PhysRevB.86.235419;DEC 12 2012;2012;We study the effect of decoherence on a weak value measurement in a;paradigm system consisting of a double quantum dot continuously measured;by a quantum point contact. Fluctuations of the parameters controlling;the dot state induce decoherence. We find that, for measurements longer;than the decoherence time, weak values are always reduced within the;range of the eigenvalues of the measured observable. For measurements at;shorter time scales, the measured weak value strongly depends on the;interplay between the decoherence dynamics of the system and the;detector backaction. In particular, depending on the postselected state;and the strength of the decoherence, a more frequent classical readout;of the detector might lead to an enhancement of weak values.;Romito, Alessandro/L-3564-2013;Romito, Alessandro/0000-0003-3082-6279;1;0;0;0;1;1098-0121;WOS:000312291600009;;;J;Witczak-Krempa, William;Sachdev, Subir;Quasinormal modes of quantum criticality;PHYSICAL REVIEW B;86;23;235115;10.1103/PhysRevB.86.235115;DEC 12 2012;2012;We study charge transport of quantum critical points described by;conformal field theories in 2 + 1 space-time dimensions. The transport;is described by an effective field theory on an asymptotically anti-de;Sitter space-time, expanded to fourth order in spatial and temporal;gradients. The presence of a horizon at nonzero temperatures implies;that this theory has quasinormal modes with complex frequencies. The;quasinormal modes determine the poles and zeros of the conductivity in;the complex frequency plane, and so fully determine its behavior on the;real frequency axis, at frequencies both smaller and larger than the;absolute temperature. We describe the role of particle-vortex or S;duality on the conductivity, specifically how it maps poles to zeros and;vice versa. These analyses motivate two sum rules obeyed by the quantum;critical conductivity: the holographic computations are the first to;satisfy both sum rules, while earlier Boltzmann-theory computations;satisfy only one of them. Finally, we compare our results with the;analytic structure of the O(N) model in the large-N limit, and other;CFTs.;Sachdev, Subir/A-8781-2013;Sachdev, Subir/0000-0002-2432-7070;13;0;0;0;13;1098-0121;WOS:000312291600001;;;J;Zielke, Robert;Braunecker, Bernd;Loss, Daniel;Cotunneling in the v=5/2 fractional quantum Hall regime;PHYSICAL REVIEW B;86;23;235307;10.1103/PhysRevB.86.235307;DEC 12 2012;2012;We show that cotunneling in the 5/2 fractional quantum Hall regime;allows us to test the Moore-Read wave function, proposed for this;regime, and to probe the nature of the fractional charge carriers. We;calculate the cotunneling current for electrons that tunnel between two;quantum Hall edge states via a quantum dot and for quasiparticles with;fractional charges e/4 and e/2 that tunnel via an antidot. While;electron cotunneling is strongly suppressed, the quasiparticle tunneling;shows signatures characteristic of the Moore-Read state. For comparison,;we also consider cotunneling between Laughlin states, and find that;electron transport between Moore-Read states and between Laughlin states;at filling factor 1/3 have identical voltage dependences.;Loss, Daniel/A-3721-2008;Loss, Daniel/0000-0001-5176-3073;0;0;0;0;0;1098-0121;WOS:000312291600003;;;J;de Andres, P. L.;Guinea, F.;Katsnelson, M. I.;Density functional theory analysis of flexural modes, elastic constants,;and corrugations in strained graphene;PHYSICAL REVIEW B;86;24;245409;10.1103/PhysRevB.86.245409;DEC 11 2012;2012;Ab initio density functional theory has been used to analyze flexural;modes, elastic constants, and atomic corrugations on single-and bi-layer;graphene. Frequencies of flexural modes are sensitive to compressive;stress; its variation under stress can be related to the anomalous;thermal expansion via a simple model based in classical elasticity;theory [P. L. de Andres, F. Guinea, and M. I. Katsnelson, Phys. Rev. B;86, 144103 (2012)]. Under compression, flexural modes are responsible;for a long-wavelength rippling with a large amplitude and a marked;anharmonic behavior. This is compared with corrugations created by;thermal fluctuations and the adsorption of a light impurity (hydrogen).;Typical values for the later are in the sub-Angstrom regime, while;maximum corrugations associated to bending modes quickly increase up to;a few Angstroms under a compressive stress, due to the intrinsic;instability of flexural modes. DOI: 10.1103/PhysRevB.86.245409;Katsnelson, Mikhail/D-4359-2012; Guinea, Francisco/A-7122-2008; de Andres, Pedro/B-2043-2010; DONOSTIA INTERNATIONAL PHYSICS CTR., DIPC/C-3171-2014;Guinea, Francisco/0000-0001-5915-5427;;8;1;0;0;8;1098-0121;WOS:000312292100004;;;J;Glaessl, M.;Axt, V. M.;Polarization dependence of phonon influences in exciton-biexciton;quantum dot systems;PHYSICAL REVIEW B;86;24;245306;10.1103/PhysRevB.86.245306;DEC 11 2012;2012;We report on a strong dependence of the phonon-induced damping of Rabi;dynamics in an optically driven exciton-biexciton quantum dot system on;the polarization of the exciting pulse. While for a fixed pulse;intensity the damping is maximal for linearly polarized excitation, it;decreases with increasing ellipticity of the polarization. This finding;is most remarkable considering that the carrier-phonon coupling is spin;independent. In addition to simulations based on a numerically exact;real-time path-integral approach, we present an analysis within a;weak-coupling theory that allows for analytical expressions for the;pertinent damping rates. We demonstrate that an efficient coupling to;the biexciton state is of central importance for the reported;polarization dependencies. Further, we discuss influences of various;system parameters and show that, for finite biexciton binding energies,;Rabi scenarios differ qualitatively from the widely studied two-level;dynamics. DOI: 10.1103/PhysRevB.86.245306;2;0;0;0;2;1098-0121;WOS:000312292100003;;;J;Ishioka, J.;Fujii, T.;Katono, K.;Ichimura, K.;Kurosawa, T.;Oda, M.;Tanda, S.;Reply to "Comment on 'Charge-parity symmetry observed through Friedel;oscillations in chiral charge-density waves' ";PHYSICAL REVIEW B;86;24;247102;10.1103/PhysRevB.86.247102;DEC 11 2012;2012;We are responding to the Comment by J. Wezel on our paper. This study;was developed from our previous work [Ishioka et al., Phys. Rev. Lett.;105, 176401 (2010)]. In the PRL paper, H-CDW was defined as a new;parameter for expressing CDW chirality for the first time. In his;Comment, he claims that H-CDW is ill defined. He also claims that the;initial phase phi of the CDW wave function is a more appropriate;parameter for expressing chiral CDW, despite our early introduction of;phi to explain the experimental data described in the PRL paper.;However, we conclude that H-CDW can distinguish the CDW chirality by its;sign. Moreover, by considering different H-CDW signs, we had succeeded;in demonstrating the difference of the spatial distributions of CDWs as;shown in Fig. 4 of the PRB paper [Phys. Rev. B 84, 245125 (2011)]. In;our Reply, we discuss the validity of H-CDW. We show that his argument;regarding the identification of the CDW with the opposite sign of q is;wrong, since the logic is inapplicable to a wave function with a nonzero;phi. We also discuss the applicability of H-CDW to two- or;three-dimensional CDWs in transition metal dichalcogenides. DOI:;10.1103/PhysRevB.86.247102;0;0;0;0;0;1098-0121;WOS:000312292100007;;;J;Kallos, Efthymios;Chremmos, Ioannis;Yannopapas, Vassilios;Resonance properties of optical all-dielectric metamaterials using;two-dimensional multipole expansion;PHYSICAL REVIEW B;86;24;245108;10.1103/PhysRevB.86.245108;DEC 11 2012;2012;We examine the electromagnetic response of metamaterial unit elements;consisting of dielectric rods embedded in a nonmagnetic background;medium. We establish a theoretical framework in which the response is;described through the electric and magnetic multipole moments that are;simultaneously generated via the polarization currents that are excited;upon the incidence of plane waves. The corresponding dipole and;quadrupole polarizabilities are then calculated as a function of the Mie;scattering coefficients, and their resonances are mapped for the case of;dielectric cylindrical rods as a function of the geometry and the;material parameters used. The results provide critical insight into the;anisotropic response of two-dimensional rod-type metamaterials and can;be used as a unified methodology in the calculation of exotic effective;electromagnetic parameters involved in phenomena such as optical;magnetism. DOI: 10.1103/PhysRevB.86.245108;5;0;0;0;5;1098-0121;WOS:000312292100001;;;J;Lim, Linda Y.;Lany, Stephan;Chang, Young Jun;Rotenberg, Eli;Zunger, Alex;Toney, Michael F.;Angle-resolved photoemission and quasiparticle calculation of ZnO: The;need for d band shift in oxide semiconductors;PHYSICAL REVIEW B;86;23;235113;10.1103/PhysRevB.86.235113;DEC 11 2012;2012;ZnO is a prototypical semiconductor with occupied d(10) bands that;interact with the anion p states and is thus challenging for electronic;structure theories. Within the context of these theories, incomplete;cancellation of the self-interaction energy results in a Zn d band that;is too high in energy, resulting in upwards repulsion of the valence;band maximum (VBM) states, and an unphysical reduction of the band gap.;Methods such as GW should significantly reduce the self-interaction;error, and in order to evaluate such calculations, we measured;high-resolution and resonant angle-resolved photoemission spectroscopy;(ARPES) and compared these to several electronic structure calculations.;We find that, in a standard GW calculation, the d bands remain too high;in energy by more than 1 eV irrespective of the Hamiltonian used for;generating the input wave functions, causing a slight underestimation of;the band gap due to the p-d repulsion. We show that a good agreement;with the ARPES data over the full valence band spectrum is obtained,;when the Zn-d band energy is shifted down by applying an on-site;potential V-d for Zn-d states during the GW calculations to match the;measured d band position. The magnitude of the GW quasiparticle energy;shift relative to the initial density functional calculation is of;importance for the prediction of charged defect formation energies,;band-offsets, and ionization potentials. DOI: 10.1103/PhysRevB.86.235113;Zunger, Alex/A-6733-2013; Lim, Ying Wen Linda/A-8608-2012; Rotenberg, Eli/B-3700-2009; Chang, Young Jun/N-3440-2014;Rotenberg, Eli/0000-0002-3979-8844; Chang, Young Jun/0000-0001-5538-0643;15;0;0;0;15;1098-0121;WOS:000312291700002;;;J;Liu, Tao;Lee, Kenneth E.;Wang, Qi Jie;Microscopic density matrix model for optical gain of terahertz quantum;cascade lasers: Many-body, nonparabolicity, and resonant tunneling;effects;PHYSICAL REVIEW B;86;23;235306;10.1103/PhysRevB.86.235306;DEC 11 2012;2012;Intersubband semiconductor-Bloch equations are investigated by;incorporating many-body Coulomb interaction, nonparabolicity, and;coherence of resonant tunneling transport in a quantitative way based on;the density matrix theory. The calculations demonstrate the importance;of these parameters on optical properties, especially the optical gain;spectrum, of terahertz (THz) quantum cascade lasers (QCLs). The results;show that the lasing frequency at gain peak calculated by the proposed;microscopic density matrix model is closer to the experimentally;measured result, compared with that calculated by the existing;macroscopic density matrix model. Specifically, both the many-body;interaction and nonparabolicity effects red-shift the gain spectrum and;reduce the gain peak. In addition, as the injection-coupling strength;increases, the gain peak value is enhanced and the spectrum is slightly;broadened, while an increase of the extraction-coupling strength reduces;the gain peak value and broadens the gain spectrum. The dependence of;optical gain of THz QCLs on device parameters such as external;electrical bias, dephasing rate, doping density, and temperature is also;systematically studied in details. This model provides a more;comprehensive picture of the optical properties of THz QCLs from a;microscopic point of view and potentially enables a more accurate and;faster prediction and calculation of the device performance, e. g., gain;spectra, current-voltage characteristics, optical output powers, and;nonlinear amplitude-phase coupling. DOI: 10.1103/PhysRevB.86.235306;Wang, Qi Jie/E-6987-2010;5;0;0;0;5;1098-0121;WOS:000312291700004;;;J;Pedersen, Jesper Goor;Gunst, Tue;Markussen, Troels;Pedersen, Thomas Garm;Graphene antidot lattice waveguides;PHYSICAL REVIEW B;86;24;245410;10.1103/PhysRevB.86.245410;DEC 11 2012;2012;We introduce graphene antidot lattice waveguides: nanostructured;graphene where a region of pristine graphene is sandwiched between;regions of graphene antidot lattices. The band gaps in the surrounding;antidot lattices enable localized states to emerge in the central;waveguide region. We model the waveguides via a position-dependent mass;term in the Dirac approximation of graphene and arrive at analytical;results for the dispersion relation and spinor eigenstates of the;localized waveguide modes. To include atomistic details we also use a;tight-binding model, which is in excellent agreement with the analytical;results. The waveguides resemble graphene nanoribbons, but without the;particular properties of ribbons that emerge due to the details of the;edge. We show that electrons can be guided through kinks without;additional resistance and that transport through the waveguides is;robust against structural disorder. DOI: 10.1103/PhysRevB.86.245410;Goor Pedersen, Jesper/C-3965-2008; Gunst, Tue/C-6575-2013; Markussen, Troels/B-7800-2012;Goor Pedersen, Jesper/0000-0002-8411-240X; Gunst,;Tue/0000-0002-3000-5940; Markussen, Troels/0000-0003-1192-4025;9;0;0;0;9;1098-0121;WOS:000312292100005;;;J;Ramos, J. G. G. S.;Barbosa, A. L. R.;Bazeia, D.;Hussein, M. S.;Lewenkopf, C. H.;Generalized correlation functions for conductance fluctuations and the;mesoscopic spin Hall effect;PHYSICAL REVIEW B;86;23;235112;10.1103/PhysRevB.86.235112;DEC 11 2012;2012;We study the spin Hall conductance fluctuations in ballistic mesoscopic;systems. We obtain universal expressions for the spin and charge current;fluctuations, cast in terms of current-current autocorrelation;functions. We show that the latter are conveniently parametrized as;deformed Lorentzian shape lines, functions of an external applied;magnetic field and the Fermi energy. We find that the charge current;fluctuations show quite unique statistical features at the;symplectic-unitary crossover regime. Our findings are based on an;evaluation of the generalized transmission coefficients correlation;functions within the stub model and are amenable to experimental test.;DOI: 10.1103/PhysRevB.86.235112;1, INCT/G-5846-2013; Informacao quantica, Inct/H-9493-2013; Lewenkopf, Caio/A-1791-2014;Lewenkopf, Caio/0000-0002-2053-2798;1;0;0;0;1;1098-0121;WOS:000312291700001;;;J;Ruth, Marcel;Meier, Cedrik;Scaling coefficient for three-dimensional grain coalescence of ZnO on;Si(111);PHYSICAL REVIEW B;86;22;224108;10.1103/PhysRevB.86.224108;DEC 11 2012;2012;Grain-rotation-induced coalescence is a well-known growth mechanism of;granular/polycrystalline systems in two dimensions. In three-dimensional;(3D) crystals there are more degrees of freedom, and influences of the;substrate play an important role. In the present work we analyze the 3D;coalescence of ZnO grains on Si(111) by thermal annealing under O-2;atmosphere. Atomic force microscopy and electron backscatter diffraction;measurements reveal a significant increase in the mean grain diameter;and a reorientation that matches the substrate orientation. This;structural reorganization leads to a substantial enhancement of the;electronic layer quality. We describe the grain growth with a diffusive;model and find a volume scaling coefficient of 1.5. This proves that the;additional degrees of freedom significantly accelerate grain-rotation;induced coalescence in three dimensions. DOI: 10.1103/PhysRevB.86.224108;Meier, Cedrik/E-4877-2011;Meier, Cedrik/0000-0002-3787-3572;4;0;0;0;4;1098-0121;WOS:000312291300001;;;J;van den Berg, T. L.;Lombardo, P.;Kuzian, R. O.;Hayn, R.;Orbital polaron in double-exchange ferromagnets;PHYSICAL REVIEW B;86;23;235114;10.1103/PhysRevB.86.235114;DEC 11 2012;2012;We investigate the spectral properties of the two-orbital Hubbard model,;including the pair hopping term, by means of the dynamical mean field;method. This Hamiltonian describes materials in which ferromagnetism is;realized by the double-exchange mechanism, as for instance manganites,;nickelates, or diluted magnetic semiconductors. The spectral function of;the unoccupied states is characterized by a specific equidistant three;peak structure. We emphasize the importance of the double hopping term;on the spectral properties. We show the existence of a ferromagnetic;phase due to electron doping near n = 1 by the double-exchange;mechanism. A quasiparticle excitation at the Fermi energy is found that;we attribute to what we will call an orbital polaron. We derive an;effective spin-pseudospin Hamiltonian for the two-orbital;double-exchange model at n = 1 filling to explain the existence and;dynamics of this quasiparticle. DOI: 10.1103/PhysRevB.86.235114;Kuzian, Roman/C-9079-2012; DONOSTIA INTERNATIONAL PHYSICS CTR., DIPC/C-3171-2014;Kuzian, Roman/0000-0002-6672-7224;;1;0;0;0;1;1098-0121;WOS:000312291700003;;;J;van Wezel, Jasper;Comment on "Charge-parity symmetry observed through Friedel oscillations;in chiral charge-density waves";PHYSICAL REVIEW B;86;24;247101;10.1103/PhysRevB.86.247101;DEC 11 2012;2012;In their publication [Phys. Rev. B 84, 245125 (2011)], Ishioka et al.;discuss the recently discovered chiral charge-density wave state in;1T-TiSe2 in terms of a parameter H-CDW, whose sign is suggested to;correspond to the handedness of the chiral order. Here, we point out;that H-CDW, as defined by Ishioka et al., cannot be used to characterize;chirality in that way. An alternative measure of chirality for the;specific case of 1T-TiSe2 is suggested. DOI: 10.1103/PhysRevB.86.247101;2;0;0;0;2;1098-0121;WOS:000312292100006;;;J;Wan, Li;Iacovella, Christopher R.;Nguyen, Trung D.;Docherty, Hugh;Cummings, Peter T.;Confined fluid and the fluid-solid transition: Evidence from absolute;free energy calculations;PHYSICAL REVIEW B;86;21;214105;10.1103/PhysRevB.86.214105;DEC 11 2012;2012;The debate on whether an organic fluid nanoconfined by mica sheets will;undergo a fluid-to-solid transition as the fluid film thickness is;reduced below a critical value has lasted over two decades. Extensive;experimental and simulation investigations have thus far left this;question only partially addressed. In this work, we adapt and apply;absolute free energy calculations to analyze the phase behavior of a;simple model for nanoconfined fluids, consisting of spherical;Lennard-Jones (LJ) molecules confined between LJ solid walls, which we;use in combination with grand-canonical molecular dynamics simulations.;Absolute Helmholtz free energy calculations of the simulated;nanoconfined systems directly support the existence of order-disorder;phase transition as a function of decreasing wall separation, providing;results in close agreement with previous experiments and detailed;atomistic simulations. DOI: 10.1103/PhysRevB.86.214105;Iacovella, Christopher/D-2050-2011; Cummings, Peter/B-8762-2013;Cummings, Peter/0000-0002-9766-2216;5;0;0;0;5;1098-0121;WOS:000312290000001;;;J;Zaletel, Michael P.;Mong, Roger S. K.;Exact matrix product states for quantum Hall wave functions;PHYSICAL REVIEW B;86;24;245305;10.1103/PhysRevB.86.245305;DEC 11 2012;2012;We show that the model wave functions used to describe the fractional;quantum Hall effect have exact representations as matrix product states;(MPS). These MPS can be implemented numerically in the orbital basis of;both finite and infinite cylinders, which provides an efficient way of;calculating arbitrary observables. We extend this approach to the;charged excitations and numerically compute their Berry phases. Finally,;we present an algorithm for numerically computing the real-space;entanglement spectrum starting from an arbitrary orbital basis MPS,;which allows us to study the scaling properties of the real-space;entanglement spectra on infinite cylinders. The real-space entanglement;spectrum obeys a scaling form dictated by the edge conformal field;theory, allowing us to accurately extract the two entanglement;velocities of the Moore-Read state. In contrast, the orbital space;spectrum is observed to scale according to a complex set of power laws;that rule out a similar collapse. DOI: 10.1103/PhysRevB.86.245305;16;0;0;0;16;1098-0121;WOS:000312292100002;;;J;Berdiyorov, G. R.;Chao, X. H.;Peeters, F. M.;Wang, H. B.;Moshchalkov, V. V.;Zhu, B. Y.;Magnetoresistance oscillations in superconducting strips: A;Ginzburg-Landau study;PHYSICAL REVIEW B;86;22;224504;10.1103/PhysRevB.86.224504;DEC 10 2012;2012;Within the time-dependent Ginzburg-Landau theory we study the dynamic;properties of current-carrying superconducting strips in the presence of;a perpendicular magnetic field. We found pronounced voltage peaks as a;function of the magnetic field, the amplitude of which depends both on;sample dimensions and external parameters. These voltage oscillations;are a consequence of moving vortices, which undergo alternating static;and dynamic phases. At higher fields or for high currents, the;continuous motion of vortices is responsible for the monotonic;background on which the resistance oscillations due to the entry of;additional vortices are superimposed. Mechanisms for such;vortex-assisted resistance oscillations are discussed. Qualitative;changes in the magnetoresistance curves are observed in the presence of;random defects, which affect the dynamics of vortices in the system.;Zhu, Bei Yi/C-1506-2011; Moshchalkov, Victor/I-7232-2013; Wang, HB/M-7461-2013;2;0;0;0;2;1098-0121;WOS:000312064300004;;;J;Bogan, A.;Hatke, A. T.;Studenikin, S. A.;Sachrajda, A.;Zudov, M. A.;Pfeiffer, L. N.;West, K. W.;Microwave-induced resistance oscillations in tilted magnetic fields;PHYSICAL REVIEW B;86;23;235305;10.1103/PhysRevB.86.235305;DEC 10 2012;2012;We have studied the effect of an in-plane magnetic field on;microwave-induced resistance oscillations in a high mobility;two-dimensional electron system. We have found that the oscillation;amplitude decays exponentially with an in-plane component of the;magnetic field B-parallel to. While these findings cannot be accounted;for by existing theories, our analysis suggests that the decay can be;explained by a B-parallel to-induced correction to the quantum;scattering rate, which is quadratic in B-parallel to.;Zudov, Michael/A-3013-2008;7;1;0;0;7;1098-0121;WOS:000312064700005;;;J;Dahl, J.;Kuzmin, M.;Adell, J.;Balasubramanian, T.;Laukkanen, P.;Formation of polar InN with surface Fermi level near the valence band;maximum by means of ammonia nitridation;PHYSICAL REVIEW B;86;24;245304;10.1103/PhysRevB.86.245304;DEC 10 2012;2012;Development of InN films for devices is hindered due to metallic In;clusters, formed readily during growth, and unintentional n-type;conductivity of the nominally undoped films, including surface;electron-accumulation layers via the Fermi level pinning into the;conduction band. Plasma nitridation eliminates even large In clusters;from the surface by changing them to two-dimensional InN [Yamaguchi and;Nanishi, Appl. Phys. Expr. 2, 051001 (2009)]. Here we utilized a similar;approach, that is, nitridation of In-covered surfaces with ammonia (NH3);to grow thin, up to 25 nm thick polar InN films on Si(111) and GaN(0001);substrates. By means of scanning tunneling microscopy and spectroscopy,;as well as photoelectron spectroscopy, we show that this simple NH3;nitridation provides the hitherto not reported formation of polar;InN(000-1) films with the surface Fermi level close to the valence band;maximum, as recent calculations [Belabbes et al., Phys. Rev. B 84,;205304 (2011)] predict. DOI: 10.1103/PhysRevB.86.245304;1;0;0;0;1;1098-0121;WOS:000312065400006;;;J;Ghosh, Sankha;English, Niall J.;Ab initio study on optoelectronic properties of interstitially versus;substitutionally doped titania;PHYSICAL REVIEW B;86;23;235203;10.1103/PhysRevB.86.235203;DEC 10 2012;2012;Density functional theory calculations were performed for Cr, N, and C;monodoping in both rutile and anatase phases of crystalline titania. The;formation and binding energies, electronic structure, and optical;properties were determined. It was found that although C has a;predominant preference for occupying a lattice O-site, N has higher;preference for interstitial occupancy in the vicinity of an O atom in;anatase, whereas both prefer to maintain interstitial occupancy in;rutile, albeit with both N and C exhibiting a relatively higher;preference for anatase over rutile. Furthermore, Cr is more;energetically stable in the rutile phase relative to anatase for;substitutional doping, albeit with comparable formation energies for;both interstitial and substitutional doping. Interstitial C-impurities;were observed to occupy the oxygen lattice sites in anatase, but not in;rutile. In terms of N-doping, it was found that interstitial doping;exhibits higher visible light photoactivity than substitutional doping.;1;0;0;0;1;1098-0121;WOS:000312064700003;;;J;Howie, Ross T.;Scheler, Thomas;Guillaume, Christophe L.;Gregoryanz, Eugene;Proton tunneling in phase IV of hydrogen and deuterium;PHYSICAL REVIEW B;86;21;214104;10.1103/PhysRevB.86.214104;DEC 10 2012;2012;Using in situ optical spectroscopy we have investigated the temperature;stability of the mixed atomic and molecular phases IV of dense deuterium;and hydrogen. Through a series of low-temperature experiments at high;pressures, we observe phase III-to-IV transformation, imposing;constraints on the P-T phase diagrams. The spectral features of the;phase IV-III transition and differences in appearances of the isotopes;Raman spectra strongly indicate the presence of proton tunneling in;phase IV. No differences between isotopes were observed in absorption;spectroscopic studies, resulting in identical values for the band gap.;The extrapolation of the combined band gap yields 375 GPa as the minimum;transition pressure to the metallic state of hydrogen (deuterium). The;minute changes in optical spectra above 275 GPa might suggest the;presence of a new solid modification of hydrogen (deuterium), closely;related structurally to phase IV. DOI: 10.1103/PhysRevB. 86.214104;15;1;0;0;15;1098-0121;WOS:000312063700001;;;J;Hrahsheh, Fawaz;Hoyos, Jose A.;Vojta, Thomas;Rounding of a first-order quantum phase transition to a strong-coupling;critical point;PHYSICAL REVIEW B;86;21;214204;10.1103/PhysRevB.86.214204;DEC 10 2012;2012;We investigate the effects of quenched disorder on first-order quantum;phase transitions on the example of the N-color quantum Ashkin-Teller;model. By means of a strong-disorder renormalization group, we;demonstrate that quenched disorder rounds the first-order quantum phase;transition to a continuous one for both weak and strong coupling between;the colors. In the strong-coupling case, we find a distinct type of;infinite-randomness critical point characterized by additional internal;degrees of freedom. We investigate its critical properties in detail and;find stronger thermodynamic singularities than in the random transverse;field Ising chain. We also discuss the implications for higher spatial;dimensions as well as unusual aspects of our renormalization-group;scheme. DOI: 10.1103/PhysRevB.86.214204;Hoyos, Jose/F-2742-2012;2;0;0;0;2;1098-0121;WOS:000312063700002;;;J;Huevonen, D.;Zhao, S.;Ehlers, G.;Mansson, M.;Gvasaliya, S. N.;Zheludev, A.;Excitations in a quantum spin liquid with random bonds;PHYSICAL REVIEW B;86;21;214408;10.1103/PhysRevB.86.214408;DEC 10 2012;2012;We present the results of an inelastic neutron-scattering study on two;bond disordered quasi-two-dimensional quantum magnets;(C4H12N2)Cu-2(Cl1-xBrx)(6) with x = 0.035 and 0.075. We observe an;increase of spin gap, a reduction of magnon bandwidth, and a decrease of;magnon lifetimes compared to the x = 0 sample. Additional magnon damping;is observed at higher energies away from the zone center, which is found;to follow the density of single-particle states. DOI:;10.1103/PhysRevB.86.214408;Instrument, CNCS/B-4599-2012; Ehlers, Georg/B-5412-2008; Huvonen, Dan/A-6664-2008; Mansson, Martin/C-1134-2014;8;0;0;0;8;1098-0121;WOS:000312063700005;;;J;Hwang, Kyusung;Park, Kwon;Kim, Yong Baek;Influence of Dzyaloshinskii-Moriya interactions on magnetic structure of;a spin-1/2 deformed kagome lattice antiferromagnet;PHYSICAL REVIEW B;86;21;214407;10.1103/PhysRevB.86.214407;DEC 10 2012;2012;Motivated by the recent neutron-scattering experiment on Rb2Cu3SnF12;[Nature Phys. 6, 865 (2010)], we investigate the effect of;Dzyaloshinskii-Moriya interactions in a theoretical model for the;magnetic structure of this material. Considering the valence bond solid;ground state, which has a 12-site unit cell, we develop the bond;operator mean-field theory. It is shown that the Dzyaloshinskii-Moriya;interactions significantly modify the triplon dispersions around the;Gamma point and cause a shift of the spin-gap (the minimum triplon gap);position from the K to Gamma point in the first Brillouin zone. The spin;gap is also evaluated in exact diagonalization studies on a 24-site;cluster. We discuss a magnetic transition induced by the;Dzyaloshinskii-Moriya interactions in the bond operator framework.;Moreover, the magnetization process under external magnetic fields is;studied within the exact diagonalization approach. We find that the;results of both approaches are consistent with the experimental;findings. DOI: 10.1103/PhysRevB.86.214407;3;0;0;0;3;1098-0121;WOS:000312063700004;;;J;Ignacio, M.;Pierre-Louis, O.;Impalement dynamics and Brownian motion of solid islands on nanopillars;PHYSICAL REVIEW B;86;23;235410;10.1103/PhysRevB.86.235410;DEC 10 2012;2012;We study the dynamics of solid islands deposited on nanopillars using;kinetic Monte Carlo simulations. The islands are initially placed on the;top of the pillars, in the so-called Cassie-Baxter state. For high;pillars, the dynamics is divided into two phases. The first phase;corresponds to the deterministic and irreversible impalement of the;island. The dynamics of this phase is governed by surface diffusion.;Once the island has collapsed, a second phase is observed where the;island exhibits Brownian motion along the pillars, characterized by a;diffusion constant D-i and a kinetic coefficient K-i accounting for the;interaction of the island with the top of the pillars. The random walk;stops when the island reaches the bottom of the substrate, where it;sticks irreversibly. When the island wettability is small, the island;diffusion constant D-i is controlled by adatom diffusion, and scales as;the inverse of the number of atoms in the island. In contrast, for large;wettabilities, we observe that D-i oscillates as the island size is;increased. The minimum of the oscillations corresponds to;nucleation-limited dynamics, where D-i is independent of the island;size. We also determine the time for partial irreversible collapse on;shorter pillars, leading to the so-called Wenzel state. Finally, we;discuss the orders of magnitude of the typical duration of these;processes.;2;0;0;0;2;1098-0121;WOS:000312064700007;;;J;Jarlborg, T.;Barbiellini, B.;Markiewicz, R. S.;Bansil, A.;Different doping from apical and planar oxygen vacancies in;Ba2CuO4-delta and La2CuO4-delta: First-principles band structure;calculations;PHYSICAL REVIEW B;86;23;235111;10.1103/PhysRevB.86.235111;DEC 10 2012;2012;First-principles band structure calculations for large supercells of;Ba2CuO4-delta and La2CuO4-delta with different distributions and;concentrations of oxygen vacancies show that the effective doping on;copper sites strongly depends on where the vacancy is located. A vacancy;within the Cu layer produces a weak doping effect while a vacancy;located at an apical oxygen site acts as a stronger electron dopant on;the copper layers and gradually brings the electronic structure close to;that of La2-xSrxCuO4. These effects are robust and only depend;marginally on lattice distortions. Our results show that deoxygenation;can reduce the effect of traditional La/Sr or La/Nd substitutions. Our;study clearly identifies location of the dopant in the crystal structure;as an important factor in doping of the cuprate planes.;6;0;0;0;6;1098-0121;WOS:000312064700002;;;J;Kunimori, K.;Nakamura, M.;Nohara, H.;Tanida, H.;Sera, M.;Nishioka, T.;Matsumura, M.;Unusual magnetic order in CeT2Al10 (T = Ru, Os) in comparison with;localized NdFe2Al10;PHYSICAL REVIEW B;86;24;245106;10.1103/PhysRevB.86.245106;DEC 10 2012;2012;We have investigated the magnetic properties in the well localized;compound NdFe2Al10 and the Kondo semiconductor CeT2Al10 (T = Ru, Os) to;clarify the origin of the unusual magnetic order in CeT2Al10. In;NdFe2Al10, the experimental results of the magnetic properties could be;reproduced very well by the mean-field calculation for the;two-sublattice model. In CeT2Al10 we could reproduce the anisotropic;magnetic susceptibility in the paramagnetic region above 60-100 K very;well by the mean-field calculation for the two-sublattice model;introducing an anisotropic exchange interaction and the recently;determined crystalline electric field (CEF) level scheme from Strigari;et al. [Phys. Rev. B 86, 081105 (2012)]. However, in the;antiferromagnetic (AFM) ordered state, we could not reproduce the;experimental results at all in the framework of the mean-field;calculation for the two-sublattice model. We propose that although the;magnetic properties in the paramagnetic region above 60-100 K could be;understood well by a localized picture, the ordered state could not, and;that the c-f hybridization, especially along the a axis, is associated;with the unusual magnetic order in CeT2Al10. DOI:;10.1103/PhysRevB.86.245106;Tanida, Hiroshi/E-1878-2013;14;0;0;0;14;1098-0121;WOS:000312065400003;;;J;Lee, Jin Bae;Hong, Won G.;Kim, Hae Jin;Jaglicic, Z.;Jazbec, S.;Wencka, M.;Jelen, A.;Dolinsek, J.;Canted antiferromagnetism on a nanodimensional spherical surface;geometry: The case of MnCO3 small hollow nanospheres;PHYSICAL REVIEW B;86;22;224407;10.1103/PhysRevB.86.224407;DEC 10 2012;2012;Canted antiferromagnetism on a nanodimensional spherical surface;geometry was investigated on manganese carbonate MnCO3 small hollow;nanospheres of mean diameter 7.0 +/- 0.3 nm and shell thickness of 0.7;nm, by performing magnetic measurements and specific heat study, in;comparison to the bulk form of the same material. Contrary to the;expectation that small magnetic nanoparticles become superparamagnetic,;the phase transition to the canted antiferromagnetic (AFM) state in the;MnCO3 hollow nanospheres is preserved and retains, at a qualitative;level, all the features of the canted AFM state of the bulk material. At;a quantitative level, some significant differences between the hollow;nanospheres and the bulk were observed, which can all be explained by;the weakened interspin interactions in the hollow nanospheres due to;reduced atomic coordination by the neighboring atoms. This makes the;canted AFM structure of the hollow nanospheres more soft and fragile;with respect to external forces like the magnetic field, as compared to;the rigid and robust structure of the bulk material.;1;0;0;0;1;1098-0121;WOS:000312064300002;;;J;Levkivskyi, Ivan P.;Froehlich, Juerg;Sukhorukov, Eugene V.;Theory of fractional quantum Hall interferometers;PHYSICAL REVIEW B;86;24;245105;10.1103/PhysRevB.86.245105;DEC 10 2012;2012;Interference of fractionally charged quasiparticles is expected to lead;to Aharonov-Bohm oscillations with periods larger than the flux quantum.;However, according to the Byers-Yang theorem, observables of an;electronic system are invariant under an adiabatic insertion of a;quantum of singular flux. We resolve this seeming paradox by considering;a microscopic model of electronic interferometers made from a quantum;Hall liquid at filling factor 1/m with the shape of a Corbino disk. In;such interferometers, the quantum Hall edge states are utilized in place;of optical beams, the quantum point contacts play the role of beam;splitters connecting different edge channels, and Ohmic contacts;represent a source and drain of quasiparticle currents. Depending on the;position of Ohmic contacts, one distinguishes interferometers of;Fabry-Perot (FP) and Mach-Zehnder (MZ) type. An approximate ground state;of such interferometers is described by a Laughlin-type wave function,;and low-energy excitations are incompressible deformations of this;state. We construct a low-energy effective theory by restricting the;microscopic Hamiltonian of electrons to the space of incompressible;deformations and show that the theory of the quantum Hall edge so;obtained is a generalization of a chiral conformal field theory. In our;theory, a quasiparticle tunneling operator is found to be a;single-valued function of tunneling point coordinates, and its phase;depends on the topology determined by the positions of Ohmic contacts.;We describe strong coupling of the edge states to Ohmic contacts and the;resulting quasiparticle current through the interferometer with the help;of a master equation. We find that the coherent contribution to the;average quasiparticle current through MZ interferometers does not vanish;after summation over quasiparticle degrees of freedom. However, it;acquires oscillations with the electronic period, in agreement with the;Byers-Yang theorem. Importantly, our theory does not rely on any ad hoc;constructions, such as Klein factors, etc. When the magnetic flux;through an FP interferometer is varied with a modulation gate, current;oscillations have the quasiparticle periodicity, thus allowing for;spectroscopy of quantum Hall edge states. DOI:;10.1103/PhysRevB.86.245105;2;0;0;0;2;1098-0121;WOS:000312065400002;;;J;Li, Chun-Mei;Luo, Hu-Bin;Hu, Qing-Miao;Yang, Rui;Johansson, Borje;Vitos, Levente;Role of magnetic and atomic ordering in the martensitic transformation;of Ni-Mn-In from a first-principles study;PHYSICAL REVIEW B;86;21;214205;10.1103/PhysRevB.86.214205;DEC 10 2012;2012;The composition-dependent lattice parameters, crystal structure, elastic;properties, magnetic moment, and electronic structure of Ni2Mn1+xIn1-x;(0 <= x <= 0.6) are studied by using first-principles calculations. It;is shown that the martensitic phase transition (MPT) from cubic L2(1) to;tetragonal L1(0) accompanies theMn(Mn)-Mn-In ferromagnetic (FM) to;antiferromagnetic (AFM) transition, at around the critical composition x;= 0.32, in agreement with the experimental measurement. The Mn-In atomic;disorder leads to decreasing stability of the martensite relative to the;austenite, which depresses the MPT. The shear elastic constant C' of the;parent phase first decreases slightly with increasing x and then remains;almost unchanged above x = 0.32, indicating C' alone cannot account for;the increase of the MPT temperature with x. The total magnetic moments;for the L2(1) phase are in good agreement with those determined by;experiments, whereas for the L1(0) phase they are slightly larger than;the experimental data due to the possibleMn-In atomic disorder in the;sample. The calculated density of states demonstrate that the covalent;bonding between the minority spin states of Ni and In plays an important;role in both the magnetic and structural stability. DOI:;10.1103/PhysRevB.86.214205;Hu, Qing-Miao/D-3345-2014;5;0;0;0;5;1098-0121;WOS:000312063700003;;;J;Liu, Bin;Seko, Atsuto;Tanaka, Isao;Cluster expansion with controlled accuracy for the MgO/ZnO pseudobinary;system via first-principles calculations;PHYSICAL REVIEW B;86;24;245202;10.1103/PhysRevB.86.245202;DEC 10 2012;2012;Using the cluster analysis of the structure population (CASP) method,;error of cluster expansion (CE) can be controlled. Combining the CASP-CE;with a systematic set of first-principles total energies, a model;wide-gap pseudobinary system with simple crystal structures MgO-ZnO is;revisited. Ground-state structures are exhaustively searched for both;rocksalt and wurtzite structures. A few structures as yet unreported are;found. The vibrational contribution to the Gibbs free-energy is;evaluated by first-principles phonon calculations within the;quasiharmonic approximation. Monte Carlo simulations are then made to;compute grand potentials of two structures using the thermodynamic;integration. DOI: 10.1103/PhysRevB.86.245202;Tanaka, Isao/B-5941-2009; Liu, Bin/N-9955-2014;1;1;0;0;1;1098-0121;WOS:000312065400005;;;J;Liu, Pan;Santana, Juan A. Colon;Dai, Qilin;Wang, Xianjie;Dowben, Peter A.;Tang, Jinke;Sign of the superexchange coupling between next-nearest neighbors in EuO;PHYSICAL REVIEW B;86;22;224408;10.1103/PhysRevB.86.224408;DEC 10 2012;2012;The sign of the superexchange coupling J(2) between next-nearest;neighboring Eu2+ magnetic moments in EuO is a matter subject to debate.;We have obtained evidence that this coupling is of antiferromagnetic;nature (J(2) < 0). EuO thin films grown at different temperatures;suggest that lattice expansion results in enhancement of T-C as clearly;observed in stoichiometric EuO films grown on CaF2 substrates. Resonant;photoemission spectroscopy provides compelling evidence of strong;hybridization between O 2p and Eu 5d6s6p weighted bands, suggesting that;strong superexchange may be mediated by oxygen, thus consistent with the;observed antiferromagnetic behavior between the next-nearest neighboring;Eu atoms via nearest neighbor oxygen in EuO.;Dai, Qilin/K-1437-2013;2;0;0;0;2;1098-0121;WOS:000312064300003;;;J;Luisier, Mathieu;Atomistic modeling of anharmonic phonon-phonon scattering in nanowires;PHYSICAL REVIEW B;86;24;245407;10.1103/PhysRevB.86.245407;DEC 10 2012;2012;Phonon transport is simulated in ultrascaled nanowires in the presence;of anharmonic phonon-phonon scattering. A modified valence-force-field;model containing four types of bond deformation is employed to describe;the phonon band structure. The inclusion of five additional bond;deformation potentials allows us to account for anharmonic effects.;Phonon-phonon interactions are introduced through inelastic scattering;self-energies solved in the self-consistent Born approximation in the;nonequilibrium Green's function formalism. After calibrating the model;with experimental data, the thermal current, resistance, and;conductivity of < 100 >-, < 110 >-, and < 111 >-oriented Si nanowires;with different lengths and temperatures are investigated in the presence;of anharmonic phonon-phonon scattering and compared to their ballistic;limit. It is found that all the simulated thermal currents exhibit a;peak at temperatures around 200 K if phonon scattering is turned on;while they monotonically increase when this effect is neglected.;Finally, phonon transport through Si-Ge-Si nanowires is considered. DOI:;10.1103/PhysRevB.86.245407;12;1;0;0;12;1098-0121;WOS:000312065400007;;;J;Nemirovskii, Sergey K.;Fluctuations of the vortex line density in turbulent flows of quantum;fluids;PHYSICAL REVIEW B;86;22;224505;10.1103/PhysRevB.86.224505;DEC 10 2012;2012;We present an analytical study of fluctuations of the vortex line;density (VLD) in turbulent flows of;quantum fluids. Two cases are considered. The first is the;counterflowing (Vinen) turbulence, where the vortex lines are;disordered, and the evolution of quantity L(t) obeys the Vinen equation.;The second case is the fluctuations of the VLD in a single vortex;bundle, which develops inside the domain of the concentrated;normal-fluid vorticity. The dynamics of the vortex bundle is described;by the Hall-Vinen-Bekarevich-Khalatnikov (HVBK) equations. The latter;case is of special interest, because the set of the quantum vortex;bundles is believed to mimic classical hydrodynamic turbulence. In;steady states the VLD is related to the normal velocity as L = (rho;gamma/rho(s))(2)upsilon(2)(n) for the Vinen case. In the vortex bundle;case, which appears inside the domain of a concentrated vorticity of;normal fluid, the stationary quantity L can be found from the matching;of velocities and is described by L = vertical bar del x v(n)vertical;bar/kappa. In nonstationary situations, and particularly in the;fluctuating turbulent flow, there is a retardation between the;instantaneous value of the normal velocity and the quantity L. This;retardation tends to decrease in accordance with the inner dynamics,;which has a relaxation character. In both cases, the relaxation dynamics;of the VLD is related to fluctuations of the relative velocity. However,;for the Vinen case the rate of temporal change for L(t) is directly;dependent upon delta v(ns), whereas for HVBK dynamics it depends on del;x delta v(ns). Therefore, for the disordered case the spectrum coincides with the spectrum omega(-5/3). In the;case of the bundle arrangement, the spectrum of the VLD varies (at;different temperatures) from omega(1/3) to omega(-5/3) dependencies.;This conclusion may serve as a basis for the experimental determination;of what kind of turbulence is implemented in different types of;generation.;0;0;0;0;0;1098-0121;WOS:000312064300005;;;J;Peelaers, H.;Van de Walle, C. G.;Effects of strain on band structure and effective masses in MoS2;PHYSICAL REVIEW B;86;24;241401;10.1103/PhysRevB.86.241401;DEC 10 2012;2012;We use hybrid density functional theory to explore the band structure;and effective masses of MoS2, and the effects of strain on the;electronic properties. Strain allows engineering the magnitude as well;as the nature (direct versus indirect) of the band gap. Deformation;potentials that quantify these changes are reported. The calculations;also allow us to investigate the transition in band structure from bulk;to monolayer, and the nature and degeneracy of conduction-band valleys.;Investigations of strain effects on effective masses reveal that small;uniaxial stresses can lead to large changes in the hole effective mass.;DOI: 10.1103/PhysRevB.86.241401;Van de Walle, Chris/A-6623-2012;Van de Walle, Chris/0000-0002-4212-5990;56;3;0;0;56;1098-0121;WOS:000312065400001;;;J;Phien, Ho N.;Vidal, Guifre;McCulloch, Ian P.;Infinite boundary conditions for matrix product state calculations;PHYSICAL REVIEW B;86;24;245107;10.1103/PhysRevB.86.245107;DEC 10 2012;2012;We propose a formalism to study dynamical properties of a quantum;many-body system in the thermodynamic limit by studying a finite system;with "infinite boundary conditions" where both finite-size effects and;boundary effects have been eliminated. For one-dimensional systems,;infinite boundary conditions are obtained by attaching two boundary;sites to a finite system, where each of these two sites effectively;represents a semi-infinite extension of the system. One can then use;standard finite-size matrix product state techniques to study a region;of the system while avoiding many of the complications normally;associated with finite-size calculations such as boundary Friedel;oscillations. We illustrate the technique with an example of time;evolution of a local perturbation applied to an infinite;(translationally invariant) ground state, and use this to calculate the;spectral function of the S = 1 Heisenberg spin chain. This approach is;more efficient and more accurate than conventional simulations based on;finite-size matrix product state and density-matrix;renormalization-group approaches. DOI: 10.1103/PhysRevB.86.245107;McCulloch, Ian/A-6037-2011;McCulloch, Ian/0000-0002-8983-6327;6;0;0;0;6;1098-0121;WOS:000312065400004;;;J;Polyakov, O. P.;Corbetta, M.;Stepanyuk, O. V.;Oka, H.;Saletsky, A. M.;Sander, D.;Stepanyuk, V. S.;Kirschner, J.;Spin-dependent Smoluchowski effect;PHYSICAL REVIEW B;86;23;235409;10.1103/PhysRevB.86.235409;DEC 10 2012;2012;Electron charge near atomically sharp corrugations at the surfaces of a;solid tends to spill out and smoothen the abrupt variation of the;positions of the positively charged atomic nuclei. The reason is that;electrons are much less localized than nuclei. This has been discussed;already some 70 years ago by Smoluchowski [R. Smoluchowski, Phys. Rev.;60, 661 (1941)], and the corresponding effect of charge redistribution;near surface corrugations bears his name. The Smoluchowski effect;focuses on the total electron charge density. It neglects that;electrons-in addition to charge-also carry a spin. We discuss;spin-dependent electron spill out and demonstrate in a combined;theoretical and experimental work that compelling consequences for;spin-polarization and spin-dependent transport arise at the edges of;magnetic nanostructures due to the spin-dependent Smoluchowski effect.;We find a variation of the tunnel magnetoresistance ratio of more than;20% on a length scale of a few atomic diameters.;3;0;0;0;3;1098-0121;WOS:000312064700006;;;J;Rajeswaran, B.;Khomskii, D. I.;Zvezdin, A. K.;Rao, C. N. R.;Sundaresan, A.;Field-induced polar order at the Neel temperature of chromium in;rare-earth orthochromites: Interplay of rare-earth and Cr magnetism;PHYSICAL REVIEW B;86;21;214409;10.1103/PhysRevB.86.214409;DEC 10 2012;2012;We report field-induced switchable polarization (P similar to 0.2-0.8 mu;C/cm(2)) below the Neel temperature of chromium (T-N(Cr)) in weakly;ferromagnetic rare-earth orthochromites, RCrO3 (R = rare earth) but only;when the rare-earth ion is magnetic. Intriguingly, the polarization in;ErCrO3 (T-C = 133 K) disappears at a spin-reorientation (Morin);transition (T-SR similar to 22 K) below which the weak ferromagnetism;associated with the Cr sublattice also disappears, demonstrating the;crucial role of weak ferromagnetism in inducing the polar order.;Further, the polarization (P) is strongly influenced by an applied;magnetic field, indicating a strong magnetoelectric effect. We suggest;that the polar order occurs in RCrO3, due to the combined effect of the;poling field that breaks the symmetry and the exchange field on the R;ion from the Cr sublattice that stabilizes the polar state. We propose;that a similar mechanism could work in the isostructural rare-earth;orthoferrites RFeO3 as well. DOI: 10.1103/PhysRevB.86.214409;Athinarayanan, Sundaresan/B-2176-2010; Zvezdin, Anatoly/K-2072-2013;24;1;0;0;24;1098-0121;WOS:000312063700006;;;J;Rhim, Jun-Won;Park, Kwon;Self-similar occurrence of massless Dirac particles in graphene under a;magnetic field;PHYSICAL REVIEW B;86;23;235411;10.1103/PhysRevB.86.235411;DEC 10 2012;2012;Intricate interplay between the periodicity of the lattice structure and;that of the cyclotron motion gives rise to a well-known self-similar;fractal structure of the energy eigenvalue, known as the Hofstadter;butterfly, for an electron moving in lattice under magnetic field.;Connected with the n = 0 Landau level, the central band of the;Hofstadter butterfly is especially interesting in the honeycomb lattice.;While the entire Hofstadter butterfly can be in principle obtained by;solving Harper's equations numerically, the weak-field limit, most;relevant for experiment, is intractable owing to the fact that the size;of the Hamiltonian matrix, which needs to be diagonalized, diverges. In;this paper, we develop an effective Hamiltonian method that can be used;to provide an accurate analytic description of the central Hofstadter;band in the weak-field regime. One of the most important discoveries;obtained in this work is that massless Dirac particles always exist;inside the central Hofstadter band no matter how small the magnetic flux;may become. In other words, with its bandwidth broadened by the lattice;effect, the n = 0 Landau level contains massless Dirac particles within;itself. In fact, by carefully analyzing the self-similar recursive;pattern of the central Hofstadter band, we conclude that massless Dirac;particles should occur under arbitrary magnetic field. As a corollary,;the central Hofstadter band also contains a self-similar structure of;recursive Landau levels associated with such massless Dirac particles.;To assess the experimental feasibility of observing massless Dirac;particles inside the central Hofstadter band, we compute the width of;the central Hofstadter band as a function of magnetic field in the;weak-field regime.;5;0;0;0;5;1098-0121;WOS:000312064700008;;;J;Robinson, Zachary R.;Tyagi, Parul;Mowll, Tyler R.;Ventrice, Carl A., Jr.;Hannon, James B.;Argon-assisted growth of epitaxial graphene on Cu(111);PHYSICAL REVIEW B;86;23;235413;10.1103/PhysRevB.86.235413;DEC 10 2012;2012;The growth of graphene by catalytic decomposition of ethylene on Cu(111);in an ultrahigh vacuum system was investigated with low-energy electron;diffraction, low-energy electron microscopy, and atomic force;microscopy. Attempts to form a graphene overlayer using ethylene at;pressures as high as 10 mTorr and substrate temperatures as high as 900;degrees C resulted in almost no graphene growth. By using an argon;overpressure, the growth of epitaxial graphene on Cu(111) was achieved.;The suppression of graphene growth without the use of an argon;overpressure is attributed to Cu sublimation at elevated temperatures.;During the initial stages of growth, a random distribution of rounded;graphene islands is observed. The predominant rotational orientation of;the islands is within +/- 1 degrees of the Cu(111) substrate lattice.;Robinson, Zachary/B-5128-2013;11;1;0;0;11;1098-0121;WOS:000312064700010;;;J;Sheps, Tatyana;Brocious, Jordan;Corso, Brad L.;Guel, O. Tolga;Whitmore, Desire;Durkaya, Goeksel;Potma, Eric O.;Collins, Philip G.;Four-wave mixing microscopy with electronic contrast of individual;carbon nanotubes;PHYSICAL REVIEW B;86;23;235412;10.1103/PhysRevB.86.235412;DEC 10 2012;2012;We review an extensive study of the factors that influence the intensity;of coherent, nonlinear four-wave mixing (FWM) in carbon nanotubes, with;particular attention to the variability inherent to single-walled carbon;nanotubes (SWNTs). Through a combination of spatial imaging and;spectroscopy applied to hundreds of individual SWNTs in optoelectronic;devices, the FWM response is shown to vary systematically with;free-carrier concentration. This dependence is manifested both in the;intrinsic SWNT band structure and also by extrinsic and environmental;effects. We demonstrate the sensitivity of the SWNT FWM signal by;investigating SWNTs transferred from one substrate to another, before;and after the introduction of chemical damage, and with chemical and;electrostatic doping. The results demonstrate FWM as a sensitive;technique for interrogating SWNT optoelectronic properties.;3;0;0;0;3;1098-0121;WOS:000312064700009;;;J;Tian, Zhiting;Esfarjani, Keivan;Chen, Gang;Enhancing phonon transmission across a Si/Ge interface by atomic;roughness: First-principles study with the Green's function method;PHYSICAL REVIEW B;86;23;235304;10.1103/PhysRevB.86.235304;DEC 10 2012;2012;Knowledge on phonon transmittance as a function of phonon frequency and;incidence angle at interfaces is vital for multiscale modeling of heat;transport in nanostructured materials. Although thermal conductivity;reduction in nanostructured materials can usually be described by phonon;scattering due to interface roughness, we show how a Green's function;method in conjunction with the Landauer formalism suggests that;interface roughness induced by atomic mixing can increase phonon;transmission and interfacial thermal conductance. This is an attempt to;incorporate first-principles force constants derived from ab initio;density-functional theory (DFT) into Green's function calculation for;infinitely large three-dimensional crystal structure. We also;demonstrate the importance of accurate force constants by comparing the;phonon transmission and thermal conductance using force constants;obtained from semiempirical Stillinger-Weber potential and;first-principles DFT calculations.;Chen, Gang/J-1325-2014;Chen, Gang/0000-0002-3968-8530;14;0;0;0;14;1098-0121;WOS:000312064700004;;;J;Uhm, Sang Hoon;Yeom, Han Woong;Electron-phonon interaction of one-dimensional and two-dimensional;surface states in indium adlayers on the Si(111) surface;PHYSICAL REVIEW B;86;24;245408;10.1103/PhysRevB.86.245408;DEC 10 2012;2012;We performed angle-resolved photoelectron spectroscopy measurements on;one-and two-dimensional (1D and 2D) metallic surface states in indium;layers on the Si(111) surface as a function of temperature. The;temperature dependence of surface-state energy widths was used to;estimate the electron-phonon coupling constant lambda. The 2D metallic;surface states of the root 7 x root 3-In layer above one monolayer;exhibit lambda = 0.8 similar to 1.0, similar to the value of bulk indium;0.9. This is discussed in the light of a recent structure model with a;double indium layer and the relatively high superconducting transition;temperature of this surface. On the other hand, the lambda's of two 1D;surface states of the 4 x 1-In surface with one monolayer of indium are;much higher than that of root 7 x root 3-In, reaching 1.8, which is the;largest ever reported for a surface state. The origin of the enhanced;electron-phonon coupling and its relationship to the charge-density-wave;phase transition of this surface are discussed. DOI:;10.1103/PhysRevB.86.245408;1;0;0;0;1;1098-0121;WOS:000312065400008;;;J;Vekilova, O. Yu.;Simak, S. I.;Ponomareva, A. V.;Abrikosov, I. A.;Influence of Ni on the lattice stability of Fe-Ni alloys at multimegabar;pressures;PHYSICAL REVIEW B;86;22;224107;10.1103/PhysRevB.86.224107;DEC 10 2012;2012;The lattice stability trends of the primary candidate for Earth's core;material, the Fe-Ni alloy, were examined from first principles. We;employed the exact muffin-tin orbital method (EMTO) combined with the;coherent potential approximation (CPA) for the treatment of alloying;effects. It was revealed that high pressure reverses the trend in the;relative stabilities of the body-centered cubic (bcc), face-centered;cubic (fcc), and hexagonal close-packed (hcp) phases observed at ambient;conditions. In the low pressure region the increase of Ni concentration;in the Fe-Ni alloy enhances the bcc phase destabilization relative to;the more close-packed fcc and hcp phases. However, at 300 GPa (Earth's;core pressure), the effect of Ni addition is opposite. The reverse of;the trend is associated with the suppression of the ferromagnetism of Fe;when going from ambient pressures to pressure conditions corresponding;to those of Earth's core. The first-principles results are explained in;the framework of the canonical band model.;0;0;0;0;0;1098-0121;WOS:000312064300001;;;J;Wang, Kang;Light wave states in quasiperiodic metallic structures;PHYSICAL REVIEW B;86;23;235110;10.1103/PhysRevB.86.235110;DEC 10 2012;2012;We investigate the light wave states in the octagonal and decagonal;quasiperiodic metallic structures by considering their respective;approximants at different orders. The mechanisms underlying the light;wave behaviors are studied in relation to various structure parameters;and configurations. We show that the formation of the first passbands,;that delimit the photonic band gaps and determine the plasma gaps,;involves only the lowest frequency resonance modes inside the fat tiles,;and that light localization occurs due to resonances in high symmetry;local centers as well as in the fragments of such centers, formed by the;skinny tiles. The structure filling rate affects the localized state;frequencies relative to the first passbands, as well as the plasma;frequency levels, by modulating the frequency levels of the resonance;modes and the widths of the passbands. The results of this study can be;generalized to other metallic quasiperiodic and related structures.;1;0;0;0;1;1098-0121;WOS:000312064700001;;;J;Singh, Shashi B.;Yang, L. T.;Wang, Y. F.;Shao, Y. C.;Chiang, C. W.;Chiou, J. W.;Lin, K. T.;Chen, S. C.;Wang, B. Y.;Chuang, C. H.;Ling, D. C.;Pong, W. F.;Tsai, M. H.;Tsai, H. M.;Pao, C. W.;Shiu, H. W.;Chen, C. H.;Lin, H.-J.;Lee, J. F.;Yamane, H.;Kosugi, N.;Correlation between p-type conductivity and electronic structure of;Cr-deficient CuCr1-xO2 (x = 0-0.1);PHYSICAL REVIEW B;86;24;241103;10.1103/PhysRevB.86.241103;DEC 7 2012;2012;The correlation between the p-type hole conduction and the electronic;structures of Cr-deficient CuCr1-xO2 (x = 0-0.1) compounds was;investigated using O K-, Cu, and Cr L-3,L-2-edge x-ray absorption;near-edge structure (XANES), scanning photoelectron microscopy, and;x-ray emission spectroscopy measurements. XANES spectra reveal a gradual;increase in the Cu valence from Cu1+ to Cu2+ with increasing Cr;deficiency x, whereas, the valence of Cr remains constant as Cr3+. These;results indicate that the p-type conductivity in the CuCr1-xO2 samples;is enhanced by a Cu1+-O-Cu2+ rather than a Cr3+-Cr4+ or direct;Cu1+-O-Cu2+ holemechanism. Remarkable Cr-deficiency-induced changes in;the densities of Cu 3d, Cu 3d-O 2p, andO2p states at or near the;valence-band maximum or the Fermi level were also observed. In addition,;a crossover of conductionmechanism from thermally activated (TA) hopping;to a combination of TA and Mott's three-dimensional variable range;hopping occurs around 250 K.;Yamane, Hiroyuki/K-5297-2013;0;0;0;0;0;1098-0121;WOS:000312025700004;;;J;Bossy, Jacques;Ollivier, Jacques;Schober, Helmut;Glyde, H. R.;Excitations of amorphous solid helium;PHYSICAL REVIEW B;86;22;224503;10.1103/PhysRevB.86.224503;DEC 7 2012;2012;We present neutron scattering measurements of the dynamic structure;factor S(Q,omega) of amorphous solid helium confined in 47-angstrom pore;diameter MCM-41 at pressure 48.6 bars. At low temperature T = 0.05 K, we;observe S(Q,omega) of the confined quantum amorphous solid plus the bulk;polycrystalline solid between the MCM-41 powder grains. No liquidlike;phonon-roton modes, other sharply defined modes at low energy (omega <;1.0 meV), or modes unique to a quantum amorphous solid that might;suggest superflow are observed. Rather, the S(Q, omega) of confined;amorphous and bulk polycrystalline solid appear to be very similar. At;higher temperature (T > 1 K), the amorphous solid in the MCM-41 pores;melts to a liquid which has a broad S(Q,omega) peaked near omega similar;or equal to 0, characteristic of normal liquid He-4 under pressure.;Expressions for the S(Q,omega) of amorphous and polycrystalline solid;helium are presented and compared. In previous measurements of liquid;He-4 confined in MCM-41 at lower pressure, the intensity in the liquid;roton mode decreases with increasing pressure until the roton vanishes;at the solidification pressure (38 bars), consistent with no roton in;the solid observed here.;2;0;0;0;2;1098-0121;WOS:000321857700002;;;J;Joly, Yves;Collins, S. P.;Grenier, Stephane;Tolentino, Helio C. N.;De Santis, Maurizio;Birefringence and polarization rotation in resonant x-ray diffraction;PHYSICAL REVIEW B;86;22;220101;10.1103/PhysRevB.86.220101;DEC 7 2012;2012;Birefringence can contribute to x-ray resonant Bragg diffraction and;likely explains recent novel data collected on CuO. We prove these;statements using ab initio simulations which reproduce the experimental;polarization effects quantitatively. We show that an unrotated;polarization signal-ruled out in resonant magnetic scattering within the;electric dipole approximation-arises from the dynamic change in;polarization inside the material. We are able to reproduce all the;related behavior with circular polarization and its dependence on the;angle of rotation about the Bragg wave vector. We provide a tool to;disentangle the various physical origins of the polarization rotation,;providing a more complete understanding of the illuminated material.;TOLENTINO, HELIO/J-1894-2014; Grenier, Stephane/N-1986-2014;TOLENTINO, HELIO/0000-0003-4032-5988; Grenier,;Stephane/0000-0001-8370-7375;12;1;0;0;12;1098-0121;WOS:000321857700001;;;J;Kovacs, Istvan A.;Igloi, Ferenc;Cardy, John;Corner contribution to percolation cluster numbers;PHYSICAL REVIEW B;86;21;214203;10.1103/PhysRevB.86.214203;DEC 7 2012;2012;We study the number of clusters in two-dimensional (2d) critical;percolation, N-Gamma, which intersect a given subset of bonds, Gamma. In;the simplest case, when Gamma is a simple closed curve, N-Gamma is;related to the entanglement entropy of the critical diluted quantum;Ising model, in which Gamma represents the boundary between the;subsystem and the environment. Due to corners in Gamma there are;universal logarithmic corrections to N-Gamma, which are calculated in;the continuum limit through conformal in-variance, making use of the;Cardy-Peschel formula. The exact formulas are confirmed by large scale;Monte Carlo simulations. These results are extended to anisotropic;percolation where they confirm a result of discrete holomorphicity.;Kovacs, Istvan/A-8447-2013;5;0;0;0;5;1098-0121;WOS:000312023100003;;;J;Komsa, Hannu-Pekka;Krasheninnikov, Arkady V.;Effects of confinement and environment on the electronic structure and;exciton binding energy of MoS2 from first principles;PHYSICAL REVIEW B;86;24;241201;10.1103/PhysRevB.86.241201;DEC 7 2012;2012;Using GW first-principles calculations for few-layer and bulk MoS2, we;study the effects of quantum confinement on the electronic structure of;this layered material. By solving the Bethe-Salpeter equation, we also;evaluate the exciton energy in these systems. Our results are in;excellent agreement with the available experimental data. Exciton;binding energy is found to dramatically increase from 0.1 eV in the bulk;to 1.1 eV in the monolayer. The fundamental band gap increases as well,;so that the optical transition energies remain nearly constant. We also;demonstrate that environments with different dielectric constants have a;profound effect on the electronic structure of the monolayer. Our;results can be used for engineering the electronic properties of MoS2;and other transition-metal dichalcogenides and may explain the;experimentally observed variations in the mobility of monolayer MoS2.;Krasheninnikov, Arkady/M-3020-2013;Krasheninnikov, Arkady/0000-0003-0074-7588;50;4;0;0;50;1098-0121;WOS:000312025700003;;;J;Ciuchi, S.;Fratini, S.;Electronic transport and quantum localization effects in organic;semiconductors;PHYSICAL REVIEW B;86;24;245201;10.1103/PhysRevB.86.245201;DEC 7 2012;2012;We explore the charge transport mechanism in organic semiconductors;based on a model that accounts for the thermal intermolecular disorder;at work in pure crystalline compounds, as well as extrinsic sources of;disorder that are present in current experimental devices. Starting from;the Kubo formula, we describe a theoretical framework that relates the;time-dependent quantum dynamics of electrons to the frequency-dependent;conductivity. The electron mobility is then calculated through a;relaxation time approximation that accounts for quantum localization;corrections beyond Boltzmann theory, and allows us to efficiently;address the interplay between highly conducting states in the band range;and localized states induced by disorder in the band tails. The;emergence of a "transient localization" phenomenon is shown to be a;general feature of organic semiconductors that is compatible with the;bandlike temperature dependence of the mobility observed in pure;compounds. Carrier trapping by extrinsic disorder causes a crossover to;a thermally activated behavior at low temperature, which is;progressively suppressed upon increasing the carrier concentration, as;is commonly observed in organic field-effect transistors. Our results;establish a direct connection between the localization of the electronic;states and their conductive properties, formalizing phenomenological;considerations that are commonly used in the literature.;Fratini, Simone/A-4692-2009;Fratini, Simone/0000-0002-4750-3241;4;0;0;0;4;1098-0121;WOS:000312025700001;;;J;Huang, Bing;Lee, Hoonkyung;Defect and impurity properties of hexagonal boron nitride: A;first-principles calculation;PHYSICAL REVIEW B;86;24;245406;10.1103/PhysRevB.86.245406;DEC 7 2012;2012;In this paper, we have systematically studied the structural and;electronic properties of vacancy defects and carbon impurity in;hexagonal boron nitride (h-BN) by using both normal GGA calculations and;advanced hybrid functional calculations. Our calculations show that the;defect configurations and the local bond lengths around defects are;sensitive to their charge states. The highest negative defect charge;states are largely determined by the nearly-free-electron state at the;conduction band minimum of BN. Generally, the in-gap defect levels;obtained from hybrid functional calculations are much deeper than those;obtained from normal GGA calculations. The formation energies of neutral;defects calculated by hybrid functional and GGA are close to each other,;but the defect transition energy levels are quite different between GGA;and hybrid functional calculations. Finally, we show that the charged;defect configurations as well as the transition energy levels exhibit;interesting layer effects.;Huang, Bing/D-8941-2011;Huang, Bing/0000-0001-6735-4637;8;0;0;0;8;1098-0121;WOS:000312025700002;;;J;Maassen, T.;Vera-Marun, I. J.;Guimaraes, M. H. D.;van Wees, B. J.;Contact-induced spin relaxation in Hanle spin precession measurements;PHYSICAL REVIEW B;86;23;235408;10.1103/PhysRevB.86.235408;DEC 7 2012;2012;In the field of spintronics the "conductivity mismatch" problem remains;an important issue. Here the difference between the resistance of;ferromagnetic electrodes and a (high resistive) transport channel causes;injected spins to be backscattered into the leads and to lose their spin;information. We study the effect of the resulting contact-induced spin;relaxation on spin transport, in particular on nonlocal Hanle precession;measurements. As the Hanle line shape is modified by the contact-induced;effects, the fits to Hanle curves can result in incorrectly determined;spin transport properties of the transport channel. We quantify this;effect that mimics a decrease of the spin relaxation time of the channel;reaching more than four orders of magnitude and a minor increase of the;diffusion coefficient by less than a factor of two. Then we compare the;results to spin transport measurements on graphene from the literature.;We further point out guidelines for a Hanle precession fitting procedure;that allows the reliable extraction of spin transport properties from;measurements.;Vera-Marun, Ivan/A-4704-2013; Guimaraes, Marcos/K-1940-2013;Vera-Marun, Ivan/0000-0002-6347-580X;;14;1;0;0;14;1098-0121;WOS:000312024900002;;;J;Murch, K. W.;Ginossar, E.;Weber, S. J.;Vijay, R.;Girvin, S. M.;Siddiqi, I.;Quantum state sensitivity of an autoresonant superconducting circuit;PHYSICAL REVIEW B;86;22;220503;10.1103/PhysRevB.86.220503;DEC 7 2012;2012;When a frequency chirped excitation is applied to a classical high-Q;nonlinear oscillator, its motion becomes dynamically synchronized to the;drive and large oscillation amplitude is observed, provided the drive;strength exceeds the critical threshold for autoresonance. We;demonstrate that when such an oscillator is strongly coupled to a;quantized superconducting qubit, both the effective nonlinearity and the;threshold become a nontrivial function of the qubit-oscillator detuning.;Moreover, the autoresonant threshold is dependent on the quantum state;of the qubit and may be used to realize a high-fidelity, latching;readout whose speed is not limited by the oscillator Q.;1;0;0;0;1;1098-0121;WOS:000312024300001;;;J;Ondrejkovic, P.;Kempa, M.;Vysochanskii, Y.;Saint-Gregoire, P.;Bourges, P.;Rushchanskii, K. Z.;Hlinka, J.;Neutron scattering study of ferroelectric Sn2P2S6 under pressure;PHYSICAL REVIEW B;86;22;224106;10.1103/PhysRevB.86.224106;DEC 7 2012;2012;Ferroelectric phase transition in the semiconductor Sn2P2S6 single;crystal has been studied by means of neutron scattering in the;pressure-temperature range adjacent to the anticipated tricritical;Lifshitz point (p approximate to 0.18 GPa, T approximate to 296 K). The;observations reveal a direct ferroelectric-paraelectric phase transition;in the whole investigated pressure range (0.18-0.6 GPa). These results;are in a clear disagreement with phase diagrams assumed in numerous;earlier works, according to which a hypothetical intermediate;incommensurate phase extends over several or even tens of degrees in the;0.5 GPa pressure range. Temperature dependence of the anisotropic;quasielastic diffuse scattering suggests that polarization fluctuations;present above T-C are strongly reduced in the ordered phase. Still, the;temperature dependence of the ((2) over bar 00) Bragg reflection;intensity at p = 0.18 GPa can be remarkably well modeled assuming the;order-parameter amplitude growth according to the power law with;logarithmic corrections predicted for a uniaxial ferroelectric;transition at the tricritical Lifshitz point.;Hlinka, Jiri/G-5985-2014; Ondrejkovic, Petr/G-6654-2014; Kempa, Martin/G-8830-2014;1;0;0;0;1;1098-0121;WOS:000312024300002;;;J;Svindrych, Z.;Janu, Z.;Kozlowski, A.;Honig, J. M.;Low-temperature magnetic anomaly in magnetite;PHYSICAL REVIEW B;86;21;214406;10.1103/PhysRevB.86.214406;DEC 7 2012;2012;We have studied experimentally the responses of high-quality single;crystals of stoichiometric synthetic magnetite to applied weak dc and ac;magnetic fields in the range of 6-60 K, far below the Verwey transition.;The results can be compared to so-called magnetic after effects (MAE);measurements, which are the most extensive magnetic measurements of;magnetite at these temperatures. We present a novel point of view on the;relaxation phenomena encountered at these temperatures-the;low-temperature anomaly, addressing the striking difference between the;results of conventional ac susceptibility measurements and those;accompanying MAE measurements, i.e., periodic excitations with strong;magnetic pulses. We also draw a connection between this anomaly and the;so-called glasslike transition, and discuss possible mechanisms;responsible for these effects.;janu, zdenek/G-9113-2014;0;0;0;0;0;1098-0121;WOS:000312023100001;;;J;Tarantini, C.;Lee, S.;Kametani, F.;Jiang, J.;Weiss, J. D.;Jaroszynski, J.;Folkman, C. M.;Hellstrom, E. E.;Eom, C. B.;Larbalestier, D. C.;Artificial and self-assembled vortex-pinning centers in superconducting;Ba(Fe1-xCox)(2)As-2 thin films as a route to obtaining very high;critical-current densities;PHYSICAL REVIEW B;86;21;214504;10.1103/PhysRevB.86.214504;DEC 7 2012;2012;We report on the superior vortex pinning of single-and multilayer;Ba(Fe1-xCox)(2)As-2 thin films with self-assembled c-axis and;artificially introduced ab-plane pins. Ba(Fe1-xCox)(2)As-2 can accept a;very high density of pins (15-20 vol %) without T-c suppression. The;matching field is greater than 12 T, producing a significant enhancement;of the critical current density J(c), an almost isotropic J(c) (theta,;20 T) > 10(5) A/cm(2), and global pinning force density F-p of similar;to 50 GN/m(3). This scenario strongly differs from the high-temperature;superconducting cuprates where the addition of pins without Tc;suppression is limited to 2-4 vol %, leading to small H-Irr enhancements;and improved J(c) only below 3-5 T.;Lee, Sanghan/C-8876-2012; Eom, Chang-Beom/I-5567-2014;7;2;0;0;7;1098-0121;WOS:000312023100002;;;J;Xia, Junchao;Carter, Emily A.;Density-decomposed orbital-free density functional theory for covalently;bonded molecules and materials;PHYSICAL REVIEW B;86;23;235109;10.1103/PhysRevB.86.235109;DEC 7 2012;2012;We propose a density decomposition scheme using a Wang-Govind-Carter-;(WGC-) based kinetic energy density functional (KEDF) to accurately and;efficiently simulate various covalently bonded molecules and materials;within orbital-free (OF) density functional theory (DFT). By using a;local, density-dependent scale function, the total density is decomposed;into a highly localized density within covalent bond regions and a;flattened delocalized density, with the former described by semilocal;KEDFs and the latter treated by the WGC KEDF. The new model predicts;reasonable equilibrium volumes, bulk moduli, and phase-ordering energies;for various semiconductors compared to Kohn-Sham (KS) DFT benchmarks.;The decomposition formalism greatly improves numerical stability and;accuracy, while retaining computational speed compared to simply;applying the original WGC KEDF to covalent materials. The surface energy;of Si(100) and various diatomic molecule properties can be stably;calculated and also agree well with KSDFT benchmarks. This;linear-scaled, computationally efficient, density-partitioned,;multi-KEDF scheme opens the door to large-scale simulations of;molecules, semiconductors, and insulators with OFDFT.;7;0;0;0;7;1098-0121;WOS:000312024900001;;;J;Zhao, Yang;Gong, Shou-Shu;Wang, Yong-Jun;Su, Gang;Low-energy effective theory and two distinct critical phases in a;spin-1/2 frustrated three-leg spin tube;PHYSICAL REVIEW B;86;22;224406;10.1103/PhysRevB.86.224406;DEC 7 2012;2012;Motivated by the crystal structures of [(CuCl(2)tachH)(3)Cl]Cl-2 and;Ca3Co2O6, we develop a low-energy effective theory using the;bosonization technique for a spin-1/2 frustrated three-leg spin tube;with trigonal prism units in two limit cases. The features obtained with;the effective theory are numerically elucidated by the density matrix;renormalization group method. Three different quantum phases in the;ground state of the system, say, one gapped dimerized phase and two;distinct gapless phases, are identified, where the two gapless phases;are found to have the conformal central charge c = 1 and 3/2,;respectively. Spin gaps, spin and dimer correlation functions, and the;entanglement entropy are obtained. In particular, it is disclosed that;the critical phase with c = 3/2 is the consequence of spin frustrations,;which might belong to the SU(2)(k=2) Wess-Zumino-Witten-Novikov;universality class, and is induced by the twist term in the bosonized;Hamiltonian density.;Su, Gang/G-6092-2011;Su, Gang/0000-0002-8149-4342;1;1;0;0;1;1098-0121;WOS:000312024300003;;;J;Vucicevic, J.;Goerbig, M. O.;Milovanovic, M. V.;d-wave superconductivity on the honeycomb bilayer;PHYSICAL REVIEW B;86;21;214505;10.1103/PhysRevB.86.214505;DEC 7 2012;2012;We introduce a microscopic model on the honeycomb bilayer, which in the;small-momentum limit captures the usual (quadratic dispersion in the;kinetic term) description of bilayer graphene. In the limit of strong;interlayer hopping it reduces to an effective honeycomb monolayer model;with also third-neighbor hopping. We study interaction effects in this;effective model, focusing on possible superconducting instabilities. We;find d(x2-y2) superconductivity in the strong-coupling limit of an;effective tJ -model-like description that gradually transforms into d +;id time-reversal symmetry-breaking superconductivity at weak couplings.;In this limit the small-momentum order-parameter expansion is (k(x) +;ik(y) )(2) [or (k(x) + ik(y) )(2)] in both valleys of the effective;low-energy description. The relevance of our model and investigation for;the physics of bilayer graphene is also discussed.;5;0;0;0;5;1098-0121;WOS:000312023100004;;;J;Etzioni, Yoav;Horovitz, Baruch;Le Doussal, Pierre;Rings and Coulomb boxes in dissipative environments;PHYSICAL REVIEW B;86;23;235406;10.1103/PhysRevB.86.235406;DEC 6 2012;2012;We study a particle on a ring in the presence of a dissipative;Caldeira-Leggett environment and derive its response to a dc field. We;show how this non-equilibrium response is related to a flux averaged;equilibrium response. We find, through a two-loop renormalization group;analysis, that a large dissipation parameter eta flows to a fixed point;eta(R) = (h) over bar/(2 pi). We also reexamine the mapping of this;problem to that of the Coulomb box and show that the relaxation;resistance, of recent interest, is quantized for large eta. For finite;eta > eta(R) we find that a certain average of the relaxation resistance;is quantized. We propose a Coulomb-box experiment to measure a quantized;noise. DOI: 10.1103/PhysRevB.86.235406;1;0;0;0;1;1098-0121;WOS:000312024600004;;;J;Fontana, Yannik;Grzela, Grzegorz;Bakkers, Erik P. A. M.;Rivas, Jaime Gomez;Mapping the directional emission of quasi-two-dimensional photonic;crystals of semiconductor nanowires using Fourier microscopy;PHYSICAL REVIEW B;86;24;245303;10.1103/PhysRevB.86.245303;DEC 6 2012;2012;Controlling the dispersion and directionality of the emission of;nanosources is one of the major goals of nanophotonics research. This;control will allow the development of highly efficient nanosources even;at the single-photon level. One of the ways to achieve this goal is to;couple the emission to Bloch modes of periodic structures. Here, we;present the first measurements of the directional emission from nanowire;photonic crystals by using Fourier microscopy. With this technique, we;efficiently collect and resolve the directional emission of nanowires;within the numerical aperture of a microscope objective. The light;emission from a heterostructure grown in each nanowire is governed by;the photonic (Bloch) modes of the photonic crystal. We also demonstrate;that the directionality of the emission can be easily controlled by;infiltrating the photonic crystal with a high refractive index liquid.;This work opens new possibilities for the control of the emission of;sources in nanowires.;5;0;0;0;5;1098-0121;WOS:000312025300005;;;J;Fujimori, Shin-ichi;Ohkochi, Takuo;Okane, Tetsuo;Saitoh, Yuji;Fujimori, Atsushi;Yamagami, Hiroshi;Haga, Yoshinori;Yamamoto, Etsuji;Onuki, Yoshichika;Itinerant nature of U 5f states in uranium mononitride revealed by;angle-resolved photoelectron spectroscopy;PHYSICAL REVIEW B;86;23;235108;10.1103/PhysRevB.86.235108;DEC 6 2012;2012;The electronic structure of the antiferromagnet uranium nitride (UN) has;been studied by angle-resolved photoelectron spectroscopy (ARPES) using;soft x-rays (h nu = 420-520 eV). Strongly dispersive bands with large;contributions from the U 5f states were observed in ARPES spectra and;form Fermi surfaces. The band structure as well as the Fermi surfaces in;the paramagnetic phase are well explained by the band-structure;calculation treating all the U 5f electrons as being itinerant,;suggesting that an itinerant description of the U 5f states is;appropriate for this compound. On the other hand, changes in the;spectral function due to the antiferromagnetic transition were very;small. The shapes of the Fermi surfaces in a paramagnetic phase are;highly three-dimensional, and the nesting of Fermi surfaces is unlikely;as the origin of the magnetic ordering. DOI: 10.1103/PhysRevB.86.235108;2;0;0;0;2;1098-0121;WOS:000312024600002;;;J;Hosseini, Mir Vahid;Zareyan, Malek;Unconventional superconducting states of interlayer pairing in bilayer;and trilayer graphene;PHYSICAL REVIEW B;86;21;214503;10.1103/PhysRevB.86.214503;DEC 6 2012;2012;We develop a theory for interlayer pairing of chiral electrons in;graphene materials which results in an unconventional superconducting;state with an s-wave spin-triplet order parameter. In a pure bilayer;graphene, this superconductivity exhibits a gapless property with an;exotic effect of temperature-induced condensation causing an increase of;the pairing amplitude with increasing temperature. We find that a finite;doping opens a gap in the excitation spectrum and weakens this anomalous;temperature dependence. We further explore the possibility of realizing;a variety of pairing patterns with different topologies of the Fermi;surface, by tuning the difference in the doping of the two layers. In;trilayer graphene, the interlayer superconductivity is characterized by;a two-component order parameter which can be used to define two distinct;phases in which only one of the components is nonvanishing. For ABA;stacking the stable state is determined by a competition between these;two phases. On variation of the relative amplitude of the corresponding;coupling strength, a first-order phase transition can occur between;these two phases. For ABC stacking, we find that the two phases coexist;with the possibility of a similar phase transition, which turns out to;be second order. DOI: 10.1103/PhysRevB.86.214503;1;0;0;0;1;1098-0121;WOS:000312022700003;;;J;Kajihara, Y.;Inui, M.;Matsuda, K.;Nagao, T.;Ohara, K.;Density fluctuations at the continuous liquid-liquid phase transition in;chalcogen systems;PHYSICAL REVIEW B;86;21;214202;10.1103/PhysRevB.86.214202;DEC 6 2012;2012;We have carried out density and small-angle x-ray scattering;measurements on a typical liquid chalcogen (Te, Se) system to;investigate its continuous liquid-liquid phase transition. With;increasing temperature, the zero-wave-number structure factor S(0) shows;a maximum in the middle of the transition region where the density;exhibits negative thermal expansion. This is direct evidence of density;fluctuations induced by the liquid-liquid phase transition. When the;sample is pressurized to 100 MPa, the density and S(0) curves shift to;the lower temperature side, which is consistent with the shift of the;structural transition. We discuss the similarity between liquid Te and;liquid water from the viewpoint of fluctuations induced by the;liquid-liquid transition. DOI: 10.1103/PhysRevB.86.214202;1;0;0;0;1;1098-0121;WOS:000312022700001;;;J;Khuntia, P.;Strydom, A. M.;Wu, L. S.;Aronson, M. C.;Steglich, F.;Baenitz, M.;Field-tuned critical fluctuations in YFe2Al10: Evidence from;magnetization, Al-27 NMR, and NQR investigations;PHYSICAL REVIEW B;86;22;220401;10.1103/PhysRevB.86.220401;DEC 6 2012;2012;We report magnetization, specific heat, and NMR investigations on;YFe2Al10 over a wide range of temperature and magnetic field and zero;field (NQR) measurements. Magnetic susceptibility, specific heat, and;spin-lattice relaxation rate divided by T (1/T1T) follow a weak power;law (similar to T-0.4) temperature dependence, which is a signature of;the critical fluctuations of Fe moments. The value of the;Sommerfeld-Wilson ratio and the linear relation between 1/T1T and.;suggest the existence of ferromagnetic correlations in this system. No;magnetic ordering down to 50 mK in C-p(T)/T and the unusual T and H;scaling of the bulk and NMR data are associated with a magnetic;instability which drives the system to quantum criticality. The magnetic;properties of the system are tuned by field wherein ferromagnetic;fluctuations are suppressed and a crossover from quantum critical to;Fermi-liquid behavior is observed with increasing magnetic field.;Khuntia, Panchanan /E-4270-2010;5;1;0;0;5;1098-0121;WOS:000312023600001;;;J;Marsh, J.;Camley, R. E.;Two-wave mixing in nonlinear magnetization dynamics: A perturbation;expansion of the Landau-Lifshitz-Gilbert equation;PHYSICAL REVIEW B;86;22;224405;10.1103/PhysRevB.86.224405;DEC 6 2012;2012;Recent experiments have shown that two electromagnetic waves can be;mixed together by a nonlinear process in magnetic materials and can;produce a wide variety of output waves, each with a different frequency.;A perturbation expansion of the Landau-Lifschitz-Gilbert equation is;presented which provides qualitative and quantitative understanding of;this process. The results of this expansion are compared to both;experiment and direct numerical solutions.;1;0;0;0;1;1098-0121;WOS:000312023600004;;;J;Norris, Scott A.;Stress-induced patterns in ion-irradiated silicon: Model based on;anisotropic plastic flow;PHYSICAL REVIEW B;86;23;235405;10.1103/PhysRevB.86.235405;DEC 6 2012;2012;We present a model for the effect of stress on thin amorphous films that;develop atop ion-irradiated silicon, based on the mechanism of;ion-induced anisotropic plastic flow. Using only parameters directly;measured or known to high accuracy, the model exhibits remarkably good;agreement with the wavelengths of experimentally observed patterns and;agrees qualitatively with limited data on ripple propagation speed. The;predictions of the model are discussed in the context of other;mechanisms recently theorized to explain the wavelengths, including;extensive comparison with an alternate model of stress. DOI:;10.1103/PhysRevB.86.235405;14;0;0;0;14;1098-0121;WOS:000312024600003;;;J;Ostlin, A.;Chioncel, L.;Vitos, L.;One-particle spectral function and analytic continuation for many-body;implementation in the exact muffin-tin orbitals method;PHYSICAL REVIEW B;86;23;235107;10.1103/PhysRevB.86.235107;DEC 6 2012;2012;We investigate one of the most common analytic continuation techniques;in condensed matter physics, namely the Pade approximant. Aspects;concerning its implementation in the exact muffin-tin orbitals (EMTO);method are scrutinized with special regard towards making it stable and;free of artificial defects. The electronic structure calculations are;performed for solid hydrogen, and the performance of the analytical;continuation is assessed by monitoring the density of states constructed;directly and via the Pade approximation. We discuss the difference;between the k-integrated and k-resolved analytical continuations, as;well as describing the use of random numbers and pole residues to;analyze the approximant. It is found that the analytic properties of the;approximant can be controlled by appropriate modifications, making it a;robust and reliable tool for electronic structure calculations. At the;end, we propose a route to perform analytical continuation for the;EMTO+dynamical mean field theory method. DOI: 10.1103/PhysRevB.86.235107;0;0;0;0;0;1098-0121;WOS:000312024600001;;;J;Rauch, D.;Suellow, S.;Bleckmann, M.;Klemke, B.;Kiefer, K.;Kim, M. S.;Aronson, M. C.;Bauer, E.;Magnetic phase diagram of CePt3B1-xSix;PHYSICAL REVIEW B;86;24;245104;10.1103/PhysRevB.86.245104;DEC 6 2012;2012;We present a study of the main bulk properties (susceptibility,;magnetization, resistivity, and specific heat) of CePt3B1-xSix, an;alloying system that crystallizes in a noncentrosymmetric lattice, and;derive the magnetic phase diagram. The materials at the end point of the;alloying series have previously been studied, with CePt3B established as;a material with two different magnetic phases at low temperatures;(antiferromagnetic below T-N = 7.8 K, weakly ferromagnetic below T-C;approximate to 5 K), while CePt3Si is a heavy fermion superconductor;(T-c = 0.75 K) coexisting with antiferromagnetism (T-N = 2.2 K). From;our experiments we conclude that the magnetic phase diagram is divided;into two regions. In the region of low Si content (up to x similar to;0.7) the material properties resemble those of CePt3B. Upon increasing;the Si concentration further the magnetic ground state continuously;transforms into that of CePt3Si. In essence, we argue that CePt3B can be;understood as a low pressure variant of CePt3Si.;Kiefer, Klaus/J-3544-2013; Klemke, Bastian/J-4746-2013;Kiefer, Klaus/0000-0002-5178-0495; Klemke, Bastian/0000-0003-4560-6025;0;0;0;0;0;1098-0121;WOS:000312025300004;;;J;Schoenecker, Stephan;Richter, Manuel;Koepernik, Klaus;Eschrig, Helmut;Ferromagnetic elements by epitaxial growth: A density functional;prediction (vol 85, 024407, 2012);PHYSICAL REVIEW B;86;21;219901;10.1103/PhysRevB.86.219901;DEC 6 2012;2012;0;0;0;0;0;1098-0121;WOS:000312022700004;;;J;Sedlmeier, Katrin;Elsaesser, Sebastian;Neubauer, David;Beyer, Rebecca;Wu, Dan;Ivek, Tomislav;Tomic, Silvia;Schlueter, John A.;Dressel, Martin;Absence of charge order in the dimerized kappa-phase BEDT-TTF salts;PHYSICAL REVIEW B;86;24;245103;10.1103/PhysRevB.86.245103;DEC 6 2012;2012;Utilizing infrared vibrational spectroscopy we have investigated;dimerized two-dimensional organic salts in order to search for possible;charge redistribution that might constitute electronic dipoles and;ferroelectricity: the quantum spin liquid kappa-(BEDT-TTF)(2)Cu-2(CN)(3);[BEDT-TTF: bis-(ethylenedithio)tetrathiafulvalene], the;antiferromagnetic Mott insulator kappa-(BEDT-TTF)(2)Cu[N(CN)(2)]Cl, and;the superconductor kappa-(BEDT-TTF)(2)Cu[N(CN)(2)]Br. None of them;exhibit any indication of charge disproportionation. Upon cooling to low;temperatures all BEDT-TTF molecules remain homogeneously charged within;+/- 0.005e. No modification in the charge distribution is observed;around T = 6 K where a low-temperature anomaly has been reported for the;spin-liquid material kappa-(BEDT-TTF)(2)Cu-2(CN)(3). In this compound;the in-plane optical response and vibrational coupling are rather;anisotropic, indicating that the tilt of the BEDT-TTF molecules in c;direction and their coupling to the anion layers has to be considered in;the explanation of the electromagnetic properties.;Dressel, Martin/D-3244-2012; Ivek, Tomislav/D-5298-2011; Tomic, Silvia/D-5466-2011;14;0;0;0;14;1098-0121;WOS:000312025300003;;;J;Siloi, I.;Troiani, F.;Towards the chemical tuning of entanglement in molecular nanomagnets;PHYSICAL REVIEW B;86;22;224404;10.1103/PhysRevB.86.224404;DEC 6 2012;2012;Antiferromagnetic spin rings represent prototypical realizations of;highly correlated, low-dimensional systems. Here we theoretically show;how the introduction of magnetic defects by controlled chemical;substitutions results in a strong spatial modulation of spin-pair;entanglement within each ring. Entanglement between local degrees of;freedom (individual spins) and collective ones (total ring spins) are;shown to coexist in exchange-coupled ring dimers, as can be deduced from;general symmetry arguments. We verify the persistence of these features;at finite temperatures, and discuss them in terms of experimentally;accessible observables.;Troiani, Filippo/B-4787-2011;5;0;0;0;5;1098-0121;WOS:000312023600003;;;J;Sreenivasulu, G.;Petrov, V. M.;Fetisov, L. Y.;Fetisov, Y. K.;Srinivasan, G.;Magnetoelectric interactions in layered composites of piezoelectric;quartz and magnetostrictive alloys;PHYSICAL REVIEW B;86;21;214405;10.1103/PhysRevB.86.214405;DEC 6 2012;2012;Mechanical strain mediated magnetoelectric effects are studied in;bilayers and trilayers of piezoelectric quartz and magnetostrictive;permendur (P), an alloy of Fe-Co-V. It is shown that the magnetoelectric;voltage coefficient (MEVC), proportional to the ratio of the;piezoelectric coupling coefficient to the permittivity, is higher in;quartz-based composites than for traditional ferroelectrics-based ME;composites. In bilayers of X-cut single crystal quartz and permendur,;the MEVC varies from 1.5 V/cm Oe at 20 Hz to similar to 185 V/cm Oe at;bending resonance or electromechanical resonance corresponding to;longitudinal acoustic modes. In symmetric X-cut quartz-P trilayers, the;MEVC similar to 4.8 V/cm Oe at 20 Hz and similar to 175 V/cm Oe at;longitudinal acoustic resonance. Trilayers of Y-cut quartz and permendur;show ME coupling under a shear strain with an MEVC that is an order of;magnitude smaller than for longitudinal strain in samples with X-cut;quartz. A model for low-frequency and resonance ME effects which allows;for explicit expressions of MEVC and resonance frequencies is provided;and calculated. MEVCs are in general agreement with measured values.;Magnetoelectric composites with quartz have the desired characteristics;such as the absence of ferroelectric hysteresis and pyroelectric losses;and could potentially replace ferroelectrics in composite-based magnetic;sensors, transducers, and high-frequency devices. DOI:;10.1103/PhysRevB.86.214405;Gollapudi, Sreenivasulu/G-9832-2012;Gollapudi, Sreenivasulu/0000-0002-6136-7119;8;0;0;0;8;1098-0121;WOS:000312022700002;;;J;Syzranov, S. V.;Yevtushenko, O. M.;Efetov, K. B.;Fermionic and bosonic ac conductivities at strong disorder;PHYSICAL REVIEW B;86;24;241102;10.1103/PhysRevB.86.241102;DEC 6 2012;2012;We study the ac conduction in a system of fermions or bosons strongly;localized in a disordered array of sites with short-range interactions;at frequencies larger than the intersite tunneling but smaller than the;characteristic fluctuation of the on-site energy. While the main;contribution sigma(0)(omega) to the conductivity comes from local;dipole-type excitations on close pairs of sites, coherent processes on;three or more sites lead to an interference correction sigma(1)(omega),;which depends on the statistics of the charge carriers and can be;suppressed by a magnetic field. For bosons the correction is always;positive, while for fermions it can be positive or negative depending on;whether the conduction is dominated by effective single-particle or;single-hole processes. We calculate the conductivity explicitly assuming;a constant density of states of single-site excitations. Independently;of the statistics, sigma(0)(omega) = const. For bosons, sigma(1)(omega);proportional to log(C/omega). For fermions, sigma(1)(omega) proportional;to log[max(A,omega)/omega] - log[max(B,omega)/omega], where the first;and the second term are, respectively, the particle and hole;contributions, A and B being the particle and hole energy cutoffs. The;ac magnetoresistance has the same sign as sigma(1)(omega).;Efetov, Konstantin/H-8852-2013;0;0;0;0;0;1098-0121;WOS:000312025300001;;;J;Troeppner, C.;Schmitt, T.;Reuschl, M.;Hammer, L.;Schneider, M. A.;Mittendorfer, F.;Redinger, J.;Podloucky, R.;Weinert, M.;Incommensurate Moire overlayer with strong local binding: CoO(111);bilayer on Ir(100);PHYSICAL REVIEW B;86;23;235407;10.1103/PhysRevB.86.235407;DEC 6 2012;2012;Incommensurate relaxed overlayer Moire structures are often interpreted;as systems with weak lateral variations of the binding potential and;thus no structural modulations in the overlayer material. We discuss;here the example of a CoO(111) bilayer on Ir(100), which is a relaxed;overlayer with strong structural response to the lateral modulation of;interface properties but nevertheless is incommensurate. By means of;density functional theory (DFT) calculations, we quantitatively;reproduce all the structural parameters of the CoO(111) bilayer on;Ir(100) as proposed by a recent low-energy electron diffraction analysis;[Ebensperger et al., Phys. Rev. B 81, 235405 (2010)]. The calculations;predict energetic degeneracies with respect to registry shifts of the;CoO(111) film along [01 (1) over bar]. Large-scale, low-temperature;scanning tunneling microscopy topographies reveal that the true;structure of the film is incommensurate in this direction, exhibiting a;one-dimensional Moire pattern with a period of about 9.4 a(Ir). From DFT;calculations for limiting (periodic) models, we can sample the potential;landscape of the cobalt and oxygen atoms in the Moire structure across;the Ir(100) unit cell. We find that despite the non-commensurability of;the film, the binding to the substrate is site specific with strong;attraction and repulsion points for both cobalt and oxygen atoms,;leading to severe local distortions in the film. The lateral modulation;of the structural elements within the oxide film can be understood as a;combination of the lateral variation in the Co-Ir binding potential and;additional O-Ir binding. DOI: 10.1103/PhysRevB.86.235407;Schneider, M. Alexander/C-6241-2013; Hammer, Lutz/D-9863-2013; Schneider, M. Alexander/B-4444-2012; Mittendorfer, Florian/L-5929-2013;Schneider, M. Alexander/0000-0002-8607-3301;;3;0;0;0;3;1098-0121;WOS:000312024600005;;;J;Tyunina, M.;Dejneka, A.;Chvostova, D.;Levoska, J.;Plekh, M.;Jastrabik, L.;Phase transitions in ferroelectric Pb0.5Sr0.5TiO3 films probed by;spectroscopic ellipsometry;PHYSICAL REVIEW B;86;22;224105;10.1103/PhysRevB.86.224105;DEC 6 2012;2012;Phase transitions occurring in 130-nm-thick films of;perovskite-structure ferroelectric Pb0.5Sr0.5TiO3 are experimentally;studied by combining spectroscopic ellipsometry and low-frequency;dielectric analysis. Polycrystalline and polydomain epitaxial films with;relaxed misfit strain and columnar microstructure are investigated. The;paraelectric and the ferroelectric states, and the temperatures and;widths of the paraelectric-to-ferroelectric phase transitions, are;identified from the temperature evolution of refractive index measured;in transparency range. The temperatures at which transitions start on;cooling are found to be considerably higher than the temperatures of the;dielectric peaks. In contrast to the broad dielectric peaks, the;transition width of 60 K in the polycrystalline film and that of 20 K in;the polydomain epitaxial film are revealed. The discrepancies between;optical and dielectric data are explained by the influence of extrinsic;factors on the low-frequency response of the thin-film capacitors. It is;suggested that fundamental mechanisms of ferroelectric phase transitions;in thin films can be revealed by studies of thermo-optical properties.;Dejneka, Alexandr/G-6384-2014; Jastrabik, Lubomir /H-1217-2014; Chvostova, Dagmar/G-9360-2014;6;0;0;0;6;1098-0121;WOS:000312023600002;;;J;Zeng, Hualing;Zhu, Bairen;Liu, Kai;Fan, Jiahe;Cui, Xiaodong;Zhang, Q. M.;Low-frequency Raman modes and electronic excitations in atomically thin;MoS2 films;PHYSICAL REVIEW B;86;24;241301;10.1103/PhysRevB.86.241301;DEC 6 2012;2012;Atomically thin MoS2 crystals have been recognized as;quasi-two-dimensional semiconductors with remarkable physical;properties. We report our Raman scattering measurements on multilayer;and monolayer MoS2, especially in the low-frequency range (<50 cm(-1)).;We find two low-frequency Raman modes with a contrasting thickness;dependence. When increasing the number of MoS2 layers, one mode shows a;significant increase in frequency while the other decreases following a;1/N (N denotes the number of unit layers) trend. With the aid of;first-principles calculations we assign the former as the shear mode;E-2g(2). The latter is distinguished as the compression vibrational;mode, similar to the surface vibration of other epitaxial thin films.;The opposite evolution of the two modes with thickness demonstrates;vibrational modes in an atomically thin crystal as well as a more;precise way to characterize the thickness of atomically thin MoS2 films.;In addition, we observe a broad feature around 38 cm(-1) (5 meV) which;is visible only under near-resonance excitation and pinned at a fixed;energy, independent of thickness. We interpret the feature as an;electronic Raman scattering associated with the spin-orbit coupling;induced splitting in a conduction band at K points in their Brillouin;zone.;Liu, Kai/K-4157-2012; Cui, Xiaodong/C-2023-2009; Zeng, Hualing/J-4411-2014;Cui, Xiaodong/0000-0002-2013-8336;;19;1;0;0;19;1098-0121;WOS:000312025300002;;;J;Anand, V. K.;Johnston, D. C.;Observation of a phase transition at 55 K in single-crystal CaCu1.7As2;PHYSICAL REVIEW B;86;21;214501;10.1103/PhysRevB.86.214501;DEC 5 2012;2012;We present the structural, magnetic, thermal and ab-plane electronic;transport properties of single crystals of CaCu1.7As2 grown by the;self-flux technique that were investigated by powder x-ray diffraction,;magnetic susceptibility chi, isothermal magnetization M, specific heat;C-p, and electrical resistivity rho measurements as a function of;temperature T and magnetic field H. X-ray diffraction analysis of;crushed crystals at room temperature confirm the collapsed tetragonal;ThCr2Si2-type structure with similar to 15% vacancies on the Cu sites as;previously reported, corresponding to the composition CaCu1.7As2. The;chi(T) data are diamagnetic, anisotropic, and nearly independent of T.;The chi is larger in the ab plane than along the c axis, as also;observed previously for SrCu2As2 and for pure and doped BaFe2As2. The;C-p(T) and rho(T) data indicate metallic sp-band character. In contrast;to the rho(T) and C-p(T) data that do not show any evidence for phase;transitions below 300 K, the rho(T) data exhibit a sharp decrease on;cooling below a temperature T-t = 54-56 K, depending on the crystal. The;chi(T) data show no hysteresis on warming and cooling through T-t and;the transition thus appears to be second order. The phase transition may;arise from spatial ordering of the vacancies on the Cu sublattice. The;T-t is found to be independent of H for H <= 8 T. A positive;magnetoresistance is observed below T-t that increases with decreasing T;and attains a value in H = 8.0 T of 8.7% at T = 1.8 K.;Anand, Vivek Kumar/J-3381-2013;Anand, Vivek Kumar/0000-0003-2023-7040;5;0;0;0;5;1098-0121;WOS:000311910400003;;;J;Avetisyan, Siranush;Pietilaeinen, Pekka;Chakraborty, Tapash;Strong enhancement of Rashba spin-orbit coupling with increasing;anisotropy in the Fock-Darwin states of a quantum dot (vol 85, 153301,;2012);PHYSICAL REVIEW B;86;23;239901;10.1103/PhysRevB.86.239901;DEC 5 2012;2012;1;0;0;0;1;1098-0121;WOS:000311911500005;;;J;Berman, Oleg L.;Kezerashvili, Roman Ya.;Ziegler, Klaus;Superfluidity and collective properties of excitonic polaritons in;gapped graphene in a microcavity;PHYSICAL REVIEW B;86;23;235404;10.1103/PhysRevB.86.235404;DEC 5 2012;2012;We predict the formation and superfluidity of polaritons in an optical;microcavity formed by excitons in gapped graphene embedded there and;microcavity photons. The Rabi splitting related to the creation of an;exciton in a graphene layer in the presence of the band gap is obtained.;It is demonstrated that the Rabi splitting decreases when the energy gap;increases, while the larger value of the dielectric constant of the;microcavity gives a smaller value for the Rabi splitting. The analysis;of collective excitations as well as the sound velocity is presented. We;show that the superfluid density n(s) and temperature of the;Kosterlitz-Thouless phase transition T-c are decreasing functions of the;energy gap.;2;0;0;0;2;1098-0121;WOS:000311911500004;;;J;Bernu, S.;Fertey, P.;Itie, J. -P.;Berger, H.;Foury-Leylekian, P.;Pouget, J. -P.;Vanishing of the metal-insulator Peierls transition in pressurized BaVS3;PHYSICAL REVIEW B;86;23;235105;10.1103/PhysRevB.86.235105;DEC 5 2012;2012;BaVS3 presents a metal-to-insulator (MI) transition at ambient pressure;due to the stabilization of a 2k(F) commensurate charge density wave;(CDW) Peierls ground state built on the dz(2) V orbitals. The MI;transition vanishes under pressure at a quantum critical point (QCP);where the electronic properties exhibit a non-Fermi liquid behavior. In;this paper, we determine the CDW phase diagram under pressure and show;that it combines both the vanishing of the second-order Peierls;transition and a commensurate-incommensurate first-order delocking;transition of the 2k(F) wave vector. We explain quantitatively the drop;of the MI critical temperature by the decrease of the electron-hole pair;lifetime of the CDW condensate due to an enhancement of the;hybridization between the dz(2) and e(t(2g)) levels of the V under;pressure.;0;0;0;0;0;1098-0121;WOS:000311911500001;;;J;Bobaru, S.;Gaudry, E.;de Weerd, M. -C.;Ledieu, J.;Fournee, V.;Competing allotropes of Bi deposited on the Al13Co4(100) alloy surface;PHYSICAL REVIEW B;86;21;214201;10.1103/PhysRevB.86.214201;DEC 5 2012;2012;The growth and stability of Bi thin films on the Al13Co4(100) surface;has been investigated from the submonolayer to high-coverage regime by;scanning tunneling microscopy (STM) and low-energy electron diffraction;(LEED) for temperatures ranging from 57 to 633 K. Initially, Bi;adsorption leads to the formation of a pseudomorphic monolayer, followed;by the growth of islands of different heights with increasing coverage.;The in-plane structure, island height, and island morphology indicate;that these islands adopt either a pseudocubic (110) or hexagonal (111);orientation normal to the surface. The (110)-oriented islands correspond;to bilayer stacking (either two or four monolayers in height) while the;(111)-oriented islands correspond to either three-or four-layer;stacking. The in-plane orientation of (110) islands with respect to the;substrate is random, while (111) islands adopt one of four possible;orientations. In addition, the (111) islands show a moire structure. The;fact that Bi islands grow with either (110) or (111) orientation;simultaneously on the same substrate relates to a subtle energy balance;between both orientations according to ab initio calculations, allowing;both structures to coexist. The island density dependence versus both;deposition temperature and flux, their most frequent structure type,;reshaping effects, and chemical reactivity of the different allotropes;are also discussed in this paper.;Gaudry, Emilie/G-9682-2011; Ledieu, Julian/F-1430-2010;2;0;0;0;2;1098-0121;WOS:000311910400002;;;J;Czarnik, Piotr;Cincio, Lukasz;Dziarmaga, Jacek;Projected entangled pair states at finite temperature: Imaginary time;evolution with ancillas;PHYSICAL REVIEW B;86;24;245101;10.1103/PhysRevB.86.245101;DEC 5 2012;2012;A projected entangled pair state (PEPS) with ancillas is evolved in;imaginary time. This tensor network represents a thermal state of a;two-dimensional (2D) lattice quantum system. A finite-temperature phase;diagram of the 2D quantum Ising model in a transverse field is obtained;as a benchmark application.;2;0;0;0;2;1098-0121;WOS:000311912300002;;;J;de Jong, Maarten;Olmsted, David L.;van de Walle, Axel;Asta, Mark;First-principles study of the structural and elastic properties of;rhenium-based transition-metal alloys;PHYSICAL REVIEW B;86;22;224101;10.1103/PhysRevB.86.224101;DEC 5 2012;2012;Structural, energetic, and elastic properties of hexagonal-close-packed;rhenium-based transition-metal alloys are computed by density-functional;theory. The practical interest in these materials stems from the;attractive combination of mechanical properties displayed by rhenium for;structural applications requiring the combination of high melting;temperature and low-temperature ductility. Single-crystal elastic;constants, atomic volumes, axial c/a ratios, and dilute heats of;solution for Re-X alloys are computed, considering all possible;transition-metal solute species X. Calculated elastic constants are used;to compute values of a commonly considered intrinsic-ductility parameter;K/G, where K is the bulk modulus and G denotes the Voigt average of the;shear modulus, as well as the anisotropies in the Young's modulus and;shear modulus. The calculated properties show clear trends as a function;of d-band filling, which can be rationalized through tight-binding;theory. The results indicate that solutes to the left of rhenium in the;periodic table show a tendency to increase the intrinsic ductility;parameter, a trend that correlates with an increase of the c/a ratio;towards the ideal value associated optimal close packing. The Young's;modulus shows a trend towards increasing isotropy with alloying of;solutes X to the left of Re, while the shear modulus shows the opposite;trend but with an overall weaker dependence on solute additions. DOI:;10.1103/PhysRevB.86.224101;van de Walle, Axel/L-5676-2013;van de Walle, Axel/0000-0002-3415-1494;0;0;0;0;0;1098-0121;WOS:000311910900001;;;J;Fingerhut, Benjamin P.;Richter, Marten;Luo, Jun-Wei;Zunger, Alex;Mukamel, Shaul;Dissecting biexciton wave functions of self-assembled quantum dots by;double-quantum-coherence optical spectroscopy;PHYSICAL REVIEW B;86;23;235303;10.1103/PhysRevB.86.235303;DEC 5 2012;2012;Biexcitons feature prominently in various scenarios for utilization of;quantum dots (QDs) for enhancing the efficiencies of solar cells, and;for the generation of entangled photon pairs in single QD sources.;Two-dimensional double quantum coherence (2D-DQC) nonlinear optical;spectra provide novel spectroscopic signatures of such states beyond;global intensity and lifetime characteristics which are available by;more conventional techniques. We report the simulation of a prototype;2D-DQC optical experiment of a self-assembled InAs/GaAs dot. The;simulations consider the QD in different charged states and are based on;a state-of-the-art atomistic many-body pseudopotential method for the;calculation of the electronic structure and transition dipole matrix;elements. Comparison of the spectra of negatively charged, neutral, and;positively charged QD reveals optical signatures of their electronic;excitations. This technique directly accesses the biexciton (XX);energies as well as the projections of their wave functions on the;single-exciton manifold. These signals also provide a unique tool for;probing the charged state of the QD and thus the occupation of the;quantum state. Signatures of Pauli blockade of the creation of certain;single and two excitons due to charges on the particles are observed.;For all quantum states of the QD, the spectra reveal a strong;multiconfiguration character of the biexciton wave functions. Peak;intensities can be explained by interference of the contributing;Liouville space pathways.;Zunger, Alex/A-6733-2013; LUO, JUNWEI/B-6545-2013; LUO, JUN-WEI/A-8491-2010; Richter, Marten/B-7790-2008;Richter, Marten/0000-0003-4160-1008;2;0;0;0;2;1098-0121;WOS:000311911500003;;;J;Haskins, Justin B.;Moriarty, John A.;Hood, Randolph Q.;Polymorphism and melt in high-pressure tantalum;PHYSICAL REVIEW B;86;22;224104;10.1103/PhysRevB.86.224104;DEC 5 2012;2012;Recent small-cell (<150 atom) quantum molecular dynamics (QMD);simulations for Ta based on density functional theory (DFT) have;predicted a hexagonal omega (hex-omega)phase more stable than the normal;bcc phase at high temperature (T) and pressure (P) above 70 GPa [;Burakovsky et al., Phys. Rev. Lett. 104, 255702 (2010)]. Here we examine;possible high-T, P polymorphism in Ta with complementary DFT-based model;generalized pseudopotential theory (MGPT) multi-ion interatomic;potentials, which allow accurate treatment of much larger system sizes;(up to similar to 80000 atoms). We focus on candidate bcc, A15, fcc,;hcp, and hex-omega phases for the high-T, P phase diagram to 420 GPa,;studying the mechanical and relative thermodynamic stability of these;phases for both small and large computational cells. Our MGPT potentials;fully capture the T = 0 DFT energetics of these phases, while MGPT-MD;simulations demonstrate that the higher-energy fcc, hcp, and hex-omega;structures are only mechanically stabilized at high temperature by;large, size-dependent, anharmonic vibrational effects, with the;stability of the hex-omega phase also being found to be a sensitive;function of its c/a ratio. Both two-phase and Z-method melting;techniques have been used in MGPT-MD simulations to determine relative;phase stability and its size dependence. In the large-cell limit, the;two-phase method yields accurate equilibrium melt curves for all five;phases, with bcc producing the highest melt temperatures at all;pressures and hence being the most stable phase of those considered. The;two-phase bcc melt curve is also in good agreement with dynamic;experimental data as well as with the MGPT melt curve calculated from;bcc and liquid free energies. In contrast, we find that the Z method;produces only an upper bound to the equilibrium melt curve in the;large-cell limit. For the bcc and hex-omega structures, however, this is;a close upper bound within 5% of the two-phase results, although for the;A15, fcc, and hcp structures, the Z-melt curves are 25%-35% higher in;temperature than the two-phase results. Nonetheless, the Z method has;allowed us to study melt size effects in detail. We find these effects;to be either small or modest for the cubic bcc, A15, and fcc structures,;but to have a large impact on the hexagonal hcp and hex-omega melt;curves, which are dramatically pushed above that of bcc for simulation;cells less than 150 atoms. The melt size effects are driven by and;closely correlated with similar size effects on the mechanical stability;and the vibrational anharmonicity. We further show that for the same;simulation cell sizes and choice of c/a ratio, the MGPT-MD bcc and;hex-omega melt curves are in good agreement with the QMD results, so the;QMD prediction is confirmed in the small-cell limit. But in the;large-cell limit, the MGPT-MD hex-omega melt curve is always lowered;below that of bcc for any choice of c/a, so bcc is the most stable;phase. We conclude that for the non-bcc Ta phases studied, one requires;simulation cells of at least 250-500 atoms to be free of size effects;impacting mechanical and thermodynamic phase stability. DOI:;10.1103/PhysRevB.86.224104;8;0;0;0;8;1098-0121;WOS:000311910900004;;;J;Iwazaki, Yoshiki;Suzuki, Toshimasa;Mizuno, Youichi;Tsuneyuki, Shinji;Doping-induced phase transitions in ferroelectric BaTiO3 from;first-principles calculations;PHYSICAL REVIEW B;86;21;214103;10.1103/PhysRevB.86.214103;DEC 5 2012;2012;Carrier-electron-induced phase transition from tetragonal to cubic;phases in BaTiO3 is studied using first-principles calculation. Our;results show that the disappearance of the ferroelectric phase is an;intrinsic effect resulting from carrier electron doping in BaTiO3. We;further clarify that the lattice disorder induced by donor dopants such;as oxygen vacancies and substitutionally doped Nb5+ at Ti4+ sites;accelerates the disappearance of the tetragonal phase in BaTiO3.;7;0;0;0;7;1098-0121;WOS:000311910400001;;;J;Koshelev, A. E.;Phase diagram of Josephson junction between s and s(+/-) superconductors;in the dirty limit;PHYSICAL REVIEW B;86;21;214502;10.1103/PhysRevB.86.214502;DEC 5 2012;2012;The s(+/-) state in which the order parameter has different signs in;different bands is a leading candidate for the superconducting state in;the iron-based superconductors. We investigate a Josephson junction;between s and s(+/-) superconductors within microscopic theory.;Frustration, caused by interaction of the s-wave gap parameter with the;opposite-sign gaps of the s(+/-) superconductor, leads to nontrivial;phase diagram. When the partial Josephson coupling energy between the;s-wave superconductor and one of the s(+/-) bands dominates, s-wave gap;parameter aligns with the order parameter in this band. In this case,;the partial Josephson energies have different signs corresponding to;signs of the gap parameters. In the case of strong frustration,;corresponding to almost complete compensation of the total Josephson;energy, a nontrivial time-reversal-symmetry breaking (TRSB) state;realizes. In this state, all gap parameters become essentially complex.;As a consequence, this state provides realization for so-called;phi-junction with finite phase difference in the ground state. The width;of the TRSB state region is determined by the second harmonic in;Josephson current, proportional to sin(2 phi f), which appears in the;second order with respect to the boundary transparency. Using the;microscopic theory, we establish a range of parameters where different;states are realized. Our analysis shows insufficiency of the simple;phenomenological approach for treatment of this problem.;Koshelev, Alexei/K-3971-2013;Koshelev, Alexei/0000-0002-1167-5906;3;0;0;0;3;1098-0121;WOS:000311910400004;;;J;Krueger, Peter;Koutiri, Issam;Bourgeois, Sylvie;First-principles study of hexagonal tungsten trioxide: Nature of lattice;distortions and effect of potassium doping;PHYSICAL REVIEW B;86;22;224102;10.1103/PhysRevB.86.224102;DEC 5 2012;2012;A density functional theory study is reported on pure and potassium;doped tungsten trioxide. The nature of lattice distortions in the;hexagonal phase is analyzed and a new symmetry group is proposed. The;structure and stability of cubic, monoclinic, and hexagonal phases is;studied as a function of potassium doping and an approximate phase;diagram is derived. KxWO3 undergoes a monoclinic to hexagonal phase;transition at x similar to 3%. DOI: 10.1103/PhysRevB.86.224102;1;0;0;0;1;1098-0121;WOS:000311910900002;;;J;Landsgesell, S.;Abou-Ras, D.;Alber, D.;Prokes, K.;Wolf, T.;Direct evidence of chemical and crystallographic phase separation in;K0.65Fe1.74Se2;PHYSICAL REVIEW B;86;22;224502;10.1103/PhysRevB.86.224502;DEC 5 2012;2012;In the present work, we report on a chemical phase separation in;crystalline superconducting K0.65Fe1.74Se2, investigated by means of;magnetization experiments, scanning electron microscopy, electron;backscatter diffraction, and energy-dispersive x-ray spectrometry. It is;shown that the crystal consists of platelets oriented in < 100 > with an;approximated volume fraction of about 30% in the surrounding < 001 >;oriented matrix. The platelets (the matrix) are depleted in K (Fe) and;enriched in Fe (K). Chemical phase separation is demonstrated by a;stable, antiferromagnetic K0.8Fe1.6Se2 matrix, and KxFe2-y Se-2;platelets inducing superconductivity. This time-driven, chemical phase;separation is therefore responsible for various coexistent magnetic and;electrical properties measured in KxFeySe2 samples. DOI:;10.1103/PhysRevB.86.224502;Landsgesell, Sven/B-1467-2013; Prokes, Karel/J-5438-2013;Landsgesell, Sven/0000-0002-2469-3548; Prokes, Karel/0000-0002-7034-1738;10;0;0;0;10;1098-0121;WOS:000311910900005;;;J;Liu, Wei;Carrasco, Javier;Santra, Biswajit;Michaelides, Angelos;Scheffler, Matthias;Tkatchenko, Alexandre;Benzene adsorbed on metals: Concerted effect of covalency and van der;Waals bonding;PHYSICAL REVIEW B;86;24;245405;10.1103/PhysRevB.86.245405;DEC 5 2012;2012;The adsorption of aromatic molecules on metal surfaces plays a key role;in condensed matter physics and functional materials. Depending on the;strength of the interaction between the molecule and the surface, the;binding is typically classified as either physisorption or;chemisorption. Van der Waals (vdW) interactions contribute significantly;to the binding in physisorbed systems, but the role of the vdW energy in;chemisorbed systems remains unclear. Here we study the interaction of;benzene with the (111) surface of transition metals, ranging from weak;adsorption (Ag and Au) to strong adsorption (Pt, Pd, Ir, and Rh). When;vdW interactions are accurately accounted for, the barrier to adsorption;predicted by standard density-functional theory (DFT) calculations;essentially vanishes, producing a metastable precursor state on Pt and;Ir surfaces. Notably, vdW forces contribute more to the binding of;covalently bonded benzene than they do when benzene is physisorbed.;Comparison to experimental data demonstrates that some of the recently;developed methods for including vdW interactions in DFT allow;quantitative treatment of both weakly and strongly adsorbed aromatic;molecules on metal surfaces, extending the already excellent performance;found for molecules in the gas phase.;Michaelides, Angelos/K-8727-2012; Santra, Biswajit/C-4818-2008; Tkatchenko, Alexandre/E-7148-2011;Santra, Biswajit/0000-0003-3609-2106; Tkatchenko,;Alexandre/0000-0002-1012-4854;52;2;0;0;52;1098-0121;WOS:000311912300005;;;J;Ou, Xin;Koegler, Reinhard;Zhou, Hong-Bo;Anwand, Wolfgang;Grenzer, Joerg;Huebner, Rene;Voelskow, Matthias;Butterling, Maik;Zhou, Shengqiang;Skorupa, Wolfgang;Release of helium from vacancy defects in yttria-stabilized zirconia;under irradiation;PHYSICAL REVIEW B;86;22;224103;10.1103/PhysRevB.86.224103;DEC 5 2012;2012;Fission gas retention or release has a critical impact on the function;of advanced nuclear materials. Helium trapping in, and release from,;radiation defects induced by neutrons and by a decay in YSZ;(yttria-stabilized zirconia) is experimentally simulated using;synchronized Zr+ and He+ dual ion beam irradiation. The measured damage;profiles consist of two peaks which agree well with the calculated;profiles of implantation induced excess point defects. This special;implantation related effect has to be carefully considered in the;evaluation of experimental investigations which simulate isotropic;irradiation effects such as a decay. First-principles calculations show;that helium is energetically favorable to be trapped by Zr vacancies in;YSZ. Implanted helium alone in YSZ is accumulated in undesirable helium;bubbles and results in local surface swelling and lift-off. However,;under dual beam irradiation helium is released from vacancy defects and;is out-diffused at room temperature. Helium is mobilized by a;vacancy-assisted trapping/detrapping mechanism induced by the;simultaneous Zr+ ion implantation. This behavior avoids the deleterious;helium bubble formation and contributes to the suitable application;characteristics of YSZ which result in its excellent radiation hardness.;DOI: 10.1103/PhysRevB.86.224103;Zhou, Shengqiang/C-1497-2009;Zhou, Shengqiang/0000-0002-4885-799X;3;0;2;0;3;1098-0121;WOS:000311910900003;;;J;Pauly, C.;Bihlmayer, G.;Liebmann, M.;Grob, M.;Georgi, A.;Subramaniam, D.;Scholz, M. R.;Sanchez-Barriga, J.;Varykhalov, A.;Bluegel, S.;Rader, O.;Morgenstern, M.;Probing two topological surface bands of Sb2Te3 by spin-polarized;photoemission spectroscopy;PHYSICAL REVIEW B;86;23;235106;10.1103/PhysRevB.86.235106;DEC 5 2012;2012;Using high-resolution spin-and angle-resolved photoemission;spectroscopy, we map the electronic structure and spin texture of the;surface states of the topological insulator Sb2Te3. In combination with;density functional calculations (DFT), we directly show that Sb2Te3;exhibits a partially occupied, single spin-Dirac cone around the Fermi;energy E-F, which is topologically protected. DFT obtains a spin;polarization of the occupied Dirac cone states of 80-90%, which is in;reasonable agreement with the experimental data after careful background;subtraction. Furthermore, we observe a strongly spin-orbit split surface;band at lower energy. This state is found at E - E-F similar or equal to;-0.8 eV at the (Gamma) over bar point, disperses upward, and disappears;at about E - E-F = -0.4 eV into two different bulk bands. Along the;(Gamma) over bar-(K) over bar direction, the band is located within a;spin-orbit gap. According to an argument given by Pendry and Gurman in;1975, such a gap must contain a surface state, if it is located away;from the high-symmetry points of the Brillouin zone. Thus, the novel;spin-split state is protected by symmetry, too.;Bihlmayer, Gustav/G-5279-2013; Rader, Oliver/H-8498-2013; Sanchez-Barriga, Jaime/I-3493-2013; Varykhalov, Andrei/I-3571-2013; Blugel, Stefan/J-8323-2013; Liebmann, Marcus/G-6254-2012; Morgenstern, Markus/K-7785-2013;Bihlmayer, Gustav/0000-0002-6615-1122; Rader,;Oliver/0000-0003-3639-0971; Sanchez-Barriga, Jaime/0000-0001-9947-6700;;Varykhalov, Andrei/0000-0002-7901-3562; Blugel,;Stefan/0000-0001-9987-4733; Liebmann, Marcus/0000-0003-4787-0129;;Morgenstern, Markus/0000-0002-3993-6880;15;0;0;0;15;1098-0121;WOS:000311911500002;;;J;Silveirinha, Mario G.;Engheta, Nader;Metamaterial-inspired model for electron waves in bulk semiconductors;PHYSICAL REVIEW B;86;24;245302;10.1103/PhysRevB.86.245302;DEC 5 2012;2012;Based on an analogy with electromagnetic metamaterials, we develop an;effective medium description for the propagation of electron matter;waves in bulk semiconductors with a zinc-blende structure. It is;formally demonstrated that even though departing from a different;starting point, our theory gives results for the energy stationary;states consistent with Bastard's envelope-function approximation in the;long-wavelength limit. Using the proposed approach, we discuss the time;evolution of a wave packet in a bulk semiconductor with a zero-gap and;linear energy-momentum dispersion.;4;0;0;0;4;1098-0121;WOS:000311912300004;;;J;Valla, T.;Ji, Huiwen;Schoop, L. M.;Weber, A. P.;Pan, Z. -H.;Sadowski, J. T.;Vescovo, E.;Fedorov, A. V.;Caruso, A. N.;Gibson, Q. D.;Muechler, L.;Felser, C.;Cava, R. J.;Topological semimetal in a Bi-Bi2Se3 infinitely adaptive superlattice;phase;PHYSICAL REVIEW B;86;24;241101;10.1103/PhysRevB.86.241101;DEC 5 2012;2012;We report spin-and angle-resolved photoemission studies of a topological;semimetal from the infinitely adaptive series between elemental Bi and;Bi2Se3. The compound, based on Bi4Se3, is a 1:1 natural superlattice of;alternating Bi-2 layers and Bi2Se3 layers; the inclusion of S allows the;growth of large crystals, with the formula Bi4Se2.6S0.4. The crystals;cleave along the interfaces between the Bi-2 and Bi2Se3 layers, with the;surfaces obtained having alternating Bi or Se termination. The resulting;terraces, observed by photoemission electron microscopy, create avenues;suitable for the study of one-dimensional topological physics. The;electronic structure, determined by spin-and angle-resolved;photoemission spectroscopy, shows the existence of a surface state that;forms a large, hexagonally shaped Fermi surface around the Gamma point;of the surface Brillouin zone, with the spin structure indicating that;this material is a topological semimetal.;Felser, Claudia/A-5779-2009; Schoop, Leslie/A-4627-2013; Muchler, Lukas/A-4628-2013; Ji, Huiwen/O-5145-2014;Schoop, Leslie/0000-0003-3459-4241;;15;2;0;0;15;1098-0121;WOS:000311912300001;;;J;Witczak-Krempa, William;Ghaemi, Pouyan;Senthil, T.;Kim, Yong Baek;Universal transport near a quantum critical Mott transition in two;dimensions;PHYSICAL REVIEW B;86;24;245102;10.1103/PhysRevB.86.245102;DEC 5 2012;2012;We discuss the universal-transport signatures near a zero-temperature;continuous Mott transition between a Fermi liquid and a quantum spin;liquid in two spatial dimensions. The correlation-driven transition;occurs at fixed filling and involves fractionalization of the electron:;upon entering the spin liquid, a Fermi surface of neutral spinons;coupled to an internal gauge field emerges. We present a controlled;calculation of the value of the zero-temperature universal resistivity;jump predicted to occur at the transition. More generally, the behavior;of the universal scaling function that collapses the temperature-and;pressure-dependent resistivity is derived, and is shown to bear a strong;imprint of the emergent gauge fluctuations. We further predict a;universal jump of the thermal conductivity across the Mott transition,;which derives from the breaking of conformal invariance by the damped;gauge field, and leads to a violation of the Wiedemann-Franz law in the;quantum critical region. A connection to the quasitriangular organic;salts is made, where such a transition might occur. Finally, we present;some transport results for the pure rotor O(N) conformal field theory.;10;0;0;0;10;1098-0121;WOS:000311912300003;;;J;Apostolov, Stanislav;Levchenko, Alex;Josephson current and density of states in proximity circuits with;s(+)-superconductors;PHYSICAL REVIEW B;86;22;224501;10.1103/PhysRevB.86.224501;DEC 4 2012;2012;We study the emergent proximity effect in mesoscopic circuits that;involve a conventional superconductor and an unconventional pnictide;superconductor separated by a diffusive normal or ferromagnetic wire.;The focus is placed on revealing signatures of the proposed s(+)-state;of pnictides from the proximity-induced density of states and Josephson;current. We find analytically a universal result for the density of;states that exhibits both the Thouless gap at low energies and peculiar;features near the superconducting gap edges at higher energies. The;latter may be used to discriminate between s(+)- and s(++) symmetry;scenarios in scanning tunneling spectroscopy experiments. We also;calculate Josephson current-phase relationships for different junction;configurations, which are found to display robust 0-pi transitions for a;wide range of parameters.;3;0;0;0;3;1098-0121;WOS:000311910600005;;;J;Balci, Sinan;Kocabas, Coskun;Ates, Simge;Karademir, Ertugrul;Salihoglu, Omer;Aydinli, Atilla;Tuning surface plasmon-exciton coupling via thickness dependent plasmon;damping;PHYSICAL REVIEW B;86;23;235402;10.1103/PhysRevB.86.235402;DEC 4 2012;2012;In this paper, we report experimental and theoretical investigations on;tuning of the surface plasmon-exciton coupling by controlling the;plasmonic mode damping, which is defined by the plasmonic layer;thickness. The results reveal the formation of plasmon-exciton hybrid;state characterized by a tunable Rabi splitting with energies ranging;from 0 to 150 meV. Polarization-dependent spectroscopic reflection;measurements were employed to probe the dispersion of the coupled;system. The transfer matrix method and analytical calculations were used;to model the self-assembled J-aggregate/metal multilayer structures in;excellent agreement with experimental observations.;Kocabas, Coskun/C-6018-2013;6;0;0;0;6;1098-0121;WOS:000311911100002;;;J;Belashchenko, K. D.;Glasbrenner, J. K.;Wysocki, A. L.;Spin injection from a half-metal at finite temperatures;PHYSICAL REVIEW B;86;22;224402;10.1103/PhysRevB.86.224402;DEC 4 2012;2012;Spin injection from a half-metallic electrode in the presence of thermal;spin disorder is analyzed using a combination of random matrix theory,;spin-diffusion theory, and explicit simulations for the tight-binding;s-d model. It is shown that efficient spin injection from a half-metal;is possible as long as the effective resistance of the normal metal does;not exceed a characteristic value, which does not depend on the;resistance of the half-metallic electrode but, rather, is controlled by;spin-flip scattering at the interface. This condition can be formulated;as alpha less than or similar to l/l(sf)(N) T-c(-1) where a is the;relative deviation of the magnetization from saturation, l and l(sf)(N);are the mean-free path and the spin-diffusion length in the nonmagnetic;channel, and T-c is the transparency of the tunnel barrier at the;interface (if present). The general conclusions are confirmed by;tight-binding s-d model calculations. A rough estimate suggests that;efficient spin injection from true half-metallic ferromagnets into;silicon or copper may be possible at room temperature across a;transparent interface.;Wysocki, Aleksander/D-6928-2013;1;0;0;0;1;1098-0121;WOS:000311910600003;;;J;Bessas, D.;Sergueev, I.;Wille, H. -C.;Persson, J.;Ebling, D.;Hermann, R. P.;Lattice dynamics in Bi2Te3 and Sb2Te3: Te and Sb density of phonon;states;PHYSICAL REVIEW B;86;22;224301;10.1103/PhysRevB.86.224301;DEC 4 2012;2012;The lattice dynamics in Bi2Te3 and Sb2Te3 were investigated both;microscopically and macroscopically using Sb-121 and Te-125 nuclear;inelastic scattering, x-ray diffraction, and heat capacity measurements.;In combination with earlier inelastic neutron scattering data, the;element-specific density of phonon states was obtained for both;compounds and phonon polarization analysis was carried out for Bi2Te3. A;prominent peak in the Te specific density of phonon states at 13 meV,;that involves mainly in-plane vibrations, is mostly unaffected upon;substitution of Sb with Bi revealing vibrations with essentially Te;character. A significant softening is observed for the density of;vibrational states of Bi with respect to Sb, consistently with the mass;homology relation in the long-wavelength limit. In order to explain the;energy mismatch in the optical phonon region, a similar to 20% force;constant softening of the Sb-Te bond with respect to the Bi-Te bond is;required. The reduced average speed of sound at 20 K in Bi2Te3, 1.75(1);km/s, compared to Sb2Te3, 1.85(4) km/s, is not only related to the;larger mass density but also to a larger Debye level. The observed low;lattice thermal conductivity at 295 K, 2.4 Wm(-1)K(-1) for Sb2Te3 and;1.6 Wm(-1)K(-1) for Bi2Te3, cannot be explained by anharmonicity alone;given the rather modest Gruneisen parameters, 1.7(1) for Sb2Te3 and;1.5(1) for Bi2Te3, without accounting for the reduced speed of sound and;more importantly the low acoustic cutoff energy.;Wille, Hans-Christian/C-3881-2013; Hermann, Raphael/F-6257-2013; Bessas, Dimitrios/I-5262-2013;Hermann, Raphael/0000-0002-6138-5624; Bessas,;Dimitrios/0000-0003-0240-2540;5;0;1;0;5;1098-0121;WOS:000311910600002;;;J;de Resseguier, T.;Lescoute, E.;Loison, D.;
6:1:13:2:10 Impact response of potassium bromide in 166-880 K temperature range
DOI:10.1063/1.3486015 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:4 AU: Favorsky, V.;Zaretsky, E. B.;
6:1:13:2:11 Dynamic density field measurements of an explosively driven alpha -> epsilon phase transition in iron
DOI:10.1063/1.4890509 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Hull, L. M.;Gray, G. T., III;Warthen, B. J.;
6:1:13:2:12 Dynamic compressive and tensile strengths of spark plasma sintered alumina
DOI:10.1063/1.4885436 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Girlitsky, I.;Zaretsky, E.;Kalabukhov, S.;Dariel, M. P.;Frage, N.;
6:1:13:2:13 Damage growth and recollection in aluminum under axisymmetric convergence using a helical flux compression generator
DOI:10.1063/1.4861411 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:2 AU: Kaul, A. M.;Ivanovsky, A. V.;Atchison, W. L.;Petrukhin, A. A.;Duday, P. V.;Griego, J. R.;Salazar, M.;Nadezhin, S. S.;Tyupanova, O. A.;Oro, D. M.;Holtkamp, D. B.;Rodriguez, G.;Tabaka, L. J.;Kraev, A. I.;Skobelev, A. N.;Westley, D. T.;Anderson, B. G.;Ivanov, V. A.;Glybin, A. M.;Kuzyaev, A. I.;Stone, J. B.;Payton, J. R.;Goodwin, P. M.;McCulloch, Q.;Montoya, R. R.;Dudin, V. I.;Zimenkov, A. A.;Randolph, R. B.;Fierro, F.;Reinovsky, R. E.;Rousculp, C. L.;Balandina, A. N.;Podurets, A. M.;
6:1:13:3:1 High strain-rate plastic flow in Al and Fe
DOI:10.1063/1.3670001 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:29 AU: Smith, R. F.;Eggert, J. H.;Rudd, R. E.;Swift, D. C.;Bolme, C. A.;Collins, G. W.;
6:1:13:3:2 The alpha ->epsilon phase transition in iron at strain rates up to similar to 10(9) s(-1)
DOI:10.1063/1.4868676 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:9 AU: Crowhurst, Jonathan C.;Reed, Bryan W.;Armstrong, Michael R.;Radousky, Harry B.;Carter, Jeffrey A.;Swift, Damian C.;Zaug, Joseph M.;Minich, Roger W.;Teslich, Nick E.;Kumar, Mukul;
6:1:13:3:3 In situ x-ray diffraction measurements of the c/a ratio in the high-pressure epsilon phase of shock-compressed polycrystalline iron
DOI:10.1103/PhysRevB.83.144114 JN:PHYSICAL REVIEW B PY:2011 TC:18 AU: Hawreliak, James A.;El-Dasher, Bassem;Lorenzana, Hector;Kimminau, Giles;Higginbotham, Andrew;Nagler, Bob;Vinko, Sam M.;Murphy, William J.;Whitcher, Thomas;Wark, Justin S.;Rothman, Steve;Park, Nigel;
6:1:13:3:4 Polycrystalline iron under compression: Plasticity and phase transitions
DOI:10.1103/PhysRevB.86.144111 JN:PHYSICAL REVIEW B PY:2012 TC:8 AU: Gunkelmann, Nina;Bringa, Eduardo M.;Kang, Keonwook;Ackland, Graeme J.;Ruestes, Carlos J.;Urbassek, Herbert M.;
6:1:13:3:5 Evolution of Shock-Induced Orientation-Dependent Metastable States in Crystalline Aluminum
DOI:10.1103/PhysRevLett.109.125505 JN:PHYSICAL REVIEW LETTERS PY:2012 TC:10 AU: Budzevich, Mikalai M.;Zhakhovsky, Vasily V.;White, Carter T.;Oleynik, Ivan I.;
6:1:13:3:6 Shock waves in polycrystalline iron: Plasticity and phase transitions
DOI:10.1103/PhysRevB.89.140102 JN:PHYSICAL REVIEW B PY:2014 TC:1 AU: Gunkelmann, Nina;Bringa, Eduardo M.;Tramontina, Diego R.;Ruestes, Carlos J.;Suggit, Matthew J.;Higginbotham, Andrew;Wark, Justin S.;Urbassek, Herbert M.;
6:1:13:3:7 Shock-induced phase transformations in gallium single crystals by atomistic methods
DOI:10.1103/PhysRevB.88.144108 JN:PHYSICAL REVIEW B PY:2013 TC:1 AU: Kadau, Kai;Cherne, Frank J.;Ravelo, Ramon;Germann, Timothy C.;
6:1:13:3:8 Nucleation and Growth in Shock-Induced Phase Transitions and How they Determine Wave Profile Features
DOI:10.1103/PhysRevLett.109.115701 JN:PHYSICAL REVIEW LETTERS PY:2012 TC:1 AU: Yu, Jidong;Wang, Wenqiang;Wu, Qiang;
6:1:13:3:9 Characteristic method for isentropic compression simulation
DOI:10.1063/1.4880039 JN:AIP ADVANCES PY:2014 TC:0 AU: Xue, Quanxi;Wang, Zhebin;Jiang, Shaoen;Ye, Xisheng;Liu, Jingru;
6:1:13:4:1 Ramp compression of iron to 273 GPa
DOI:10.1063/1.4813091 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:9 AU: Wang, Jue;Smith, Raymond F.;Eggert, Jon H.;Braun, Dave G.;Boehly, Thomas R.;Patterson, J. Reed;Celliers, Peter M.;Jeanloz, Raymond;Collins, Gilbert W.;Duffy, Thomas S.;
6:1:13:4:2 Time-dependence of the alpha to epsilon phase transformation in iron
DOI:10.1063/1.4839655 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:5 AU: Smith, R. F.;Eggert, J. H.;Swift, D. C.;Wang, J.;Duffy, T. S.;Braun, D. G.;Rudd, R. E.;Reisman, D. B.;Davis, J-P;Knudson, M. D.;Collins, G. W.;
6:1:13:4:3 Heterogeneous flow and brittle failure in shock-compressed silicon
DOI:10.1063/1.4820927 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:3 AU: Smith, R. F.;Bolme, C. A.;Erskine, D. J.;Celliers, P. M.;Ali, S.;Eggert, J. H.;Brygoo, S. L.;Hammel, B. D.;Wang, J.;Collins, G. W.;
6:1:13:4:4 High-power laser shock-induced dynamic fragmentation of iron foils
DOI:10.1103/PhysRevB.82.174102 JN:PHYSICAL REVIEW B PY:2010 TC:5 AU: Morard, G.;de Resseguier, T.;Vinci, T.;Benuzzi-Mounaix, A.;Lescoute, E.;Brambrink, E.;Koenig, M.;Wei, H.;Diziere, A.;Occelli, F.;Fiquet, G.;Guyot, F.;
6:1:13:4:5 Orientation and rate dependence in high strain-rate compression of single-crystal silicon
DOI:10.1103/PhysRevB.86.245204 JN:PHYSICAL REVIEW B PY:2012 TC:4 AU: ;FN Thomson Reuters Web of Scienceâ„¢;1.0;J;Aizin, Gregory R.;Dyer, Gregory C.;Transmission line theory of collective plasma excitations in periodic;two-dimensional electron systems: Finite plasmonic crystals and Tamm;states;PHYSICAL REVIEW B;86;23;235316;10.1103/PhysRevB.86.235316;DEC 28 2012;2012;We present a comprehensive theory of the one-dimensional plasmonic;crystal formed in the grating-gated two-dimensional electron gas (2DEG);in semiconductor heterostructures. To describe collective plasma;excitations in the 2DEG, we develop a generalized transmission line;theoretical formalism consistent with the plasma hydrodynamic model. We;then apply this formalism to analyze the plasmonic spectra of 2DEG;systems with steplike periodic changes of electron density, gate;screening, or both. We show that in a periodically modulated 2DEG, a;plasmonic crystal is formed, and we derive closed-form analytical;expressions describing its energy band spectrum for both infinite and;finite size crystals. Our results demonstrate a nonmonotonic dependence;of the plasmonic band gap width on the electron density modulation. At;so-called transparency points, where the plasmon propagates through the;periodic 2DEG in a resonant manner, the plasmonic band gaps vanish. In;semi-infinite plasmonic crystals, we demonstrate the formation of;plasmonic Tamm states and analytically derive their energy dispersion;and spatial localization. Finally, we present detailed numerical;analysis of the plasmonic band structure of a finite four-period;plasmonic crystal terminated either by an ohmic contact or by an;infinite barrier on each side. We trace the evolution of the plasmonic;band spectrum, including the Tamm states, with changing electron density;modulation and analyze the boundary conditions necessary for formation;of the Tamm states. We also analyze interaction between the Tamm states;formed at the opposite edges of the short length plasmonic crystal. The;validity of our theoretical approach was confirmed in experimental;studies of plasmonic crystals in short, modulated plasmonic cavities;[Dyer et al., Phys. Rev. Lett. 109, 126803 (2012)], which demonstrated;excellent quantitative agreement between theory and experiment.;DOI:10.1103/PhysRevB.86.235316;9;0;0;0;9;1098-0121;WOS:000312833200005;;;J;Arakawa, Tomonori;Tanaka, Takahiro;Chida, Kensaku;Matsuo, Sadashige;Nishihara, Yoshitaka;Chiba, Daichi;Kobayashi, Kensuke;Ono, Teruo;Fukushima, Akio;Yuasa, Shinji;Low-frequency and shot noises in CoFeB/MgO/CoFeB magnetic tunneling;junctions;PHYSICAL REVIEW B;86;22;224423;10.1103/PhysRevB.86.224423;DEC 28 2012;2012;The low-frequency and shot noises in spin-valve CoFeB/MgO/CoFeB magnetic;tunneling junctions were studied at low temperature. The measured 1/f;noise around the magnetic hysteresis loops of the free layer indicates;that the main origin of the 1/f noise is the magnetic fluctuation, which;is discussed in terms of a fluctuation-dissipation relation. Random;telegraph noise (RTN) is observed to be symmetrically enhanced in the;hysteresis loop with regard to the two magnetic configurations. We found;that this enhancement is caused by the fluctuation between two magnetic;states in the free layer. Although the 1/f noise is almost independent;of the magnetic configuration, the RTN is enhanced in the antiparallel;configuration. These findings indicate the presence of spin-dependent;activation of RTN. Shot noise reveals the spin-dependent coherent;tunneling process via a crystalline MgO barrier. DOI:;10.1103/PhysRevB.86.224423;Kobayashi, Kensuke/E-5404-2010;Kobayashi, Kensuke/0000-0001-7072-5945;4;0;0;0;4;1098-0121;WOS:000312832400004;;;J;Cucchiara, J.;Le Gall, S.;Fullerton, E. E.;Kim, J. -V.;Ravelosona, D.;Henry, Y.;Katine, J. A.;Kent, A. D.;Bedau, D.;Gopman, D.;Mangin, S.;Domain wall motion in nanopillar spin-valves with perpendicular;anisotropy driven by spin-transfer torques;PHYSICAL REVIEW B;86;21;214429;10.1103/PhysRevB.86.214429;DEC 28 2012;2012;Using transport measurements and micromagnetic simulations we have;investigated the domain wall motion driven by spin-transfer torques in;all-perpendicular hexagonal nanopillar spin-valves. In particular, we;probe domain walls nucleated in the free layer of the spin-valves, which;are then pinned in the devices. We have determined both the;field-current state diagrams for the domain-wall state and the thermally;activated dynamics of the nucleation and depinning processes. We show;that the nucleation process is well-described by a modified Neel-Brown;model taking into account the spin-transfer torque, whereas the;depinning process is independent of the current. This is confirmed by an;analytical calculation which shows that spin-torques have no effect on;the Arrhenius escape rate associated with thermally activated domain;wall depinning in this geometry. Furthermore, micromagnetic simulations;indicate that spin-transfer only weakly affects the domain wall motion,;but instead modifies the inner domain wall structure. DOI:;10.1103/PhysRevB.86.214429;Kim, Joo-Von/B-3672-2008; Fullerton, Eric/H-8445-2013;Kim, Joo-Von/0000-0002-3849-649X; Fullerton, Eric/0000-0002-4725-9509;0;0;0;0;0;1098-0121;WOS:000312830800003;;;J;Fernandez-Dominguez, A. I.;Zhang, P.;Luo, Y.;Maier, S. A.;Garcia-Vidal, F. J.;Pendry, J. B.;Transformation-optics insight into nonlocal effects in separated;nanowires;PHYSICAL REVIEW B;86;24;241110;10.1103/PhysRevB.86.241110;DEC 28 2012;2012;We present a transformation-optics approach which sheds analytical;insight into the impact that spatial dispersion has on the optical;response of separated dimers of metallic nanowires. We show that;nonlocal effects are apparent at interparticle distances one order of;magnitude larger than the longitudinal plasmon decay length, which;coincides with the spatial regime where electron tunneling phenomena;occur. Our method also clarifies the interplay between nonlocal and;radiation effects taking place in the nanostructure, yielding the dimer;dimensions that optimize its light harvesting capabilities. DOI:;10.1103/PhysRevB.86.241110;Luo, Yu/C-7799-2009; Fernandez-Dominguez, Antonio I./C-4448-2013; Garcia-Vidal, Francisco /B-8280-2011;Luo, Yu/0000-0003-2925-682X; Fernandez-Dominguez, Antonio;I./0000-0002-8082-395X; Garcia-Vidal, Francisco /0000-0003-4354-0982;10;0;0;0;10;1098-0121;WOS:000312834100001;;;J;Gati, E.;Koehler, S.;Guterding, D.;Wolf, B.;Knoener, S.;Ran, S.;Bud'ko, S. L.;Canfield, P. C.;Lang, M.;Hydrostatic-pressure tuning of magnetic, nonmagnetic, and;superconducting states in annealed Ca(Fe1-xCox)(2)As-2;PHYSICAL REVIEW B;86;22;220511;10.1103/PhysRevB.86.220511;DEC 28 2012;2012;We report on measurements of the magnetic susceptibility and electrical;resistance under He-gas pressure on single crystals of;Ca(Fe1-xCox)(2)As-2. We find that for properly heat-treated crystals;with modest Co concentration, x = 0.028, the salient ground states;associated with iron-arsenide superconductors, i.e.,;orthorhombic/antiferromagnetic (o/afm), superconducting, and nonmagnetic;collapsed-tetragonal (cT) states can be accessed all in one sample with;reasonably small and truly hydrostatic pressure. This is possible owing;to the extreme sensitivity of the o/afm (for T <= T-s,T-N) and;superconducting (T <= T-c) states against variation of pressure,;disclosing pressure coefficients of dT(s,N)/dP = -(1100 +/- 50) K/GPa;and dT(c)/dP = -(60 +/- 3) K/GPa, respectively. Systematic;investigations of the various phase transitions and ground states via;pressure tuning revealed no coexistence of bulk superconductivity (sc);with the o/afm state which we link to the strongly first-order character;of the corresponding structural/magnetic transition in this compound.;Our results, together with literature results, indicate that preserving;fluctuations associated with the o/afm transition to low enough;temperatures is vital for sc to form. DOI: 10.1103/PhysRevB.86.220511;Canfield, Paul/H-2698-2014;14;0;0;0;14;1098-0121;WOS:000312832400001;;;J;Hakobyan, Ye.;Tadmor, E. B.;James, R. D.;Objective quasicontinuum approach for rod problems;PHYSICAL REVIEW B;86;24;245435;10.1103/PhysRevB.86.245435;DEC 28 2012;2012;An objective quasicontinuum (OQC) method is developed for simulating;rodlike systems that can be represented as a combination of locally;objective structures. An objective structure (OS) is one for which a;group of atoms, called a "fundamental domain" (FD), is repeated using;specific rules of translation and rotation to build a more complex;structure. An objective Cauchy-Born rule defines the kinematics of the;OS atoms in terms of a set of symmetry parameters and the positions of;the FD atoms. The computational advantage lies in the capability of;representing a large system of atoms through a small set of symmetry;parameters and FD atom positions. As an illustrative example, we;consider the deformation of a copper single-crystal nanobeam which can;be described as an OS. OQC simulations are performed for uniform and;nonuniform bending for two different orientations (nanobeam axis;oriented along [111] and [100]) and compared with elastica results. In;the uniform bending case, the [111]-oriented single-crystal nanobeam;experiences elongation, while the [100]-oriented nanobeam experiences;contraction in total length. The nonuniform bending allows for;stretching, contraction, and bending as deformation. Under certain;loading conditions, dislocation nucleation is observed within the FD.;DOI: 10.1103/PhysRevB.86.245435 PACS number(s): 61.46.Km, 62.23.Hj,;81.07.Gf, 02.70.Ns;1;0;0;0;1;1098-0121;WOS:000312834100006;;;J;He, Jing;Wang, Bo;Kou, Su-Peng;Ferromagnetism and antiferromagnetism of a correlated topological;insulator with a flat band;PHYSICAL REVIEW B;86;23;235146;10.1103/PhysRevB.86.235146;DEC 28 2012;2012;In this paper, based on the mean-field approach and random-phase;approximation, we studied the magnetic properties of the spinfull;Haldane model on honeycomb lattice of topological flat band with onsite;repulsive Coulomb interaction. We found that the antiferromagnetic (AF);order is more stable than the ferromagnetic (FM) order at, or near, half;filling. Away from half filling, the phase diagram becomes complex: at;large doping, the FM order is more stable than the AF order due to the;flatness of band structure. In particular, we found that at quarter;filling, the system becomes a Chern number Q = 1 topological insulator;induced by the FM order. DOI:10.1103/PhysRevB.86.235146;1;0;0;0;1;1098-0121;WOS:000312833200002;;;J;Hu, Jianbo;Misochko, Oleg V.;Goto, Arihiro;Nakamura, Kazutaka G.;Delayed formation of coherent LO phonon-plasmon coupled modes in n- and;p-type GaAs measured using a femtosecond coherent control technique;PHYSICAL REVIEW B;86;23;235145;10.1103/PhysRevB.86.235145;DEC 28 2012;2012;Coherent control experiments using a pair of collinear femtosecond laser;pulses have been carried out to manipulate longitudinal optical (LO);phonon-plasmon coupled (LOPC) modes in both p-and n-type GaAs. By tuning;the interpulse separation, remarkably distinct responses have been;observed in the two samples. To understand the results obtained a;phenomenological model taking the delayed formation of coherent LOPC;modes into account is proposed. The model suggests that the lifetime of;coherent LOPC modes plays a key role and the interference of the;coherent LO phonons excited successively by two pump pulses strongly;affects the manipulation of coherent LOPC modes.;DOI:10.1103/PhysRevB.86.235145;Oleg, Misochko/E-6136-2013; Nakamura, Kazutaka/F-4095-2014;0;0;0;0;0;1098-0121;WOS:000312833200001;;;J;Imura, Ken-Ichiro;Okamoto, Mayuko;Yoshimura, Yukinori;Takane, Yositake;Ohtsuki, Tomi;Finite-size energy gap in weak and strong topological insulators;PHYSICAL REVIEW B;86;24;245436;10.1103/PhysRevB.86.245436;DEC 28 2012;2012;The nontrivialness of a topological insulator (TI) is characterized;either by a bulk topological invariant or by the existence of a;protected metallic surface state. Yet, in realistic samples of finite;size, this nontrivialness does not necessarily guarantee the gaplessness;of the surface state. Depending on the geometry and on the topological;indices, a finite-size energy gap of different nature can appear, and,;correspondingly, exhibit various scaling behaviors of the gap. The;spin-to-surface locking provides one such gap-opening mechanism,;resulting in a power-law scaling of the energy gap. Weak and strong TIs;show different degrees of sensitivity to the geometry of the sample. As;a noteworthy example, a strong TI nanowire of a rectangular-prism shape;is shown to be more gapped than that of a weak TI of precisely the same;geometry. DOI: 10.1103/PhysRevB.86.245436 PACS number(s): 73.22.-f,;73.20.At, 72.80.Sk;Imura, Ken/D-6633-2013;11;0;0;0;11;1098-0121;WOS:000312834100007;;;J;Lenertz, M.;Alaria, J.;Stoeffler, D.;Colis, S.;Dinia, A.;Mentre, O.;Andre, G.;Porcher, F.;Suard, E.;Magnetic structure of ground and field-induced ordered states of;low-dimensional alpha-CoV2O6: Experiment and theory;PHYSICAL REVIEW B;86;21;214428;10.1103/PhysRevB.86.214428;DEC 28 2012;2012;In this work, we investigate the magnetic properties of the monoclinic;alpha-CoV2O6 by powder neutron diffraction measurements and ab initio;calculations. An emphasis has been pointed towards the magnetic;structure and the interaction between the Co ions leading to magnetic;frustrations in this compound. Neutron diffraction experiments were;carried out both in the ground state (zero magnetic field) and under;applied external field of 2.5 and 5 T corresponding to the ferrimagnetic;and ferromagnetic states, respectively. The antiferromagnetic ground;state below 14 K corresponds to k = (1,0, 1/2) magnetic propagation;vector in C1 space group. The magnetic structure can be described by;ferromagnetic interactions along the chains (b axis) and;antiferromagnetic coupling between the chains (along a and c axes). The;ferrimagnetic structure implies a ninefold unit cell (3a, b, 3c) in;which ferromagnetic chains follow an "up-up-down" sequence along the a;and c axes. In the ferromagnetic state, the spin orientations remain;unchanged while every chain lies ferromagnetically ordered. In all;cases, the magnetic moments lie in the ac plane, along the CoO6;octahedra axis, at an angle of 9.3 degrees with respect to the c axis.;The magnetic structure of alpha-CoV2O6 resolved for all the ordered;states is successfully related to a theoretical model. Ab initio;calculations allowed us to (i) confirm the ground-state magnetic;structure, (ii) calculate the interactions between the Co ions, (iii);explain the frustration leading to the stepped variation of the;magnetization curves, (iv) calculate the orbital magnetic moment (1.5;mu(B)) on Co atoms, and (v) confirm the direction of the magnetic;moments near the c direction. DOI: 10.1103/PhysRevB.86.214428;10;0;0;0;10;1098-0121;WOS:000312830800002;;;J;Nakajima, Nobuo;Oki, Megumi;Isohama, Yoichi;Maruyama, Hiroshi;Tezuka, Yasuhisa;Ishiji, Kotaro;Iwazumi, Toshiaki;Okada, Kozo;Enhancement of dielectric constant of BaTiO3 nanoparticles studied by;resonant x-ray emission spectroscopy;PHYSICAL REVIEW B;86;22;224114;10.1103/PhysRevB.86.224114;DEC 28 2012;2012;The nanoscopic origin of the enhancement of the dielectric constant of;BaTiO3 nanoparticles was investigated by means of Ti K beta resonant;x-ray emission spectroscopy. Two inelastic peaks due to charge-transfer;excitations were observed, one of which disappeared as the particle size;(d) was reduced, while the other remained unchanged. This is consistent;with the fact that tetragonality was also reduced with decreasing d. The;origin of the large enhancement in the dielectric constant is briefly;discussed from a microscopic point of view. DOI:;10.1103/PhysRevB.86.224114;3;0;0;0;3;1098-0121;WOS:000312832400003;;;J;Olmon, Robert L.;Slovick, Brian;Johnson, Timothy W.;Shelton, David;Oh, Sang-Hyun;Boreman, Glenn D.;Raschke, Markus B.;Optical dielectric function of gold;PHYSICAL REVIEW B;86;23;235147;10.1103/PhysRevB.86.235147;DEC 28 2012;2012;In metal optics gold assumes a special status because of its practical;importance in optoelectronic and nano-optical devices, and its role as a;model system for the study of the elementary electronic excitations that;underlie the interaction of electromagnetic fields with metals. However,;largely inconsistent values for the frequency dependence of the;dielectric function describing the optical response of gold are found in;the literature. We performed precise spectroscopic ellipsometry;measurements on evaporated gold, template-stripped gold, and;single-crystal gold to determine the optical dielectric function across;a broad spectral range from 300 nm to 25 mu m (0.05-4.14 eV) with high;spectral resolution. We fit the data to the Drude free-electron model,;with an electron relaxation time tau(D) = 14 +/- 3 fs and plasma energy;h omega(p) = 8.45 eV. We find that the variation in dielectric functions;for the different types of samples is small compared to the range of;values reported in the literature. Our values, however, are comparable;to the aggregate mean of the collection of previous measurements from;over the past six decades. This suggests that although some variation;can be attributed to surface morphology, the past measurements using;different approaches seem to have been plagued more by systematic errors;than previously assumed. DOI:10.1103/PhysRevB.86.235147;22;2;0;0;22;1098-0121;WOS:000312833200003;;;J;Phuong, L. Q.;Ichimiya, M.;Ishihara, H.;Ashida, M.;Multiple light-coupling modes of confined excitons observable in;photoluminescence spectra of high-quality CuCl thin films;PHYSICAL REVIEW B;86;23;235449;10.1103/PhysRevB.86.235449;DEC 28 2012;2012;We report the observation of multiple light-coupling modes of excitons;confined in CuCl thin films with thicknesses of a few hundred nanometers;beyond the long-wavelength approximation in photoluminescence spectra.;Due to a remarkably long coupling length between light and;multinode-type excitons resulted from very high crystalline quality of;thin films, photoluminescence signals from the excitonic states;corresponding to not only odd but also even quantum numbers, which are;optically forbidden in the long-wavelength approximation, are clearly;observed. The full width at half maximum of the excitonic state deduced;qualitatively from the corresponding photoluminescence band shows almost;the same dependence on the quantum number as the theoretical prediction.;DOI:10.1103/PhysRevB.86.235449;0;0;0;0;0;1098-0121;WOS:000312833200008;;;J;Reynoso, Andres A.;Usaj, Gonzalo;Balseiro, C. A.;Feinberg, D.;Avignon, M.;Spin-orbit-induced chirality of Andreev states in Josephson junctions;PHYSICAL REVIEW B;86;21;214519;10.1103/PhysRevB.86.214519;DEC 28 2012;2012;We study Josephson junctions (JJs) in which the region between the two;superconductors is a multichannel system with Rashba spin-orbit coupling;(SOC) where a barrier or a quantum point contact (QPC) is present. These;systems might present unconventional Josephson effects such as Josephson;currents for zero phase difference or critical currents that depend on;the current direction. Here, we discuss how the spin polarizing;properties of the system in the normal state affect the spin;characteristics of the Andreev bound states inside the junction. This;results in a strong correlation between the spin of the Andreev states;and the direction in which they transport Cooper pairs. While the;current-phase relation for the JJ at zero magnetic field is;qualitatively unchanged by SOC, in the presence of a weak magnetic;field, a strongly anisotropic behavior and the mentioned anomalous;Josephson effects follow. We show that the situation is not restricted;to barriers based on constrictions such as QPCs and should generically;arise if in the normal system the direction of the carrier's spin is;linked to its direction of motion. DOI: 10.1103/PhysRevB.86.214519;Usaj, Gonzalo/E-6394-2010;Usaj, Gonzalo/0000-0002-3044-5778;5;0;0;0;5;1098-0121;WOS:000312830800005;;;J;Sato, W.;Komatsuda, S.;Ohkubo, Y.;Characteristic local association of In impurities dispersed in ZnO;PHYSICAL REVIEW B;86;23;235209;10.1103/PhysRevB.86.235209;DEC 28 2012;2012;Local environments in 0.5 at.% In-doped ZnO were investigated by means;of the time-differential perturbed angular correlation (TDPAC) method.;In a comparative study, using the Cd-111 probe nuclei as the decay;products of different parents, In-111 and Cd-111m, we found that In-111;microscopically forms a unique structure with nonradioactive In ion(s);dispersed in ZnO, whereas (111)mCd has no specific interaction with the;In impurities. The spectral damping of the TDPAC spectra is attributed;to the aftereffect following the EC decay of In-111. It was demonstrated;from the aftereffect that the local density and/or mobility of;conduction electrons at the In-111 probe site in the In-doped ZnO is;lowered due to the characteristic structure locally formed by the;dispersed In ion(s). DOI:10.1103/PhysRevB.86.235209;1;0;0;0;1;1098-0121;WOS:000312833200004;;;J;Sherman, Benjamin L.;Wilson, Hugh F.;Weeraratne, Dayanthie;Militzer, Burkhard;Ab initio simulations of hot dense methane during shock experiments;PHYSICAL REVIEW B;86;22;224113;10.1103/PhysRevB.86.224113;DEC 28 2012;2012;Using density functional theory molecular dynamics simulations, we;predict shock Hugoniot curves of precompressed methane up to 75 000 K;for initial densities ranging from 0.35 to 0.70 g cm(-3). At 4000 K, we;observe the transformation into a metallic, polymeric state consisting;of long hydrocarbon chains. These chains persist when the sample is;quenched to 300 K, leading to an increase in shock compression. At 6000;K, the sample transforms into a plasma composed of many, short-lived;chemical species. We conclude by discussing implications for the;interiors of Uranus and Neptune and analyzing the possibility of;creating a superionic state of methane in high pressure experiments.;DOI:10.1103/PhysRevB.86.224113;Wilson, Hugh/B-3447-2009;4;0;0;0;4;1098-0121;WOS:000312832400002;;;J;Trescher, Maximilian;Bergholtz, Emil J.;Flat bands with higher Chern number in pyrochlore slabs;PHYSICAL REVIEW B;86;24;241111;10.1103/PhysRevB.86.241111;DEC 28 2012;2012;A large number of recent works point to the emergence of intriguing;analogs of fractional quantum Hall states in lattice models due to;effective interactions in nearly flat bands with Chern number C = 1.;Here, we provide an intuitive and efficient construction of almost;dispersionless bands with higher Chern numbers. Inspired by the physics;of quantum Hall multilayers and pyrochlore-based transition-metal;oxides, we study a tight-binding model describing spin-orbit coupled;electrons in N parallel kagome layers connected by apical sites forming;N - 1 intermediate triangular layers (as in the pyrochlore lattice). For;each N, we find finite regions in parameter space giving a virtually;flat band with C = N. We analytically express the states within these;topological bands in terms of single-layer states and thereby explicitly;demonstrate that the C = N wave functions have an appealing structure in;which layer index and translations in reciprocal space are intricately;coupled. This provides a promising arena for new collective states of;matter. DOI: 10.1103/PhysRevB.86.241111;Bergholtz, Emil/C-3820-2008;Bergholtz, Emil/0000-0002-9739-2930;29;0;1;0;29;1098-0121;WOS:000312834100002;;;J;van Duijn, J.;Ruiz-Bustos, R.;Daoud-Aladine, A.;Kagome-like lattice distortion in the pyrochlore material Hg2Ru2O7;PHYSICAL REVIEW B;86;21;214111;10.1103/PhysRevB.86.214111;DEC 28 2012;2012;The structural transition which accompanies the metal to insulator;transition (MIT), at T = 107 K, in the pyrochlore material Hg2Ru2O7, was;investigated by high-resolution neutron powder diffraction measurements.;Below the MIT the symmetry is lowered from cubic to monoclinic and the;Ru-Ru bonds, which are equal in the pyrochlore phase (3.60147 angstrom),;become split into short (3.599 37 angstrom), medium (3.6028 angstrom),;and long bonds (3.6047 angstrom). As a result the exchange interactions;between the Ru atoms become more two dimensional. The short and medium;bonds form layers, which are separated by the long bonds, that run;parallel to the monoclinic ab plane. Overall the low-temperature;structure of Hg2Ru2O7 can best be described as a stacking of Kagome-like;layers. DOI: 10.1103/PhysRevB.86.214111;0;0;0;0;0;1098-0121;WOS:000312830800001;;;J;Vanevic, Mihajlo;Belzig, Wolfgang;Control of electron-hole pair generation by biharmonic voltage drive of;a quantum point contact;PHYSICAL REVIEW B;86;24;241306;10.1103/PhysRevB.86.241306;DEC 28 2012;2012;A time-dependent electromagnetic field creates electron-hole excitations;in a Fermi sea at low temperature. We show that the electron-hole pairs;can be generated in a controlled way using harmonic and biharmonic;time-dependent voltages applied to a quantum contact, and we obtain the;probabilities of the pair creations. For a biharmonic voltage drive, we;find that the probability of a pair creation decreases in the presence;of an in-phase second harmonic. This accounts for the suppression of the;excess noise observed experimentally (Gabelli and Reulet,;arXiv:1205.3638), proving that dynamic control and detection of;elementary excitations in quantum conductors are within the reach of the;present technology. DOI: 10.1103/PhysRevB.86.241306;6;1;0;0;6;1098-0121;WOS:000312834100004;;;J;Virgus, Yudistira;Purwanto, Wirawan;Krakauer, Henry;Zhang, Shiwei;Ab initio many-body study of cobalt adatoms adsorbed on graphene;PHYSICAL REVIEW B;86;24;241406;10.1103/PhysRevB.86.241406;DEC 28 2012;2012;Many recent calculations have been performed to study a Co atom adsorbed;on graphene, with significantly varying results on the nature of the;bonding. We use the auxiliary-field quantum Monte Carlo method and a;size-correction embedding scheme to accurately calculate the binding;energy of Co on graphene. We find that as a function of the distance h;between the Co atom and the sixfold hollow site, there are three;distinct ground states corresponding to three electronic configurations;of the Co atom. Two of these states provide binding and exhibit a;double-well feature with nearly equal binding energy of 0.4 eV at h =;1.51 and h = 1.65 angstrom, corresponding to low-spin Co-2 (3d(9) 4s(0));and high-spin Co-4 (3d(8) 4s(1)), respectively. DOI:;10.1103/PhysRevB.86.241406;3;0;0;0;3;1098-0121;WOS:000312834100005;;;J;Xing, Jie;Li, Sheng;Ding, Xiaxin;Yang, Huan;Wen, Hai-Hu;Superconductivity appears in the vicinity of semiconducting-like;behavior in CeO1-xFxBiS2;PHYSICAL REVIEW B;86;21;214518;10.1103/PhysRevB.86.214518;DEC 28 2012;2012;Resistive and magnetic properties have been measured in BiS2-based;samples CeO1-xFxBiS2 with a systematic substitution of O with F (0 < x <;0.6). In contrast to the band-structure calculations, it is found that;the parent phase of CeOBiS2 is a bad metal instead of a band insulator.;By doping electrons into the system, it is surprising to find that;superconductivity appears together with a semiconducting normal state.;This evolution is clearly different from the cuprate and the iron;pnictide systems, and is interpreted as approaching the Pomeranchuk;transition with a von Hove singularity and the possible;charge-density-wave instability. Furthermore, ferromagnetism, which may;arise from the Ce magnetic moments, has been observed in the;low-temperature region in all samples, suggesting the coexistence of;superconductivity and ferromagnetism in the superconducting samples.;DOI: 10.1103/PhysRevB.86.214518;55;0;1;0;56;1098-0121;WOS:000312830800004;;;J;Yaji, Koichiro;Hatta, Shinichiro;Aruga, Tetsuya;Okuyama, Hiroshi;Structural and electronic properties of the Pb/Ge(111)-beta(root 3 x;root 3)R30 degrees surface studied by photoelectron spectroscopy and;first-principles calculations;PHYSICAL REVIEW B;86;23;235317;10.1103/PhysRevB.86.235317;DEC 28 2012;2012;We have studied structural and electronic properties of a Ge(111);surface covered with a monatomic Pb layer [Pb/Ge(111)-beta] by means of;core-level photoelectron spectroscopy, angle-resolved photoelectron;spectroscopy (ARPES), and a first-principles band structure calculation.;There has been a controversy about the surface structure of;Pb/Ge(111)-beta between a close-packed model with a coverage of 4/3;monolayers and a trimer model with a coverage of 1 monolayer. This;problem has been examined by analyzing the line shape of a Pb 5d;core-level spectrum and comparing the experimental band structure with;those calculated for two models. The line shape of the core-level;spectrum agrees with a close-packed model. The valence band structure;observed by ARPES has been well reproduced by the calculation employing;the close-packed model. The close-packed model therefore describes;correctly the surface structure of Pb/Ge(111)-beta. The;scanning-tunneling microscopy (STM) image simulated for the close-packed;model is in good agreement with the experimental filled-state STM image,;in which three protrusions per unit cell were observed.;DOI:10.1103/PhysRevB.86.235317;Aruga, Tetsuya/B-7782-2010; Okuyama, Hiroshi/H-7570-2014;2;1;0;0;2;1098-0121;WOS:000312833200006;;;J;Yang, Shuo;Gu, Zheng-Cheng;Sun, Kai;Das Sarma, S.;Topological flat band models with arbitrary Chern numbers;PHYSICAL REVIEW B;86;24;241112;10.1103/PhysRevB.86.241112;DEC 28 2012;2012;We report the theoretical discovery of a systematic scheme to produce;topological flat bands (TFBs) with arbitrary Chern numbers. We find that;generically a multiorbital high Chern number TFB model can be;constructed by considering multilayer Chern number C = 1 TFB models with;enhanced translational symmetry. A series of models are presented as;examples, including a two-band model on a triangular lattice with a;Chern number C = 3 and an N-band square lattice model with C = N for an;arbitrary integer N. In all these models, the flatness ratio for the;TFBs is larger than 30 and increases with increasing Chern number. In;the presence of appropriate interparticle interactions, these models are;likely to lead to the formation of Abelian and non-Abelian fractional;Chern insulators. As a simple example, we test the C = 2 model with;hardcore bosons at 1/3 filling, and an intriguing fractional quantum;Hall state is observed. DOI: 10.1103/PhysRevB.86.241112;Sun, Kai/F-2282-2010; Yang, Shuo/D-1372-2011; Das Sarma, Sankar/B-2400-2009; Gu, Zheng-Cheng/L-5415-2014;Sun, Kai/0000-0001-9595-7646; Yang, Shuo/0000-0001-9733-8566;;24;0;1;0;24;1098-0121;WOS:000312834100003;;;J;Yue, Qu;Chang, Shengli;Tan, Jichun;Qin, Shiqiao;Kang, Jun;Li, Jingbo;Symmetry-dependent transport properties and bipolar spin filtering in;zigzag alpha-graphyne nanoribbons;PHYSICAL REVIEW B;86;23;235448;10.1103/PhysRevB.86.235448;DEC 28 2012;2012;First-principles calculations are performed to investigate the transport;properties of zigzag alpha-graphyne nanoribbons (ZaGNRs). It is found;that asymmetric Z alpha GNRs behave as conductors with linear;current-voltage relationships, whereas symmetric Z alpha GNRs have very;small currents under finite bias voltages, similar to those of zigzag;graphene nanoribbons. The symmetry-dependent transport properties arise;from different coupling rules between the pi and pi* subbands around the;Fermi level, which are dependent on the wave-function symmetry of the;two subbands. Based on the coupling rules, we further demonstrate the;bipolar spin-filtering effect in the symmetric Z alpha GNRs. It is shown;that nearly 100% spin-polarized current can be produced and modulated by;the direction of bias voltage and/or magnetization configuration of the;electrodes. Moreover, the magnetoresistance effect with the order larger;than 500 000% is also predicted. Our calculations suggest Z alpha GNRs;as a promising candidate material for spintronics.;DOI:10.1103/PhysRevB.86.235448;Kang, Jun/F-7105-2011;7;1;0;0;7;1098-0121;WOS:000312833200007;;;J;Berry, Joel;Provatas, Nikolas;Rottler, Joerg;Sinclair, Chad W.;Defect stability in phase-field crystal models: Stacking faults and;partial dislocations;PHYSICAL REVIEW B;86;22;224112;10.1103/PhysRevB.86.224112;DEC 27 2012;2012;The primary factors controlling defect stability in phase-field crystal;(PFC) models are examined, with illustrative examples involving several;existing variations of the model. Guidelines are presented for;constructing models with stable defect structures that maintain high;numerical efficiency. The general framework combines both long-range;elastic fields and basic features of atomic-level core structures, with;defect dynamics operable over diffusive time scales. Fundamental;elements of the resulting defect physics are characterized for the case;of fcc crystals. Stacking faults and split Shockley partial dislocations;are stabilized for the first time within the PFC formalism, and various;properties of associated defect structures are characterized. These;include the dissociation width of perfect edge and screw dislocations,;the effect of applied stresses on dissociation, Peierls strains for;glide, and dynamic contraction of gliding pairs of partials. Our results;in general are shown to compare favorably with continuum elastic;theories and experimental findings. DOI: 10.1103/PhysRevB.86.224112;Rottler, Joerg/L-5539-2013;8;0;0;0;8;1098-0121;WOS:000312831900001;;;J;Emary, Clive;Lambert, Neill;Nori, Franco;Leggett-Garg inequality in electron interferometers;PHYSICAL REVIEW B;86;23;235447;10.1103/PhysRevB.86.235447;DEC 27 2012;2012;We consider the violation of the Leggett-Garg inequality in electronic;Mach-Zehnder inteferometers. This setup has two distinct advantages over;earlier quantum-transport proposals: Firstly, the required correlation;functions can be obtained without time-resolved measurements. Secondly,;the geometry of an interferometer allows one to construct the;correlation functions from ideal negative measurements, which addresses;the noninvasiveness requirement of the Leggett-Garg inequality. We;discuss two concrete realizations of these ideas: the first in quantum;Hall edge-channels, the second in a double quantum dot interferometer.;DOI: 10.1103/PhysRevB.86.235447 PACS number(s): 03.65.Ud, 73.23.-b,;03.65.Ta, 42.50.Lc;Lambert, Neill/B-4998-2009; Emary, Clive/B-9596-2008; Nori, Franco/B-1222-2009;Emary, Clive/0000-0002-9822-8390; Nori, Franco/0000-0003-3682-7432;3;0;0;0;3;1098-0121;WOS:000312832900004;;;J;Kato, Yuto;Endo, Akira;Katsumoto, Shingo;Iye, Yasuhiro;Geometric resonances in the magnetoresistance of hexagonal lateral;superlattices;PHYSICAL REVIEW B;86;23;235315;10.1103/PhysRevB.86.235315;DEC 27 2012;2012;We have measured magnetoresistance of hexagonal lateral superlattices.;We observe three types of oscillations engendered by periodic potential;modulation having hexagonal-lattice symmetry: amplitude modulation of;the Shubnikov-de Haas oscillations, commensurability oscillations, and;the geometric resonances of open orbits generated by Bragg reflections.;The latter two reveal the presence of two characteristic periodicities,;root 3a/2 and a/2, inherent in a hexagonal lattice with the lattice;constant a. The formation of the hexagonal-superlattice minibands;manifested by the observation of open orbits marks the first step toward;realizing massless Dirac fermions in semiconductor 2DEGs. DOI:;10.1103/PhysRevB.86.235315 PACS number(s): 73.43.Qt, 73.23.-b, 73.21.Cd;1;0;0;0;1;1098-0121;WOS:000312832900002;;;J;Lin, I-Tan;Liu, Jia-Ming;Shi, Kai-Yao;Tseng, Pei-Shan;Wu, Kuang-Hsiung;Luo, Chih-Wei;Li, Lain-Jong;Terahertz optical properties of multilayer graphene: Experimental;observation of strong dependence on stacking arrangements and;misorientation angles;PHYSICAL REVIEW B;86;23;235446;10.1103/PhysRevB.86.235446;DEC 27 2012;2012;The optical conductivity of monolayer and multilayer graphene in the;terahertz spectral region is experimentally measured using terahertz;time-domain spectroscopy. The stacking arrangement and the;misorientation angle of each sample are determined by Raman;spectroscopy. The chemical potential of each sample is measured using;ultrafast midinfrared pump-probe spectroscopy to be 63 or 64 meV for all;samples. The intraband scattering rate can be obtained by fitting the;measured data with theoretical models. Other physical parameters,;including carrier density, dc conductivity, and carrier mobility, of;each sample can also be deduced from the theoretical fitting. The;fitting results show the existence of misoriented or AA-stacked layers;with an interaction energy of alpha(1) = 217 meV in our multilayer;samples. Here we show that the scattering rate strongly depends on the;stacking arrangement of the sample. High scattering rates and high;optical conductivity are associated with AA-stacked samples, while lower;ones are associated with misoriented multilayer graphene. This implies;that the THz optoelectronic properties of multilayer graphene can be;tuned by purposefully misorienting layers or employing different;stacking schemes. DOI: 10.1103/PhysRevB.86.235446 PACS number(s):;78.67.Wj, 61.48.Gh, 72.80.Vp, 73.50.Mx;Li, Lain-Jong/D-5244-2011; Luo, Chih Wei/D-3485-2013;Li, Lain-Jong/0000-0002-4059-7783; Luo, Chih Wei/0000-0002-6453-7435;11;0;0;0;11;1098-0121;WOS:000312832900003;;;J;Lundgren, Rex;Chua, Victor;Fiete, Gregory A.;Entanglement entropy and spectra of the one-dimensional Kugel-Khomskii;model;PHYSICAL REVIEW B;86;22;224422;10.1103/PhysRevB.86.224422;DEC 27 2012;2012;We study the quantum entanglement of the spin and orbital degrees of;freedom in the one-dimensional Kugel-Khomskii model, which includes both;gapless and gapped phases, using analytical techniques and exact;diagonalization with up to 16 sites. We compute the entanglement entropy;and the entanglement spectra using a variety of partitions or "cuts" of;the Hilbert space, including two distinct real-space cuts and a;momentum-space cut. Our results show that the Kugel-Khomski model;possesses a number of new features not previously encountered in studies;of the entanglement spectra. Notably, we find robust gaps in the;entanglement spectra for both gapped and gapless phases with the orbital;partition, and show these are not connected to each other. The counting;of the low-lying entanglement eigenvalues shows that the "virtual edge";picture, which equates the low-energy Hamiltonian of a virtual edge,;here one gapless leg of a two-leg ladder, to the "low-energy";entanglement Hamiltonian, breaks down for this model, even though the;equivalence has been shown to hold for a similar cut in a large class of;closely related models. In addition, we show that a momentum space cut;in the gapless phase leads to qualitative differences in the;entanglement spectrum when compared with the same cut in the gapless;spin-1/2 Heisenberg spin chain. We emphasize the new information content;in the entanglement spectra compared to the entanglement entropy, and;using quantum entanglement, we present a refined phase diagram of the;model. Using analytical arguments, exploiting various symmetries of the;model, and applying arguments of adiabatic continuity from two exactly;solvable points of the model, we are also able to prove several results;regarding the structure of the low-lying entanglement eigenvalues. DOI:;10.1103/PhysRevB.86.224422;11;0;1;0;12;1098-0121;WOS:000312831900002;;;J;L'vov, Victor S.;Nazarenko, Sergey V.;Comment on "Symmetry of Kelvin-wave dynamics and the Kelvin-wave cascade;in the T=0 superfluid turbulence";PHYSICAL REVIEW B;86;22;226501;10.1103/PhysRevB.86.226501;DEC 27 2012;2012;We comment on the paper by Sonin [Phys. Rev. B 85, 104516 (2012)] with;most statements of which we disagree. We use this option to shed light;on some important issues of a theory of Kelvin-wave turbulence, touched;on in Sonin's paper, in particular, on the relation between the Vinen;spectrum of strong and the L'vov-Nazarenko spectrum of weak turbulence;of Kelvin waves. We also discuss the role of explicit calculation of the;Kelvin-wave interaction Hamiltonian and "symmetry arguments" that have;to resolve a contradiction between the Kozik-Svistunov and the;L'vov-Nazarenko spectrum of weak turbulence of Kelvin waves. DOI:;10.1103/PhysRevB.86.226501;5;1;0;0;5;1098-0121;WOS:000312831900003;;;J;Misguich, G.;Schwinger boson mean-field theory: Numerics for the energy landscape and;gauge excitations in two-dimensional antiferromagnets;PHYSICAL REVIEW B;86;24;245132;10.1103/PhysRevB.86.245132;DEC 27 2012;2012;We perform some systematic numerical search for Schwinger boson;mean-field states on square and triangular clusters. We look for;possible inhomogeneous ground states as well as low-energy excited;saddle points. The spectrum of the Hessian is also computed for each;solution. On the square lattice, we find gapless U(1) gauge modes in the;nonmagnetic phase. In the Z(2) liquid phase of the triangular lattice,;we identify the topological degeneracy as well as vison states.;DOI:10.1103/PhysRevB.86.245132;2;0;0;0;2;1098-0121;WOS:000312833600001;;;J;Mokhlespour, Salman;Haverkort, J. E. M.;Slepyan, Gregory;Maksimenko, Sergey;Hoffmann, A.;Collective spontaneous emission in coupled quantum dots: Physical;mechanism of quantum nanoantenna;PHYSICAL REVIEW B;86;24;245322;10.1103/PhysRevB.86.245322;DEC 27 2012;2012;We investigate the collective spontaneous emission in a system of two;identical quantum dots (QDs) strongly coupled through the dipole-dipole;(d-d) interaction. The QDs are modeled as two-level quantum objects,;while the d-d interaction is described as the exchange of a virtual;photon through the photonic reservoir. The master equation approach is;used in the analysis. The main attention is focused on antenna;characteristics of the two-QD system-the radiation intensity dependence;on the meridian and azimuthal angles of observation. We show that the;radiation pattern of such a system is nonstationary and its temporal;behavior depends on the initial quantum state. In particular, for;entangled initial states the radiative pattern exhibits oscillations on;the frequency which corresponds to the d-d interaction energy. We also;analyze spectral properties of the directional diagram. The comparison;of radiation patterns is carried out for two QDs and two classical;dipoles. The concept of quantum nanoantenna is proposed based on;collective spontaneous emission in QD ensembles.;DOI:10.1103/PhysRevB.86.245322;Maksimenko, Sergey/F-1888-2011;Maksimenko, Sergey/0000-0002-8271-0449;8;1;0;0;8;1098-0121;WOS:000312833600002;;;J;Muravev, V. M.;Gusikhin, P. A.;Tsydynzhapov, G. E.;Fortunatov, A. A.;Kukushkin, I. V.;Spectroscopy of terahertz radiation using high-Q photonic crystal;microcavities;PHYSICAL REVIEW B;86;23;235144;10.1103/PhysRevB.86.235144;DEC 27 2012;2012;We report observation of high-Q resonance in the photoresponse of a;detector embedded in the 2D photonic crystal slab (PCS) microcavity;illuminated by terahertz radiation. The detector and PCS are fabricated;from a single GaAs wafer in a unified process. The influence of the;period of PCS lattice, microcavity geometry, and detector location on;the resonant photoresponse is studied. The resonance is found to;originate from coupling of the fundamental PCS microcavity photon mode;to the detector. The phenomenon can be exploited to devise a;spectrometer-on-a-chip for terahertz range. DOI:;10.1103/PhysRevB.86.235144 PACS number(s): 42.50.-p, 42.70.Qs, 42.79.-e,;73.21.-b;0;0;0;0;0;1098-0121;WOS:000312832900001;;;J;Reguzzoni, M.;Fasolino, A.;Molinari, E.;Righi, M. C.;Potential energy surface for graphene on graphene: Ab initio derivation,;analytical description, and microscopic interpretation;PHYSICAL REVIEW B;86;24;245434;10.1103/PhysRevB.86.245434;DEC 27 2012;2012;We derive an analytical expression that describes the interaction energy;between two graphene layers identically oriented as a function of the;relative lateral and vertical positions, in excellent agreement with;first principles calculations. Thanks to its formal simplicity, the;proposed model allows for an immediate interpretation of the;interactions, in particular of the potential corrugation. This last;quantity plays a crucial role in determining the intrinsic resistance to;interlayer sliding and its increase upon compression influences the;frictional behavior under load. We show that, for these weakly adherent;layers, the corrugation possesses the same nature and z dependence of;Pauli repulsion. We investigate the microscopic origin of these;phenomena by analyzing the electronic charge distribution: We observe a;pressure-induced charge transfer from the interlayer region toward the;near-layer regions, with a much more consistent depletion of charge;occurring for the AA stacking than for the AB stacking of the two;layers. DOI:10.1103/PhysRevB.86.245434;8;0;0;0;8;1098-0121;WOS:000312833600003;;;J;Sonin, E. B.;Reply to "Comment on 'Symmetry of Kelvin-wave dynamics and the;Kelvin-wave cascade in the T=0 superfluid turbulence'";PHYSICAL REVIEW B;86;22;226502;10.1103/PhysRevB.86.226502;DEC 27 2012;2012;The goal of the Comment by L'vov and Nazarenko is to refute my;perviously published criticism of their mechanism of the Kelvin-wave;cascade. It is important, however, that, in their Comment, L'vov and;Nazarenko admitted that the Hamiltonian, from which they derived their;mechanism, is not tilt invariant. This provides full ammunition to their;critics, who believe that their mechanism is in conflict with the tilt;symmetry of the Kelvin-wave dynamics and, therefore, is not valid for;the real isotropic world. DOI: 10.1103/PhysRevB.86.226502;3;1;0;0;3;1098-0121;WOS:000312831900004;;;J;Swaminathan, Narasimhan;Morgan, Dane;Szlufarska, Izabela;Role of recombination kinetics and grain size in radiation-induced;amorphization;PHYSICAL REVIEW B;86;21;214110;10.1103/PhysRevB.86.214110;DEC 27 2012;2012;Using a rate theory model for a generic one-component material, we;investigated interactions between grain size and recombination kinetics;of radiation-induced defects. Specifically, by varying parametrically;nondimensional kinetic barriers for defect diffusion and recombination,;we determined the effect of these parameters on the shape of the dose to;amorphization versus temperature curves. We found that whether grain;refinement to the nanometer regime improves or deteriorates radiation;resistance of a material depends on the barriers to defect migration and;recombination, as well as on the temperature for the intended use of the;material. We show that the effects of recombination barriers and of;grain refinement can be coupled to each other to produce a phenomenon of;interstitial starvation. In interstitial starvation, a significant;number of interstitials annihilate at the grain boundary, leaving behind;unrecombined vacancies, which in turn amorphize the material. The same;rate theory model with material-specific parameters was used to predict;the grain-size dependence of the critical amorphization temperature in;SiC. Parameters for the SiC model were taken from ab initio;calculations. We find that the fine-grained SiC has a lower radiation;resistance when compared to the polycrystalline SiC due to the presence;of high-energy barrier for recombination of carbon Frenkel pairs and due;to the interstitial starvation phenomenon. DOI:;10.1103/PhysRevB.86.214110;Morgan, Dane/B-7972-2008;Morgan, Dane/0000-0002-4911-0046;5;0;0;0;5;1098-0121;WOS:000312830600001;;;J;Ahart, Muhtar;Sinogeikin, Stanislav;Shebanova, Olga;Ikuta, Daijo;Ye, Zuo-Guang;Mao, Ho-kwang;Cohen, R. E.;Hemley, Russell J.;Pressure dependence of the monoclinic phase in;(1-x)Pb(Mg1/3Nb2/3)O-3-xPbTiO(3) solid solutions;PHYSICAL REVIEW B;86;22;224111;10.1103/PhysRevB.86.224111;DEC 26 2012;2012;We combine high-pressure x-ray diffraction, high-pressure Raman;scattering, and optical microscopy to investigate a series of (1 -;x)Pb(Mg1/3Nb2/3)O-3-xPbTiO(3) (PMN-xPT) solid solutions (x = 0.2, 0.3,;0.33, 0.35, 0.37, 0.4) in diamond anvil cells up to 20 GPa at 300 K. The;Raman spectra show a peak centered at 380 cm(-1) starting above 6 GPa;for all samples, in agreement with previous observations. X-ray;diffraction measurements are consistent with this spectral change;indicating a structural phase transition; we find that the triplet at;the pseudocubic (220) Bragg peak merges into a doublet above 6 GPa. Our;results indicate that the morphotropic phase boundary region (x = 0.33 -;0.37) with the presence of monoclinic symmetry persists up to 7 GPa. The;pressure dependence of ferroelectric domains in PMN-0.32PT single;crystals was observed using a polarizing optical microscope. The domain;wall density decreases with pressure and the domains disappear at a;modest pressure of 3 GPa. We propose a pressure-composition phase;diagram for PMN-xPT solid solutions. DOI: 10.1103/PhysRevB.86.224111;Cohen, Ronald/B-3784-2010;Cohen, Ronald/0000-0001-5871-2359;2;0;0;0;2;1098-0121;WOS:000312831800006;;;J;Akrap, Ana;Tran, Michael;Ubaldini, Alberto;Teyssier, Jeremie;Giannini, Enrico;van der Marel, Dirk;Lerch, Philippe;Homes, Christopher C.;Optical properties of Bi2Te2Se at ambient and high pressures;PHYSICAL REVIEW B;86;23;235207;10.1103/PhysRevB.86.235207;DEC 26 2012;2012;The temperature dependence of the complex optical properties of the;three-dimensional topological insulator Bi2Te2Se is reported for light;polarized in the a-b planes at ambient pressure, as well as the effects;of pressure at room temperature. This material displays a semiconducting;character with a bulk optical gap of E-g similar or equal to 300 meV at;295 K. In addition to the two expected infrared-active vibrations;observed in the planes, there is an additional fine structure that is;attributed to either the removal of degeneracy or the activation of;Raman modes due to disorder. A strong impurity band located at similar;or equal to 200 cm(-1) is also observed. At and just above the optical;gap, several interband absorptions are found to show a strong;temperature and pressure dependence. As the temperature is lowered these;features increase in strength and harden. The application of pressure;leads to a very abrupt closing of the gap above 8 GPa, and strongly;modifies the interband absorptions in the midinfrared spectral range.;While ab initio calculations fail to predict the collapse of the gap,;they do successfully describe the size of the band gap at ambient;pressure, and the magnitude and shape of the optical conductivity. DOI:;10.1103/PhysRevB.86.235207;Teyssier, Jeremie/A-6867-2013; Akrap, Ana/G-1409-2013;Akrap, Ana/0000-0003-4493-5273;10;0;0;0;10;1098-0121;WOS:000312832600007;;;J;Andersen, Kirsten;Jacobsen, Karsten W.;Thygesen, Kristian S.;Spatially resolved quantum plasmon modes in metallic nano-films from;first-principles;PHYSICAL REVIEW B;86;24;245129;10.1103/PhysRevB.86.245129;DEC 26 2012;2012;Electron energy loss spectroscopy (EELS) can be used to probe plasmon;excitations in nanostructured materials with atomic-scale spatial;resolution. For structures smaller than a few nanometers, quantum;effects are expected to be important, limiting the validity of widely;used semiclassical response models. Here we present a method to identify;and compute spatially resolved plasmon modes from first-principles based;on a spectral analysis of the dynamical dielectric function. As an;example we calculate the plasmon modes of 0.5 to 4 nm thick Na films and;find that they can be classified as (conventional) surface modes,;subsurface modes, and a discrete set of bulk modes resembling standing;waves across the film. We find clear effects of both quantum confinement;and nonlocal response. The quantum plasmon modes provide an intuitive;picture of collective excitations of confined electron systems and offer;a clear interpretation of spatially resolved EELS spectra. DOI:;10.1103/PhysRevB.86.245129;Jacobsen, Karsten/B-3602-2009; Thygesen, Kristian /B-1062-2011;6;0;0;0;6;1098-0121;WOS:000312833400007;;;J;Baker, A. M. R.;Alexander-Webber, J. A.;Altebaeumer, T.;Janssen, T. J. B. M.;Tzalenchuk, A.;Lara-Avila, S.;Kubatkin, S.;Yakimova, R.;Lin, C. -T.;Li, L. -J.;Nicholas, R. J.;Weak localization scattering lengths in epitaxial, and CVD graphene;PHYSICAL REVIEW B;86;23;235441;10.1103/PhysRevB.86.235441;DEC 26 2012;2012;Weak localization in graphene is studied as a function of carrier;density in the range from 1 x 10(11) cm(-2) to 1.43 x 10(13) cm(-2);using devices produced by epitaxial growth onto SiC and CVD growth on;thin metal film. The magnetic field dependent weak localization is found;to be well fitted by theory, which is then used to analyze the;dependence of the scattering lengths L-phi, L-i, and L-* on carrier;density. We find no significant carrier dependence for L-phi, a weak;decrease for L-i with increasing carrier density just beyond a large;standard error, and a n(-1/4) dependence for L-*. We demonstrate that;currents as low as 0.01 nA are required in smaller devices to avoid;hot-electron artifacts in measurements of the quantum corrections to;conductivity. DOI: 10.1103/PhysRevB.86.235441;Lara-Avila, Samuel/B-4878-2013; Lin, Cheng-Te/D-5203-2011; Materials, Semiconductor/I-6323-2013;Lara-Avila, Samuel/0000-0002-8331-718X; Lin,;Cheng-Te/0000-0002-7090-9610;;11;0;0;0;11;1098-0121;WOS:000312832600015;;;J;Bergeret, F. S.;Verso, A.;Volkov, A. F.;Electronic transport through ferromagnetic and superconducting junctions;with spin-filter tunneling barriers;PHYSICAL REVIEW B;86;21;214516;10.1103/PhysRevB.86.214516;DEC 26 2012;2012;We present a theoretical study of the quasiparticle and subgap;conductance of generic X/I-sf/S-M junctions with a spin-filter barrier;I-sf, where X is either a normal N or a ferromagnetic metal F and S-M is;a superconductor with a built-in exchange field. Our study is based on;the tunneling Hamiltonian and the Green's-function technique. First, we;focus on the quasiparticle transport, both above and below the;superconducting critical temperature. We obtain a general expression for;the tunneling conductance which is valid for arbitrary values of the;exchange field and arbitrary magnetization directions in the electrodes;and in the spin-filter barrier. In the second part, we consider the;subgap conductance of a N/I-sf/S junction, where S is a conventional;superconductor. In order to account for the spin-filter effect at;interfaces, we heuristically derive boundary conditions for the;quasiclassical Green's functions. With the help of these boundary;conditions, we show that the proximity effect and the subgap conductance;are suppressed by spin filtering in a N/I-sf/S junction. Our work;provides useful tools for the study of spin-polarized transport in;hybrid structures both in the normal and in the superconducting state.;DOI: 10.1103/PhysRevB.86.214516;CSIC-UPV/EHU, CFM/F-4867-2012; DONOSTIA INTERNATIONAL PHYSICS CTR., DIPC/C-3171-2014;7;1;0;0;7;1098-0121;WOS:000312830400009;;;J;Beugnot, Jean-Charles;Laude, Vincent;Electrostriction and guidance of acoustic phonons in optical fibers;PHYSICAL REVIEW B;86;22;224304;10.1103/PhysRevB.86.224304;DEC 26 2012;2012;We investigate the generation of acoustic phonons in optical fibers via;electrostriction from coherent optical waves. Solving the elastodynamic;equation subject to the electrostrictive force, we are able to reproduce;the experimental spectra found in standard and photonic crystal fibers.;We discuss the two important practical cases of forward interaction,;dominated by elastic resonances of the fiber, and backward interaction,;for which an efficient mechanism of phonon guidance is found. The last;result describes the formation of the coherent phonon beam involved in;stimulated Brillouin scattering. DOI: 10.1103/PhysRevB.86.224304;Laude, Vincent/C-4484-2008;Laude, Vincent/0000-0001-8930-8797;3;0;0;0;3;1098-0121;WOS:000312831800007;;;J;Blanc, Nils;Coraux, Johann;Vo-Van, Chi;N'Diaye, Alpha T.;Geaymond, Olivier;Renaud, Gilles;Local deformations and incommensurability of high-quality epitaxial;graphene on a weakly interacting transition metal;PHYSICAL REVIEW B;86;23;235439;10.1103/PhysRevB.86.235439;DEC 26 2012;2012;We investigate the fine structure of graphene on iridium, which is a;model for graphene weakly interacting with a transition-metal substrate.;Even the highest-quality epitaxial graphene displays tiny imperfections,;i.e., small biaxial strains of similar to 0.3%, rotations of similar to;0.5 degrees, and shears over distances of similar to 100 nm, and is;found incommensurate, as revealed by x-ray diffraction and scanning;tunneling microscopy. These structural variations are mostly induced by;the increase of the lattice parameter mismatch when cooling the sample;from the graphene preparation temperature to the measurement;temperature. Although graphene weakly interacts with iridium, its;thermal expansion is found to be positive, contrary to free-standing;graphene. The structure of graphene and its variations is very sensitive;to the preparation conditions. All these effects are consistent with;initial growth and subsequent pinning of graphene at steps. DOI:;10.1103/PhysRevB.86.235439;Coraux, Johann/A-7897-2008;5;0;0;0;5;1098-0121;WOS:000312832600013;;;J;Blomeier, S.;Candeloro, P.;Hillebrands, B.;Reuscher, B.;Brodyanski, A.;Kopnarski, M.;Micromagnetism and magnetization reversal of embedded ferromagnetic;elements (vol 74, 184405, 2006);PHYSICAL REVIEW B;86;21;219904;10.1103/PhysRevB.86.219904;DEC 26 2012;2012;Hillebrands, Burkard/C-6242-2008;Hillebrands, Burkard/0000-0001-8910-0355;0;0;0;0;0;1098-0121;WOS:000312830400011;;;J;Bud'ko, Sergey L.;Liu, Yong;Lograsso, Thomas A.;Canfield, Paul C.;Hydrostatic and uniaxial pressure dependence of superconducting;transition temperature of KFe2As2 single crystals;PHYSICAL REVIEW B;86;22;224514;10.1103/PhysRevB.86.224514;DEC 26 2012;2012;We present heat capacity, c-axis thermal expansion and;pressure-dependent, low-field, temperature-dependent magnetization for;pressures up to similar to 12 kbar, data for KFe2As2 single crystals.;T-c decreases under pressure with dT(c)/dP approximate to -0.10 K/kbar.;The inferred uniaxial, c-axis, pressure derivative is positive,;dT(c)/dp(c) approximate to 0.11 K/kbar. The data are analyzed in;comparison with those for overdoped Fe-based superconductors. Arguments;are presented that superconductivity in KFe2As2 may be different from;the other overdoped, Fe-based materials in the 122 family. DOI:;10.1103/PhysRevB.86.224514;Canfield, Paul/H-2698-2014;9;0;0;0;9;1098-0121;WOS:000312831800013;;;J;Bulaevskii, Lev N.;Lin, Shi-Zeng;Self-induced pinning of vortices in the presence of ac driving force in;magnetic superconductors;PHYSICAL REVIEW B;86;22;224513;10.1103/PhysRevB.86.224513;DEC 26 2012;2012;We derive the response of the magnetic superconductors in the vortex;state to the ac Lorentz force, F-L (t) = F-ac sin(omega t), taking into;account the interaction of vortices with the magnetic moments described;by the relaxation dynamics (polaronic effect). At low amplitudes of the;driving force F-ac the dissipation in the system is suppressed due to;the enhancement of the effective viscosity at low frequencies and due to;formation of the magnetic pinning at high frequencies omega. In the;adiabatic limit with low frequencies omega and high amplitude of the;driving force F-ac, the vortex and magnetic polarization form a vortex;polaron when F-L (t) is small. When F-L increases, the vortex polaron;accelerates and at a threshold driving force, the vortex polaron;dissociates and the motion of vortex and the relaxation of magnetization;are decoupled. When F-L decreases, the vortex is retrapped by the;background of remnant magnetization and they again form vortex polaron.;This process repeats when F-L (t) increases in the opposite direction.;Remarkably, after dissociation, decoupled vortices move in the periodic;potential induced by magnetization which remains for some periods of;time due to retardation after the decoupling. At this stage vortices;oscillate with high frequencies determined by the Lorentz force at the;moment of dissociation. We derive also the creep rate of vortices and;show that magnetic moments suppress creep rate. DOI:;10.1103/PhysRevB.86.224513;Lin, Shi-Zeng/B-2906-2008;Lin, Shi-Zeng/0000-0002-4368-5244;3;0;0;0;3;1098-0121;WOS:000312831800012;;;J;Butler, C. A. M.;Hobson, P. A.;Hibbins, A. P.;Sambles, J. R.;Resonant microwave transmission from a double layer of subwavelength;metal square arrays: Evanescent handedness;PHYSICAL REVIEW B;86;24;241109;10.1103/PhysRevB.86.241109;DEC 26 2012;2012;Adouble layer of identical subwavelengthmetal patch arrays is;experimentally shown to be electromagnetically chiral due to the;evanescent coupling of the near fields between nonchiral layers-it;exhibits "evanescent handedness." Despite each layer being intrinsically;isotropic in the plane with four mirror planes orthogonal to the plane;of the structure, circular dichroism, leading to significant;polarization rotation, is found in the resonant microwave transmission;for any incident linear polarization. DOI: 10.1103/PhysRevB.86.241109;1;0;0;0;1;1098-0121;WOS:000312833400002;;;J;Calder, S.;Cao, G. -X.;Lumsden, M. D.;Kim, J. W.;Gai, Z.;Sales, B. C.;Mandrus, D.;Christianson, A. D.;Magnetic structural change of Sr2IrO4 upon Mn doping;PHYSICAL REVIEW B;86;22;220403;10.1103/PhysRevB.86.220403;DEC 26 2012;2012;The layered 5d transition-metal oxide Sr2IrO4 has been shown to host a;novel J(eff) = 1/2 Mott spin-orbit insulating state with;antiferromagnetic ordering, leading to comparisons with the layered;cuprates. Here we study the effect of substituting Mn for Ir in single;crystals of Sr2Ir0.9Mn0.1O4 through an investigation involving bulk;measurements and resonant x-ray and neutron scattering. We observe a new;long-range magnetic structure emerge upon doping through a reordering of;the spins from the basal plane to the c axis with a reduced ordering;temperature compared to Sr2IrO4 . The strong enhancement of the magnetic;x-ray scattering intensity at the L-3 edge relative to the L-2 edge;indicates that the J(eff) = 1/2 state is robust and capable of hosting a;variety of ground states. DOI: 10.1103/PhysRevB.86.220403;Gai, Zheng/B-5327-2012; Mandrus, David/H-3090-2014;Gai, Zheng/0000-0002-6099-4559;;9;1;0;0;9;1098-0121;WOS:000312831800002;;;J;Camjayi, Alberto;Arrachea, Liliana;Conductance of a quantum dot in the Kondo regime connected to dirty;wires;PHYSICAL REVIEW B;86;23;235143;10.1103/PhysRevB.86.235143;DEC 26 2012;2012;We study the transport behavior induced by a small bias voltage through;a quantum dot connected to one-channel disordered wires by means of a;quantum Monte Carlo method. We model the quantum dot by the;Hubbard-Anderson impurity and the wires by the one-dimensional Anderson;model with diagonal disorder within a length. We present a complete;description of the probability distribution function of the conductance;within the Kondo regime. DOI: 10.1103/PhysRevB.86.235143;1;0;0;0;1;1098-0121;WOS:000312832600005;;;J;Chen, Ying;Liu, Rui;Cai, Min;Shinar, Ruth;Shinar, Joseph;Extremely strong room-temperature transient photocurrent-detected;magnetic resonance in organic devices;PHYSICAL REVIEW B;86;23;235442;10.1103/PhysRevB.86.235442;DEC 26 2012;2012;An extremely strong room-temperature photocurrent- (PC- or I-PC-);detected magnetic resonance (PCDMR) that elucidates transport and;trapping phenomena in organic devices, in particular solar cells, is;described. When monitoring the transient PCDMR in indium tin oxide;(ITO)/poly(2-methoxy-5-(2'-ethyl)-hexoxy-1,4-phenylenevinylene);(MEH-PPV)/Al devices, where the MEH-PPV film was baked overnight at 100;degrees C in O-2, it is observed that | Delta I-PC/I-PC| peaks at values;>> 1, where Delta I-PC is the change in I-PC induced by magnetic;resonance conditions. Importantly, Delta I-PC and I-PC are of different;origin. The mechanism most likely responsible for this effect is the;spin-dependent formation of spinless bipolarons adjacent to negatively;charged deep traps, apparently induced in particular by oxygen centers,;to form trions. DOI: 10.1103/PhysRevB.86.235442;Cai, Min/A-2678-2014;1;0;0;0;1;1098-0121;WOS:000312832600016;;;J;Cho, Gil Young;Bardarson, Jens H.;Lu, Yuan-Ming;Moore, Joel E.;Superconductivity of doped Weyl semimetals: Finite-momentum pairing and;electronic analog of the He-3-A phase;PHYSICAL REVIEW B;86;21;214514;10.1103/PhysRevB.86.214514;DEC 26 2012;2012;We study superconducting states of doped inversion-symmetric Weyl;semimetals. Specifically, we consider a lattice model realizing a Weyl;semimetal with an inversion symmetry and study the superconducting;instability in the presence of a short-ranged attractive interaction.;With a phonon-mediated attractive interaction, we find two competing;states: a fully gapped finite-momentum Fulde-Ferrell-Larkin-Ovchinnikov;pairing state and a nodal even-parity pairing state. We show that, in a;BCS-type approximation, the finite-momentum pairing state is;energetically favored over the usual even-parity paired state and is;robust against weak disorder. Although energetically unfavorable, the;even-parity pairing state provides an electronic analog of the He-3-A;phase in that the nodes of the even-parity state carry nontrivial;winding numbers and therefore support a surface flat band. We briefly;discuss other possible superconducting states that may be realized in;Weyl semimetals. DOI: 10.1103/PhysRevB.86.214514;12;0;0;0;12;1098-0121;WOS:000312830400007;;;J;Duivenvoorden, Kasper;Quella, Thomas;Discriminating string order parameter for topological phases of gapped;SU(N) spin chains;PHYSICAL REVIEW B;86;23;235142;10.1103/PhysRevB.86.235142;DEC 26 2012;2012;One-dimensional gapped spin chains with symmetry PSU(N) = SU(N)/Z(N) are;known to possess N different topological phases. In this paper, we;introduce a nonlocal string order parameter which characterizes each of;these N phases unambiguously. Numerics confirm that our order parameter;allows one to extract a quantized topological invariant from a given;nondegenerate gapped ground state wave function. Discontinuous jumps in;the discrete topological order that arise when varying physical;couplings in the Hamiltonian may be used to detect quantum phase;transitions between different topological phases. DOI:;10.1103/PhysRevB.86.235142;Quella, Thomas/A-2630-2012;Quella, Thomas/0000-0002-5441-4124;6;0;0;0;6;1098-0121;WOS:000312832600004;;;J;Gao Xianlong;Chen, A-Hai;Tokatly, I. V.;Kurth, S.;Lattice density functional theory at finite temperature with strongly;density-dependent exchange-correlation potentials;PHYSICAL REVIEW B;86;23;235139;10.1103/PhysRevB.86.235139;DEC 26 2012;2012;The derivative discontinuity of the exchange-correlation (xc) energy at;an integer particle number is a property of the exact, unknown xc;functional of density functional theory (DFT) which is absent in many;popular local and semilocal approximations. In lattice DFT,;approximations exist which exhibit a discontinuity in the xc potential;at half-filling. However, due to convergence problems of the Kohn-Sham;(KS) self-consistency cycle, the use of these functionals is mostly;restricted to situations where the local density is away from;half-filling. Here a numerical scheme for the self-consistent solution;of the lattice KS Hamiltonian with a local xc potential with rapid (or;quasidiscontinuous) density dependence is suggested. The problem is;formulated in terms of finite-temperature DFT where the discontinuity in;the xc potential emerges naturally in the limit of zero temperature. A;simple parametrization is suggested for the xc potential of the uniform;one-dimensional (1D) Hubbard model at finite temperature which is;obtained from the solution of the thermodynamic Bethe ansatz. The;feasibility of the numerical scheme is demonstrated by application to a;model of fermionic atoms in a harmonic trap. The corresponding density;profile exhibits a plateau of integer occupation at low temperatures;which melts away for higher temperatures. DOI:;10.1103/PhysRevB.86.235139;Tokatly, Ilya/D-9554-2011; Chen, Ahai/D-6169-2013; Xianlong, Gao/K-8744-2012;Tokatly, Ilya/0000-0001-6288-0689; Xianlong, Gao/0000-0001-6914-3163;4;0;0;0;4;1098-0121;WOS:000312832600001;;;J;Hanson, George W.;Forati, Ebrahim;Linz, Whitney;Yakovlev, Alexander B.;Excitation of terahertz surface plasmons on graphene surfaces by an;elementary dipole and quantum emitter: Strong electrodynamic effect of;dielectric support;PHYSICAL REVIEW B;86;23;235440;10.1103/PhysRevB.86.235440;DEC 26 2012;2012;The excitation of transverse magnetic (TM) surface plasmons by a point;dipole in the vicinity of a multilayered graphene/dielectric system is;examined. It was previously shown that the surface plasmon (SP) excited;by a vertical dipole on an isolated graphene sheet exhibits a strong;excitation peak in the THz region; here we show that, in the presence of;a finite-thickness dielectric support layer such as SiO2, considerable;spectral content is transferred to a second (perturbed dielectric slab);mode, greatly decreasing and redshifting the excitation peak. The;presence of a Si half-space also diminishes the excitation strength, but;for graphene on top of SiO2-Si the presence of the SiO2 layer creates a;spacer restoring the excitation peak. A two-level quantum emitter is;also considered, where it is shown that the addition of a thin;dielectric support slab and SiO2-Si geometries affects the spontaneous;decay rate in a manner similar to the classical dipole SP excitation;peak. DOI: 10.1103/PhysRevB.86.235440;10;0;0;0;10;1098-0121;WOS:000312832600014;;;J;Hillier, N. J.;Foroozani, N.;Zocco, D. A.;Hamlin, J. J.;Baumbach, R. E.;Lum, I. K.;Maple, M. B.;Schilling, J. S.;Intrinsic dependence of T-c on hydrostatic (He-gas) pressure for;superconducting LaFePO, PrFePO, and NdFePO single crystals;PHYSICAL REVIEW B;86;21;214517;10.1103/PhysRevB.86.214517;DEC 26 2012;2012;Since their discovery in 2008, the Fe-based superconductors have;attracted a great deal of interest. Regrettably, themechanism(s);responsible for the superconductivity has yet to be unequivocally;identified. High pressure is an important variable since its application;moderates the pairing interaction. Thus far, the LnFePO (Ln = La, Pr,;Nd, Sm, Gd) family of superconductors has received relatively little;attention. Early high-pressure studies on LaFePO found that T-c;initially increased with pressure before passing through a maximum at;higher pressures. The present studies on both polycrystalline and;single-crystalline LaFePO, PrFePO, and NdFePO utilize the most;hydrostatic pressure medium available, i.e., dense He. Surprisingly, for;all samples, T-c is found to initially decrease rapidly with pressure at;the rate dT(c)/dP similar or equal to -2 to -3K/GPa. Less hydrostatic;pressure media thus appear to enhance the value of T-c in these;materials. These results give yet further evidence that the;superconducting state in Fe-based superconductors is extraordinarly;sensitive to lattice strain. DOI: 10.1103/PhysRevB.86.214517;Foroozani, Neda/H-2720-2013; Zocco, Diego/O-3440-2014;2;0;0;0;2;1098-0121;WOS:000312830400010;;;J;Hinuma, Yoyo;Oba, Fumiyasu;Kumagai, Yu;Tanaka, Isao;Ionization potentials of (112) and (11(2)over-bar) facet surfaces of;CuInSe2 and CuGaSe2;PHYSICAL REVIEW B;86;24;245433;10.1103/PhysRevB.86.245433;DEC 26 2012;2012;The ionization potentials of the faceted and nonfaceted (110) surfaces;of CuInSe2 (CIS) and CuGaSe2 (CGS), which are key components of;CuIn1-xGaxSe2 (CIGS) thin-film solar cells, are investigated using;first-principles calculations based on a hybrid Hartree-Fock density;functional theory approach. Slab models of the chalcopyrite (110);surface with both (112) and (11 (2) over bar) facets on each surface of;the slab are employed. Surface energy evaluations point out that two;types of faceted surfaces with point defects, namely a combination of;Cu-In (Cu-Ga) and In-Cu (Ga-Cu) antisites and a combination of Cu;vacancies and In-Cu (Ga-Cu) antisites, are the most stable depending on;the chemical potentials. The ionization potentials are evaluated with;two definitions: One highly sensitive to and the other less sensitive to;localized surface states. The latter varies by 0.4 eV in CIS and 0.5 eV;in CGS with the surface structure. The ionization potentials are reduced;by 0.2 eV for faceted surfaces with Cu-In (Cu-Ga) and In-Cu (Ga-Cu);antisites when the effects of the localized surface states are;considered. The values of both ionization potentials are similar between;CIS and CGS with a difference of about 0.1 eV for the most stable;surface structures. DOI: 10.1103/PhysRevB.86.245433;Kumagai, Yu/H-8104-2012; Tanaka, Isao/B-5941-2009; Oba, Fumiyasu/J-9723-2014;9;0;1;0;9;1098-0121;WOS:000312833400018;;;J;Hortamani, M.;Wiesendanger, R.;Role of hybridization in the Rashba splitting of noble metal monolayers;on W(110);PHYSICAL REVIEW B;86;23;235437;10.1103/PhysRevB.86.235437;DEC 26 2012;2012;In contradiction to the nature of the spin-orbit driven Rashba splitting;of surface states which increases with atomic number, Shikin et al.;[Phys. Rev. Lett. 100, 057601 (2008)] have observed that the size of the;splitting in Au overlayers on W(110) is smaller than for Ag overlayers.;In the framework of first-principle density functional theory, we have;studied the origin of the Rashba splitting at Au/Ag overlayers on the;W(110) surface. We show how the asymmetric behavior of the wave function;in the vicinity of the surface atom nucleus, in addition to the strength;of the nuclear potential gradient, plays a crucial role for the size of;the splitting. The influence of the electronic structure and spin;dependent hybridization on the Rashba splitting is discussed. The;asymmetric behavior of the surface wave function originates from the;surface-interface sp-d hybridization. We find that a spin dependent;hybridization in the Ag overlayer influences strongly the size of the;Rashba splitting. DOI: 10.1103/PhysRevB.86.235437;1;0;0;0;1;1098-0121;WOS:000312832600011;;;J;Hu, Xiang;Rueegg, Andreas;Fiete, Gregory A.;Topological phases in layered pyrochlore oxide thin films along the;[111] direction;PHYSICAL REVIEW B;86;23;235141;10.1103/PhysRevB.86.235141;DEC 26 2012;2012;We theoretically study a multiband Hubbard model of pyrochlore oxides of;the form A(2)B(2)O(7), where B is a heavy transition metal ion with;strong spin-orbit coupling, in a thin-film geometry orientated along the;[111] direction. Along this direction, the pyrochlore lattice consists;of alternating kagome and triangular lattice planes of B ions. We;consider a single kagome layer, a bilayer, and the two different;trilayers. As a function of the strength of the spin-orbit coupling, the;direct and indirect d-orbital hopping, and the band filling, we identify;a number of scenarios where a noninteracting time-reversal-invariant;Z(2) topological phase is expected and we suggest some candidate;materials. We study the interactions in the half-filled d shell within;Hartree-Fock theory and identify parameter regimes where a zero magnetic;field Chern insulator with Chern number +/- 1 can be found. The most;promising geometries for topological phases appear to be the bilayer;which supports both a Z(2) topological insulator and a Chern insulator,;and the triangular-kagome-triangular trilayer which supports a;relatively robust Chern insulator phase. DOI: 10.1103/PhysRevB.86.235141;Ruegg, Andreas/B-4498-2010;12;0;0;0;12;1098-0121;WOS:000312832600003;;;J;Janotti, A.;Bjaalie, L.;Gordon, L.;Van de Walle, C. G.;Controlling the density of the two-dimensional electron gas at the;SrTiO3/LaAlO3 interface;PHYSICAL REVIEW B;86;24;241108;10.1103/PhysRevB.86.241108;DEC 26 2012;2012;The polar discontinuity at the SrTiO3/LaAlO3 interface (STO/LAO) can in;principle sustain an electron density of 3.3 x 10(14) cm(-2) (0.5;electrons per unit cell). However, experimentally observed densities are;more than an order of magnitude lower. Using a combination of;first-principles and Schrodinger-Poisson simulations we show that the;problem lies in the asymmetric nature of the structure, i.e., the;inability to form a second LAO/STO interface that is a mirror image of;the first, or to fully passivate the LAO surface. Our insights apply to;oxide interfaces in general, explaining for instance why the;SrTiO3/GdTiO3 interface has been found to exhibit the full density of;3.3 x 10(14) cm(-2). DOI: 10.1103/PhysRevB.86.241108;Janotti, Anderson/F-1773-2011; Van de Walle, Chris/A-6623-2012;Janotti, Anderson/0000-0001-5028-8338; Van de Walle,;Chris/0000-0002-4212-5990;11;0;0;0;11;1098-0121;WOS:000312833400001;;;J;Kim, Changsoo;Jo, Euna;Kang, Byeongki;Kwon, Sangil;Lee, Soonchil;Shim, Jeong Hyun;Suzuki, Takehiko;Katsufuji, Takuro;Giant magnetic anisotropy in Mn3O4 investigated by Mn-55(2+) and;Mn-55(3+) NMR;PHYSICAL REVIEW B;86;22;224420;10.1103/PhysRevB.86.224420;DEC 26 2012;2012;In Mn3O4, the magnetization along the c axis is different from that;along the ab plane even in the strong field of 30 T. To investigate the;origin of the huge magnetic anisotropy, Mn2+ and Mn3+ nuclear magnetic;resonance spectra were measured in the 7-T magnetic field. The canting;angle of the magnetic moments was estimated for various directions of;field by rotating a single-crystalline Mn3O4 sample. One of the main;results is that Mn3+ moments lie nearly in the ab plane in the external;field perpendicular to the plane, meaning that the macroscopic magnetic;anisotropy of Mn3O4 originates from the magnetic anisotropy of Mn3+ in;the ab plane. The anisotropy field is estimated to be about 65 T. It is;obvious that the Yafet-Kittel structure made of Mn2+ and Mn3+ spins lies;in the ab plane due to this huge magnetic anisotropy, contrary to the;previous reports. By the least-squares fit of the canting angle data for;various field directions to a simple model, we obtained that J(BB) =;1.88J(AB) - 0.09 meV and K-A = -14.7J(AB) + 2.0 meV, where J(AB), J(BB),;and K-A are the exchange interaction constants between Mn2+ moments,;Mn2+ and Mn3+ moments, and an anisotropy constant of Mn2+, respectively.;DOI: 10.1103/PhysRevB.86.224420;Suzuki, Takehito/B-3038-2013; Lee, Soonchil/C-1963-2011;3;0;0;0;3;1098-0121;WOS:000312831800010;;;J;Kimber, Robin G. E.;Wright, Edward N.;O'Kane, Simon E. J.;Walker, Alison B.;Blakesley, James C.;Mesoscopic kinetic Monte Carlo modeling of organic photovoltaic device;characteristics;PHYSICAL REVIEW B;86;23;235206;10.1103/PhysRevB.86.235206;DEC 26 2012;2012;Measured mobility and current-voltage characteristics of single layer;and photovoltaic (PV) devices composed of;poly{9,9-dioctylfluorene-co-bis[N,N'-(4-butylphenyl)]bis(N,N'-phenyl-1,4;-phenylene)diamine} (PFB) and;poly(9,9-dioctylfluorene-co-benzothiadiazole) (F8BT) have been;reproduced by a mesoscopic model employing the kinetic Monte Carlo (KMC);approach. Our aim is to show how to avoid the uncertainties common in;electrical transport models arising from the need to fit a large number;of parameters when little information is available, for example, a;single current-voltage curve. Here, simulation parameters are derived;from a series of measurements using a self-consistent "building-blocks";approach, starting from data on the simplest systems. We found that site;energies show disorder and that correlations in the site energies and a;distribution of deep traps must be included in order to reproduce;measured charge mobility-field curves at low charge densities in bulk;PFB and F8BT. The parameter set from the mobility-field curves;reproduces the unipolar current in single layers of PFB and F8BT and;allows us to deduce charge injection barriers. Finally, by combining;these disorder descriptions and injection barriers with an optical;model, the external quantum efficiency and current densities of blend;and bilayer organic PV devices can be successfully reproduced across a;voltage range encompassing reverse and forward bias, with the;recombination rate the only parameter to be fitted, found to be 1 x;10(7) s(-1). These findings demonstrate an approach that removes some of;the arbitrariness present in transport models of organic devices, which;validates the KMC as an accurate description of organic optoelectronic;systems, and provides information on the microscopic origins of the;device behavior. DOI: 10.1103PhysRevB.86.235206;20;0;1;0;20;1098-0121;WOS:000312832600006;;;J;Kishine, Jun-ichiro;Bostrem, I. G.;Ovchinnikov, A. S.;Sinitsyn, Vl. E.;Coherent sliding dynamics and spin motive force driven by crossed;magnetic fields in a chiral helimagnet;PHYSICAL REVIEW B;86;21;214426;10.1103/PhysRevB.86.214426;DEC 26 2012;2012;We demonstrate that the chiral soliton lattice formed from a chiral;helimagnet exhibits a coherent sliding motion when a time-dependent;magnetic field is applied parallel to the helical axis, in addition to a;static field perpendicular to the helical axis. To describe the coherent;sliding, we use the collective coordinate method and a numerical;analysis. We also show that the time-dependent sliding velocity causes a;time-varying Berry cap which creates a spin motive force. A salient;feature of the chiral soliton lattice is the appearance of a strongly;amplified spin motive force which is directly proportional to the;macroscopic number of solitons (magnetic kinks). DOI:;10.1103/PhysRevB.86.214426;2;0;0;0;2;1098-0121;WOS:000312830400005;;;J;Kratzer, M.;Rubezhanska, M.;Prehal, C.;Beinik, I.;Kondratenko, S. V.;Kozyrev, Yu N.;Teichert, C.;Electrical and photovoltaic properties of self-assembled Ge nanodomes on;Si(001);PHYSICAL REVIEW B;86;24;245320;10.1103/PhysRevB.86.245320;DEC 26 2012;2012;SiGe nano-size islands play a key role in novel electronic and;optoelectronic devices. Therefore, the understanding of basic electrical;properties of individual nanoislands is crucial. Here, the electrical;and photovoltaic properties of individual self-assembled Ge nanodomes;(NDs) on Si(001) have been studied by conductive and photoconductive;atomic force microscopy (AFM). The transition areas between the {113};and {15 3 23} facets turned out to be most conductive whereas the {113};facets exhibit minimum conductivity, which is attributed to a local;increase in Si concentration. Local current-to-voltage measurements;revealed that the NDs show an ohmic resistance, which is in the M Omega;region and scales with the ND-substrate interface area. Upon;illumination by the AFM feedback laser at 860 nm, a photovoltage is;generated. This photovoltage originates in the p-i-n structure formed;between the p-type substrate, the Ge ND, and the n-type diamond AFM;probe. DOI: 10.1103/PhysRevB.86.245320;Teichert, Christian/F-1003-2013;3;0;0;0;3;1098-0121;WOS:000312833400010;;;J;Kudasov, Yu. B.;Maslov, D. A.;Frustration and charge order in LuFe2O4;PHYSICAL REVIEW B;86;21;214427;10.1103/PhysRevB.86.214427;DEC 26 2012;2012;The nature of a transition from two-to three-dimensional charge order;(2D-CO -> 3D-CO) in the multiferroic material LuFe2O4 is discussed. It;is shown that a high-temperature ordered phase of the Ising model with;antiferromagnetic or antiferroelectric (AF) interactions on a triangular;bilayer (W layer) is a dimer partially disordered AF (DPDA) state, which;is a generalization of a well-known partially disordered AF structure;for the triangular lattice. The DPDA state is stable against a variation;of interaction parameters in a wide range. It is demonstrated that the;transition of W layers to the DPDA state gives rise to the 2D-CO phase;in LuFe2O4 at a high temperature. DOI: 10.1103/PhysRevB.86.214427;1;1;0;0;1;1098-0121;WOS:000312830400006;;;J;Lee, Janghee;Park, Joonbum;Lee, Jae-Hyeong;Kim, Jun Sung;Lee, Hu-Jong;Gate-tuned differentiation of surface-conducting states in;Bi1.5Sb0.5Te1.7Se1.3 topological-insulator thin crystals;PHYSICAL REVIEW B;86;24;245321;10.1103/PhysRevB.86.245321;DEC 26 2012;2012;Using field-angle, temperature, and back-gate-voltage dependence of the;weak antilocalization (WAL) and universal conductance fluctuations of;thin Bi1.5Sb0.5Te1.7Se1.3 topological-insulator single crystals, in;combination with gate-tuned Hall resistivity measurements, we reliably;separated the surface conduction of the topological nature from both the;bulk conduction and topologically trivial surface conduction. We;minimized the bulk conduction in the crystals and back-gate tuned the;Fermi level to the topological bottom-surface band while keeping the top;surface insensitive to back-gating with the optimal crystal thickness of;similar to 100 nm. We argue that the WAL effect occurring by the;coherent diffusive motion of carriers in relatively low magnetic fields;is more essential than other transport tools such as the Shubnikov-de;Hass oscillations for confirming the conduction by the topologically;protected surface state. Our approach provides a highly coherent picture;of the surface transport properties of topological insulators and a;reliable means of investigating the fundamental topological nature of;surface conduction and possible quantum-device applications related to;momentum-locked spin polarization in surface states. DOI:;10.1103/PhysRevB.86.245321;Kim, Jun Sung/G-8861-2012; Lee, Janghee/E-7471-2013;Lee, Janghee/0000-0002-7398-9097;11;2;1;0;11;1098-0121;WOS:000312833400011;;;J;Lee, Soo-Yong;Lee, Hyun-Woo;Sim, H. -S.;Visibility recovery by strong interaction in an electronic Mach-Zehnder;interferometer;PHYSICAL REVIEW B;86;23;235444;10.1103/PhysRevB.86.235444;DEC 26 2012;2012;We study the evolution of a single-electron packet of Lorentzian shape;along an edge of the integer quantum Hall regime or in a Mach-Zehnder;interferometer, considering a capacitive Coulomb interaction and using a;bosonization approach. When the packet propagates along a chiral quantum;Hall edge, we find that its electron density profile becomes more;distorted from Lorentzian due to the generation of electron-hole;excitations, as the interaction strength increases yet stays in a;weak-interaction regime. However, as the interaction strength becomes;larger and enters a strong-interaction regime, the distortion becomes;weaker and eventually the Lorentzian packet shape is recovered. The;recovery of the packet shape leads to an interesting feature of the;interference visibility of the symmetric Mach-Zehnder interferometer;whose two arms have the same interaction strength. As the interaction;strength increases, the visibility decreases from the maximum value in;the weak-interaction regime and then increases to the maximum value in;the strong-interaction regime. We argue that this counterintuitive;result also occurs under other types of interactions. DOI:;10.1103/PhysRevB.86.235444;Lee, Hyun-Woo/B-8995-2008; Sim, Heung-Sun/C-1624-2011;Lee, Hyun-Woo/0000-0002-1648-8093;;1;0;0;0;1;1098-0121;WOS:000312832600018;;;J;Li, Qiuzi;Rossi, E.;Das Sarma, S.;Two-dimensional electronic transport on the surface of three-dimensional;topological insulators;PHYSICAL REVIEW B;86;23;235443;10.1103/PhysRevB.86.235443;DEC 26 2012;2012;We present a theoretical approach to describe the two-dimensional (2D);transport properties of the surfaces of three-dimensional topological;insulators (3DTIs) including disorder and phonon scattering effects. The;method that we present is able to take into account the effects of the;strong disorder-induced carrier density inhomogeneities that;characterize the ground state of the surfaces of 3DTIs, especially at;low doping, as recently shown experimentally. Due to the inhomogeneous;nature of the carrier density landscape, standard theoretical techniques;based on ensemble averaging over disorder assuming a spatially uniform;average carrier density are inadequate. Moreover the presence of strong;spatial potential and density fluctuations greatly enhances the effect;of thermally activated processes on the transport properties. The theory;presented is able to take into account all the effects due to the;disorder-induced inhomogeneities, momentum scattering by disorder, and;the effect of electron-phonon scattering processes. As a result the;developed theory is able to accurately describe the transport properties;of the surfaces of 3DTIs both at zero and finite temperature. DOI:;10.1103/PhysRevB.86.235443;Rossi, Enrico/K-2837-2012; Li, Qiuzi/F-6474-2011; Das Sarma, Sankar/B-2400-2009;Rossi, Enrico/0000-0002-2647-3610;;8;1;0;0;8;1098-0121;WOS:000312832600017;;;J;Liang, S. H.;Liu, D. P.;Tao, L. L.;Han, X. F.;Guo, Hong;Organic magnetic tunnel junctions: The role of metal-molecule interface;PHYSICAL REVIEW B;86;22;224419;10.1103/PhysRevB.86.224419;DEC 26 2012;2012;We report a first-principles theoretical investigation of spin-polarized;quantum transport in organic magnetic tunnel junctions (OMTJs) to;provide a microscopic understanding on the sign of the tunnel;magnetoresistance ratio (TMR). We consider two different OMTJs, formed;by sandwiching 1-stearic acid radicals (1-SAR) or 1,18-stearic diacid;radicals (1,18-SDR) between two Ni electrodes. Even though the main;difference between them is only on one of the Ni/molecule contacts, such;a structure difference is found to induce a significant sign change of;the TMR. The TMR is negative for 1-SAR at -19.6%, but is positive for;1,18-SDR at 13.7%. By investigating the concept of scattering density of;states (SDOS), we found that scattering processes of p electrons at the;Ni/molecule interface determines the sign of TMR. Based on spin;polarization of the SDOS, we extend the Julliere model to explain both;the sign and the value of the TMR qualitatively and semiquantitatively.;It is concluded that understanding spin-polarized quantum transport in;organic magnetic tunnel junction requires a comprehensive knowledge of;the electronic structures of the molecule, the metal electrode, and the;metal-molecule contacts. DOI: 10.1103/PhysRevB.86.224419;Guo, Hong/A-8084-2010;4;0;0;0;4;1098-0121;WOS:000312831800009;;;J;Liew, T. C. H.;Holographic arrays based on semiconductor microstructures;PHYSICAL REVIEW B;86;23;235314;10.1103/PhysRevB.86.235314;DEC 26 2012;2012;A concept of complex reflectivity modulation is proposed based on the;electrical control of quantum well exciton resonances that influence the;propagation of light in a layered semiconductor structure. By variation;in exciton energies, both the intensity and the phase of reflected light;can be fully controlled. Unlike previous devices, for full complex light;modulation, the design is based on a single device in a single;structure. The device allows complete 100% intensity contrast and allows;for the construction of small pixel sizes with fast response times. DOI:;10.1103/PhysRevB.86.235314;1;0;0;0;1;1098-0121;WOS:000312832600010;;;J;Lin, Chien-Hung;Sensarma, Rajdeep;Sengupta, K.;Sarma, S. Das;Quantum dynamics of disordered bosons in an optical lattice;PHYSICAL REVIEW B;86;21;214207;10.1103/PhysRevB.86.214207;DEC 26 2012;2012;We study the equilibrium and nonequilibrium properties of strongly;interacting bosons on a lattice in the presence of a random bounded;disorder potential. Using a Gutzwiller projected variational technique,;we study the equilibrium phase diagram of the disordered Bose-Hubbard;model and obtain the Mott insulator, Bose glass, and superfluid phases.;We also study the nonequilibrium response of the system under a periodic;temporal drive where, starting from the superfluid phase, the hopping;parameter is ramped down linearly in time, and back to its initial;value. We study the density of excitations created, the change in the;superfluid order parameter, and the energy pumped into the system in;this process as a function of the inverse ramp rate tau. For the clean;case the density of excitations goes to a constant, while the order;parameter and energy relax as 1/tau and 1/tau(2) respectively. With;disorder, the excitation density decays exponentially with t, with the;decay rate increasing with the disorder, to an asymptotic value;independent of the disorder. The energy and change in order parameter;also decrease as tau is increased. DOI: 10.1103/PhysRevB.86.214207;Das Sarma, Sankar/B-2400-2009;1;0;0;0;1;1098-0121;WOS:000312830400001;;;J;Luo, Yongkang;Bao, Jinke;Shen, Chenyi;Han, Jieke;Yang, Xiaojun;Lv, Chen;Li, Yuke;Jiao, Wenhe;Si, Bingqi;Feng, Chunmu;Dai, Jianhui;Cao, Guanghan;Xu, Zhu-An;Magnetism and crystalline electric field effect in ThCr2Si2-type;CeNi2As2;PHYSICAL REVIEW B;86;24;245130;10.1103/PhysRevB.86.245130;DEC 26 2012;2012;A millimeter-sized ThCr2Si2-type CeNi2As2 single crystal was synthesized;by the NaAs flux method and its physical properties were investigated by;magnetization, transport, and specific-heat measurements. In contrast to;the previously reported CaBe2Ge2-type CeNi2As2, the ThCr2Si2-type;CeNi2As2 is a highly anisotropic uniaxial antiferromagnet with the;transition temperature T-N = 4.8 K. A magnetic-field-induced spin-flop;transition was seen below T-N when the applied B is parallel to the c;axis, the magnetic easy axis, together with a huge frustration parameter;f = theta(W)/T-N. A pronounced Schottky-type anomaly in specific heat;was also found around 160 K, which could be attributed to the;crystalline electric field effect with the excitation energies being;fitted to Delta(1) = 325 K and Delta(2) = 520 K, respectively. Moreover,;the in-plane resistivity anisotropy and low-temperature x-ray;diffractions suggest that this compound is a rare example exhibiting a;possible structure distortion induced by the 4f-electron magnetic;frustration. DOI: 10.1103/PhysRevB.86.245130;Cao, Guanghan/C-4753-2008;5;0;0;0;5;1098-0121;WOS:000312833400008;;;J;Margaris, G.;Trohidou, K. N.;Iannotti, V.;Ausanio, G.;Lanotte, L.;Fiorani, D.;Magnetic behavior of dense nanoparticle assemblies: Interplay of;interparticle interactions and particle system morphology;PHYSICAL REVIEW B;86;21;214425;10.1103/PhysRevB.86.214425;DEC 26 2012;2012;The role of interparticle interactions and the morphology in the;magnetic behavior of dense assemblies of Fe nanoparticles with;concentration well above the percolation threshold has been studied;using the Monte Carlo simulations technique. The initial and;temperature-dependent magnetization curves have been calculated for;different conditions of the assembly morphology and the interparticle;interaction strengths. Our simulations showed that the strong;competition between the anisotropy and exchange energies in nonuniform;dense assemblies results in a frustration of the nanoparticles moments;coupling and creates plateaus and abrupt steps, which indicate a sudden,;collective spin reversal, for low and intermediate dipolar strengths. In;the case of strong dipolar interactions, the stepwise behavior becomes;smoother and gradually disappears. DOI: 10.1103/PhysRevB.86.214425;2;0;0;0;2;1098-0121;WOS:000312830400004;;;J;Marom, Noa;Caruso, Fabio;Ren, Xinguo;Hofmann, Oliver T.;Koerzdoerfer, Thomas;Chelikowsky, James R.;Rubio, Angel;Scheffler, Matthias;Rinke, Patrick;Benchmark of GW methods for azabenzenes;PHYSICAL REVIEW B;86;24;245127;10.1103/PhysRevB.86.245127;DEC 26 2012;2012;Many-body perturbation theory in the GW approximation is a useful method;for describing electronic properties associated with charged;excitations. A hierarchy of GW methods exists, starting from;non-self-consistent G(0)W(0), through partial self-consistency in the;eigenvalues and in the Green's function (scGW(0)), to fully;self-consistent GW (scGW). Here, we assess the performance of these;methods for benzene, pyridine, and the diazines. The quasiparticle;spectra are compared to photoemission spectroscopy (PES) experiments;with respect to all measured particle removal energies and the ordering;of the frontier orbitals. We find that the accuracy of the calculated;spectra does not match the expectations based on their level of;self-consistency. In particular, for certain starting points G(0)W(0);and scGW(0) provide spectra in better agreement with the PES than scGW.;DOI: 10.1103/PhysRevB.86.245127;Rinke, Patrick/A-4208-2010; Caruso, Fabio/D-5917-2013; Korzdorfer, Thomas/B-8266-2014; DONOSTIA INTERNATIONAL PHYSICS CTR., DIPC/C-3171-2014; Ren, Xinguo/N-4768-2014;Rinke, Patrick/0000-0002-5967-9965;;17;0;0;0;17;1098-0121;WOS:000312833400006;;;J;Marty, K.;Christianson, A. D.;dos Santos, A. M.;Sipos, B.;Matsubayashi, K.;Uwatoko, Y.;Fernandez-Baca, J. A.;Tulk, C. A.;Maier, T. A.;Sales, B. C.;Lumsden, M. D.;Effect of pressure on the neutron spin resonance in the unconventional;superconductor FeTe0.6Se0.4;PHYSICAL REVIEW B;86;22;220509;10.1103/PhysRevB.86.220509;DEC 26 2012;2012;We have carried out a pressure study of the unconventional;superconductor FeTe0.6Se0.4 up to 1.5 GPa by neutron scattering,;resistivity, and magnetic susceptibility measurements. The neutron spin;resonance energy and the superconducting transition temperature have;been extracted as a function of applied pressure in samples obtained;from the same crystal. Both increase with pressure up to amaximum at;approximate to 1.3 GPa, directly demonstrating a correlation between;these two fundamental parameters of unconventional superconductivity. A;comparison between the quantitative evolution of T-c and the resonance;energy as a function of applied pressure is also discussed. These;measurements serve to demonstrate the feasibility of using pressure;dependent inelastic neutron scattering to explore the relationship;between the resonance energy and T-c in unconventional superconductors.;DOI: 10.1103/PhysRevB.86.220509;Maier, Thomas/F-6759-2012; Fernandez-Baca, Jaime/C-3984-2014; Matsubayashi, Kazuyuki/F-7696-2013;3;0;0;0;3;1098-0121;WOS:000312831800004;;;J;Mesterhazy, D.;Berges, J.;von Smekal, L.;Effect of short-range interactions on the quantum critical behavior of;spinless fermions on the honeycomb lattice;PHYSICAL REVIEW B;86;24;245431;10.1103/PhysRevB.86.245431;DEC 26 2012;2012;We present a functional renormalization group investigation of an;Euclidean three-dimensional matrix Yukawa model with U(N) symmetry,;which describes N = 2 Weyl fermions that effectively interact via a;short-range repulsive interaction. This system relates to an effective;low-energy theory of spinless electrons on the honeycomb lattice and can;be seen as a simple model for suspended graphene. We find a continuous;phase transition characterized by large anomalous dimensions for the;fermions and composite degrees of freedom. The critical exponents define;a new universality class distinct from Gross-Neveu type models,;typically considered in this context. DOI: 10.1103/PhysRevB.86.245431;7;0;0;0;7;1098-0121;WOS:000312833400016;;;J;Mizuguchi, Yoshikazu;Fujihisa, Hiroshi;Gotoh, Yoshito;Suzuki, Katsuhiro;Usui, Hidetomo;Kuroki, Kazuhiko;Demura, Satoshi;Takano, Yoshihiko;Izawa, Hiroki;Miura, Osuke;BiS2-based layered superconductor Bi4O4S3;PHYSICAL REVIEW B;86;22;220510;10.1103/PhysRevB.86.220510;DEC 26 2012;2012;Exotic superconductivity has often been discovered in materials with a;layered (two-dimensional) crystal structure. The low dimensionality can;affect the electronic structure and can realize high transition;temperatures (T-c) and/or unconventional superconductivity mechanisms.;We show superconductivity in a new bismuth-oxysulfide compound Bi4O4S3.;Crystal structure analysis indicates that this superconductor has a;layered structure composed of a stacking of spacer layers and BiS2;layers. Band calculation suggests that the Fermi level for Bi4O4S3 is;just on the peak position of the partial density of states of the Bi 6p;orbital within the BiS2 layer. The BiS2 layer will be a basic structure;which provides another universality class for a layered superconducting;family, and this opens up a new field in the physics and chemistry of;low-dimensional superconductors. DOI: 10.1103/PhysRevB.86.220510;68;0;3;0;70;1098-0121;WOS:000312831800005;;;J;Mutiso, Rose M.;Sherrott, Michelle C.;Li, Ju;Winey, Karen I.;Simulations and generalized model of the effect of filler size;dispersity on electrical percolation in rod networks;PHYSICAL REVIEW B;86;21;214306;10.1103/PhysRevB.86.214306;DEC 26 2012;2012;We present a three-dimensional simulation of electrical conductivity in;isotropic, polydisperse rod networks from which we determine the;percolation threshold (phi(c)). Existing analytical models that account;for size dispersity are formulated in the slender-rod limit and are less;accurate for predicting phi(c) in composites with rods of modest L/D.;Using empirical approximations from our simulation data, we generalized;the excluded volume percolation model to account for both finite L/D and;size dispersity, providing a solution for phi(c) of polydisperse rod;networks that is quantitatively accurate across the entire L/D range.;DOI: 10.1103/PhysRevB.86.214306;Li, Ju/A-2993-2008;Li, Ju/0000-0002-7841-8058;12;0;0;0;12;1098-0121;WOS:000312830400002;;;J;Nishikawa, Y.;Hewson, A. C.;Hund's rule coupling in models of magnetic impurities and quantum dots;PHYSICAL REVIEW B;86;24;245131;10.1103/PhysRevB.86.245131;DEC 26 2012;2012;Studies of the effects of the Hund's rule coupling J(H) in multiple;orbit impurities or quantum dots using different models have led to;quite different predictions for the Kondo temperature T-K as a function;of J(H). We show that the differences depend on whether or not the;models conserve orbital angular momentum about the impurity site. Using;numerical renormalization-group calculations, we deduce the renormalized;parameters for the Fermi liquid regime and show that, despite the;differences between the models, the low-energy fixed point in the;strong-correlation regime is universal, with a single energy scale T-K;and just two renormalized interaction parameters, a renormalized single;orbital term, (U) over tilde = 4T(K), and a renormalized Hund's rule;term, (J) over tilde (H) = 8T(K)/3. DOI: 10.1103/PhysRevB.86.245131;3;0;0;0;3;1098-0121;WOS:000312833400009;;;J;Oliveira, G. N. P.;Pereira, A. M.;Lopes, A. M. L.;Amaral, J. S.;dos Santos, A. M.;Ren, Y.;Mendonca, T. M.;Sousa, C. T.;Amaral, V. S.;Correia, J. G.;Araujo, J. P.;Dynamic off-centering of Cr3+ ions and short-range magneto-electric;clusters in CdCr2S4;PHYSICAL REVIEW B;86;22;224418;10.1103/PhysRevB.86.224418;DEC 26 2012;2012;The cubic spinel CdCr2S4 gained recently a vivid interest, given the;relevance of relaxor-like dielectric behavior in its paramagnetic phase.;By a singular combination of local probe techniques, namely, pair;distribution function and perturbed angular correlation, we firmly;establish that the Cr ion plays the central key role on this exotic;phenomenon, namely, through a dynamic off-centering displacement of its;coordination sphere. We further show that this off-centering of the;magnetic Cr ion gives rise to a peculiar entanglement between the polar;and magnetic degrees of freedom, stabilizing, in the paramagnetic phase,;short-range magnetic clusters, clearly seen in ultralow-field;susceptibility measurements. Moreover, the Landau theory is here used to;demonstrate that a linear coupling between the magnetic and polar order;parameters is sufficient to justify the appearance of magnetic cluster;in the paramagnetic phase of this compound. These results open insights;on the hotly debated magnetic and polar interaction, setting a step;forward in the reinterpretation of the coupling of different physical;degrees of freedom. DOI: 10.1103/PhysRevB.86.224418;Universidade Aveiro, Departamento Fisica/E-4128-2013; Amaral, Vitor/A-1570-2009; Pereira, Andre/B-4648-2008; Amaral, Joao/C-6354-2009; Lopes, Armandina/I-5066-2013; Martins Correia, Joao Guilherme/J-5473-2013; Esteves de Araujo, Joao Pedro/D-4389-2011;Amaral, Vitor/0000-0003-3359-7133; Pereira, Andre/0000-0002-8587-262X;;Amaral, Joao/0000-0003-0488-9372; Lopes, Armandina/0000-0001-8776-0894;;Martins Correia, Joao Guilherme/0000-0002-8848-0824; Esteves de Araujo,;Joao Pedro/0000-0002-1646-7727;7;1;0;0;7;1098-0121;WOS:000312831800008;;;J;Olund, Christopher T.;Zhao, Erhai;Current-phase relation for Josephson effect through helical metal;PHYSICAL REVIEW B;86;21;214515;10.1103/PhysRevB.86.214515;DEC 26 2012;2012;Josephson junctions fabricated on the surface of three-dimensional;topological insulators ( TI) show a few unusual properties distinct from;conventional Josephson junctions. In these devices, the Josephson;coupling and the supercurrent are mediated by helical metal, the;two-dimensional surface state of the TI. A line junction of this kind is;known to support Andreev bound states at zero energy for phase bias pi;and, consequently, the so-called fractional ac Josephson effect.;Motivated by recent experiments on TI-based Josephson junctions, here we;describe a convenient algorithm to compute the bound-state spectrum and;the current-phase relation for junctions of finite length and width. We;present analytical results for the bound-state spectrum, and discuss the;dependence of the current-phase relation on the length and width of the;junction, the chemical potential of the helical metal, and temperature.;A thorough understanding of the current-phase relation may help in;designing topological superconducting qubits and manipulating Majorana;fermions. DOI: 10.1103/PhysRevB.86.214515;Zhao, Erhai/B-3463-2010;Zhao, Erhai/0000-0001-8954-1601;5;0;0;0;5;1098-0121;WOS:000312830400008;;;J;Pakdel, Sahar;Miri, MirFaez;Faraday rotation and circular dichroism spectra of gold and silver;nanoparticle aggregates;PHYSICAL REVIEW B;86;23;235445;10.1103/PhysRevB.86.235445;DEC 26 2012;2012;We study the magneto-optical response of noble metal nanoparticle;clusters. We consider the interaction between the light-induced dipoles;of particles. In the presence of a magnetic field, the simplest achiral;cluster, a dimer, exhibits circular dichroism (CD). The CD of a dimer;depends on the directions of the magnetic field and the light wave;vector. The CD of a populous cluster weakly depends on the magnetic;field. Upon scattering from the cluster, an incident linearly polarized;light with polarization azimuth. becomes elliptically polarized. The;polarization azimuth rotation and ellipticity angle variation are;sinusoidal functions of 2 phi.. The anisotropy and the chirality of the;cluster control the amplitude and offset of these sinusoidal functions.;The Faraday rotation and Faraday ellipticity are also sinusoidal;functions of 2 phi. Near the surface plasmon frequency, Faraday rotation;and Faraday ellipticity increase. DOI: 10.1103/PhysRevB.86.235445;6;0;0;0;6;1098-0121;WOS:000312832600019;;;J;Pedersen, Jesper Goor;Brynildsen, Mikkel H.;Cornean, Horia D.;Pedersen, Thomas Garm;Optical Hall conductivity in bulk and nanostructured graphene beyond the;Dirac approximation;PHYSICAL REVIEW B;86;23;235438;10.1103/PhysRevB.86.235438;DEC 26 2012;2012;We present a perturbative method for calculating the optical Hall;conductivity in a tight-binding framework based on the Kubo formalism.;The method involves diagonalization only of the Hamiltonian in absence;of the magnetic field, and thus avoids the computational problems;usually arising due to the huge magnetic unit cells required to maintain;translational invariance in the presence of a Peierls phase. A recipe;for applying the method to numerical calculations of the magneto-optical;response is presented. We apply the formalism to the case of ordinary;and gapped graphene in a next-nearest-neighbor tight-binding model as;well as graphene antidot lattices. In both cases, we find unique;signatures in the Hall response that are not captured in continuum;(Dirac) approximations. These include a nonzero optical Hall;conductivity even when the chemical potential is at the Dirac point;energy. Numerical results suggest that this effect should be measurable;in experiments. DOI: 10.1103/PhysRevB.86.235438;Goor Pedersen, Jesper/C-3965-2008; Cornean, Horia/A-4064-2008;Goor Pedersen, Jesper/0000-0002-8411-240X; Cornean,;Horia/0000-0003-2700-8785;1;0;0;0;1;1098-0121;WOS:000312832600012;;;J;Rodriguez, Alejandro W.;Reid, M. T. Homer;Johnson, Steven G.;Fluctuating-surface-current formulation of radiative heat transfer for;arbitrary geometries;PHYSICAL REVIEW B;86;22;220302;10.1103/PhysRevB.86.220302;DEC 26 2012;2012;We describe a fluctuating-surface-current formulation of radiative heat;transfer, applicable to arbitrary geometries in both the near and far;field, that directly exploits efficient and sophisticated techniques;from the boundary-element method. We validate as well as extend previous;results for spheres and cylinders, and also compute the heat transfer in;a more complicated geometry consisting of two interlocked rings.;Finally, we demonstrate how this method can be adapted to compute the;spatial distribution of heat flux on the surfaces of the bodies. DOI:;10.1103/PhysRevB.86.220302;13;0;0;0;13;1098-0121;WOS:000312831800001;;;J;Saidi, Wissam A.;Lee, Minyoung;Li, Liang;Zhou, Guangwen;McGaughey, Alan J. H.;Ab initio atomistic thermodynamics study of the early stages of Cu(100);oxidation;PHYSICAL REVIEW B;86;24;245429;10.1103/PhysRevB.86.245429;DEC 26 2012;2012;Using an ab initio atomistic thermodynamics framework, we identify the;stable surface structures during the early stages of Cu(100) oxidation;at finite temperature and pressure conditions. We predict the clean;surface, the 0.25 monolayer oxygen-covered surface, and the missing-row;reconstruction as thermodynamically stable structures in range of;100-1000 K and 10(-15)-10(5) atm, consistent with previous experimental;and theoretical results. We also investigate the thermodynamic;stabilities of possible precursors to Cu2O formation including;missing-row reconstruction structures that include extra on-or;subsurface oxygen atoms as well as boundary phases formed from two;missing-row nanodomains. While these structures are not predicted to be;thermodynamically stable for oxygen chemical potentials below the;nucleation limit of Cu2O, they are likely to exist due to kinetic;hindrance. DOI: 10.1103/PhysRevB.86.245429;Li, Liang/C-5782-2012;7;0;0;0;7;1098-0121;WOS:000312833400014;;;J;Sakuma, R.;Miyake, T.;Aryasetiawan, F.;Self-energy and spectral function of Ce within the GW approximation;PHYSICAL REVIEW B;86;24;245126;10.1103/PhysRevB.86.245126;DEC 26 2012;2012;To investigate how far the GW approximation can treat systems with;strong on-site correlations, we perform calculations of the;self-energies and spectral functions of alpha-and gamma-Ce within the GW;approximation. For this strongly correlated material, the screened;interaction exhibits a complex and rich structure which is attributed to;strong particle-hole transitions involving localized 4f states. This;structure in the screened interaction is carried over to the;self-energy, which in turn yields spectral functions with multiple;peaks. A satellite at around 5 eV above the Fermi level is formed, which;is reminiscent of the experimentally observed upper Hubbard band, while;the experimentally observed peak structure below the Fermi level at -2;eV and disappearance of the quasiparticle peak in the. phase are not;reproduced. DOI: 10.1103/PhysRevB.86.245126;6;0;0;0;6;1098-0121;WOS:000312833400005;;;J;Schulze, T. P.;Smereka, P.;Kinetic Monte Carlo simulation of heteroepitaxial growth: Wetting;layers, quantum dots, capping, and nanorings;PHYSICAL REVIEW B;86;23;235313;10.1103/PhysRevB.86.235313;DEC 26 2012;2012;A new kinetic Monte Carlo algorithm that efficiently accounts for;elastic strain is presented and applied to study various phenomena that;take place during heteroepitaxial growth. For example, it is;demonstrated that faceted quantum dots occur via the layer-by-layer;nucleation of prepyramids on top of a critical layer with faceting;occurring by anisotropic surface diffusion. It is also shown that the;dot growth is enhanced by the depletion of the critical layer which;leaves behind a wetting layer. Capping simulations provide insight into;the mechanisms behind dot erosion and ring formation. The algorithm used;for the simulations presented here is based on the observation that;adatom and dimer motion is essentially decoupled from the elastic field.;This is exploited by decomposing the film into two parts: the weakly;bonded portion and the strongly bonded portion. The weakly bonded;portion is taken to evolve independent of the elastic field. In this way;the elastic field need only be updated infrequently. Extensive;validation reveals that there is little loss of fidelity but the;algorithm is fifteen to twenty times faster. DOI:;10.1103/PhysRevB.86.235313;Smereka, Peter/F-9974-2013;7;0;0;0;7;1098-0121;WOS:000312832600009;;;J;Shukla, D. K.;Francoual, S.;Skaugen, A.;von Zimmermann, M.;Walker, H. C.;Bezmaternykh, L. N.;Gudim, I. A.;Temerov, V. L.;Strempfer, J.;Ho and Fe magnetic ordering in multiferroic HoFe3(BO3)(4);PHYSICAL REVIEW B;86;22;224421;10.1103/PhysRevB.86.224421;DEC 26 2012;2012;Resonant and nonresonant x-ray scattering studies on HoFe3(BO3)(4);reveal competing magnetic ordering of Ho and Fe moments. Temperature and;x-ray polarization dependent measurements employed at the Ho L-3 edge;directly reveal a spiral spin order of the induced Ho moments in the ab;plane propagating along the c axis, a screw-type magnetic structure. At;about 22.5 K the Fe spins are observed to rotate within the basal plane;inducing spontaneous electric polarization, P. Components of P in the;basal plane and along the c axis can be scaled with the separated;magnetic x-ray scattering intensities of the Fe and Ho magnetic;sublattices, respectively. DOI: 10.1103/PhysRevB.86.224421;Walker, Helen/C-4201-2011; Shukla, Dinesh /D-2232-2012;Walker, Helen/0000-0002-7859-5388;;1;0;0;0;1;1098-0121;WOS:000312831800011;;;J;Smolenski, T.;Kazimierczuk, T.;Goryca, M.;Jakubczyk, T.;Klopotowski, L.;Cywinski, L.;Wojnar, P.;Golnik, A.;Kossacki, P.;In-plane radiative recombination channel of a dark exciton in;self-assembled quantum dots;PHYSICAL REVIEW B;86;24;241305;10.1103/PhysRevB.86.241305;DEC 26 2012;2012;We demonstrate evidence for a radiative recombination channel of dark;excitons in self-assembled quantum dots. This channel is due to a light;hole admixture in the excitonic ground state. Its presence was;experimentally confirmed by a direct observation of the dark exciton;photoluminescence from a cleaved edge of the sample. The;polarization-resolved measurements revealed that a photon created from;the dark exciton recombination is emitted only in the direction;perpendicular to the growth axis. Strong correlation between the dark;exciton lifetime and the in-plane hole g factor enabled us to show that;the radiative recombination is a dominant decay channel of the dark;excitons in CdTe/ZnTe quantum dots. DOI: 10.1103/PhysRevB.86.241305;Cywinski, Lukasz/E-5348-2010;8;0;0;0;8;1098-0121;WOS:000312833400004;;;J;Tahara, H.;Bamba, M.;Ogawa, Y.;Minami, F.;Observation of a dynamical mixing process of exciton-polaritons in a;ZnSe epitaxial layer using four-wave mixing spectroscopy;PHYSICAL REVIEW B;86;23;235208;10.1103/PhysRevB.86.235208;DEC 26 2012;2012;We have observed a coherent spectral change of exciton-polaritons in a;ZnSe epitaxial layer through spectrally resolved four-wave mixing;spectroscopy. The spectra exhibit an exchange of the dominant peak;position between the different polariton branches depending on the delay;time of the second pulse. This result reflects the initial creation;process of polaritons with many-body interactions. The calculation based;on the exciton-photon microscopic model reveals that the spectral change;occurs due to the four-particle correlations between heavy-hole and;light-hole excitons; it clearly shows the dynamical mixing process of;exciton-polaritons in the initial creation. DOI:;10.1103/PhysRevB.86.235208;1;0;0;0;1;1098-0121;WOS:000312832600008;;;J;Tomio, Yuh;Suzuura, Hidekatsu;Ando, Tsuneya;Cross-polarized excitons in double-wall carbon nanotubes;PHYSICAL REVIEW B;86;24;245428;10.1103/PhysRevB.86.245428;DEC 26 2012;2012;Optical absorption in double-wall carbon nanotubes for light polarized;perpendicular to the tube axis is studied by taking into account exciton;effects and depolarization effects within an effective-mass theory. The;Coulomb interaction is suppressed by not only intrawall screening;effects but also interwall screening, leading to the reduction of;exciton binding energies and band gaps. When two tubes are both;semiconducting, a clear exciton peak still survives even under;depolarization effects for the outer tube, but the exciton peak of the;inner tube has an asymmetric Fano line shape due to the coupling with;continuum states of the outer tube. When a double-wall nanotube contains;a metallic tube, either inner or outer, the exciton of the;semiconducting tube loses its peak structure under depolarization;effects. DOI: 10.1103/PhysRevB.86.245428;SUZUURA, Hidekatsu/F-7605-2012;0;0;0;0;0;1098-0121;WOS:000312833400013;;;J;Tsvelik, A. M.;Model description of the supersolid state in YBa2Cu3O6+x;PHYSICAL REVIEW B;86;22;220508;10.1103/PhysRevB.86.220508;DEC 26 2012;2012;I employ a semiphenomenological model introduced by Tsvelik and Chubukov;[Phys. Rev. Lett. 98, 237001 (2007)] to describe the state with;coexisting superconductivity (SC) and charge density wave (CDW) recently;discovered in YBa2Cu3O6+x (YBCO). The SC and the CDW order parameter;fields are united in a single pseudospin and can be rotated into each;other. It is suggested that disorder creates isolated pseudospins which;become centers of inelastic scattering of electrons. It is suggested;that this scattering is responsible for the logarithmic upturn in the;resistivity rho(T) similar to - ln T observed at low doping. DOI:;10.1103/PhysRevB.86.220508;0;0;0;0;0;1098-0121;WOS:000312831800003;;;J;Uebelacker, Stefan;Honerkamp, Carsten;Self-energy feedback and frequency-dependent interactions in the;functional renormalization group flow for the two-dimensional Hubbard;model;PHYSICAL REVIEW B;86;23;235140;10.1103/PhysRevB.86.235140;DEC 26 2012;2012;We study the impact of including self-energy feedback and;frequency-dependent interactions on functional renormalization group;flows for the two-dimensional Hubbard model on the square lattice at;weak to moderate coupling strength. Previous studies using the;functional renormalization group had ignored these two ingredients to a;large extent, and the question is how much the flows to strong coupling;analyzed by this method depend on these approximations. Here we include;the imaginary part of the self-energy on the imaginary axis and the;frequency dependence of the running interactions on a frequency mesh of;10 frequencies on the Matsubara axis. We find that (i) the critical;scales for the flows to strong coupling are shifted downward by a factor;that is usually of order 1 but can get larger in specific parameter;regions, and (ii) that the leading channel in this flow does not depend;strongly on whether self-energies and frequency dependence is included;or not. We also discuss the main features of the self-energies;developing during the flows. DOI: 10.1103/PhysRevB.86.235140;5;0;0;0;5;1098-0121;WOS:000312832600002;;;J;Velizhanin, Kirill A.;Shahbazyan, Tigran V.;Long-range plasmon-assisted energy transfer over doped graphene;PHYSICAL REVIEW B;86;24;245432;10.1103/PhysRevB.86.245432;DEC 26 2012;2012;We demonstrate that longitudinal plasmons in doped monolayer graphene;can mediate highly efficient long-range energy transfer between nearby;fluorophores, e.g., semiconductor quantum dots. We derive a simple;analytical expression for the energy transfer efficiency that;incorporates all the essential processes involved. We perform numerical;calculations of the transfer efficiency for a pair of PbSe quantum dots;near graphene for interfluorophore distances of up to 1 mu m and find;that the plasmon-assisted long-range energy transfer can be enhanced by;up to a factor of similar to 10(4) relative to the Forster's transfer in;vacuum.;Velizhanin, Kirill/C-4835-2008;3;0;0;0;3;1098-0121;WOS:000312833400017;;;J;Vivo, Edoardo;Nicoli, Matteo;Engler, Martin;Michely, Thomas;Vazquez, Luis;Cuerno, Rodolfo;Strong anisotropy in surface kinetic roughening: Analysis and;experiments;PHYSICAL REVIEW B;86;24;245427;10.1103/PhysRevB.86.245427;DEC 26 2012;2012;We report an experimental assessment of surface kinetic roughening;properties that are anisotropic in space. Working for two specific;instances of silicon surfaces irradiated by ion-beam sputtering under;diverse conditions (with and without concurrent metallic impurity;codeposition), we verify the predictions and consistency of a recently;proposed scaling Ansatz for surface observables like the two-dimensional;(2D) height power spectral density (PSD). In contrast with other;formulations, this ansatz is naturally tailored to the study of;two-dimensional surfaces, and allows us to readily explore the;implications of anisotropic scaling for other observables, such as;real-space correlation functions and PSD functions for 1D profiles of;the surface. Our results confirm that there are indeed actual;experimental systems whose kinetic roughening is strongly anisotropic,;as consistently described by this scaling analysis. In the light of our;work, some types of experimental measurements are seen to be more;affected by issues like finite space resolution effects, etc. that may;hinder a clear-cut assessment of strongly anisotropic scaling in the;present and other practical contexts. DOI: 10.1103/PhysRevB.86.245427;VAZQUEZ, LUIS/A-1272-2009;VAZQUEZ, LUIS/0000-0001-6220-2810;2;0;0;0;2;1098-0121;WOS:000312833400012;;;J;Weiler, S.;Ulhaq, A.;Ulrich, S. M.;Richter, D.;Jetter, M.;Michler, P.;Roy, C.;Hughes, S.;Phonon-assisted incoherent excitation of a quantum dot and its emission;properties;PHYSICAL REVIEW B;86;24;241304;10.1103/PhysRevB.86.241304;DEC 26 2012;2012;We present a detailed study of a phonon-assisted incoherent excitation;mechanism of single quantum dots. A spectrally detuned continuous-wave;laser couples to a quantum dot transition by mediation of acoustic;phonons, whereby excitation efficiencies up to 20% with respect to;strictly resonant excitation can be achieved at T = 9 K.;Laser-frequency-dependent analysis of the quantum dot intensity;distinctly maps the underlying acoustic phonon bath and shows good;agreement with our polaron master equation theory. An analytical;solution for the steady-state exciton density (which is proportional to;the photoluminescence) is introduced which predicts a broadband;incoherent coupling process mediated by electron-phonon scattering.;Moreover, we investigate the coherence properties of the emitted light;with respect to strictly resonant versus phonon-assisted excitation,;revealing the importance of narrow band triggered emitter-state;initialization for possible applications of a quantum dot exciton system;as a qubit. DOI: 10.1103/PhysRevB.86.241304;Jetter, Michael/I-8270-2012;8;0;0;0;8;1098-0121;WOS:000312833400003;;;J;Zhang, L.;Schwertfager, N.;Cheiwchanchamnangij, T.;Lin, X.;Glans-Suzuki, P. -A.;Piper, L. F. J.;Limpijumnong, S.;Luo, Y.;Zhu, J. F.;Lambrecht, W. R. L.;Guo, J. -H.;Electronic band structure of graphene from resonant soft x-ray;spectroscopy: The role of core-hole effects;PHYSICAL REVIEW B;86;24;245430;10.1103/PhysRevB.86.245430;DEC 26 2012;2012;The electronic structure and band dispersion of graphene on SiO2 have;been studied by x-ray-absorption spectroscopy (XAS), x-ray-emission;spectroscopy (XES), and resonant inelastic x-ray scattering (RIXS).;Using first-principles calculations, it is found that the core-hole;effect is dramatic in XAS while it has negligible consequences in XES.;Strong dispersive features, due to the conservation of crystal momentum,;are observed in RIXS spectra. Simulated RIXS spectra based on the;Kramers-Heisenberg theory agree well with the experimental results,;provided a shift between RIXS and XAS due to the absence or presence of;the core hole is taken into account. DOI: 10.1103/PhysRevB.86.245430;Luo, Yi/B-1449-2009; Zhu, Junfa/E-4020-2010;Luo, Yi/0000-0003-0007-0394; Zhu, Junfa/0000-0003-0888-4261;10;1;0;0;10;1098-0121;WOS:000312833400015;;;J;Zhang, Steven S. -L.;Zhang, Shufeng;Spin convertance at magnetic interfaces;PHYSICAL REVIEW B;86;21;214424;10.1103/PhysRevB.86.214424;DEC 26 2012;2012;Exchange interaction between conduction electrons and magnetic moments;at magnetic interfaces leads to mutual conversion between spin current;and magnon current. We introduce a concept of spin convertance which;quantitatively measures magnon current induced by spin accumulation and;spin current created by magnon accumulation at a magnetic interface. We;predict several phenomena on charge and spin drag across a magnetic;insulator spacer for a few layered structures. DOI:;10.1103/PhysRevB.86.214424;Zhang, Shufeng/G-7833-2011;10;1;0;0;10;1098-0121;WOS:000312830400003;;;J;Nakhmedov, Enver;Alekperov, Oktay;Oppermann, Reinhold;Effects of randomness on the critical temperature in;quasi-two-dimensional organic superconductors;PHYSICAL REVIEW B;86;21;214513;10.1103/PhysRevB.86.214513;DEC 21 2012;2012;The effects of nonmagnetic disorder on the critical temperature T-c of;organic weak-linked layered superconductors with singlet in-plane;pairing are considered. A randomness in the interlayer Josephson;coupling is shown to destroy phase coherence between the layers, and T-c;suppresses smoothly in a large extent of the disorder strength.;Nevertheless, the disorder of arbitrarily high strength cannot destroy;completely the superconducting phase. The obtained quasilinear decrease;of the critical temperature with increasing disorder strength is in good;agreement with experimental measurements. DOI:;10.1103/PhysRevB.86.214513;0;0;0;0;0;1098-0121;WOS:000312693200004;;;J;Sanson, Andrea;Giarola, Marco;Rossi, Barbara;Mariotto, Gino;Cazzanelli, Enzo;Speghini, Adolfo;Vibrational dynamics of single-crystal YVO4 studied by polarized;micro-Raman spectroscopy and ab initio calculations;PHYSICAL REVIEW B;86;21;214305;10.1103/PhysRevB.86.214305;DEC 21 2012;2012;The vibrational properties of yttrium orthovanadate (YVO4) single;crystals, with tetragonal zircon structure, have been investigated by;means of polarized micro-Raman spectroscopy and ab initio calculations.;Raman spectra were taken at different polarizations and orientations;carefully set by the use of a micromanipulator, so that all of the;twelve Raman-active modes, expected on the basis of the group theory,;were selected in turn and definitively assigned in wave number and;symmetry. In particular the E-g(4) mode, assigned incorrectly in;previous literature, has been observed at 387 cm(-1). Moreover, the very;weak E-g(1) mode, peaked at about 137 cm(-1), was clearly observed only;under some excitation wavelengths, and its peculiar Raman excitation;profile was measured within a wide region of the visible. Finally, ab;initio calculations based on density-functional theory have been;performed in order to determine both Raman and infrared vibrational;modes and to corroborate the experimental results. The rather good;agreement between computational and experimental frequencies is slightly;better than in previous computational works and supports our;experimental symmetry assignments. DOI: 10.1103/PhysRevB.86.214305;Mariotto, Gino/B-1629-2013; Speghini, Adolfo/G-3474-2012;1;0;0;0;1;1098-0121;WOS:000312693200002;;;J;Thomson, R. I.;Jain, P.;Cheetham, A. K.;Carpenter, M. A.;Elastic relaxation behavior, magnetoelastic coupling, and order-disorder;processes in multiferroic metal-organic frameworks;PHYSICAL REVIEW B;86;21;214304;10.1103/PhysRevB.86.214304;DEC 21 2012;2012;Resonant ultrasound spectroscopy has been used to analyze magnetic and;ferroelectric phase transitions in two multiferroic metal-organic;frameworks (MOFs) with perovskite-like structures;[(CH3)(2)NH2]M(HCOO)(3)(DMA[M] F, M = Co, Mn). Elastic and anelastic;anomalies are evident at both the magnetic ordering temperature and;above the higher temperature ferroelectric transition. Broadening of;peaks above the ferroelectric transition implies the diminishing;presence of a dynamic process and is caused by an ordering of the;central DMA ([(CH3)(2)NH2](+)) cation which ultimately causes a change;in the hydrogen bond conformation and provides the driving mechanism for;ferroelectricity. This is unlike traditional mechanisms for;ferroelectricity in perovskites which typically involve ionic;displacements. A comparison of these mechanisms is made by drawing on;examples from the literature. Small elastic stiffening at low;temperatures suggests weak magnetoelastic coupling in these materials.;This behavior is consistent with other magnetic systems studied,;although there is no change in Q(-1) associated with magnetic;order-disorder, and is the first evidence of magnetoelastic coupling in;MOFs. This could help lead to the tailoring of MOFs with a larger;coupling leading to magnetoelectric coupling via a common strain;mechanism. DOI: 10.1103/PhysRevB.86.214304;Jain, Prashant/C-8135-2009;15;4;0;0;15;1098-0121;WOS:000312693200001;;;J;Yin, Junqi;Eisenbach, Markus;Nicholson, Don M.;Rusanu, Aurelian;Effect of lattice vibrations on magnetic phase transition in bcc iron;PHYSICAL REVIEW B;86;21;214423;10.1103/PhysRevB.86.214423;DEC 21 2012;2012;The most widely taught example of a magnetic transition is that of Fe at;1043 K. Despite the high temperature most discussions of this transition;focus on the magnetic states of a fixed spin lattice with lattice;vibrations analyzed separately and simply added. We propose a model of;alpha iron that fully couples spin and displacement degrees of freedom.;Results demonstrate a significant departure from models that treat these;coordinates independently. The success of the model rests on a first;principles calculation of changes in energy with respect to spin;configurations on a bcc-iron lattice with displacements. Complete;details of environment-dependent exchange interactions that augment the;Finnis-Sinclair potential are given and comparisons to measurements are;made. We find that coupling has no effect on critical exponents, a small;effect on the transition temperature, T-c, and a large effect on the;entropy of transformation. DOI: 10.1103/PhysRevB.86.214423;Ni, Daye/F-6920-2014;5;0;0;0;5;1098-0121;WOS:000312693200003;;;J;Butler, Keith T.;Harding, John H.;Atomistic simulation of doping effects on growth and charge transport in;Si/Ag interfaces in high-performance solar cells;PHYSICAL REVIEW B;86;24;245319;10.1103/PhysRevB.86.245319;DEC 21 2012;2012;We present the results of a first-principles atomistic simulation study;of the effects of phosphorus doping on the silver/silicon interface as;found in high-performance solar cells. Calculating the interfacial;stabilities of the (110)/(110) and (111)/(111) interfaces we demonstrate;how the presence of phosphorus increases the nucleation rate of silver;crystallites and how the relative stabilities of the interfaces depend;on the doping. We then calculate the electronic structure of the;interfaces, demonstrating how the presence of phosphorus leads to a;buildup of positive charge in the silicon and an opposite negative;charge in the silver. Finally we show how this charge buildup;significantly affects the n-type Schottky barriers at the interfaces, in;both cases lowering the Schottky barrier by more than 100 meV. DOI:;10.1103/PhysRevB.86.245319;4;0;0;0;4;1098-0121;WOS:000312697500004;;;J;Carbotte, J. P.;Schachinger, E.;c-axis optical sum in underdoped superconducting cuprates;PHYSICAL REVIEW B;86;22;224512;10.1103/PhysRevB.86.224512;DEC 21 2012;2012;In conventional metals, the total optical spectral weight under the real;part of the dynamical conductivity remains unchanged in going from;normal to superconducting state. In the underdoped cuprates, however,;experiments found that the interlayer conductivity no longer respects;this sum rule. Here, we find that a recently proposed phenomenological;model of the pseudogap state which is based on ideas of a resonating;valence bond spin liquid naturally leads to such a sum-rule violation.;For the interplane charge transfer, a coherent tunneling model is used.;We also obtain analytic results based on a simplification of the theory;which reduces it to an arc model. This provides further insight into the;effect of the opening of a pseudogap on the c-axis optical conductivity;Re[sigma(c)(omega)]. The missing area under Re[sigma(c)(omega)];normalized to the superfluid density, which is found to be one in the;Fermi-liquid limit with no pseudogap, is considerably reduced when the;pseudogap becomes large and the size of the Luttinger pockets or arcs is;small.;2;0;0;0;2;1098-0121;WOS:000312693900004;;;J;Das Sarma, S.;Sau, Jay D.;Stanescu, Tudor D.;Splitting of the zero-bias conductance peak as smoking gun evidence for;the existence of the Majorana mode in a superconductor-semiconductor;nanowire;PHYSICAL REVIEW B;86;22;220506;10.1103/PhysRevB.86.220506;DEC 21 2012;2012;Recent observations of a zero-bias conductance peak in tunneling;transport measurements in superconductor-semiconductor nanowire devices;provide evidence for the predicted zero-energy Majorana modes, but not;the conclusive proof of their existence. We establish that direct;observation of a splitting of the zero-bias conductance peak can serve;as the smoking gun evidence for the existence of the Majorana mode. We;show that the splitting has an oscillatory dependence on the Zeeman;field (chemical potential) at fixed chemical potential (Zeeman field).;By contrast, when the density is constant rather than the chemical;potential-the likely situation in the current experimental setups-the;splitting oscillations are generically suppressed. Our theory predicts;the conditions under which the splitting oscillations can serve as the;smoking gun for the experimental confirmation of the elusive Majorana;mode.;Das Sarma, Sankar/B-2400-2009;23;0;0;0;23;1098-0121;WOS:000312693900001;;;J;Durach, Maxim;Rusina, Anastasia;Transforming Fabry-Perot resonances into a Tamm mode;PHYSICAL REVIEW B;86;23;235312;10.1103/PhysRevB.86.235312;DEC 21 2012;2012;We propose an optical structure composed of two metal nanolayers;enclosing a distributed Bragg reflector (DBR) mirror. The structure is;an open photonic system whose bound modes are coupled to external;radiation. We apply the special theoretical treatment based on inversion;symmetry of the structure to classify its resonances. We show that the;structure supports resonances transitional between Fabry-Perot modes and;Tamm plasmons. When the dielectric contrast of the DBR is removed these;modes are a pair of conventional Fabry-Perot resonances. They spectrally;merge into a Tamm mode at high contrast. The optical properties of the;structure in the frequency range of the DBR stop band, including highly;beneficial 50% transmittivity through thick structures with;sub-skin-depth metal films, are determined by the hybrid quasinormal;modes of the open nonconservative structure under consideration. The;results can find a broad range of applications in photonics and;optoelectronics, including the possibility of coherent control over;optical fields in the class of structures similar to the one proposed;here. DOI: 10.1103/PhysRevB.86.235312;3;0;1;0;4;1098-0121;WOS:000312694800003;;;J;Gumeniuk, Roman;Sarkar, Rajib;Geibel, Christoph;Schnelle, Walter;Paulmann, Carsten;Baenitz, Michael;Tsirlin, Alexander A.;Guritanu, Violeta;Sichelschmidt, Joerg;Grin, Yuri;Leithe-Jasper, Andreas;YbPtGe2: A multivalent charge-ordered system with an unusual spin;pseudogap;PHYSICAL REVIEW B;86;23;235138;10.1103/PhysRevB.86.235138;DEC 21 2012;2012;We performed a study of the structural and physical properties of;YbPtGe2. This compound is a multivalent charge-ordered system presenting;an unusual spin pseudogap below 200 K. The crystal structure of YbPtGe2;is refined from single-crystal and powder high-resolution synchrotron;x-ray diffraction data at different temperatures. Analysis of the;structural features of YbPtGe2, together with a combined study of Yb;L-III x-ray absorption spectroscopy, magnetic susceptibility chi(T),;thermopower S(T), and Yb-171 and Pt-195 NMR indicate half of the Yb;atoms to be in an intermediate valence state with an electronic;configuration close to 4f(13) (Yb3+), while for the remaining Yb atoms;the 4f(14) (Yb2+) configuration with almost no valence fluctuations is;most likely. A drastic drop of the magnetic susceptibility and a;decrease of the isotropic shift K-195(iso)(T) with decreasing;temperature in the temperature range of 50-200 K evidence the opening of;a spin pseudogap with an activation energy of Delta/k(B) similar to 200;K. Surprisingly, transport properties do not show clear evidence for the;opening of a charge gap, thus excluding a standard Kondo-insulator;scenario. Possible origins for this unusual electronic (valence);behavior are discussed. DOI: 10.1103/PhysRevB.86.235138;Sichelschmidt, Joerg/A-6005-2013; Sarkar, Rajib/G-9738-2011; Tsirlin, Alexander/D-6648-2013;3;1;0;0;3;1098-0121;WOS:000312694800002;;;J;Ivek, T.;Kovacevic, I.;Pinteric, M.;Korin-Hamzic, B.;Tomic, S.;Knoblauch, T.;Schweitzer, D.;Dressel, M.;Cooperative dynamics in charge-ordered state of alpha-(BEDT-TTF)(2)I-3;PHYSICAL REVIEW B;86;24;245125;10.1103/PhysRevB.86.245125;DEC 21 2012;2012;Electric-field-dependent pulse measurements are reported in the;charge-ordered state of alpha-(BEDT-TTF)(2)I-3. At low electric fields;up to about 50 V/cm only negligible deviations from Ohmic behavior can;be identified with no threshold field. At larger electric fields and up;to about 100 V/cm a reproducible negative differential resistance is;observed with a significant change in shape of the measured resistivity;in time. These changes critically depend on whether constant voltage or;constant current is applied to the single crystal. At high enough;electric fields the resistance displays a dramatic drop down to metallic;values and relaxes subsequently in a single-exponential manner to its;low-field steady-state value. We argue that such an;electric-field-induced negative differential resistance and switching to;transient states are fingerprints of cooperative domain-wall dynamics;inherent to two-dimensional bond-charge density waves with;ferroelectric-like nature. DOI: 10.1103/PhysRevB.86.245125;Dressel, Martin/D-3244-2012; Ivek, Tomislav/D-5298-2011; Tomic, Silvia/D-5466-2011;3;0;0;0;3;1098-0121;WOS:000312697500002;;;J;Katanin, A.;Longitudinal and transverse static spin fluctuations in layered;ferromagnets and antiferromagnets;PHYSICAL REVIEW B;86;22;224416;10.1103/PhysRevB.86.224416;DEC 21 2012;2012;We analyze the momentum dependence of static susceptibilities of layered;local-moment systems below Curie (Neel) temperature within the 1/S;expansion, the renormalization-group (RG) approach, and the first order;of the 1/N expansion. We argue that already at sufficiently low;temperatures the previously known results of the spin-wave theory and RG;approach for the transverse spin susceptibility acquire strong;corrections, which appear due to the interaction of the incoming magnon;having momentum q with virtual magnons having momenta k < q. Such;corrections cannot be treated in the standard RG approach but can be;described by both 1/S and 1/N expansions. The results of these;expansions can be successfully extrapolated to T = T-M, yielding the;correct weight of static spin fluctuations, determined by the O(3);symmetry. For the longitudinal susceptibility, the summation of leading;terms of the 1/S expansion within the parquet approach allows us to;fulfill the sum rule for the weights of transverse and longitudinal;fluctuations in a broad temperature region below T-M outside the;critical regime. We also discuss the effect of longitudinal spin;fluctuations on the (sublattice) magnetization of layered systems.;Katanin, Andrey/J-4706-2013;Katanin, Andrey/0000-0003-1574-657X;0;0;0;0;0;1098-0121;WOS:000312693900002;;;J;Liu, Jingbo;Mendis, Rajind;Mittleman, Daniel M.;Designer reflectors using spoof surface plasmons in the terahertz range;PHYSICAL REVIEW B;86;24;241405;10.1103/PhysRevB.86.241405;DEC 21 2012;2012;We show that spoof surface plasmons can be used to control the;reflection of terahertz radiation at the output facet of a;parallel-plate waveguide. Using a periodic groove pattern on the output;face, reflectivity approaching 100% can be achieved within a limited;spectral range. Unlike the conventional geometry for plasmon-enhanced;transmission, this approach enables a unique method for studying the;coupling between the guided mode and the surface plasmon through;angle-dependent measurement of the plasmon-mediated reflection. A simple;model incorporating the surface plasmon coupling to the waveguide mode;can adequately explain all of the observed phenomena, including the;observed Goos-Hanchen shift in the reflected beam. DOI:;10.1103/PhysRevB.86.241405;2;0;0;0;2;1098-0121;WOS:000312697500001;;;J;Sato, Toshihiro;Hattori, Kazumasa;Tsunetsugu, Hirokazu;Transport criticality at the Mott transition in a triangular-lattice;Hubbard model;PHYSICAL REVIEW B;86;23;235137;10.1103/PhysRevB.86.235137;DEC 21 2012;2012;We study electric transport near the Mott metal-insulator transition in;a triangular-lattice Hubbard model at half filling. We calculate optical;conductivity sigma(omega) based on a cellular dynamical mean-field;theory including vertex corrections inside the cluster. Near the Mott;critical end point, a Drude analysis in the metallic region suggests;that the change in the Drude weight is important rather than that in the;transport scattering rate for the Mott transition. In the insulating;region, there emerges an "in-gap" peak in sigma(omega) at low omega near;the Mott transition, and this smoothly connects to the Drude peak in the;metallic region with decreasing Coulomb repulsion. We find that the;weight of these peaks exhibits a power-law behavior upon controlling;Coulomb repulsion at the critical temperature. The obtained critical;exponent suggests that conductivity does not correspond to magnetization;or energy density of the Ising universality class in contrast to several;previous works. DOI: 10.1103/PhysRevB.86.235137;Hattori, Kazumasa/B-2554-2013;1;0;0;0;1;1098-0121;WOS:000312694800001;;;J;Schaffer, Robert;Bhattacharjee, Subhro;Kim, Yong Baek;Quantum phase transition in Heisenberg-Kitaev model;PHYSICAL REVIEW B;86;22;224417;10.1103/PhysRevB.86.224417;DEC 21 2012;2012;We explore the nature of the quantum phase transition between a;magnetically ordered state with collinear spin pattern and a gapless;Z(2) spin liquid in the Heisenberg-Kitaev model. We construct a slave;particle mean-field theory for the Heisenberg-Kitaev model in terms of;complex fermionic spinons. It is shown that this theory, formulated in;the appropriate basis, is capable of describing the Kitaev spin liquid;as well as the transition between the gapless Z(2) spin liquid and the;so-called stripy antiferromagnet. Within our mean-field theory, we find;a discontinuous transition from the Z(2) spin liquid to the stripy;antiferromagnet. We argue that subtle spinon confinement effects,;associated with the instability of gapped U(1) spin liquid in two;spatial dimensions, play an important role at this transition. The;possibility of an exotic continuous transition is briefly addressed.;13;0;0;0;13;1098-0121;WOS:000312693900003;;;J;Schaich, W. L.;Puscasu, Irina;Tuning infrared emission from microstrip arrays;PHYSICAL REVIEW B;86;24;245423;10.1103/PhysRevB.86.245423;DEC 21 2012;2012;Earlier work has shown that a narrow-frequency-band, wide-angle emission;is produced by an array of metal patches supported on a thin dielectric;layer covering a ground plane. The modes responsible for this emission;are local plasmons trapped under the metal patches. As the dielectric;layer thickness, h(d), is increased, the resonant emission fades in;strength because the plasmon modes can no longer be trapped under a;single patch. Further increases in h(d), making it comparable to the;light wavelength in the dielectric layer, lead to a collection of new;emission peaks. These are narrower than the one peak found for small;h(d) but they are not well separated. We have found that some of these;peaks can be suppressed over a narrow range of h(d). This leaves one;with well-separated, narrow-band emission peaks. We have identified the;physical mechanism for this selective suppression of emission peaks.;DOI: 10.1103/PhysRevB.86.245423;0;0;0;0;0;1098-0121;WOS:000312697500005;;;J;Teperik, T. V.;Degiron, A.;Design strategies to tailor the narrow plasmon-photonic resonances in;arrays of metallic nanoparticles;PHYSICAL REVIEW B;86;24;245425;10.1103/PhysRevB.86.245425;DEC 21 2012;2012;Arrays of metallic nanoparticles can support mixed plasmon-photonic;resonances known as lattice surface modes. Their properties are well;known, but a general strategy to control their properties is still;lacking. In this article, we offer a perspective on the formation of;these modes and show that their excitation depends on constructive and;destructive interferences between the excitation field and the light;scattered by the resonant nanoparticles. It is therefore possible to;design the response of the system through a careful choice of the;excitation conditions and/or by tuning the polarizability of the;particles forming the periodic arrays. DOI: 10.1103/PhysRevB.86.245425;10;0;0;0;10;1098-0121;WOS:000312697500007;;;J;Thakurathi, Manisha;Sen, Diptiman;Dutta, Amit;Fidelity susceptibility of one-dimensional models with twisted boundary;conditions;PHYSICAL REVIEW B;86;24;245424;10.1103/PhysRevB.86.245424;DEC 21 2012;2012;Recently it has been shown that the fidelity of the ground state of a;quantum many-body system can be used todetect its quantum critical;points (QCPs). If g denotes the parameter in the Hamiltonian with;respect to which the fidelity is computed, we find that for;one-dimensional models with large but finite size, the fidelity;susceptibility chi(F) can detect a QCP provided that the correlation;length exponent satisfies nu < 2. We then show that chi(F) can be used;to locate a QCP even if nu >= 2 if we introduce boundary conditions;labeled by a twist angle N theta, where N is the system size. If the QCP;lies at g = 0, we find that if N is kept constant, chi(F) has a scaling;form given by chi(F) similar to theta(-2/nu) f (g/theta(1/nu)) if theta;<< 2 pi/N. We illustrate this both in a tight-binding model of fermions;with a spatially varying chemical potential with amplitude h and period;2q in which nu = q, and in a XY spin-1/2 chain in which nu = 2. Finally;we show that when q is very large, the model has two additional QCPs at;h = +/- 2 which cannot be detected by studying the energy spectrum but;are clearly detected by chi(F). The peak value and width of chi(F) seem;to scale as nontrivial powers of q at these QCPs. We argue that these;QCPs mark a transition between extended and localized states at the;Fermi energy. DOI: 10.1103/PhysRevB.86.245424;3;0;0;0;3;1098-0121;WOS:000312697500006;;;J;Thalmeier, Peter;Akbari, Alireza;Inelastic magnetic scattering effect on local density of states of;topological insulators;PHYSICAL REVIEW B;86;24;245426;10.1103/PhysRevB.86.245426;DEC 21 2012;2012;Magnetic ions such as Fe, Mn, and Co with localized spins may be;adsorbed on the surface of topological insulators such as Bi2Se3. They;form scattering centers for the helical surface states which have a;Dirac cone dispersion as long as the local spins are disordered.;However, the local density of states (LDOS) may be severely modified by;the formation of bound states. Commonly, only elastic scattering due to;normal and exchange potentials of the adatom is assumed. Magnetization;measurements show, however, that considerable magnetic single-ion;anisotropies exist which lead to a splitting of the local impurity spin;states, resulting in a singlet ground state. Therefore inelastic;scattering processes of helical Dirac electrons become possible, as;described by a dynamical local self-energy of second order in the;exchange interaction. The self energy influences bound-state formation;and leads to significant new anomalies in the LDOS at low energies and;low temperatures, which we calculate within the T-matrix approach. We;propose that they may be used for spectroscopy of local impurity spin;states by appropriate tuning of the chemical potential and magnetic;field. DOI: 10.1103/PhysRevB.86.245426;Akbari, Alireza/A-3738-2012;0;0;0;0;0;1098-0121;WOS:000312697500008;;;J;Ungier, W.;Wilamowski, Z.;Jantsch, W.;Spin-orbit force due to Rashba coupling at the spin resonance condition;PHYSICAL REVIEW B;86;24;245318;10.1103/PhysRevB.86.245318;DEC 21 2012;2012;We analyze the effect of Rashba type of spin-orbit (SO) coupling on the;electron dynamics and the rf electrical conductivity. We show that in;addition to the momentum current an additional SO current occurs which;can be attributed to a SO contribution to the electric Lorentz force.;This Rashba SO force is proportional to the time derivative of the;electron magnetization. Therefore, in a static electromagnetic field SO;interaction does not affect the electric or the spin current. Applying;an rf electric current, however, an rf magnetization can be efficiently;induced via the rf Rashba field. Thus, at the Larmor frequency a;characteristic current induced electron spin resonance occurs. There the;absorbed electric power is efficiently converted into magnetic energy.;DOI: 10.1103/PhysRevB.86.245318;1;0;0;0;1;1098-0121;WOS:000312697500003;;;J;Chen, Xie;Wen, Xiao-Gang;Chiral symmetry on the edge of two-dimensional symmetry protected;topological phases;PHYSICAL REVIEW B;86;23;235135;10.1103/PhysRevB.86.235135;DEC 20 2012;2012;Symmetry protected topological (SPT) states are short-range entangled;states with symmetry. The boundary of a SPT phases has either gapless;excitations or degenerate ground states, around a gapped bulk. Recently,;we proposed a systematic construction of SPT phases in interacting;bosonic systems, however it is not very clear what is the form of the;low-energy excitations on the gapless edge. In this paper, we answer;this question for two-dimensional (2D) bosonic SPT phases with Z(N) and;U(1) symmetry. We find that while the low-energy modes of the gapless;edges are nonchiral, symmetry acts on them in a "chiral" way, i.e., acts;on the right movers and the left movers differently. This special;realization of symmetry protects the gaplessness of the otherwise;unstable edge states by prohibiting a direct scattering between the left;and right movers. Moreover, understanding of the low-energy effective;theory leads to experimental predictions about the SPT phases. In;particular, we find that all the 2D U(1) SPT phases have even integer;quantized Hall conductance. DOI: 10.1103/PhysRevB.86.235135;12;1;1;0;12;1098-0121;WOS:000312694400001;;;J;Croy, Alexander;Midtvedt, Daniel;Isacsson, Andreas;Kinaret, Jari M.;Nonlinear damping in graphene resonators;PHYSICAL REVIEW B;86;23;235435;10.1103/PhysRevB.86.235435;DEC 20 2012;2012;Based on a continuum mechanical model for single-layer graphene, we;propose and analyze a microscopic mechanism for dissipation in;nanoelectromechanical graphene resonators. We find that coupling between;flexural modes and in-plane phonons leads to linear and nonlinear;damping of out-of-plane vibrations. By tuning external parameters such;as bias and ac voltages, one can cross over from a linear-to a;nonlinear-damping dominated regime. We discuss the behavior of the;effective quality factor in this context. DOI:;10.1103/PhysRevB.86.235435;Isacsson, Andreas/A-6932-2008; Croy, Alexander/D-4149-2013;Croy, Alexander/0000-0001-9296-9350;13;1;0;0;13;1098-0121;WOS:000312694400004;;;J;Juarez-Reyes, L.;Pastor, G. M.;Stepanyuk, V. S.;Tuning substrate-mediated magnetic interactions by external surface;charging: Co and Fe impurities on Cu(111);PHYSICAL REVIEW B;86;23;235436;10.1103/PhysRevB.86.235436;DEC 20 2012;2012;The substrate-mediated magnetic interactions between substitutional Co;and Fe impurities at the Cu(111) surface have been theoretically;investigated as a function of external surface charging. The;modification of the interactions as a result of the metallic screening;and charge rearrangements are determined self-consistently from first;principles by using the Green's-function Korringa-Kohn-Rostoker method.;As in the neutral Cu(111) surface, the effective magnetic exchange;coupling Delta E between impurities shows;Ruderman-Kittel-Kasuya-Yosida-like (RKKY) oscillations as a function of;the interimpurity distance. At large interimpurity distances, the;wavelength of the RKKY oscillation is not significantly affected by the;value and polarity of the external surface charge. Still, important;changes in the magnitude of Delta E are observed. For short distances,;up to fourth nearest neighbors, surface charging offers remarkable;possibilities of controlling the sign and strength of the magnetic;coupling. A nonmonotonous dependence of Delta E, including changes from;ferromagnetic to antiferromagnetic coupling, is observed as a function;of overlayer charging. The charge-induced changes in the surface;electronic structure, local magnetic moments, electronic densities of;states, and interaction energies are analyzed from a local perspective.;The resulting possibilities of manipulating the magnetic interactions in;surface nanostructures are discussed. DOI: 10.1103/PhysRevB.86.235436;2;0;0;0;2;1098-0121;WOS:000312694400005;;;J;Kurahashi, M.;Sun, X.;Yamauchi, Y.;Magnetic properties of O-2 adsorbed on Cu(100): A spin-polarized;metastable He beam study;PHYSICAL REVIEW B;86;24;245421;10.1103/PhysRevB.86.245421;DEC 20 2012;2012;Magnetic properties of O-2 adsorbed on Cu(100) were investigated by;monitoring the spin dependence in Penning ionization of metastable;He(2(3)S) under external magnetic fields of 0-5 T. A clear spin;polarization was found for the 3 sigma and 1 pi(u) orbitals of;physisorbed O-2 under external fields, while the spin polarization;disappeared when O-2 was changed into the chemisorbed state at >50 K.;The magnetic susceptibility at the surface of multilayer and monolayer;of physisorbed O-2 on Cu(100) was similar to that for the bulk liquid;O-2. Observed exchange splittings and spin polarization suggest that a;physisorbed O-2 molecule has a magnetic moment close to that for an;isolated O-2 molecule even at submonolayer coverages, while a density;functional theory calculation predicts a much reduced magnetic moment;for O-2 directly adsorbed on Cu(100). DOI: 10.1103/PhysRevB.86.245421;KURAHASHI, Mitsunori/H-2801-2011;1;0;0;0;1;1098-0121;WOS:000312696900004;;;J;Livneh, Y.;Klipstein, P. C.;Klin, O.;Snapi, N.;Grossman, S.;Glozman, A.;Weiss, E.;k . p model for the energy dispersions and absorption spectra of;InAs/GaSb type-II superlattices;PHYSICAL REVIEW B;86;23;235311;10.1103/PhysRevB.86.235311;DEC 20 2012;2012;We have fitted the k . p model derived recently by one of the authors;[Klipstein, Phys. Rev. B 81, 235314 (2010)] to experimentally measured;photoabsorption spectra at 77 and 300 K for representative InAs/GaSb;superlattices with band-gap wavelengths between 4.3 and 10.5 mu m. The;model is able to reproduce the main features of the absorption spectra,;including a strong peak from the zone boundary HH2 -> E-1 transition. We;have also used the same model to predict the band-gap wavelengths of;over 30 more superlattices, measured by photoluminescence spectroscopy.;The maximum error is 0.6 mu m, which corresponds to an uncertainty of;less than 0.4 ML in layer width. This is comparable with the;experimental uncertainty in layer widths, determined by in situ;beam-flux measurements in the growth reactor. By eliminating all terms;from the Hamiltonian, the energy contribution of which is less than the;error due to the uncertainty in layer widths, the number of unknown;fitting parameters has been reduced to six: two Luttinger parameters,;three interface parameters, and the valence band offset. The remaining;four Luttinger parameters are not independent and are determined from;the two independent ones. Our set of Luttinger parameters is close to;that reported by Lawaetz [Phys. Rev. B 4, 3460 (1971)], with a maximum;deviation in any parameter of 0.6. The interface parameters are diagonal;and have values of D-S = 3 eV angstrom, D-X = 1.3 eV angstrom, and D-Z =;1.1 eV angstrom at 77 K. The off-diagonal interface parameters alpha and;beta are too small to be fitted with any accuracy and have negligible;effect on the unpolarized photoabsorption spectra. We also propose;values for the room-temperature Luttinger and interface parameters. The;fitted unstrained InAs/GaSb band overlap is 0.142 eV. DOI:;10.1103/PhysRevB.86.235311;5;0;0;0;5;1098-0121;WOS:000312694400003;;;J;Sales, Brian C.;May, Andrew F.;McGuire, Michael A.;Stone, Matthew B.;Singh, David J.;Mandrus, David;Transport, thermal, and magnetic properties of the narrow-gap;semiconductor CrSb2;PHYSICAL REVIEW B;86;23;235136;10.1103/PhysRevB.86.235136;DEC 20 2012;2012;Resistivity, the Hall effect, the Seebeck coefficient, thermal;conductivity, heat capacity, and magnetic susceptibility data are;reported for CrSb2 single crystals. In spite of some unusual features in;electrical transport and Hall measurements below 100 K, only one phase;transition is found in the temperature range from 2 to 750 K;corresponding to long-range antiferromagnetic order below T-N;approximate to 273 K. Many of the low-temperature properties can be;explained by the thermal depopulation of carriers from the conduction;band into a low-mobility band located approximately 16 meV below the;conduction-band edge, as deduced from the Hall effect data. In analogy;with what occurs in Ge, the low-mobility band is likely an impurity;band. The Seebeck coefficient, S, is large and negative for temperatures;from 2 to 300 K ranging from approximate to -70 mu V/K at 300 K to -4500;mu V/K at 18 K. A large maximum in vertical bar S vertical bar at 18 K;is likely due to phonon drag, with the abrupt drop in vertical bar S;vertical bar below 18 K due to the thermal depopulation of the;high-mobility conduction band. The large thermal conductivity between 10;and 20 K (approximate to 350 W/m K) is consistent with this;interpretation, as are detailed calculations of the Seebeck coefficient;made using the complete calculated electronic structure. These data are;compared to data reported for FeSb2, which crystallizes in the same;marcasite structure, and FeSi, another unusual narrow-gap semiconductor.;DOI: 10.1103/PhysRevB.86.235136;Stone, Matthew/G-3275-2011; McGuire, Michael/B-5453-2009; May, Andrew/E-5897-2011; Mandrus, David/H-3090-2014;McGuire, Michael/0000-0003-1762-9406;;7;0;0;0;7;1098-0121;WOS:000312694400002;;;J;Toews, W.;Pastor, G. M.;Spin-polarized density-matrix functional theory of the single-impurity;Anderson model;PHYSICAL REVIEW B;86;24;245123;10.1103/PhysRevB.86.245123;DEC 20 2012;2012;Lattice density functional theory (LDFT) is used to investigate spin;excitations in the single-impurity Anderson model. In this method, the;single-particle density matrix gamma(ij sigma) with respect to the;lattice sites replaces the wave function as the basic variable of the;many-body problem. A recently developed two-level approximation (TLA) to;the interaction-energy functional W[gamma] is extended to systems having;spin-polarized density distributions and bond orders. This allows us to;investigate the effect of external magnetic fields and, in particular,;the important singlet-triplet gap Delta E, which determines the Kondo;temperature. Applications to finite Anderson rings and square lattices;show that the gap Delta E as well as other ground-state and;excited-state properties are very accurately reproduced. One concludes;that the spin-polarized TLA is reliable in all interaction regimes, from;weak to strong correlations, for different hybridization strengths and;for all considered impurity valence states. In this way the efficiency;of LDFT to account for challenging electron-correlation effects is;demonstrated. DOI: 10.1103/PhysRevB.86.245123;1;0;0;0;1;1098-0121;WOS:000312696900002;;;J;Weichselbaum, Andreas;Tensor networks and the numerical renormalization group;PHYSICAL REVIEW B;86;24;245124;10.1103/PhysRevB.86.245124;DEC 20 2012;2012;The full-density-matrix numerical renormalization group has evolved as a;systematic and transparent setting for the calculation of;thermodynamical quantities at arbitrary temperatures within the;numerical renormalization group (NRG) framework. It directly evaluates;the relevant Lehmann representations based on the complete basis sets;introduced by Anders and Schiller [Phys. Rev. Lett. 95, 196801 (2005)].;In addition, specific attention is given to the possible feedback from;low-energy physics to high energies by the explicit and careful;construction of the full thermal density matrix, naturally generated;over a distribution of energy shells. Specific examples are given in;terms of spectral functions (fdmNRG), time-dependent NRG (tdmNRG),;Fermi-golden-rule calculations (fgrNRG) as well as the calculation of;plain thermodynamic expectation values. Furthermore, based on the very;fact that, by its iterative nature, the NRG eigenstates are naturally;described in terms of matrix product states, the language of tensor;networks has proven enormously convenient in the description of the;underlying algorithmic procedures. This paper therefore also provides a;detailed introduction and discussion of the prototypical NRG;calculations in terms of their corresponding tensor networks. DOI:;10.1103/PhysRevB.86.245124;Weichselbaum, Andreas/I-8858-2012;Weichselbaum, Andreas/0000-0002-5832-3908;8;0;0;0;8;1098-0121;WOS:000312696900003;;;J;Yan, Jun;Jacobsen, Karsten W.;Thygesen, Kristian S.;Conventional and acoustic surface plasmons on noble metal surfaces: A;time-dependent density functional theory study;PHYSICAL REVIEW B;86;24;241404;10.1103/PhysRevB.86.241404;DEC 20 2012;2012;First-principles calculations of the conventional and acoustic surface;plasmons (CSPs and ASPs) on the (111) surfaces of Cu, Ag, and Au are;presented. The effect of s-d interband transitions on both types of;plasmons is investigated by comparing results from the local density;approximation and an orbital-dependent exchange-correlation (xc);potential that improves the position and width of the d bands. The;plasmon dispersions calculated with the latter xc potential agree well;with electron energy loss spectroscopy (EELS) experiments. For both the;CSP and ASP, the same trend of Cu < Au < Ag is found for the plasmon;energies and is attributed to the reduced screening by interband;transitions from Cu, to Au and Ag. This trend for the ASP, however,;contradicts a previous model prediction. While the ASP is seen as a weak;feature in the EELS, it can be clearly identified in the static and;dynamic dielectric band structure. DOI: 10.1103/PhysRevB.86.241404;Jacobsen, Karsten/B-3602-2009; Yan, Jun/K-3474-2012; Thygesen, Kristian /B-1062-2011;7;0;0;0;7;1098-0121;WOS:000312696900001;;;J;Euchner, H.;Pailhes, S.;Nguyen, L. T. K.;Assmus, W.;Ritter, F.;Haghighirad, A.;Grin, Y.;Paschen, S.;de Boissieu, M.;Phononic filter effect of rattling phonons in the thermoelectric;clathrate Ba8Ge40+xNi6-x;PHYSICAL REVIEW B;86;22;224303;10.1103/PhysRevB.86.224303;DEC 20 2012;2012;One of the key requirements for good thermoelectric materials is a low;lattice thermal conductivity. Here we present a combined neutron;scattering and theoretical investigation of the lattice dynamics in the;type I clathrate system Ba-Ge-Ni, which fulfills this requirement. We;observe a strong hybridization between phonons of the Ba guest atoms and;acoustic phonons of the Ge-Ni host structure over a wide region of the;Brillouin zone, which is in contrast with the frequently adopted picture;of isolated Ba atoms in Ge-Ni host cages. It occurs without a strong;decrease of the acoustic phonon lifetime, which contradicts the usual;assumption of strong anharmonic phonon-phonon scattering processes.;Within the framework of ab initio density-functional theory calculations;we interpret these hybridizations as a series of anticrossings which act;as a low-pass filter, preventing the propagation of acoustic phonons. To;highlight the effect of such a phononic low-pass filter on the thermal;transport, we compute the contribution of acoustic phonons to the;thermal conductivity of Ba8Ge40Ni6 and compare it to those of pure Ge;and a Ge-46 empty-cage model system. DOI: 10.1103/PhysRevB.86.224303;Paschen, Silke/C-3841-2014;Paschen, Silke/0000-0002-3796-0713;8;1;0;0;8;1098-0121;WOS:000312693600002;;;J;Harvey, J. -P.;Gheribi, A. E.;Chartrand, P.;Thermodynamic integration based on classical atomistic simulations to;determine the Gibbs energy of condensed phases: Calculation of the;aluminum-zirconium system;PHYSICAL REVIEW B;86;22;224202;10.1103/PhysRevB.86.224202;DEC 20 2012;2012;In this work, an in silico procedure to generate a fully coherent set of;thermodynamic properties obtained from classical molecular dynamics (MD);and Monte Carlo (MC) simulations is proposed. The procedure is applied;to the Al-Zr system because of its importance in the development of high;strength Al-Li alloys and of bulk metallic glasses. Cohesive energies of;the studied condensed phases of the Al-Zr system (the liquid phase, the;fcc solid solution, and various orthorhombic stoichiometric compounds);are calculated using the modified embedded atom model (MEAM) in the;second-nearest-neighbor formalism (2NN). The Al-Zr MEAM-2NN potential is;parameterized in this work using ab initio and experimental data found;in the literature for the AlZr3-L1(2) structure, while its predictive;ability is confirmed for several other solid structures and for the;liquid phase. The thermodynamic integration (TI) method is implemented;in a general MC algorithm in order to evaluate the absolute Gibbs energy;of the liquid and the fcc solutions. The entropy of mixing calculated;from the TI method, combined to the enthalpy of mixing and the heat;capacity data generated from MD/MC simulations performed in the;isobaric-isothermal/canonical (NPT/NVT) ensembles are used to;parameterize the Gibbs energy function of all the condensed phases in;the Al-rich side of the Al-Zr system in a CALculation of PHAse Diagrams;(CALPHAD) approach. The modified quasichemical model in the pair;approximation (MQMPA) and the cluster variation method (CVM) in the;tetrahedron approximation are used to define the Gibbs energy of the;liquid and the fcc solid solution respectively for their entire range of;composition. Thermodynamic and structural data generated from our MD/MC;simulations are used as input data to parameterize these thermodynamic;models. A detailed analysis of the validity and transferability of the;Al-Zr MEAM-2NN potential is presented throughout our work by comparing;the predicted properties obtained from this formalism with available ab;initio and experimental data for both liquid and solid phases. DOI:;10.1103/PhysRevB.86.224202;0;0;0;0;0;1098-0121;WOS:000312693600001;;;J;Hoffman, Silas;Upadhyaya, Pramey;Tserkovnyak, Yaroslav;Spin-torque ac impedance in magnetic tunnel junctions;PHYSICAL REVIEW B;86;21;214420;10.1103/PhysRevB.86.214420;DEC 20 2012;2012;Subjecting a magnetic tunnel junction (MTJ) to a spin-transfer torque;and/or electric voltage-induced magnetic anisotropy induces magnetic;precession, which can reciprocally pump current through the circuit.;This results in an ac impedance, which is sensitive to the magnetic;field applied to the MTJ. Measurement of this impedance can be used to;characterize the nature of the coupling between the magnetic free layer;and the electric input as well as a readout of the magnetic;configuration of the MTJ. DOI: 10.1103/PhysRevB.86.214420;1;0;0;0;1;1098-0121;WOS:000312674200003;;;J;Martinez, Enrique;Caro, Alfredo;Atomistic modeling of long-term evolution of twist boundaries under;vacancy supersaturation;PHYSICAL REVIEW B;86;21;214109;10.1103/PhysRevB.86.214109;DEC 20 2012;2012;Vacancy accumulation in 4 degrees {110} bcc Fe and 2 degrees {111} fcc;Cu twist boundaries (TBs) has been studied. These interfaces are;characterized by different sets of screw dislocations: two sets of;a(0)/2 < 111 > and one set of a(0)/2 < 100 > in Fe and three sets of;a(0)/6 < 112 > in Cu. We observe that vacancies agglomerate;preferentially at the misfit dislocation intersections (MDIs), where;their formation energy is lower. In bcc the dislocation structure;remains stable, but in fcc the interface rearranges itself increasing;the stacking fault area. To perform this study a kinetic Monte Carlo;algorithm coupled with the molecular dynamics code LAMMPS has been;developed. Atomic positions are relaxed at every step after an event;takes place to account for long-range strain fields. The events;considered in this work are vacancy migration hops. The rates are;calculated via harmonic transition state theory with the energy at the;saddle point obtained either by a linear approximation considering the;relaxed energy of the initial and final configurations or the;nudged-elastic band method depending on the vacancy position in the;sample. Vacancy diffusivities at both interfaces have also been;calculated. For the {110} TB in Fe the diffusivity is of the same order;of magnitude as in bulk (D-TB(Fe) = 2.60 x 10(-13) m(2)/s) while at the;{111} TB in Cu, diffusivities are two orders of magnitude larger than in;bulk (D-TB(Cu) = 2.06 x 10(-12) m(2)/s). The correlation factors at both;interfaces are extremely low (f(TB)(Fe) = 1.61 x 10(-4) and f(TB)(Cu) =;3.34 x 10(-4)), highlighting the importance of trapping sites at these;interfaces. DOI: 10.1103/PhysRevB.86.214109;3;1;0;0;3;1098-0121;WOS:000312674200002;;;J;McCash, Kevin;Srikanth, A.;Ponomareva, I.;Competing polarization reversal mechanisms in ferroelectric nanowires;PHYSICAL REVIEW B;86;21;214108;10.1103/PhysRevB.86.214108;DEC 20 2012;2012;Polarization reversal in ferroelectrics has been a subject of intense;interest for many years owing to both its scientific appeal and;practical utility. In recent years the interest has increased even;further thanks to the expectations of achieving ultrafast polarization;reversal at the nanoscale. While most of the studies up to now are;focused on the polarization reversal in ferroelectric thin films, we;report the intrinsic dynamics of ultrafast polarization reversal in;ferroelectric nanowires. Using atomistic first-principles-based;simulations, we trace the time evolution of polarization under applied;electric field to reveal the existence of two competing polarization;reversal mechanisms: (i) domain-driven and (ii) homogeneous. The;analysis of their microscopic origin allows us to postulate the;associated laws and leads to a deeper understanding of polarization;reversal dynamics in general. In addition, we find that in defect-free;nanowires the polarization reversal can occur within picoseconds, which;potentially is very promising for ultrafast memory and other;applications. DOI: 10.1103/PhysRevB.86.214108;Ponomareva, Inna/C-4067-2012;6;0;0;0;6;1098-0121;WOS:000312674200001;;;J;Silaev, M. A.;Volovik, G. E.;Topological Fermi arcs in superfluid He-3;PHYSICAL REVIEW B;86;21;214511;10.1103/PhysRevB.86.214511;DEC 20 2012;2012;We consider fermionic states bound on domain walls in a Weyl superfluid;He-3-A and on interfaces between He-3-A and a fully gapped topological;superfluid He-3-B. We demonstrate that in both cases the fermionic;spectrum contains Fermi arcs that are continuous nodal lines of energy;spectrum terminating at the projections of two Weyl points to the plane;of surface states in momentum space. The number of Fermi arcs is;determined by the index theorem that relates bulk values of the;topological invariant to the number of zero-energy surface states. The;index theorem is consistent with an exact spectrum of Bogolubov-de;Gennes equation obtained numerically, meanwhile, the quasiclassical;approximation fails to reproduce the correct number of zero modes. Thus;we demonstrate that topology describes the properties of the exact;spectrum beyond the quasiclassical approximation. DOI:;10.1103/PhysRevB.86.214511;8;0;0;0;8;1098-0121;WOS:000312674200006;;;J;Sluka, V.;Kakay, A.;Deac, A. M.;Buergler, D. E.;Hertel, R.;Schneider, C. M.;Quenched Slonczewski windmill in spin-torque vortex oscillators;PHYSICAL REVIEW B;86;21;214422;10.1103/PhysRevB.86.214422;DEC 20 2012;2012;We present a combined analytical and numerical study on double-vortex;spin-torque nano-oscillators and describe a mechanism that suppresses;the windmill modes. The magnetization dynamics is dominated by the;gyrotropic precession of the vortex in one of the ferromagnetic layers.;In the other layer, the vortex gyration is strongly damped. The;dominating layer for the magnetization dynamics is determined by the;sign of the product between sample current and the chiralities.;Measurements on Fe/Ag/Fe nanopillars support these findings. The results;open up a new perspective for building high quality-factor spin-torque;oscillators operating at selectable, well-separated frequency bands.;DOI: 10.1103/PhysRevB.86.214422;Deac, Alina/D-2961-2012; Buergler, Daniel/I-7408-2012; Kakay, Attila/B-7106-2008; Schneider, Claus/H-7453-2012;Buergler, Daniel/0000-0002-5579-4886; Kakay, Attila/0000-0002-3195-219X;;Schneider, Claus/0000-0002-3920-6255;4;0;0;0;4;1098-0121;WOS:000312674200005;;;J;Strohm, C.;Roth, T.;Detlefs, C.;van der Linden, P.;Mathon, O.;Element-selective magnetometry in ferrimagnetic erbium iron garnet;PHYSICAL REVIEW B;86;21;214421;10.1103/PhysRevB.86.214421;DEC 20 2012;2012;The emergence of a field induced canted phase below a critical;temperature is one of the characteristic properties of ferrimagnets with;two inequivalent antiferromagnetically coupled sublattices. Using x-ray;magnetic circular dichroism at the Fe K edge, we have performed element;selective magnetometry in ferrimagnetic erbium iron garnet in fields up;to 30 T. The signal from the tetrahedral Fe sites at 70 K allows the;detection of the two transitions at 10 and 23 T bounding the canted;phase and the direct observation of the reversal of the Fe-sublattice;magnetization within this phase. DOI: 10.1103/PhysRevB.86.214421;Detlefs, Carsten/B-6244-2008;Detlefs, Carsten/0000-0003-2573-2286;0;0;0;0;0;1098-0121;WOS:000312674200004;;;J;Yang, Huan;Wang, Zhenyu;Fang, Delong;Li, Sheng;Kariyado, Toshikaze;Chen, Genfu;Ogata, Masao;Das, Tanmoy;Balatsky, A. V.;Wen, Hai-Hu;Unexpected weak spatial variation in the local density of states induced;by individual Co impurity atoms in superconducting Na(Fe1-xCox)As;crystals revealed by scanning tunneling spectroscopy;PHYSICAL REVIEW B;86;21;214512;10.1103/PhysRevB.86.214512;DEC 20 2012;2012;We use spatially resolved scanning tunneling spectroscopy in;Na(Fe1-xCox)As to investigate the impurity effect induced by Co dopants.;The Co impurities are successfully identified, and the spatial;distributions of local density of state at different energies around;these impurities are investigated. It is found that the spectrum shows;negligible spatial variation at different positions near the Co;impurity, although there is a continuum of the in-gap states which lifts;the zero-bias conductance to a finite value. Our results put constraints;on the S +/- and S++ models and sharpen the debate on the role of;scattering potentials induced by the Co dopants. DOI:;10.1103/PhysRevB.86.214512;Das, Tanmoy/F-7174-2013;9;0;1;0;9;1098-0121;WOS:000312674200007;;;J;Chen, Gang;Hermele, Michael;Magnetic orders and topological phases from f-d exchange in pyrochlore;iridates;PHYSICAL REVIEW B;86;23;235129;10.1103/PhysRevB.86.235129;DEC 19 2012;2012;We study theoretically the effects of f-d magnetic exchange interaction;in the R2Ir2O7 pyrochlore iridates. The R3+ f electrons form localized;Kramers or non-Kramers doublets, while the Ir4+ d electrons are more;itinerant and feel a strong spin-orbit coupling. We construct and;analyze a minimal model capturing this physics, treating the Ir;subsystem using a Hubbard-type model. First neglecting the Hubbard;interaction, we find Weyl semimetal and Axion insulator phases induced;by the f-d exchange. Next, we find that f-d exchange can cooperate with;the Hubbard interaction to stabilize the Weyl semimetal over a larger;region of parameter space than when it is induced by d-electron;correlations alone. Applications to experiments are discussed. DOI:;10.1103/PhysRevB.86.235129;15;1;0;0;15;1098-0121;WOS:000312495500002;;;J;Hung, Ling-Yan;Wan, Yidun;String-net models with Z(N) fusion algebra;PHYSICAL REVIEW B;86;23;235132;10.1103/PhysRevB.86.235132;DEC 19 2012;2012;We study the Levin-Wen string-net model with a Z(N) type fusion algebra.;Solutions of the local constraints of this model correspond to Z(N);gauge theory and double Chern-Simons theories with quantum groups. For;the first time, we explicitly construct a spin-(N - 1)/2 model with Z(N);gauge symmetry on a triangular lattice as an exact dual model of the;string-net model with a Z(N) type fusion algebra on a honeycomb lattice.;This exact duality exists only when the spins are coupled to a Z(N);gauge field living on the links of the triangular lattice. The ungauged;Z(N) lattice spin models are a class of quantum systems that bear;symmetry-protected topological phases that may be classified by the;third cohomology group H-3(Z(N), U(1)) of Z(N). Our results apply also;to any case where the fusion algebra is identified with a finite group;algebra or a quantum group algebra. DOI: 10.1103/PhysRevB.86.235132;9;0;0;0;9;1098-0121;WOS:000312495500005;;;J;Husser, H.;Pehlke, E.;Analysis of two-photon photoemission from Si(001);PHYSICAL REVIEW B;86;23;235134;10.1103/PhysRevB.86.235134;DEC 19 2012;2012;We have applied our ab initio simulation approach for the photoemission;process at solid surfaces to calculate two-photon photoemission spectra;from the p(2 x 2)-reconstructed Si(001) surface. In this approach, the;ground-state electronic structure of the surface is obtained within;density functional theory. The subsequent time-dependent simulation is;carried through at frozen effective potential, while an optical;potential is applied to account for inelastic scattering in the excited;state. We have derived normal emission spectra for s-and p-polarized;light with photon energies in the range (h) over bar omega = 3.85-4.75;eV. The dependence of the theoretical spectra on photon energy and;polarization is analyzed and compared to experimental spectra from the;literature. To unravel the role of the unoccupied states between Fermi;energy and the vacuum level which are acting as intermediate states in;the excitation process, we investigate the expression for the two-photon;photocurrent from perturbation theory. The scattering states, which;serve as the final states of photoemission, are obtained from a;time-dependent simulation of a LEED-type experiment. The evaluation of;the dipole matrix elements allows us to identify the relevant bulk band;transitions and to address the influence of surface states. DOI:;10.1103/PhysRevB.86.235134;0;0;0;0;0;1098-0121;WOS:000312495500007;;;J;Jenkins, Gregory S.;Sushkov, Andrei B.;Schmadel, Don C.;Kim, M. -H.;Brahlek, Matthew;Bansal, Namrata;Oh, Seongshik;Drew, H. Dennis;Giant plateau in the terahertz Faraday angle in gated Bi2Se3;PHYSICAL REVIEW B;86;23;235133;10.1103/PhysRevB.86.235133;DEC 19 2012;2012;We report gated terahertz Faraday angle measurements on epitaxial Bi2Se3;thin films capped with In2Se3. A plateau is observed in the real part of;the Faraday angle at an onset gate voltage corresponding to no band;bending at the surface, which persists into accumulation. The plateau is;two orders of magnitude flatter than the step size expected from a;single Landau level in the low-frequency limit, quantized in units of;the fine structure constant. At 8 T, the plateau extends over a range of;gate voltage that spans an electron density greater than 14 times the;quantum flux density. Both the imaginary part of the Faraday angle and;transmission measurements indicate dissipative off-axis and longitudinal;conductivity channels associated with the plateau. DOI:;10.1103/PhysRevB.86.235133;6;0;0;0;6;1098-0121;WOS:000312495500006;;;J;Maciejko, Joseph;Qi, Xiao-Liang;Karch, Andreas;Zhang, Shou-Cheng;Models of three-dimensional fractional topological insulators;PHYSICAL REVIEW B;86;23;235128;10.1103/PhysRevB.86.235128;DEC 19 2012;2012;Time-reversal invariant three-dimensional topological insulators can be;defined fundamentally by a topological field theory with a quantized;axion angle theta of 0 or pi. It was recently shown that fractional;quantized values of theta are consistent with time-reversal invariance;if deconfined, gapped, fractionally charged bulk excitations appear in;the low-energy spectrum due to strong correlation effects, leading to;the concept of a fractional topological insulator. These fractionally;charged excitations are coupled to emergent gauge fields, which ensure;that the microscopic degrees of freedom, the original electrons, are;gauge-invariant objects. A first step towards the construction of;microscopic models of fractional topological insulators is to understand;the nature of these emergent gauge theories and their corresponding;phases. In this work, we show that low-energy effective gauge theories;of both Abelian or non-Abelian type are consistent with a fractional;quantized axion angle if they admit a Coulomb phase or a Higgs phase;with gauge group broken down to a discrete subgroup. The Coulomb phases;support gapless but electrically neutral bulk excitations while the;Higgs phases are fully gapped. The Higgs and non-Abelian Coulomb phases;exhibit multiple ground states on boundaryless spatial three-manifolds;with nontrivial first homology, while the Abelian Coulomb phase has a;unique ground state. The ground-state degeneracy receives an additional;contribution on manifolds with boundary due to the induced boundary;Chern-Simons term. DOI: 10.1103/PhysRevB.86.235128;Zhang, Shou-Cheng/B-2794-2010;6;0;0;0;6;1098-0121;WOS:000312495500001;;;J;Mikheev, E.;Stolichnov, I.;De Ranieri, E.;Wunderlich, J.;Trodahl, H. J.;Rushforth, A. W.;Riester, S. W. E.;Campion, R. P.;Edmonds, K. W.;Gallagher, B. L.;Setter, N.;Magnetic domain wall propagation under ferroelectric control;PHYSICAL REVIEW B;86;23;235130;10.1103/PhysRevB.86.235130;DEC 19 2012;2012;Control of magnetic domain walls (DWs) and their propagation is among;the most promising development directions for future information-storage;devices. The well-established tools for such manipulation are the;spin-torque transfer from electrical currents and strain. The focus of;this paper is an alternative concept based on the nonvolatile;ferroelectric field effect on DWs in a ferromagnet with carrier-mediated;exchange coupling. The integrated ferromagnet/ferroelectric structure;yields two superimposed ferroic patterns strongly coupled by an electric;field. Using this coupling, we demonstrate an easy-to-form, stable,;nondestructive, and electrically rewritable switch on magnetic domain;wall propagation. DOI: 10.1103/PhysRevB.86.235130;Stolichnov, Igor/B-3331-2014; Wunderlich, Joerg/G-6918-2014;Stolichnov, Igor/0000-0003-0606-231X;;2;0;0;0;2;1098-0121;WOS:000312495500003;;;J;Yamaoka, Hitoshi;Zekko, Yumiko;Kotani, Akio;Jarrige, Ignace;Tsujii, Naohito;Lin, Jung-Fu;Mizuki, Jun'ichiro;Abe, Hideki;Kitazawa, Hideaki;Hiraoka, Nozomu;Ishii, Hirofumi;Tsuei, Ku-Ding;Electronic transitions in CePd2Si2 studied by resonant x-ray emission;spectroscopy at high pressures and low temperatures;PHYSICAL REVIEW B;86;23;235131;10.1103/PhysRevB.86.235131;DEC 19 2012;2012;Temperature and pressure dependences of the electronic structure of the;heavy-fermion system CePd2Si2 have been investigated using partial;fluorescence yield x-ray absorption spectroscopy and resonant x-ray;emission spectroscopy at the Ce L-3 edge. The temperature dependence has;also been measured for CeRh2Si2 for comparison. In both compounds Ce is;in a weakly mixed valence state at ambient pressure, mostly f(1) with a;small contribution from the f(0) component. No temperature dependence of;the Ce valence is observed at temperatures as low as 8 K. In CePd2Si2 at;19 K, however, the Ce valence shows a continuous increase with pressure,;indicating pressure-induced delocalization of the 4f states. Theoretical;calculations based on the single impurity Anderson model reproduce the;experimental results well. Pressure dependence of the difference between;the ground state valence and the measured valence including the final;state effect is also discussed. DOI: 10.1103/PhysRevB.86.235131;Lin, Jung-Fu/B-4917-2011;3;0;0;0;3;1098-0121;WOS:000312495500004;;;J;Zolyomi, V.;Ivady, V.;Gali, A.;Enhancement of electron-nuclear hyperfine interaction at lattice defects;in semiconducting single-walled carbon nanotubes studied by ab initio;density functional theory calculations;PHYSICAL REVIEW B;86;23;235433;10.1103/PhysRevB.86.235433;DEC 19 2012;2012;We present a first principles study of the electron-nuclear;hyperfine-interaction (HF) in achiral single-walled carbon nanotubes;(SWCNTs). We show that while HF coupling is small in perfect nanotubes,;it is significantly enhanced near lattice defects such as vacancies and;Stone-Wales pairs. The enhancement of hyperfine coupling near the;defects varies considerably in different nanotubes which might pave the;way to simultaneously identifying the chirality of carbon nanotubes and;the defects inside them by sophisticated magnetic resonance techniques.;Charged vacancy is proposed as a candidate for solid state qubit in;semiconducting SWCNTs. DOI: 10.1103/PhysRevB.86.235433;0;0;0;0;0;1098-0121;WOS:000312495500008;;;J;Castro, M.;Gago, R.;Vazquez, L.;Munoz-Garcia, J.;Cuerno, R.;Stress-induced solid flow drives surface nanopatterning of silicon by;ion-beam irradiation;PHYSICAL REVIEW B;86;21;214107;10.1103/PhysRevB.86.214107;DEC 19 2012;2012;Ion-beam sputtering (IBS) is known to produce surface nanopatterns over;macroscopic areas on a wide range of materials. However, in spite of the;technological potential of this route to nanostructuring, the physical;process by which these surfaces self-organize remains poorly understood.;We have performed detailed experiments of IBS on Si substrates that;validate dynamical and morphological predictions from a hydrodynamic;description of the phenomenon. We introduce a systematic approach to;perform the experiments under conditions that guarantee the;applicability of a linear description, helping to clarify the;experimental framework in which theories should be tested. Among our;results, the pattern wavelength is experimentally seen to depend almost;linearly on ion energy, in agreement with existing results for other;targets that are amorphous or become so under irradiation. Our work;substantiates flow of a nanoscopically thin and highly viscous surface;layer, driven by the stress created by the ion beam, as an accurate;description of this class of systems.;Gago, Raul/C-6762-2008; VAZQUEZ, LUIS/A-1272-2009; Munoz-Garcia, Javier/C-1135-2011; Castro, Mario/A-3585-2009;Gago, Raul/0000-0003-4388-8241; VAZQUEZ, LUIS/0000-0001-6220-2810;;Castro, Mario/0000-0003-3288-6144;22;0;0;0;22;1098-0121;WOS:000312494800001;;;J;Fishman, Randy S.;Furukawa, Nobuo;Haraldsen, Jason T.;Matsuda, Masaaki;Miyahara, Shin;Identifying the spectroscopic modes of multiferroic BiFeO3;PHYSICAL REVIEW B;86;22;220402;10.1103/PhysRevB.86.220402;DEC 19 2012;2012;We have identified the modes of multiferroic BiFeO3 measured by THz and;Raman spectroscopies. Excellent agreement with the observed peaks is;obtained by including the effects of easy-axis anisotropy along the;direction of the electric polarization. By distorting the cycloidal spin;state, anisotropy splits the Psi(perpendicular to 1) mode into peaks at;20 and 21.5 cm(-1) and activates the lower Phi(+/- 2) mode at 27 cm(-1);(T = 200 K). An electromagnon is identified with the upper Psi(+/- 1);mode at 21.5 cm(-1). Our results also explain recent inelastic;neutron-scattering measurements. DOI:10.1103/PhysRevB.86.220402;Haraldsen, Jason/B-9809-2012; Fishman, Randy/C-8639-2013; Lujan Center, LANL/G-4896-2012;Haraldsen, Jason/0000-0002-8641-5412;;8;0;0;0;8;1098-0121;WOS:000312495200001;;;J;Geraedts, Scott D.;Motrunich, Olexei I.;Monte Carlo study of a U(1) x U(1) loop model with modular invariance;PHYSICAL REVIEW B;86;24;245121;10.1103/PhysRevB.86.245121;DEC 19 2012;2012;We study a U(1) x U(1) system in (2+1) dimensions with long-range;interactions and mutual statistics. The model has the same form after;the application of operations from the modular group, a property which;we call modular invariance. Using the modular invariance of the model,;we propose a possible phase diagram. We obtain a sign-free reformulation;of the model and study it in Monte Carlo. This study confirms our;proposed phase diagram. We use the modular invariance to analytically;determine the current-current correlation functions and conductivities;in all the phases in the diagram, as well as at special "fixed" points;which are unchanged by an operation from the modular group. We;numerically determine the order of the phase transitions, and find;segments of second-order transitions. For the statistical interaction;parameter theta = pi, these second-order transitions are evidence of a;critical loop phase obtained when both loops are trying to condense;simultaneously. We also measure the critical exponents of the;second-order transitions. DOI: 10.1103/PhysRevB.86.245121;1;0;0;0;1;1098-0121;WOS:000312495800003;;;J;Giering, Kay-Uwe;Salmhofer, Manfred;Self-energy flows in the two-dimensional repulsive Hubbard model;PHYSICAL REVIEW B;86;24;245122;10.1103/PhysRevB.86.245122;DEC 19 2012;2012;We study the two-dimensional repulsive Hubbard model by functional;renormalization group methods, using our recently proposed channel;decomposition of the interaction vertex. The main technical advance of;this work is that we calculate the full Matsubara frequency dependence;of the self-energy and the interaction vertex in the whole frequency;range without simplifying assumptions on its functional form, and that;the effects of the self-energy are fully taken into account in the;equations for the flow of the two-body vertex function. At Van Hove;filling, we find that the Fermi-surface deformations remain small at;fixed particle density and have a minor impact on the structure of the;interaction vertex. The frequency dependence of the self-energy,;however, turns out to be important, especially at a transition from;ferromagnetism to d-wave superconductivity. We determine;non-Fermi-liquid exponents at this transition point. DOI:;10.1103/PhysRevB.86.245122;14;0;0;0;14;1098-0121;WOS:000312495800004;;;J;Le Roux, Sebastien;Bouzid, Assil;Boero, Mauro;Massobrio, Carlo;Structural properties of glassy Ge2Se3 from first-principles molecular;dynamics;PHYSICAL REVIEW B;86;22;224201;10.1103/PhysRevB.86.224201;DEC 19 2012;2012;The structural properties of glassy Ge2Se3 were studied in the framework;of first-principles molecular dynamics by using the Becke-Lee-Yang-Parr;scheme for the treatment of the exchange-correlation functional in;density functional theory. Our results for the total neutron structure;factor and the total pair distribution function are in very good;agreement with the experimental results. When compared to the structural;description obtained for liquid Ge2Se3, glassy Ge2Se3 is found to be;characterized by a larger percentage of fourfold coordinated Ge atoms;and a lower number of miscoordinations. However, Ge-Ge homopolar bonds;inevitably occur due to the lack of Se atoms available, at this;concentration, to form GeSe4 tetrahedra. Focusing on the family of;glasses GexSe1-x, the present results allow a comparison to be carried;out in reciprocal and real space among three prototypical glassy;structures. The first was obtained at the stoichiometric composition;(glassy GeSe2), the second at a Se-rich composition (glassy GeSe4) and;the third at a Ge-rich composition (glassy Ge2Se3). All networks are;consistent with the "8 - N" rule, in particular, glassy GeSe4, which;exhibits the highest degree of chemical order. The electronic structure;of glassy Ge2Se3 has been characterized by using the Wannier localized;orbital formalism. The analysis of the Ge environment shows the presence;of dangling, ionocovalent Ge-Se, and covalent bonds, the latter related;to Ge-Ge connections. DOI: 10.1103/PhysRevB.86.224201;BOERO, Mauro/M-2358-2014;BOERO, Mauro/0000-0002-5052-2849;6;0;0;0;6;1098-0121;WOS:000312495200004;;;J;Matthews, M. J.;Castelnovo, C.;Moessner, R.;Grigera, S. A.;Prabhakaran, D.;Schiffer, P.;High-temperature onset of field-induced transitions in the spin-ice;compound Dy2Ti2O7;PHYSICAL REVIEW B;86;21;214419;10.1103/PhysRevB.86.214419;DEC 19 2012;2012;We have studied the field-dependent ac magnetic susceptibility of single;crystals of Dy2Ti2O7 spin ice along the [111] direction in the;temperature range 1.8-7 K. Our data reflect the onset of local spin-ice;order in the appearance of different field regimes. In particular, we;observe a prominent feature at approximately 1.0 T that is a precursor;of the low-temperature metamagnetic transition out of field-induced;kagome ice, below which the kinetic constraints imposed by the ice rules;manifest themselves in a substantial frequency dependence of the;susceptibility. Despite the relatively high temperatures, our results;are consistent with a monopole picture, and they demonstrate that such a;picture can give physical insight into spin-ice systems even outside the;low-temperature, low-density limit where monopole excitations are;well-defined quasiparticles.;6;2;0;0;6;1098-0121;WOS:000312494800002;;;J;Nuss, Martin;Heil, Christoph;Ganahl, Martin;Knap, Michael;Evertz, Hans Gerd;Arrigoni, Enrico;von der Linden, Andwolfgang;Steady-state spectra, current, and stability diagram of a quantum dot: A;nonequilibrium variational cluster approach;PHYSICAL REVIEW B;86;24;245119;10.1103/PhysRevB.86.245119;DEC 19 2012;2012;We calculate steady-state properties of a strongly correlated quantum;dot under voltage bias by means of nonequilibrium cluster perturbation;theory and the nonequilibrium variational cluster approach,;respectively. Results for the steady-state current are benchmarked;against data from accurate matrix product state based time evolution. We;show that for low to medium interaction strength, nonequilibrium cluster;perturbation theory already yields good results, while for higher;interaction strength the self-consistent feedback of the nonequilibrium;variational cluster approach significantly enhances the accuracy. We;report the current-voltage characteristics for different interaction;strengths. Furthermore we investigate the nonequilibrium local density;of states of the quantum dot and illustrate that within the variational;approach a linear splitting and broadening of the Kondo resonance is;predicted which depends on interaction strength. Calculations with;applied gate voltage, away from particle-hole symmetry, reveal that the;maximum current is reached at the crossover from the Kondo regime to the;doubly occupied or empty quantum dot. Obtained stability diagrams;compare very well to recent experimental data [A. V. Kretinin et al.,;Phys. Rev. B 84, 245316 (2011)]. DOI: 10.1103/PhysRevB.86.245119;Knap, Michael/H-3344-2011; Arrigoni, Enrico/E-4507-2012; Nuss, Martin/J-5674-2014;Knap, Michael/0000-0002-7093-9502; Arrigoni, Enrico/0000-0002-1347-3080;;;7;0;0;0;7;1098-0121;WOS:000312495800001;;;J;Rottler, Andreas;Krueger, Benjamin;Heitmann, Detlef;Pfannkuche, Daniela;Mendach, Stefan;Route towards cylindrical cloaking at visible frequencies using an;optimization algorithm;PHYSICAL REVIEW B;86;24;245120;10.1103/PhysRevB.86.245120;DEC 19 2012;2012;We derive a model based on the Maxwell-Garnett effective-medium theory;that describes a cylindrical cloaking shell composed of metal rods which;are radially aligned in a dielectric host medium. We propose and;demonstrate a minimization algorithm that calculates for given material;parameters the optimal geometrical parameters of the cloaking shell such;that its effective optical parameters fit the best to the required;permittivity distribution for cylindrical cloaking. By means of;sophisticated full-wave simulations we find that a cylindrical cloak;with good performance using silver as the metal can be designed with our;algorithm for wavelengths in the red part of the visible spectrum (623;nm < lambda < 773 nm). We also present a full-wave simulation of such a;cloak at an exemplary wavelength of lambda = 729 nm (h omega = 1.7 eV);which indicates that our model is useful to find design rules of cloaks;with good cloaking performance. Our calculations investigate a structure;that is easy to fabricate using standard preparation techniques and;therefore pave the way to a realization of guiding light around an;object at visible frequencies, thus rendering it invisible. DOI:;10.1103/PhysRevB.86.245120;Krueger, Benjamin/B-7466-2009;Krueger, Benjamin/0000-0001-8502-368X;0;0;0;0;0;1098-0121;WOS:000312495800002;;;J;Tokiwa, Y.;Huebner, S. -H.;Beck, O.;Jeevan, H. S.;Gegenwart, P.;Unique phase diagram with narrow superconducting dome in;EuFe2(As1-xPx)(2) due to Eu2+ local magnetic moments;PHYSICAL REVIEW B;86;22;220505;10.1103/PhysRevB.86.220505;DEC 19 2012;2012;The interplay between superconductivity and Eu2+ magnetic moments in;EuFe2(As1-xPx)(2) is studied with electrical resistivity measurements;under hydrostatic pressure on x = 0.13 and x = 0.18 single crystals. We;can map hydrostatic pressure to chemical pressure x and show that;superconductivity is confined to a very narrow range 0.18 <= x <= 0.23;in the phase diagram, beyond which ferromagnetic (FM) Eu ordering;suppresses superconductivity. The change from antiferro- to FM Eu;ordering at the latter concentration coincides with a Lifshitz;transition and the complete depression of iron magnetic order. DOI:;10.1103/PhysRevB.86.220505;6;0;0;0;6;1098-0121;WOS:000312495200002;;;J;Tran Doan Huan;Amsler, Maximilian;Vu Ngoc Tuoc;Willand, Alexander;Goedecker, Stefan;Low-energy structures of zinc borohydride Zn(BH4)(2);PHYSICAL REVIEW B;86;22;224110;10.1103/PhysRevB.86.224110;DEC 19 2012;2012;We present a systematic study of the low-energy structures of zinc;borohydride, a crystalline material proposed for the purpose of hydrogen;storage. In addition to previously proposed structures, many new;low-energy structures of zinc borohydride are found by utilizing;theminima-hopping method. We identify a new dynamically stable structure;which belongs to the I4(1)22 space group as the lowest-energy phase of;zinc borohydride at low temperatures. A low transition barrier between;I4(1)22 and P1, the two lowest-lying phases of zinc borohydride, is;predicted, implying that a coexistence of low-energy phases of zinc;borohydride is possible at ambient conditions. An analysis based on the;simulated x-ray-diffraction pattern reveals that the I4(1)22 structure;exhibits the same major features as the experimentally synthesized zinc;borohydride samples. DOI: 10.1103/PhysRevB.86.224110;Amsler, Maximilian/H-4718-2013; Tran, Huan/K-3587-2013;Tran, Huan/0000-0002-8093-9426;4;0;0;0;4;1098-0121;WOS:000312495200003;;;J;van den Berg, T. L.;Raymond, L.;Verga, A.;Enhanced spin Hall effect in strong magnetic disorder;PHYSICAL REVIEW B;86;24;245420;10.1103/PhysRevB.86.245420;DEC 19 2012;2012;We consider a two-dimensional electron gas in an inversion asymmetric;layer and in the presence of spatially distributed magnetic impurities.;We investigate the relationship between the geometrical properties of;the wave function and the system's spin-dependent transport properties.;A localization transition, arising when disorder is increased, is;exhibited by the appearance of a fractal state with finite inverse;participation ratio. Below the transition, interference effects modify;the carrier's diffusion, as revealed by the dependence on the scattering;time of the power law exponents characterizing the spreading of a wave;packet. Above the transition, in the strong disorder regime, we find;that the states are spin polarized and localized around the impurities.;A significant enhancement of the spin current develops in this regime.;DOI: 10.1103/PhysRevB.86.245420;RAYMOND, Laurent/B-6025-2008;RAYMOND, Laurent/0000-0002-5014-1333;0;0;0;0;0;1098-0121;WOS:000312495800005;;;J;Bauer, Oliver;Mercurio, Giuseppe;Willenbockel, Martin;Reckien, Werner;Schmitz, Christoph Heinrich;Fiedler, Benjamin;Soubatch, Serguei;Bredow, Thomas;Tautz, Frank Stefan;Sokolowski, Moritz;Role of functional groups in surface bonding of planar pi-conjugated;molecules;PHYSICAL REVIEW B;86;23;235431;10.1103/PhysRevB.86.235431;DEC 18 2012;2012;The trends in the bonding mechanism of 3,4,9,10-perylenetetracarboxylic;acid dianhydride (PTCDA) to the Ag(111), Ag(100), and Ag(110) surfaces;were analyzed on the basis of data obtained from x-ray standing waves;and dispersion-corrected density functional theory. Of importance are;the attractive local O-Ag bonds on the anhydride groups. They are the;shorter, the more open the surface is, and lead even to partly repulsive;interactions between the perylene core and the surface. In parallel,;there is an increasing charge donation from the Ag surface into the pi;system of the PTCDA. This synergism explains the out-of-plane distortion;of the adsorbed PTCDA and the surface buckling. DOI:;10.1103/PhysRevB.86.235431;13;1;0;0;13;1098-0121;WOS:000312445200001;;;J;Saptsov, R. B.;Wegewijs, M. R.;Fermionic superoperators for zero-temperature nonlinear transport:;Real-time perturbation theory and renormalization group for Anderson;quantum dots;PHYSICAL REVIEW B;86;23;235432;10.1103/PhysRevB.86.235432;DEC 18 2012;2012;We study electron quantum transport through a strongly interacting;Anderson quantum dot at finite bias voltage and magnetic field at zero;temperature using the real-time renormalization group (RT-RG) in the;framework of a kinetic (generalized master) equation for the reduced;density operator. To this end, we further develop the general,;finite-temperature real-time transport formalism by introducing field;superoperators that obey fermionic statistics. This direct second;quantization in Liouville Fock space strongly simplifies the;construction of operators and superoperators that transform irreducibly;under the Anderson-model symmetry transformations. The fermionic field;superoperators naturally arise from the univalence (fermion-parity);superselection rule of quantum mechanics for the total system of quantum;dot plus reservoirs. Expressed in these field superoperators, the causal;structure of the perturbation theory for the effective time-evolution;superoperator kernel becomes explicit. Using the constraints of the;causal structure, we construct a parametrization of the exact effective;time-evolution kernel for which we analytically find the eigenvectors;and eigenvalues in terms of a minimal set of only 30 independent;coefficients. The causal structure also implies the existence of a;fermion-parity protected eigenvector of the exact Liouvillian,;explaining a recently reported result on adiabatic driving;[Contreras-Pulido et al., Phys. Rev. B 85, 075301 (2012)] and;generalizing it to arbitrary order in the tunnel coupling Gamma.;Furthermore, in the wide-band limit, the causal representation;exponentially reduces the number of diagrams for the time-evolution;kernel. The remaining diagrams can be identified simply by their;topology and are manifestly independent of the energy cutoff term by;term. By an exact reformulation of this series, we integrate out all;infinite-temperature effects, obtaining an expansion targeting only the;nontrivial, finite-temperature corrections, and the exactly conserved;transport current follows directly from the time-evolution kernel. From;this new series, the previously formulated RT-RG equations are obtained;naturally. We perform a complete one-plus-two-loop RG analysis at finite;voltage and magnetic field, while systematically accounting for the;dependence of all renormalized quantities on both the quantum dot and;reservoir frequencies. Using the second quantization in Liouville space;and symmetry restrictions, we obtain analytical RT-RG equations, which;can be solved numerically in an efficient way, and we extensively study;the model parameter space, excluding the Kondo regime where the;one-plus-two-loop approach is obviously invalid. The incorporated;renormalization effects result in an enhancement of the inelastic;cotunneling peak, even at a voltage similar to magnetic field similar to;tunnel coupling Gamma. Moreover, we find a tunnel-induced nonlinearity;of the stability diagrams (Coulomb diamonds) at finite voltage, both in;the single-electron tunneling and inelastic cotunneling regime. DOI:;10.1103/PhysRevB.86.235432;Wegewijs, Maarten/A-3512-2012;Wegewijs, Maarten/0000-0002-2972-3822;9;0;0;0;9;1098-0121;WOS:000312445200002;;;J;Tyrrell, E. J.;Smith, J. M.;Effective mass modeling of excitons in type-II quantum dot;heterostructures (vol 84, 165328, 2011);PHYSICAL REVIEW B;86;23;239905;10.1103/PhysRevB.86.239905;DEC 18 2012;2012;0;0;0;0;0;1098-0121;WOS:000312445200003;;;J;Buividovich, P. V.;Polikarpov, M. I.;Monte Carlo study of the electron transport properties of monolayer;graphene within the tight-binding model;PHYSICAL REVIEW B;86;24;245117;10.1103/PhysRevB.86.245117;DEC 18 2012;2012;We study the effect of Coulomb interaction between charge carriers on;the properties of graphene monolayer, assuming that the strength of the;interaction is controlled by the dielectric permittivity of the;substrate on which the graphene layer is placed. To this end, we;consider the tight-binding model on the hexagonal lattice coupled to the;noncompact gauge field. The action of the latter is also discretized on;the hexagonal lattice. Equilibrium ensembles of gauge field;configurations are obtained using the hybrid Monte Carlo algorithm. Our;numerical results indicate that at sufficiently strong coupling, that;is, at sufficiently small substrate dielectric permittivities epsilon;less than or similar to 4 and at sufficiently small temperatures T less;than or similar to 1 x 10(4) K, the symmetry between simple sublattices;of hexagonal lattice breaks down spontaneously and the low-frequency;conductivity gradually decreases down to 20-30% of its weak-coupling;value. On the other hand, in the weak-coupling regime (with epsilon;greater than or similar to 4), the conductivity practically does not;depend on epsilon and is close to the universal value sigma(0) = 1/4.;DOI: 10.1103/PhysRevB.86.245117;15;0;0;0;15;1098-0121;WOS:000312445700002;;;J;Cheng, Ran;Niu, Qian;Electron dynamics in slowly varying antiferromagnetic texture;PHYSICAL REVIEW B;86;24;245118;10.1103/PhysRevB.86.245118;DEC 18 2012;2012;Adiabatic dynamics of conduction electrons in antiferromagnetic (AFM);materials with slowly varying spin texture is developed. Quite different;from the ferromagnetic (FM) case, adiabaticity in AFM texture does not;imply perfect alignment of conduction electron spins with background;profile, instead, it introduces an internal dynamics between degenerate;bands. As a result, the orbital motion of conduction electrons becomes;spin dependent and is affected by two emergent gauge fields: one of them;is the non-Abelian version of what has been discovered in FM systems;;the other leads to an anomalous velocity that has no FM counterpart. Two;examples with experimental predictions are provided. DOI:;10.1103/PhysRevB.86.245118;Niu, Qian/G-9908-2013; Cheng, Ran/M-9260-2014;Cheng, Ran/0000-0003-0166-2172;12;0;0;0;12;1098-0121;WOS:000312445700003;;;J;Cuadrado, R.;Chantrell, R. W.;Electronic and magnetic properties of bimetallic L1(0) cuboctahedral;clusters by means of fully relativistic density-functional-based;calculations;PHYSICAL REVIEW B;86;22;224415;10.1103/PhysRevB.86.224415;DEC 18 2012;2012;By means of density functional theory and the generalized gradient;approximation, we present a structural, electronic, and magnetic study;of FePt-, CoPt-, FeAu-, and FePd-based L1(0) ordered cuboctahedral;nanoparticles, with total numbers of atoms N-tot = 13, 55, 147. After a;conjugate gradient relaxation, the nanoparticles retain their L1(0);symmetry, but the small displacements of the atomic positions tune the;electronic and magnetic properties. The value of the total magnetic;moment stabilizes as the size increases. We also show that the magnetic;anisotropy energy (MAE) depends on the size as well as the position of;the Fe-atomic planes in the clusters. We address the influence on the;MAE of the surface shape, finding a small in-plane MAE for (Fe,;Co)(24)Pt-31 nanoparticles. DOI: 10.1103/PhysRevB.86.224415;7;0;0;0;7;1098-0121;WOS:000312445000002;;;J;Deisenhofer, J.;Schaile, S.;Teyssier, J.;Wang, Zhe;Hemmida, M.;von Nidda, H. -A. Krug;Eremina, R. M.;Eremin, M. V.;Viennois, R.;Giannini, E.;van der Marel, D.;Loidl, A.;Electron spin resonance and exchange paths in the orthorhombic dimer;system Sr2VO4;PHYSICAL REVIEW B;86;21;214417;10.1103/PhysRevB.86.214417;DEC 18 2012;2012;We report on susceptibility and electron spin resonance (ESR);measurements at X- and Q-band frequencies of Sr2VO4 with orthorhombic;symmetry. In this dimer system, the V4+ ions are in tetrahedral;environment and are coupled by an antiferromagnetic intradimer exchange;constant J/k(B) approximate to 100 K to form a singlet ground state;without any phase transitions between room temperature and 2 K. Based on;an extended Huckel tight-binding analysis, we identify the strongest;exchange interaction to occur between two inequivalent vanadium sites;via two intermediate oxygen ions. The ESR absorption spectra can be well;fitted by a single Lorentzian line and the temperature dependence of the;ESR intensity, and the dc susceptibility can be modeled by using the;Bleaney-Bowers approach for independent dimers. The temperature;dependence of the ESR linewidth at X-band frequency can be modeled by a;superposition of a linear increase with temperature with a slope alpha =;1.35 Oe/K and a thermally activated behavior with an activation energy;Delta/k(B) = 1418 K, both of which point to spin-phonon coupling as the;dominant relaxation mechanism in this compound.;Teyssier, Jeremie/A-6867-2013; Deisenhofer, Joachim/G-8937-2011;Deisenhofer, Joachim/0000-0002-7645-9390;3;0;0;0;3;1098-0121;WOS:000312444700001;;;J;Hsu, Chen-Hsuan;Wang, Zhiqiang;Chakravarty, Sudip;Spin dynamics of possible density wave states in the pseudogap phase of;high-temperature superconductors;PHYSICAL REVIEW B;86;21;214510;10.1103/PhysRevB.86.214510;DEC 18 2012;2012;In a recent inelastic neutron scattering experiment in the pseudogap;state of the high-temperature superconductor YBa2Cu3O6.6, an unusual;"vertical" dispersion of the spin excitations with a large in-plane;anisotropy was observed. In this paper, we discuss in detail the spin;susceptibility of the singlet d-density wave, the triplet d-density wave;as well as the more common spin density wave orders with hopping;anisotropies. From numerical calculations within the framework of random;phase approximation, we find nearly vertical dispersion relations for;spin excitations with anisotropic incommensurability at low energy omega;<= 90 meV, which are reminiscent of the experiments. At very high energy;omega >= 165 meV, we also find energy-dependent incommensurability.;Although there are some important differences between the three cases,;unpolarized neutron measurements cannot discriminate between these;alternate possibilities; the vertical dispersion, however, is a distinct;feature of all three density wave states in contrast to the;superconducting state, which shows an hour-glass shape dispersion.;0;0;0;0;0;1098-0121;WOS:000312444700003;;;J;Jain, S.;Schultheiss, H.;Heinonen, O.;Fradin, F. Y.;Pearson, J. E.;Bader, S. D.;Novosad, V.;Coupled vortex oscillations in mesoscale ferromagnetic double-disk;structures;PHYSICAL REVIEW B;86;21;214418;10.1103/PhysRevB.86.214418;DEC 18 2012;2012;Coupled resonance modes in connected ferromagnetic double-dot structures;have been investigated as a function of the overlap between the dots,;both experimentally and via micromagnetic simulations. An asymmetry is;observed in the frequency spectrum about zero field. Softening of the;magnetization during vortex core precession when the cores are near the;overlap region results in low-frequency modes and a splitting;corresponding to different polarity combinations. A range of vortex;resonance frequencies are identified that can be tuned by varying the;overlap area. This study provides insight into the control of the;dynamic response in coupled mesoscale magnetic structures.;Jain, Shikha/J-4734-2012; Novosad, Valentyn/C-2018-2014;7;0;0;0;7;1098-0121;WOS:000312444700002;;;J;Kim, Isaac H.;Perturbative analysis of topological entanglement entropy from;conditional independence;PHYSICAL REVIEW B;86;24;245116;10.1103/PhysRevB.86.245116;DEC 18 2012;2012;We use the structure of conditionally independent states to analyze the;stability of topological entanglement entropy. For the ground state of;the quantum double or Levin-Wen model, we obtain a bound on the;first-order perturbation of topological entanglement entropy in terms of;its energy gap and subsystem size. The bound decreases superpolynomially;with the size of the subsystem, provided the energy gap is nonzero. We;also study the finite-temperature stability of stabilizer models, for;which we prove a stronger statement than the strong subadditivity of;entropy. Using this statement and assuming (i) finite correlation length;and (ii) small conditional mutual information of certain configurations,;first-order perturbation effect for arbitrary local perturbation can be;bounded. We discuss the technical obstacles in generalizing these;results. DOI: 10.1103/PhysRevB.86.245116;4;0;0;0;4;1098-0121;WOS:000312445700001;;;J;Metelmann, A.;Brandes, T.;Transport through single-level systems: Spin dynamics in the;nonadiabatic regime;PHYSICAL REVIEW B;86;24;245317;10.1103/PhysRevB.86.245317;DEC 18 2012;2012;We investigate the Fano-Anderson model coupled to a large ensemble of;spins under the influence of an external magnetic field. The interaction;between the two spin systems is treated within a mean-field approach,;and we assume an anisotropic coupling between these two systems. By;using a nonadiabatic approach, we make no further approximations in the;theoretical description of our system, apart from the semiclassical;treatment. Therewith, we can include the short-time dynamics as well as;the broadening of the energy levels arising due to the coupling to the;external electronic reservoirs. We study the spin dynamics in the regime;of low and high bias. For the infinite bias case, we compare our results;to those obtained from a simpler rate equation approach, where;higher-order transitions are neglected. We show that these higher-order;terms are important in the range of low magnetic field. Additionally, we;analyze extensively the finite bias regime with methods from nonlinear;dynamics, and we discuss the possibility of switching of the large spin.;DOI: 10.1103/PhysRevB.86.245317;2;0;0;0;2;1098-0121;WOS:000312445700004;;;J;Nastar, M.;Soisson, F.;Atomistic modeling of phase transformations: Point-defect concentrations;and the time-scale problem;PHYSICAL REVIEW B;86;22;220102;10.1103/PhysRevB.86.220102;DEC 18 2012;2012;The time scale of diffusive phase transformations in alloys depends on;point-defect concentrations, which evolve with the microstructure. We;present a simple method that provides a physical time scale for;atomistic simulations of such transformations, even when performed with;constant point-defect numbers. It also gives an on-the-fly evaluation of;the real point-defect concentration, when equilibrium conditions are;fulfilled. The method is applied to kinetic Monte Carlo simulations of;precipitation in binary alloys occurring by vacancy diffusion. The;vacancy concentration is found to be very dependent on the difference in;formation energy between the matrix and the precipitates, and therefore;on the composition and volume fraction of these two phases. The effect;of the interface curvature, through a Gibbs-Thomson effect, is revealed.;A mean-field approximation is also developed for computing the;point-defect concentrations. Contrary to previous models, it takes into;account the short range order in nonideal and concentrated solutions.;Atomistic simulations and mean-field simulations are validated by direct;comparisons. DOI: 10.1103/PhysRevB.86.220102;soisson, frederic/B-2917-2009;soisson, frederic/0000-0001-6435-6119;6;0;0;0;6;1098-0121;WOS:000312445000001;;;J;Abd El-Fattah, Z. M.;Matena, M.;Corso, M.;Ormaza, M.;Ortega, J. E.;Schiller, F.;Modifying the Cu(111) Shockley surface state by Au alloying;PHYSICAL REVIEW B;86;24;245418;10.1103/PhysRevB.86.245418;DEC 17 2012;2012;The deposition of submonolayer amounts of Au onto Cu(111) results in a;Au-Cu surface alloy with temperature- and thickness-dependent;stoichiometry. Upon alloying, the characteristic Shockley state of;Cu(111) is modified, shifting to 0.53 eV binding energy for a particular;surface Au2Cu concentration, which is a very high binding energy for a;noble-metal surface. Based on a phase accumulation model analysis, we;discuss how this unusually large shift is likely reflecting an effective;increase in the topmost layer thickness of the order of, but smaller;than, the value expected from the moire undulation. DOI:;10.1103/PhysRevB.86.245418;CSIC-UPV/EHU, CFM/F-4867-2012; ortega, enrique/I-4445-2012; Corso, Martina/B-7768-2014; DONOSTIA INTERNATIONAL PHYSICS CTR., DIPC/C-3171-2014;1;0;0;0;1;1098-0121;WOS:000312365800013;;;J;Baledent, V.;Rullier-Albenque, F.;Colson, D.;Monaco, G.;Rueff, J. -P.;Stability of the Fe electronic structure through temperature-, doping-,;and pressure-induced transitions in the BaFe2As2 superconductors;PHYSICAL REVIEW B;86;23;235123;10.1103/PhysRevB.86.235123;DEC 17 2012;2012;We report on a survey of Fe electronic properties in the;temperature-pressure phase diagram of the Co-doped pnictides BaFe2As2;superconductors by hard x-ray absorption spectroscopy at the Fe K edge;in the high-resolution, partial fluorescence yield mode. The absorption;spectra are found remarkably stable through the temperature-induced;phase transitions while pressure leads to slight energy shift of the;main edge but not of the pre-edge. The latter effect is ascribed to the;lattice compression and band widening effects under pressure as;confirmed by multiple scattering simulations. Our results suggest that;from the Fe electronic structure point of view, doping and pressure are;equivalent ways to destabilize the magnetic phase to the advantage of;superconductivity. DOI: 10.1103/PhysRevB.86.235123;0;0;0;0;0;1098-0121;WOS:000312365200003;;;J;Bejas, Matias;Greco, Andres;Yamase, Hiroyuki;Possible charge instabilities in two-dimensional doped Mott insulators;PHYSICAL REVIEW B;86;22;224509;10.1103/PhysRevB.86.224509;DEC 17 2012;2012;Motivated by the growing evidence of the importance of charge;fluctuations in the pseudogap phase in high-temperature cuprate;superconductors, we apply a large-N expansion formulated in a path;integral representation of the two-dimensional t - J model on a square;lattice. We study all possible charge instabilities of the paramagnetic;state in leading order of the 1/N expansion. While the d-wave charge;density wave (flux phase) becomes the leading instability for various;choices of model parameters, we find that a d-wave Pomeranchuk;(electronic nematic phase) instability occurs as a next leading one. In;particular, the nematic state has a strong tendency to become;inhomogeneous. In the presence of a large second nearest-neighbor;hopping integral, the flux phase is suppressed and the electronic;nematic instability becomes leading in a high doping region. Besides;these two major instabilities, bond-order phases occur as weaker;instabilities close to half-filling. Phase separation is also detected;in a finite temperature region near half-filling. DOI:;10.1103/PhysRevB.86.224509;7;0;0;0;7;1098-0121;WOS:000312364700006;;;J;Chen, S. L.;Chen, W. M.;Buyanova, I. A.;Zeeman splitting and dynamics of an isoelectronic bound exciton near the;band edge of ZnO;PHYSICAL REVIEW B;86;23;235205;10.1103/PhysRevB.86.235205;DEC 17 2012;2012;Comprehensive time-resolved photoluminescence and magneto-optical;measurements are performed on a bound exciton (BX) line peaking at;3.3621 eV (labeled as I*). Though the energy position of I* lies within;the same energy range as that for donor bound exciton (DX) transitions,;its behavior in an applied magnetic field is found to be distinctly;different from that observed for DXs bound to either ionized or neutral;donors. An exciton bound to an isoelectronic center with a;hole-attractive local potential is shown to provide a satisfactory model;that can account for all experimental results of the I* transition. DOI:;10.1103/PhysRevB.86.235205;Chen, Weimin/J-4660-2012;Chen, Weimin/0000-0002-6405-9509;5;0;0;0;5;1098-0121;WOS:000312365200008;;;J;Chen, Zuhuang;Zou, Xi;Ren, Wei;You, Lu;Huang, Chuanwei;Yang, Yurong;Yang, Ping;Wang, Junling;Sritharan, Thirumany;Bellaiche, L.;Chen, Lang;Study of strain effect on in-plane polarization in epitaxial BiFeO3 thin;films using planar electrodes;PHYSICAL REVIEW B;86;23;235125;10.1103/PhysRevB.86.235125;DEC 17 2012;2012;Epitaxial strain plays an important role in determining physical;properties of perovskite ferroelectric oxide thin films because of the;inherent coupling between the strain and the polarization. However, it;is very challenging to directly measure properties such as polarization;in ultrathin strained films, using traditional sandwich capacitor;devices, because of high leakage current. Hence, a planar electrode;device with different crystallographical orientations between;electrodes, which is able to measure the polarization response with;different electric field orientation, is used successfully in this work;to directly measure the in-plane polarization-electric-field (P-E);hysteresis loops in fully strained thin films. We used BiFeO3 (BFO) as a;model system and measured in-plane P-E loops not only in the;rhombohedral-like (R-like) BFO thin films but also in largely strained;BFO films exhibiting the pure tetragonal-like (T-like) phase. The exact;magnitude and direction of the spontaneous polarization vector of the;T-like phase is deduced thanks to the collection of in-plane;polarization components along different orientations. It is also shown;that the polarization vector in the R-like phase of BiFeO3 is;constrained to lie within the (1 (1) over bar 10) plane and rotates from;the [111] towards the [001] pseudocubic direction when the compressive;strain is increased from zero. At high misfit strains such as -4.4%, the;pure T-like phase is obtained and its polarization vector is constrained;to lie in the (010) plane with a significantly large in-plane component,;similar to 44 mu C/cm(2). First-principles calculations are carried out;in parallel, and provide a good agreement with the experimental results.;DOI: 10.1103/PhysRevB.86.235125;CHEN, LANG/A-2251-2011; You, Lu/H-1512-2011; Ren, Wei/D-2081-2009; HUANG, CHUANWEI/F-9858-2011; WANG, Junling/B-3596-2009; Yang, Ping/C-5612-2008; Chen, Zuhuang/E-7131-2011; Sritharan, Thirumany/G-4890-2010;WANG, Junling/0000-0003-3663-7081; Chen, Zuhuang/0000-0003-1912-6490;;8;1;0;0;8;1098-0121;WOS:000312365200005;;;J;Croitoru, M. D.;Buzdin, A. I.;Extended Lawrence-Doniach model: The temperature evolution of the;in-plane magnetic field anisotropy;PHYSICAL REVIEW B;86;22;224508;10.1103/PhysRevB.86.224508;DEC 17 2012;2012;Using the quasiclassical formalism, we provide the description of the;temperature and field-direction dependence of the in-plane upper;critical field in layered superconductors, taking into account the;interlayer Josephson coupling and the paramagnetic spin splitting. We;generalize the Lawrence-Doniach model for the case of high magnetic;fields and show that the reentrant superconductivity is naturally;described by our formalism when neglecting the Pauli pair-breaking;effect. We demonstrate that in layered superconductors the in-plane;anisotropy of the onset of superconductivity exhibits four different;temperature regimes: from the Ginzburg-Landau type in the vicinity of;the critical temperature T-c0 with anisotropies of coherence lengths, up;to the Fulde-Ferell-Larkin-Ovchinnikov type induced by the strong;interference between the modulation vector and the orbital effect. Our;results are in agreement with the experimental measurements of the;field-angle dependence of the superconducting onset temperature of the;organic compound (TMTSF)(2)ClO4. DOI: 10.1103/PhysRevB.86.224508;Buzdin, Alexander/I-6038-2013; Croitoru, Mihail/J-9934-2014;Croitoru, Mihail/0000-0002-3014-8634;3;0;0;0;3;1098-0121;WOS:000312364700005;;;J;Dhital, Chetan;Abernathy, D. L.;Zhu, Gaohua;Ren, Zhifeng;Broido, D.;Wilson, Stephen D.;Inelastic neutron scattering study of phonon density of states in;nanostructured Si1-xGex thermoelectrics;PHYSICAL REVIEW B;86;21;214303;10.1103/PhysRevB.86.214303;DEC 17 2012;2012;Inelastic neutron scattering measurements are utilized to explore;relative changes in the generalized phonon density of states of;nanocrystalline Si1-xGex thermoelectric materials prepared via;ball-milling and hot-pressing techniques. Dynamic signatures of Ge;clustering can be inferred from the data by referencing the resulting;spectra to a density functional theoretical model assuming homogeneous;alloying via the virtual-crystal approximation. Comparisons are also;presented between as-milled Si nanopowder and bulk, polycrystalline Si;where a preferential low-energy enhancement and lifetime broadening of;the phonon density of states appear in the nanopowder. Negligible;differences are however observed between the phonon spectra of bulk Si;and hot-pressed, nanostructured Si samples suggesting that changes to;the single-phonon dynamics above 4 meV play only a secondary role in the;modified heat conduction of this compound.;BL18, ARCS/A-3000-2012; Abernathy, Douglas/A-3038-2012; Ren, Zhifeng/B-4275-2014;1;0;0;0;1;1098-0121;WOS:000312364200002;;;J;Farahani, S. K. Vasheghani;Veal, T. D.;Sanchez, A. M.;Bierwagen, O.;White, M. E.;Gorfman, S.;Thomas, P. A.;Speck, J. S.;McConville, C. F.;Influence of charged-dislocation density variations on carrier mobility;in heteroepitaxial semiconductors: The case of SnO2 on sapphire;PHYSICAL REVIEW B;86;24;245315;10.1103/PhysRevB.86.245315;DEC 17 2012;2012;In highly mismatched heteroepitaxial systems, the influence of carrier-;and dislocation-density variations on carrier mobility is revealed.;Transmission electronmicroscopy reveals the variation of dislocation;density through a series of SnO2 films grown by molecular-beam epitaxy;on sapphire substrates where the lattice mismatch exceeds 11%. A;layer-by-layer parallel conduction treatment of the carrier mobility in;SnO2 epilayers is used to illustrate the dominant role of the;depth-dependent dislocation density and charge profile in determining;the film-thickness dependence of the transport properties.;Thomas, Pam/G-3532-2010; Sanchez, Ana/F-3153-2010;Sanchez, Ana/0000-0002-8230-6059;0;0;0;0;0;1098-0121;WOS:000312365800009;;;J;Ferraz, Alvaro;Kochetov, Evgeny;Comment on "Fermi surface reconstruction in hole-doped t-J models;without long-range antiferromagnetic order";PHYSICAL REVIEW B;86;24;247103;10.1103/PhysRevB.86.247103;DEC 17 2012;2012;0;0;0;0;0;1098-0121;WOS:000312365800015;;;J;Frimmer, Martin;Koenderink, A. Femius;Superemitters in hybrid photonic systems: A simple lumping rule for the;local density of optical states and its breakdown at the unitary limit;PHYSICAL REVIEW B;86;23;235428;10.1103/PhysRevB.86.235428;DEC 17 2012;2012;We theoretically investigate how the enhancement of the radiative decay;rate of a spontaneous emitter provided by coupling to an optical antenna;is modified when this "superemitter" is introduced into a complex;photonic environment that provides an enhanced local density of optical;states (LDOS) itself, such as a microcavity or stratified medium. We;show that photonic environments with increased LDOS further boost the;performance of antennas that scatter weakly, for which a simple;multiplicative LDOS lumping rule holds. In contrast, enhancements;provided by antennas close to the unitary limit, i.e., close to the;limit of maximally possible scattering strength, are strongly reduced by;an enhanced LDOS of the environment. Thus, we identify multiple;scattering in hybrid photonic systems as a powerful mechanism for LDOS;engineering. DOI: 10.1103/PhysRevB.86.235428;Koenderink, A. Femius/A-3955-2008;Koenderink, A. Femius/0000-0003-1617-5748;7;0;0;0;7;1098-0121;WOS:000312365200011;;;J;Gasparinetti, S.;Kamleitner, I.;Coherent Cooper-pair pumping by magnetic flux control;PHYSICAL REVIEW B;86;22;224510;10.1103/PhysRevB.86.224510;DEC 17 2012;2012;We introduce and discuss a scheme for Cooper-pair pumping. The scheme;relies on the coherent transfer of a superposition of charge states;across a superconducting island and is realized by adiabatic;manipulation of magnetic fluxes. Differently from previous;implementations, it does not require any modulation of electrostatic;potentials. We find a peculiar dependence of the pumped charge on the;superconducting phase bias across the pump and that an arbitrarily large;amount of charge can be pumped in a single cycle when the phase bias is;pi. We explain these features and their relation to the adiabatic;theorem. DOI: 10.1103/PhysRevB.86.224510;Gasparinetti, Simone/C-2991-2014;Gasparinetti, Simone/0000-0002-7238-693X;3;0;0;0;3;1098-0121;WOS:000312364700007;;;J;Gu, B.;Ziman, T.;Maekawa, S.;Theory of the spin Hall effect, and its inverse, in a ferromagnetic;metal near the Curie temperature;PHYSICAL REVIEW B;86;24;241303;10.1103/PhysRevB.86.241303;DEC 17 2012;2012;We give a theory of the inverse spin Hall effect (ISHE) in ferromagnetic;metals based on skew scattering via collective spin fluctuations. This;extends Kondo's theory of the anomalous Hall effect (AHE) to include;short-range spin-spin correlations. We find a relation between the ISHE;and the four-spin correlations near the Curie temperature T-C. Such;four-spin correlations do not contribute to the AHE, which relates to;the three-spin correlations. Thus our theory shows an essential;difference between the AHE and ISHE, providing an essential complement;to Kondo's classic theory of the AHE in metals. We note the relation to;skew-scattering mechanisms based on impurity scattering. Our theory can;be compared to recent experimental results by Wei et al. [Nat. Commun.;3, 1058 (2012)] for the ISHE in ferromagnetic alloys. DOI:;10.1103/PhysRevB.86.241303;Gu, Bo/B-6145-2011;Gu, Bo/0000-0003-2216-8413;1;0;0;0;1;1098-0121;WOS:000312365800003;;;J;Guedes, E. B.;Abbate, M.;Ishigami, K.;Fujimori, A.;Yoshimatsu, K.;Kumigashira, H.;Oshima, M.;Vicentin, F. C.;Fonseca, P. T.;Mossanek, R. J. O.;Core level and valence band spectroscopy of SrRuO3: Electron correlation;and covalence effects;PHYSICAL REVIEW B;86;23;235127;10.1103/PhysRevB.86.235127;DEC 17 2012;2012;We studied the electronic structure of SrRuO3 using several;spectroscopic techniques. These include ( resonant) photoemission, x-ray;absorption, and optical conductivity. The experimental results were;interpreted using an extended cluster model, which takes into account;electron correlation and the Ru 4d-O 2p covalence. The analysis shows;that this material is in the negative charge transfer regime, where the;ground state is dominated by the 4d(5) (L) under bar configuration with;an occupation of 47%. This is mainly due to the relatively large crystal;field and exchange splitting in the Ru 4d states. The electronic;structure of SrRuO3 is strongly influenced by the Ru 4d-O 2p;hybridization. Thus, the oxygen states should be explicitly considered;in the analysis of the physical properties of this system. However,;correlation effects are also important in this system giving rise to the;coherent peak in the valence band spectra. DOI:;10.1103/PhysRevB.86.235127;Mossanek, Rodrigo /E-8113-2010;1;0;0;0;1;1098-0121;WOS:000312365200007;;;J;Gull, E.;Millis, A. J.;Energetics of superconductivity in the two-dimensional Hubbard model;PHYSICAL REVIEW B;86;24;241106;10.1103/PhysRevB.86.241106;DEC 17 2012;2012;The energetics of the interplay between superconductivity and the;pseudogap in high-temperature superconductivity is examined using the;eight-site dynamical cluster approximation to the two-dimensional;Hubbard model. Two regimes of superconductivity are found: a;weak-coupling/large-doping regime in which the onset of;superconductivity causes a reduction in potential energy and an increase;in kinetic energy, and a strong-coupling regime in which;superconductivity is associated with an increase in potential energy and;a decrease in kinetic energy. The crossover between the two regimes is;found to coincide with the boundary of the normal-state pseudogap,;providing further evidence of the unconventional nature of;superconductivity in the pseudogap regime. However, the absence, in the;strongly correlated but nonsuperconducting state, of discernibly;nonlinear response to an applied pairing field suggests that resonating;valence bond physics is not the origin of the kinetic-energy driven;superconductivity. DOI: 10.1103/PhysRevB.86.241106;Gull, Emanuel/A-2362-2010;Gull, Emanuel/0000-0002-6082-1260;10;1;0;0;10;1098-0121;WOS:000312365800001;;;J;Hiltscher, Bastian;Governale, Michele;Koenig, Juergen;ac Josephson transport through interacting quantum dots;PHYSICAL REVIEW B;86;23;235427;10.1103/PhysRevB.86.235427;DEC 17 2012;2012;We investigate the ac Josephson current through a quantum dot with;strong Coulomb interaction attached to two superconducting and one;normal lead. To this end, we perform a perturbation expansion in the;tunneling couplings within a diagrammatic real-time technique. The ac;Josephson current is connected to the reduced density matrix elements;that describe superconducting correlations induced on the quantum dot;via proximity effect. We analyze the dependence of the ac signal on the;level position of the quantum dot, the charging energy, and the applied;bias voltages. DOI: 10.1103/PhysRevB.86.235427;2;0;0;0;2;1098-0121;WOS:000312365200010;;;J;Kambe, Takashi;He, Xuexia;Takahashi, Yosuke;Yamanari, Yusuke;Teranishi, Kazuya;Mitamura, Hiroki;Shibasaki, Seiji;Tomita, Keitaro;Eguchi, Ritsuko;Goto, Hidenori;Takabayashi, Yasuhiro;Kato, Takashi;Fujiwara, Akihiko;Kariyado, Toshikaze;Aoki, Hideo;Kubozono, Yoshihiro;Synthesis and physical properties of metal-doped picene solids;PHYSICAL REVIEW B;86;21;214507;10.1103/PhysRevB.86.214507;DEC 17 2012;2012;We report electronic-structure and physical properties of metal-doped;picene as well as selective synthesis of the phase that exhibits 18-K;superconducting transition. First, Raman scattering is used to;characterize the number of electrons transferred from the dopants to;picene molecules, where a softening of Raman scattering peaks enables us;to determine the number of transferred electrons. From this, we have;identified that three electrons are transferred to each picene molecule;in the superconducting doped picene solids. Second, we report pressure;dependence of T-c in 7- and 18-K phases of K(3)picene. The 7-K phase;shows a negative pressure dependence, while the 18-K phase exhibits a;positive pressure dependence which can not be understood with a simple;phonon mechanism of BCS superconductivity. Third, we report a synthesis;method for superconducting K(3)picene by a solution process with;monomethylamine CH3NH2. This method enables us to prepare selectively;the K(3)picene sample exhibiting 18-K superconducting transition. The;method for preparing K(3)picene with T-c = 18 K found here may;facilitate clarification of the mechanism of superconductivity.;Takabayashi, Yasuhiro/A-5014-2013; EGUCHI, Ritsuko/H-4129-2011; Aoki, Hideo/A-2525-2009; KUBOZONO, Yoshihiro/B-2091-2011; KAMBE, Takashi/B-2117-2011;Takabayashi, Yasuhiro/0000-0002-3493-2194; Aoki,;Hideo/0000-0002-7332-9355;;14;0;0;0;14;1098-0121;WOS:000312364200006;;;J;Kandpal, Hem C.;Koepernik, Klaus;Richter, Manuel;Strong magnetic anisotropy of chemically bound Co dimers in a graphene;sheet;PHYSICAL REVIEW B;86;23;235430;10.1103/PhysRevB.86.235430;DEC 17 2012;2012;The magnetism of cobalt atoms and dimers bound by single vacancies in a;graphene sheet is investigated by means of relativistic density;functional calculations. In both cases, local magnetic moments are;formed despite strong chemical binding. While orbital magnetism is;suppressed in the Co atoms, magnetic bistability with an anisotropy;barrier of about 50 meV is possible in the chemically bound Co dimers.;The feasibility of their preparation is demonstrated and a general;construction principle for similar (sub-)nanometer size magnets is;proposed. DOI: 10.1103/PhysRevB.86.235430;3;0;0;0;3;1098-0121;WOS:000312365200013;;;J;Kawai, Shigeki;Glatzel, Thilo;Such, Bartosz;Koch, Sascha;Baratoff, Alexis;Meyer, Ernst;Energy dissipation in dynamic force microscopy on KBr(001) correlated;with atomic-scale adhesion phenomena;PHYSICAL REVIEW B;86;24;245419;10.1103/PhysRevB.86.245419;DEC 17 2012;2012;Atomic-scale adhesion phenomena between KBr tip and sample were studied;by dynamic force spectroscopy with a small amplitude of down to 285 pm;at room temperature. The high-resonance frequency of the second flexural;mode of a silicon cantilever (approximate to 1 MHz) suppresses an;apparent dissipation energy caused by undesirable mechanical couplings;in between the cantilever and the dither piezo actuator. Further, the;Joule heating dissipation contribution and the noise-equivalent;dissipation energy were reduced by setting a smaller amplitude. Usage of;a high resonance frequency and a smaller amplitude enables us to perform;highly sensitive measurements of the atomic-scale adhesion and the;tip-instability-related energy dissipation. Tip changes, caused by;tip-sample interactions and thermal energy, resulted in three different;dissipation energy levels (Delta E-ts approximate to 25 meV/cycle). This;infrequent change of the tip apex condition often prevents a stable;imaging with small amplitude. Our systematic measurement shows that the;atomic adhesion is caused mainly in the tip itself, and a sharper and;softer tip induced a larger energy dissipation. DOI:;10.1103/PhysRevB.86.245419;Glatzel, Thilo/F-2639-2011; Kawai, Shigeki/C-8517-2012;2;0;0;0;2;1098-0121;WOS:000312365800014;;;J;Kim, Younghyun;Cano, Jennifer;Nayak, Chetan;Majorana zero modes in semiconductor nanowires in contact with;higher-T-c superconductors;PHYSICAL REVIEW B;86;23;235429;10.1103/PhysRevB.86.235429;DEC 17 2012;2012;We analyze the prospects for stabilizing Majorana zero modes in;semiconductor nanowires that are proximity coupled to higher-temperature;superconductors. We begin with the case of iron pnictides which, though;they are s-wave superconductors, are believed to have superconducting;gaps that change sign. We then consider the case of cuprate;superconductors. We show that a nanowire on a steplike surface,;especially in an orthorhombic material such as YBCO, can support;Majorana zero modes at an elevated temperature. DOI:;10.1103/PhysRevB.86.235429;1;0;0;0;1;1098-0121;WOS:000312365200012;;;J;Kovylina, Miroslavna;Morales, Rafael;Labarta, Amilcar;Batlle, Xavier;Magnetization reversal in Ni/FeF2 heterostructures with the coexistence;of positive and negative exchange bias;PHYSICAL REVIEW B;86;22;224414;10.1103/PhysRevB.86.224414;DEC 17 2012;2012;Magnetization reversal mechanisms are studied in Ni/FeF2;heterostructures with the coexistence of positive and negative exchanged;bias (PEB/NEB), showing single and double hysteresis loops (DHL) in;magnetoresistance measurements. Micromagnetic simulations show that PEB;and NEB domains of a minimum critical size must be introduced in order;to reproduce the occurrence of DHLs. The simulations reveal that;different magnetic configurations and, hence, different magnetization;reversal processes take place in a ferromagnet (FM) on top of minority;PEB domains that are either greater or smaller than the critical size.;In particular, for the case of DHLs, core reversal of a depthwise domain;wall is observed over minority PEB domains when the magnetic field is;decreased from positive saturation. As the field is further decreased, a;complex domain-wall evolution takes place in the FM, including the;dependences of the domain-wall width and domain size on the magnetic;field and distance from the antiferromagnet (AF). These effects should;be taken into account when the domain size is estimated from data;measured by depth-dependent techniques since they average the;distribution of domain sizes in the FM for different distances from the;AF. DOI: 10.1103/PhysRevB.86.224414;Labarta, Amilcar/B-4539-2012; Batlle, Xavier/H-5795-2012;Labarta, Amilcar/0000-0003-0904-4678;;2;0;0;0;2;1098-0121;WOS:000312364700004;;;J;Kuga, Kentaro;Morrison, Gregory;Treadwell, LaRico;Chan, Julia Y.;Nakatsuji, Satoru;Magnetic order induced by Fe substitution of Al site in the;heavy-fermion systems alpha-YbAlB4 and beta-YbAlB4;PHYSICAL REVIEW B;86;22;224413;10.1103/PhysRevB.86.224413;DEC 17 2012;2012;beta-YbAlB4 is a heavy-fermion superconductor that exhibits a quantum;criticality without tuning at zero field and under ambient pressure. We;have succeeded in substituting Fe for Al in beta-YbAlB4 as well as the;polymorphous compound alpha-YbAlB4, which in contrast has a heavy;Fermi-liquid ground state. Full structure determination by;single-crystal x-ray diffraction confirmed no change in crystal;structure for both alpha- and beta-YbAlB4, in addition to volume;contraction with Fe substitution. Our measurements of the magnetization;and specific heat indicate that both alpha-YbAl0.93Fe0.07B4 and;beta-YbAl0.94Fe0.06B4 exhibit a magnetic order, most likely of a canted;antiferromagnetic type, at 7 similar to 9 K. The increase in the entropy;as well as the decrease in the antiferromagnetic Weiss temperature with;the Fe substitution in both systems indicates that the chemical pressure;due to the Fe substitution suppresses the Kondo temperature and induces;the magnetism. DOI: 10.1103/PhysRevB.86.224413;Chan, Julia/C-5392-2008;2;0;0;0;2;1098-0121;WOS:000312364700003;;;J;Lee, Yu-Wen;Lee, Yu-Li;Chung, Chung-Hou;Nonequilibrium noise correlations in a point contact of helical edge;states;PHYSICAL REVIEW B;86;23;235121;10.1103/PhysRevB.86.235121;DEC 17 2012;2012;We investigate theoretically the nonequilibrium finite-frequency current;noise in a four-terminal quantum point contact of interacting helical;edge states at a finite bias voltage. Special focus is put on the;effects of the single-particle and two-particle scattering between the;two helical edge states on the fractional charge quasiparticle;excitations shown in the nonequilibrium current noise spectra. Via the;Keldysh perturbative approach, we find that the effects of the;single-particle and the two-particle scattering processes on the current;noise depend sensitively on the Luttinger liquid parameter. Moreover,;the Fano factors for the auto-and cross correlations of the currents in;the terminals are distinct from the ones for tunneling between the;chiral edge states in the quantum Hall liquid. The current noise spectra;in the single-particle-scattering-dominated and the;two-particle-scattering-dominated regime are shown. Experimental;implications of our results on the transport through the helical edges;in two-dimensional topological insulators are discussed. DOI:;10.1103/PhysRevB.86.235121;6;0;0;0;6;1098-0121;WOS:000312365200001;;;J;Leppert, L.;Albuquerque, R. Q.;Kuemmel, S.;Gold-platinum alloys and Vegard's law on the nanoscale;PHYSICAL REVIEW B;86;24;241403;10.1103/PhysRevB.86.241403;DEC 17 2012;2012;The structure of gold-platinum nanoparticles is heavily debated as;theoretical calculations predict core-shell particles, whereas x-ray;diffraction experiments frequently detect randomly mixed alloys. By;calculating the structure of gold-platinum nanoparticles with diameters;of up to approximate to 3.5 nm and simulating their x-ray diffraction;patterns, we show that these seemingly opposing findings need not be in;contradiction: Shells of gold are hardly visible in usual x-ray;scattering, and the interpretation of Vegard's law is ambiguous on the;nanoscale. DOI: 10.1103/PhysRevB.86.241403;Albuquerque, Rodrigo/A-8433-2013; Kummel, Stephan/K-5634-2014;4;0;0;0;4;1098-0121;WOS:000312365800004;;;J;Lin, Chien-Hung;Sau, Jay D.;Das Sarma, S.;Zero-bias conductance peak in Majorana wires made of;semiconductor/superconductor hybrid structures;PHYSICAL REVIEW B;86;22;224511;10.1103/PhysRevB.86.224511;DEC 17 2012;2012;Motivated by a recent experimental report Mourik et al. [Science 336,;1003 (2012)] claiming the likely observation of the Majorana mode in a;semiconductor-superconductor hybrid structure, we study theoretically;the dependence of the zero-bias conductance peak associated with the;zero-energy Majorana mode in the topological superconducting phase as a;function of temperature, tunnel barrier potential, and a magnetic field;tilted from the direction of the wire for realistic wires of finite;lengths. We find that higher temperatures and tunnel barriers as well as;a large magnetic field in the direction transverse to the wire length;could very strongly suppress the zero- bias conductance peak as observed;in recent experiments. We also show that a strong magnetic field along;the wire could eventually lead to the splitting of the zero bias peak;into a doublet with the doublet energy splitting oscillating as a;function of increasing magnetic field. Our results based on the standard;theory of topological superconductivity in a semiconductor hybrid;structure in the presence of proximity-induced superconductivity,;spin-orbit coupling, and Zeeman splitting show that the recently;reported experimental data are generally consistent with the existing;theory that led to the predictions for the existence of the Majorana;modes in the semiconductor hybrid structures in spite of some apparent;anomalies in the experimental observations at first sight. We also make;a prediction for the future observation of Majorana splitting in finite;wires used in the experiments. DOI: 10.1103/PhysRevB. 86.224511;Das Sarma, Sankar/B-2400-2009;22;0;1;0;22;1098-0121;WOS:000312364700008;;;J;Marchal, R.;Boyko, O.;Bonello, B.;Zhao, J.;Belliard, L.;Oudich, M.;Pennec, Y.;Djafari-Rouhani, B.;Dynamics of confined cavity modes in a phononic crystal slab;investigated by in situ time-resolved experiments;PHYSICAL REVIEW B;86;22;224302;10.1103/PhysRevB.86.224302;DEC 17 2012;2012;The confinement of elastic waves within a single defect in a phononic;crystal slab is investigated both experimentally and theoretically. The;structure is formed by a honeycomb lattice of air holes in a silicon;plate with one hole missing in its center. The frequencies and;polarizations of the localized modes in the first band gap are computed;with a finite element method. A noncontact laser ultrasonic technique is;used both to excite flexural Lamb waves and to monitor in situ the;displacement field within the cavity. We report on the time evolution of;confinement, which is distinct according to the symmetry of the;eigenmode. DOI: 10.1103/PhysRevB.86.224302;3;0;0;0;3;1098-0121;WOS:000312364700002;;;J;Martinez, Enrique;Senninger, Oriane;Fu, Chu-Chun;Soisson, Frederic;Decomposition kinetics of Fe-Cr solid solutions during thermal aging;PHYSICAL REVIEW B;86;22;224109;10.1103/PhysRevB.86.224109;DEC 17 2012;2012;The decomposition of Fe-Cr solid solutions during thermal aging is;modeled by atomistic kinetic Monte Carlo simulations, using a rigid;lattice approximation with pair interactions that depend on the local;composition and temperature. The pair interactions are fitted on ab;initio calculations of mixing energies and vacancy migration barriers at;0 K. The entropic contributions to the mixing of Fe-Cr alloys and to the;vacancy formation and migration free energies are taken into account.;The model reproduces the change in sign of the mixing energy with the;alloy composition and gives realistic thermodynamic and kinetic;properties, including an asymmetrical miscibility gap at low temperature;and diffusion coefficients in good agreement with available experimental;data. Simulations of short-range ordering and alpha-alpha' decomposition;are performed at 773 and 813 K for Cr concentrations between 10% and;50%. They are compared with experimental kinetics based on;three-dimensional atom probe and neutron scattering measurements. The;possible effect of magnetic properties on diffusion in the alpha and;alpha' phases, and therefore on the decomposition kinetics, is;emphasized. DOI: 10.1103/PhysRevB.86.224109;soisson, frederic/B-2917-2009; Lujan Center, LANL/G-4896-2012;soisson, frederic/0000-0001-6435-6119;;6;0;0;0;6;1098-0121;WOS:000312364700001;;;J;Moon, Eun-Gook;Xu, Cenke;Exotic continuous quantum phase transition between Z(2) topological spin;liquid and Neel order;PHYSICAL REVIEW B;86;21;214414;10.1103/PhysRevB.86.214414;DEC 17 2012;2012;Recent numerical simulations with different techniques have all;suggested the existence of a continuous quantum phase transition between;the Z(2) topological spin-liquid phase and a conventional Neel order.;Motivated by this numerical progress, we propose a candidate theory for;such Z(2)-Neel transition. We first argue on general grounds that, for a;SU(2)-invariant system, this transition can not be interpreted as the;condensation of spinons in the Z(2) spin-liquid phase. Then, we propose;that such Z(2)-Neel transition is driven by proliferating the bound;state of the bosonic spinon and vison excitation of the Z(2) spin;liquid, i.e., the so-called (e, m)-type excitation. Universal critical;exponents associated with this exotic transition are computed using 1/N;expansion. This theory predicts that at the Z(2)-Neel transition, there;is an emergent quasi-long-range power-law correlation of columnar;valence bond solid order parameter.;6;0;0;0;6;1098-0121;WOS:000312364200003;;;J;Moskvin, A. S.;Gippius, A. A.;Tkachev, A. V.;Mahajan, A. V.;Chakrabarty, T.;Presniakov, I. A.;Sobolev, A. V.;Demazeau, G.;Direct evidence of non-Zhang-Rice Cu3+ centers in La2Li0.5Cu0.5O4;PHYSICAL REVIEW B;86;24;241107;10.1103/PhysRevB.86.241107;DEC 17 2012;2012;A well-isolated Zhang-Rice (ZR) singlet as a ground state of the Cu3+;center in hole-doped cuprates is a leading paradigm in modern theories;of high-temperature superconductivity. However, a dramatic temperature;evolution of the Li-6,Li-7 NMR signal in La2Li0.5Cu0.5O4, a system with;a regular lattice of well-isolated Cu3+ centers, reveals significant;magnetic fluctuations and suggests a quasidegeneracy to be a generic;property of their ground state at variance with the simple ZR model. We;argue for a competition of the ZR state with nearby states formed by a;"doped" hole occupying purely oxygen nonbonding a(2g)(pi) and e(u)(pi);orbitals rather than a conventional b(1g)(d(x2-y2))Cu 3d-O 2p hybrid.;The temperature variation of the Li-6,Li-7 NMR line shape and;spin-lattice relaxation rate point to a gradual slowing down of some;magnetic order parameter's fluctuations without distinct signatures of a;phase transition down to T = 2 K. This behavior agrees with a stripelike;ferrodistortive fluctuating Ammm order in a two-dimensional structure of;the (CuLi)O-2 planes accompanied by unconventional oxygen orbital;antiferromagnetic fluctuations. DOI: 10.1103/PhysRevB.86.241107;Gippius, Andrey/D-1139-2010; Sobolev, Alexey/C-3832-2009;Sobolev, Alexey/0000-0002-8085-5425;0;0;0;0;0;1098-0121;WOS:000312365800002;;;J;Nguyen, P. D.;Kepaptsoglou, D. M.;Erni, R.;Ramasse, Q. M.;Olsen, A.;Quantum confinement of volume plasmons and interband transitions in;germanium nanocrystals;PHYSICAL REVIEW B;86;24;245316;10.1103/PhysRevB.86.245316;DEC 17 2012;2012;The plasmonic properties of individual quantum-sized Ge nanocrystals;(NCs) were observed and systematically analyzed by aberration-corrected;scanning transmission electron microscopy (STEM) and electron energy;loss spectroscopy (EELS). For this purpose, Ge NCs embedded in an SiO2;matrix with controllable size, density, and structure were fabricated;using magnetron sputtering. The size dependence of the Ge plasmon;energies in the size range of 5-9 nm is shown to be well depicted by the;so-called medium quantum confinement (QC) model, with an effective mass;of 0.57m(0) (contrary to expectations of a stronger quantum effect). In;the very low-loss region of the EEL spectra, an apparent blue shift of;the E-2 interband transition peak up to 2 eV and a strong reduction in;the oscillator strength were measured for the NCs in the size range of;4-6 nm. It indicates for this smaller size range a transition to a QC;regime where the band structure and the density of states are modified;dramatically. These trends are explained by a combination of low-loss;and core-loss EELS results, which show that the Ge NCs are surrounded;uniformly by nearly stoichiometric SiO2. This local chemistry is shown;to provide an infinite potential barrier and to confine electrons and;holes in the spherically shaped Ge NCs. In addition to pure QC effects;in the Ge NCs, the SiO2 matrix thus plays an important role in the;strength of the observed QC and interband transitions. DOI:;10.1103/PhysRevB.86.245316;2;0;0;0;2;1098-0121;WOS:000312365800010;;;J;Roedl, Claudia;Bechstedt, Friedhelm;Optical and energy-loss spectra of the antiferromagnetic transition;metal oxides MnO, FeO, CoO, and NiO including quasiparticle and;excitonic effects;PHYSICAL REVIEW B;86;23;235122;10.1103/PhysRevB.86.235122;DEC 17 2012;2012;We calculate the frequency-dependent dielectric function for the series;of antiferromagnetic transition metal oxides (TMOs) from MnO to NiO;using many-body perturbation theory. Quasiparticle, excitonic, and;local-field effects are taken into account by solving the Bethe-Salpeter;equation in the framework of collinear spin polarization. The optical;spectra are based on electronic structures which have been obtained;using density-functional theory with a hybrid functional containing;screened exchange (HSE03) and a subsequent quasiparticle calculation in;the GW approximation to describe exchange and correlation effects;adequately. These sophisticated quasiparticle band structures are mapped;to electronic structures resulting from the computationally less;expensive GGA + U + Delta scheme that includes an on-site interaction U;and a scissors shift Delta and allows us to calculate the large number;of electronic states that is necessary to construct the Bethe-Salpeter;Hamiltonian. For an accurate description of the optical spectra, an;appropriate treatment of the strong electron-hole attraction is;mandatory to obtain agreement with the experimentally observed;absorption-peak positions. The itinerant s and p states as well as the;localized transition metal 3d states have to be considered on an equal;footing. We find that a purely atomic picture is not suitable to;understand the optical absorption spectra of the TMOs. Reflectivity;spectra, absorption coefficients, and loss functions at vanishing;momentum transfer are computed in a wide spectral range and discussed in;light of the available experimental data. DOI:;10.1103/PhysRevB.86.235122;8;1;0;0;8;1098-0121;WOS:000312365200002;;;J;Schlickeiser, F.;Atxitia, U.;Wienholdt, S.;Hinzke, D.;Chubykalo-Fesenko, O.;Nowak, U.;Temperature dependence of the frequencies and effective damping;parameters of ferrimagnetic resonance;PHYSICAL REVIEW B;86;21;214416;10.1103/PhysRevB.86.214416;DEC 17 2012;2012;Recent experiments on all-optical switching in GdFeCo and CoGd have;raised the question about the importance of the angular momentum or the;magnetization compensation point for ultrafast magnetization dynamics.;We investigate the dynamics of ferrimagnets by means of computer;simulations as well as analytically. The results from atomistic modeling;are explained by a theory based on the two-sublattice;Landau-Lifshitz-Bloch equation. Similarly to the experimental results;and unlike predictions based on the macroscopic Landau-Lifshitz;equation, we find an increase in the effective damping at temperatures;approaching the Curie temperature. Further results for the temperature;dependence of the frequencies and effective damping parameters of the;normal modes represent an improvement of former approximated solutions,;building a better basis for comparison to recent experiments.;Atxitia, Unai/A-8870-2010;4;0;0;0;4;1098-0121;WOS:000312364200005;;;J;Smith, R. F.;Minich, R. W.;Rudd, R. E.;Eggert, J. H.;Bolme, C. A.;Brygoo, S. L.;Jones, A. M.;Collins, G. W.;
6:1:13:5:1 Structured shock waves and the fourth-power law
DOI:10.1063/1.3269720 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:32 AU: Grady, Dennis E.;
6:1:13:5:2 On the scaling of steady structured waves in heterogeneous materials
DOI:10.1063/1.4768705 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:3 AU: Vogler, T. J.;Borg, J. P.;Grady, D. E.;
6:1:13:5:3 Dynamic response and modeling of a carbon fiber-epoxy composite subject to shock loading
DOI:10.1063/1.4846116 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:0 AU: Alexander, C. S.;Key, C. T.;Schumacher, S. C.;
6:1:14:1 Effect of grain boundary character on sink efficiency
DOI:10.1016/j.actamat.2012.08.009 JN:ACTA MATERIALIA PY:2012 TC:34 AU: Han, W. Z.;Demkowicz, M. J.;Fu, E. G.;Wang, Y. Q.;Misra, A.;
6:1:14:2 Atomic-scale design of radiation-tolerant nanocomposites
DOI:10.1557/mrs2010.704 JN:MRS BULLETIN PY:2010 TC:32 AU: Demkowicz, M. J.;Bellon, P.;Wirth, B. D.;
6:1:14:3 The effect of excess atomic volume on He bubble formation at fcc-bcc interfaces
DOI:10.1063/1.3502594 JN:APPLIED PHYSICS LETTERS PY:2010 TC:32 AU: Demkowicz, M. J.;Bhattacharyya, D.;Usov, I.;Wang, Y. Q.;Nastasi, M.;Misra, A.;
6:1:14:4 Materials challenges in nuclear energy
DOI:10.1016/j.actamat.2012.11.004 JN:ACTA MATERIALIA PY:2013 TC:89 AU: Zinkle, S. J.;Was, G. S.;
6:1:14:5 Radiation-induced mixing between metals of low solid solubility
DOI:10.1016/j.actamat.2014.05.013 JN:ACTA MATERIALIA PY:2014 TC:3 AU: Zhang, L.;Demkowicz, M. J.;
6:1:14:6 In Situ Study of Defect Migration Kinetics and Self-Healing of Twin Boundaries in Heavy Ion Irradiated Nanotwinned Metals
DOI:10.1021/nl504677z JN:NANO LETTERS PY:2015 TC:0 AU: Li, J.;Yu, K. Y.;Chen, Y.;Song, M.;Wang, H.;Kirk, M. A.;Li, M.;Zhang, X.;
6:1:14:7 Dynamic self-organization in Cu alloys under ion irradiation
DOI:10.1016/j.actamat.2010.03.039 JN:ACTA MATERIALIA PY:2010 TC:27 AU: Chee, S. W.;Stumphy, B.;Vo, N. Q.;Averback, R. S.;Bellon, P.;
6:1:14:8 Suppression of irradiation hardening in nanoscale V/Ag multilayers
DOI:10.1016/j.actamat.2011.06.043 JN:ACTA MATERIALIA PY:2011 TC:28 AU: Wei, Q. M.;Li, N.;Mara, N.;Nastasi, M.;Misra, A.;
6:1:14:9 Morphological stability of Cu-Nb nanocomposites under high-energy collision cascades
DOI:10.1063/1.4817785 JN:APPLIED PHYSICS LETTERS PY:2013 TC:4 AU: Zhang, Liang;Demkowicz, Michael J.;
6:1:14:10 Stable Storage of Helium in Nanoscale Platelets at Semicoherent Interfaces
DOI:10.1103/PhysRevLett.110.086101 JN:PHYSICAL REVIEW LETTERS PY:2013 TC:15 AU: Kashinath, A.;Misra, A.;Demkowicz, M. J.;
6:1:14:11 A first-principles study of helium storage in oxides and at oxide-iron interfaces
DOI:10.1063/1.4707944 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:7 AU: Erhart, Paul;
6:1:14:12 Nucleation and growth of bubbles in He ion-implanted V/Ag multilayers
DOI:10.1080/14786435.2010.526647 JN:PHILOSOPHICAL MAGAZINE PY:2011 TC:20 AU: Wei, Q. M.;Wang, Y. Q.;Nastasi, M.;Misra, A.;
6:1:14:13 Formation, migration, and clustering of delocalized vacancies and interstitials at a solid-state semicoherent interface
DOI:10.1103/PhysRevB.85.205416 JN:PHYSICAL REVIEW B PY:2012 TC:5 AU: Kolluri, Kedarnath;Demkowicz, Michael J.;
6:1:14:14 Design of radiation resistant metallic multilayers for advanced nuclear systems
DOI:10.1063/1.4883481 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Zhernenkov, Mikhail;Gill, Simerjeet;Stanic, Vesna;DiMasi, Elaine;Kisslinger, Kim;Baldwin, J. Kevin;Misra, Amit;Demkowicz, M. J.;Ecker, Lynne;
6:1:14:15 Dislocation mechanism of interface point defect migration
DOI:10.1103/PhysRevB.82.193404 JN:PHYSICAL REVIEW B PY:2010 TC:10 AU: Kolluri, Kedarnath;Demkowicz, Michael J.;
6:1:14:16 Computational design of solid-state interfaces using O-lattice theory: An application to mitigating helium-induced damage
DOI:10.1063/1.4902888 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Yuryev, D. V.;Demkowicz, M. J.;
6:1:14:17 Characterization of a Fe/Y2O3 metal/oxide interface using neutron and x-ray scattering
DOI:10.1063/1.4891432 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Watkins, E. B.;Kashinath, A.;Wang, P.;Baldwin, J. K.;Majewski, J.;Demkowicz, M. J.;
6:1:14:18 Effect of irradiation damage on the shear strength of Cu-Nb interfaces
DOI:10.1016/j.scriptamat.2014.07.009 JN:SCRIPTA MATERIALIA PY:2014 TC:0 AU: Mao, Shimin;Ozerinc, Sezer;King, William P.;Averback, Robert S.;Dillon, Shen J.;
6:1:14:19 Tunable helium bubble superlattice ordered by screw dislocation network
DOI:10.1103/PhysRevB.84.052101 JN:PHYSICAL REVIEW B PY:2011 TC:12 AU: Di, Zengfeng;Bai, Xian-Ming;Wei, Qiangmin;Won, Jonghan;Hoagland, Richard G.;Wang, Yongqiang;Misra, Amit;Uberuaga, Blas P.;Nastasi, Michael;
6:1:14:20 Trapping of implanted He at Cu/Nb interfaces measured by neutron reflectometry
DOI:10.1063/1.3600642 JN:APPLIED PHYSICS LETTERS PY:2011 TC:12 AU: Zhernenkov, Mikhail;Jablin, Michael S.;Misra, Amit;Nastasi, Michael;Wang, Yongqiang;Demkowicz, Michael J.;Baldwin, Jon K.;Majewski, Jarek;
6:1:14:21 Detection of helium bubble formation at fcc-bcc interfaces using neutron reflectometry
DOI:10.1063/1.4813780 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:6 AU: Kashinath, A.;Wang, P.;Majewski, J.;Baldwin, J. K.;Wang, Y. Q.;Demkowicz, M. J.;
6:1:14:22 Displacement threshold energy and recovery in an Al-Ti nanolayered system with intrinsic point defect partitioning
DOI:10.1016/j.commatsci.2014.01.008 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:0 AU: Gerboth, Matthew;Setyawan, Wahyu;Henager, Charles H., Jr.;
6:1:14:23 Helium bubble precipitation at dislocation networks
DOI:10.1016/j.scriptamat.2011.09.027 JN:SCRIPTA MATERIALIA PY:2012 TC:14 AU: Hetherly, J.;Martinez, E.;Di, Z. F.;Nastasi, M.;Caro, A.;
6:1:14:24 Superior tolerance of Ag/Ni multilayers against Kr ion irradiation: an in situ study
DOI:10.1080/14786435.2013.815378 JN:PHILOSOPHICAL MAGAZINE PY:2013 TC:9 AU: Yu, K. Y.;Sun, C.;Chen, Y.;Liu, Y.;Wang, H.;Kirk, M. A.;Li, M.;Zhang, X.;
6:1:14:25 Influence of interface sink strength on the reduction of radiation-induced defect concentrations and fluxes in materials with large interface area per unit volume
DOI:10.1103/PhysRevB.84.104102 JN:PHYSICAL REVIEW B PY:2011 TC:9 AU: Demkowicz, M. J.;Hoagland, R. G.;Uberuaga, B. P.;Misra, A.;
6:1:14:26 Complex nanoprecipitate structures induced by irradiation in immiscible alloy systems
DOI:10.1103/PhysRevB.87.144102 JN:PHYSICAL REVIEW B PY:2013 TC:3 AU: Shu, Shipeng;Bellon, P.;Averback, R. S.;
6:1:14:27 Interface structure of Nb films on single crystal MgO(100) and MgO(111) substrates
DOI:10.1016/j.actamat.2013.11.031 JN:ACTA MATERIALIA PY:2014 TC:2 AU: Fu, E. G.;Fang, Y.;Zhuo, M. J.;Zheng, S. J.;Bi, Z. X.;Wang, Y. Q.;Tang, M.;Ding, X.;Han, W. Z.;Luo, H. M.;Baldwin, J. K.;Misra, A.;Nastasi, M.;
6:1:14:28 Enhanced radiation tolerance in nitride multilayered nanofilms with small period-thicknesses
DOI:10.1063/1.4759004 JN:APPLIED PHYSICS LETTERS PY:2012 TC:5 AU: Hong, Mengqing;Ren, Feng;Zhang, Hongxiu;Xiao, Xiangheng;Yang, Bing;Tian, Canxin;Fu, Dejun;Wang, Yongqiang;Jiang, Changzhong;
6:1:14:29 The shape of bubbles in He-implanted Cu and Au
DOI:10.1016/j.scriptamat.2010.04.043 JN:SCRIPTA MATERIALIA PY:2010 TC:7 AU: Wei, Qiangmin;Li, Nan;Sun, Kai;Wang, L. M.;
6:1:14:30 Irradiation damage of single crystal, coarse-grained, and nanograined copper under helium bombardment at 450 degrees C
DOI:10.1557/jmr.2013.283 JN:JOURNAL OF MATERIALS RESEARCH PY:2013 TC:2 AU: Han, Weizhong;Fu, E. G.;Demkowicz, Michael J.;Wang, Yongqiang;Misra, Amit;
6:1:14:31 The role of thermal spike compactness in radiation-induced disordering and Frenkel pair production in Ni3Al
DOI:10.1016/j.scriptamat.2012.06.029 JN:SCRIPTA MATERIALIA PY:2012 TC:5 AU: Skirlo, S. A.;Demkowicz, M. J.;
6:1:14:32 Fluence-dependent radiation damage in helium (He) ion-irradiated Cu/V multilayers
DOI:10.1080/14786435.2012.735773 JN:PHILOSOPHICAL MAGAZINE PY:2013 TC:8 AU: Fu, E. G.;Wang, H.;Carter, J.;Shao, Lin;Wang, Y. Q.;Zhang, X.;
6:1:14:33 The influence of Cu-Nb interfaces on local vacancy concentrations in Cu
DOI:10.1016/j.scriptamat.2013.03.019 JN:SCRIPTA MATERIALIA PY:2013 TC:1 AU: Mao, Shimin;Dillon, Shen;Averback, Robert S.;
6:1:14:34 Cavity morphology in a Ni based superalloy under heavy ion irradiation with hot pre-injected helium. II
DOI:10.1063/1.4867638 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Zhang, He;Yao, Zhongwen;Daymond, Mark R.;Kirk, Marquis A.;
6:1:14:35 Atomic diffusion bonding of wafers with thin nanocrystalline metal films
DOI:10.1116/1.3437515 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B PY:2010 TC:11 AU: Shimatsu, T.;Uomoto, M.;
6:1:15:1 Void initiation in fcc metals: Effect of loading orientation and nanocrystalline effects
DOI:10.1016/j.actamat.2010.04.043 JN:ACTA MATERIALIA PY:2010 TC:42 AU: Bringa, Eduardo M.;Traiviratana, Sirirat;Meyers, Marc A.;
6:1:15:2 Plastic deformation of a porous bcc metal containing nanometer sized voids
DOI:10.1016/j.commatsci.2014.02.047 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:1 AU: Ruestes, C. J.;Bringa, E. M.;Stukowski, A.;Nieva, J. F. Rodriguez;Tang, Y.;Meyers, M. A.;
6:1:15:3 Growth and collapse of nanovoids in tantalum monocrystals
DOI:10.1016/j.actamat.2010.11.001 JN:ACTA MATERIALIA PY:2011 TC:21 AU: Tang, Yizhe;Bringa, Eduardo M.;Remington, Bruce A.;Meyers, Marc A.;
6:1:15:4 Ductile tensile failure in metals through initiation and growth of nanosized voids
DOI:10.1016/j.actamat.2012.05.030 JN:ACTA MATERIALIA PY:2012 TC:17 AU: Tang, Yizhe;Bringa, Eduardo M.;Meyers, Marc A.;
6:1:15:5 Atomistic simulation of the mechanical properties of nanoporous gold
DOI:10.1016/j.actamat.2014.07.051 JN:ACTA MATERIALIA PY:2014 TC:1 AU: Rodriguez-Nieva, J. F.;Ruestes, C. J.;Tang, Y.;Bringa, E. M.;
6:1:15:6 Scaling laws and deformation mechanisms of nanoporous copper under adiabatic uniaxial strain compression
DOI:10.1063/1.4903549 JN:AIP ADVANCES PY:2014 TC:0 AU: Yuan, Fuping;Wu, Xiaolei;
6:1:15:7 Laser compression of monocrystalline tantalum
DOI:10.1016/j.actamat.2012.08.026 JN:ACTA MATERIALIA PY:2012 TC:18 AU: Lu, C. H.;Remington, B. A.;Maddox, B. R.;Kad, B.;Park, H. S.;Prisbrey, S. T.;Meyers, M. A.;
6:1:15:8 Orientation-dependent response of defective Tantalum single crystals
DOI:10.1016/j.commatsci.2014.03.069 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:2 AU: Tramontina, Diego;Ruestes, Carlos;Tang, Yizhe;Bringa, Eduardo;
6:1:15:9 Atomistic simulation of the mechanical response of a nanoporous body-centered cubic metal
DOI:10.1016/j.scriptamat.2013.01.035 JN:SCRIPTA MATERIALIA PY:2013 TC:7 AU: Ruestes, C. J.;Bringa, E. M.;Stukowski, A.;Nieva, J. F. Rodriguez;Bertolino, G.;Tang, Y.;Meyers, M. A.;
6:1:15:10 Molecular dynamics simulations of shock-induced deformation twinning of a body-centered-cubic metal
DOI:10.1103/PhysRevB.88.104105 JN:PHYSICAL REVIEW B PY:2013 TC:7 AU: Higginbotham, A.;Suggit, M. J.;Bringa, E. M.;Erhart, P.;Hawreliak, J. A.;Mogni, G.;Park, N.;Remington, B. A.;Wark, J. S.;
6:1:15:11 Inverse Hall-Petch relationship in nanocrystalline tantalum
DOI:10.1016/j.msea.2013.05.024 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:9 AU: Tang, Yizhe;Bringa, Eduardo M.;Meyers, Marc A.;
6:1:15:12 Phonon instabilities in uniaxially compressed fcc metals as seen in molecular dynamics simulations
DOI:10.1103/PhysRevB.81.092102 JN:PHYSICAL REVIEW B PY:2010 TC:12 AU: Kimminau, Giles;Erhart, Paul;Bringa, Eduardo M.;Remington, Bruce;Wark, Justin S.;
6:1:15:13 Shear impossibility: Comments on "Void growth by dislocation emission" and "Void growth in metals: Atomistic calculations"
DOI:10.1016/j.scriptamat.2010.03.001 JN:SCRIPTA MATERIALIA PY:2010 TC:16 AU: Bulatov, Vasily V.;Wolfer, Wilhelm G.;Kumar, Mukul;
6:1:15:14 An analysis on nanovoid growth in body-centered cubic single crystalline vanadium
DOI:10.1016/j.commatsci.2011.03.019 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:4 AU: Xu, S. Z.;Hao, Z. M.;Su, Y. Q.;Yu, Y.;Wan, Q.;Hu, W. J.;
6:1:15:15 Dislocation structure produced by an ultrashort shock pulse
DOI:10.1063/1.4901928 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Matsuda, Tomoki;Sano, Tomokazu;Arakawa, Kazuto;Hirose, Akio;
6:1:15:16 Response to "Shear Impossibility-Comments on 'Void Growth by Dislocation Emission' and 'Void Growth in Metals"
DOI:10.1016/j.scriptamat.2010.02.038 JN:SCRIPTA MATERIALIA PY:2010 TC:11 AU: Bringa, E. M.;Lubarda, V. A.;Meyers, M. A.;
6:1:15:17 Dislocation nucleation from near surface void under static tensile stress in Cu
DOI:10.1063/1.3606582 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:12 AU: Pohjonen, A. S.;Djurabekova, F.;Nordlund, K.;Kuronen, A.;Fitzgerald, S. P.;
6:1:15:18 Analytical model of dislocation nucleation on a near-surface void under tensile surface stress
DOI:10.1080/14786435.2012.700415 JN:PHILOSOPHICAL MAGAZINE PY:2012 TC:3 AU: Pohjonen, Aarne S.;Djurabekova, Flyura;Kuronen, Antti;Fitzgerald, Steven P.;Nordlund, Kai;
6:1:15:19 Simulations of copper single crystals subjected to rapid shear
DOI:10.1063/1.3560912 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:5 AU: Higginbotham, Andrew;Bringa, Eduardo M.;Marian, Jaime;Park, Nigel;Suggit, Matthew;Wark, Justin S.;
6:1:15:20 Interplay of dislocation slip and deformation twinning in tantalum at high strain rates
DOI:10.1016/j.scriptamat.2013.07.010 JN:SCRIPTA MATERIALIA PY:2013 TC:4 AU: Chen, C. Q.;Hu, G.;Florando, J. N.;Kumar, M.;Hemker, K. J.;Ramesh, K. T.;
6:1:15:21 Molecular dynamics simulations of ramp-compressed copper
DOI:10.1103/PhysRevB.85.024112 JN:PHYSICAL REVIEW B PY:2012 TC:2 AU: Higginbotham, A.;Hawreliak, J.;Bringa, E. M.;Kimminau, G.;Park, N.;Reed, E.;Remington, B. A.;Wark, J. S.;
6:1:15:22 Multiple-shocks induced nanocrystallization in iron
DOI:10.1063/1.4890389 JN:APPLIED PHYSICS LETTERS PY:2014 TC:2 AU: Matsuda, Tomoki;Sano, Tomokazu;Arakawa, Kazuto;Hirose, Akio;
6:1:15:23 A Frank scheme of determining the Burgers vectors of dislocations in a FCC crystal
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6:1:15:24 Incipient deformation twinning in dynamically sheared bcc tantalum
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6:1:15:25 Dislocation nucleation on a near surface void leading to surface protrusion growth under an external electric field
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6:1:15:26 Evaluating the effects of loading parameters on single-crystal slip in tantalum using molecular mechanics
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6:1:15:27 Planar Defect Nucleation and Annihilation Mechanisms in Nanocontact Plasticity of Metal Surfaces
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6:1:15:28 Thermodynamics and kinetics of nanovoid nucleation inside elastoplastic material
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6:1:15:29 Interaction of voids and nano-ductility in single crystal silicon
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6:1:15:30 Local changes of work function near rough features on Cu surfaces operated under high external electric field
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6:1:15:31 Isentropic/shock compression and recovery methodology for materials using high-amplitude laser pulses
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6:1:16:1 Anisotropic shock response of columnar nanocrystalline Cu
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6:1:16:2 Deformation and spallation of shocked Cu bicrystals with Sigma 3 coherent and symmetric incoherent twin boundaries
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6:1:16:3 Twin boundary spacing effects on shock response and spall behaviors of hierarchically nanotwinned fcc metals
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6:1:16:4 Shock response of nanotwinned copper from large-scale molecular dynamics simulations
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6:1:16:5 Shock wave loading and spallation of copper bicrystals with asymmetric Sigma 3 < 110 > tilt grain boundaries
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6:1:16:6 Dynamic response of Cu46Zr54 metallic glass to high-strain-rate shock loading: Plasticity, spall, and atomic-level structures
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6:1:16:7 Shock response of a model structured nanofoam of Cu
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6:1:16:8 Shock response of He bubbles in single crystal Cu
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6:1:16:9 Atomic scale studies of spall behavior in nanocrystalline Cu
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6:1:16:10 Shock Hugoniot of single crystal copper
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6:1:16:11 Dynamic response of phenolic resin and its carbon-nanotube composites to shock wave loading
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6:1:16:12 Elucidation of the dynamics for hot-spot initiation at nonuniform interfaces of highly shocked materials
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6:1:16:13 The shock-front structure of nanocrystalline aluminum
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6:1:16:14 Shock compression and spallation of palladium bicrystals with a Sigma 5 grain boundary
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6:1:16:15 Left-right loading dependence of shock response of (111)//(112) Cu bicrystals: Deformation and spallation
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6:1:16:16 Strengthening metal nanolaminates under shock compression through dual effect of strong and weak graphene interface
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6:1:16:17 Shock response of copper bicrystals with a Sigma 3 asymmetric tilt grain boundary
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6:1:16:18 The effect of vacancies on dynamic response of single crystal Cu to shock waves
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6:1:16:19 Shock melting of single crystal copper with a nanovoid: Molecular dynamics simulations
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6:1:16:20 Microstructure effects on shock response of Cu nanofoams
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6:1:16:21 On shock response of nano-void closed/open cell copper material: Non-equilibrium molecular dynamic simulations
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6:1:16:22 Deformation twinning in explosively-driven tantalum
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6:1:16:23 The Effect of He Implantation on the Tensile Properties and Microstructure of Cu/Fe Nano-Bicrystals
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6:1:16:24 The void nucleation strengths of the Cu-Ni-Nb-based nanoscale metallic multilayers under high strain rate tensile loadings
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6:1:16:25 Size effects on the impact response of copper nanobeams
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6:1:16:26 Elastic anisotropy of shocked aluminum single crystals: Use of molecular dynamics simulations
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6:1:16:27 Shock-induced consolidation and spallation of Cu nanopowders
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6:1:16:28 Effects of copper nanoparticle inclusions on pressure-induced fluid-polynanocrystalline structural transitions in krypton
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6:1:16:29 Atomistic simulations of shock induced melting of bicrystal copper with twist grain boundary
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6:1:16:30 Solid-liquid phase transitions in single crystal Cu under shock and release conditions
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6:1:16:31 Helium nanobubble release from Pd surface: An atomic simulation
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6:1:16:32 Ultra-elastic and inelastic impact of Cu nanoparticles
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6:1:17:1 Energy of slip transmission and nucleation at grain boundaries
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6:1:17:2 Towards an integrated materials characterization toolbox
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6:1:17:3 Quasi-four-dimensional analysis of dislocation interactions with grain boundaries in 304 stainless steel
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6:1:17:4 A physically based fatigue model for prediction of crack initiation from persistent slip bands in polycrystals
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6:1:17:5 Interaction mechanisms of screw dislocations with {10(1)over-bar1} and {10(1)over-bar2} twin boundaries in Mg
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6:1:17:6 Crystallographic orientation and boundary effects on misorientation development in austenitic stainless steel
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6:1:17:7 Energy barriers associated with slip-twin interactions
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6:1:17:8 Dislocation-grain boundary interaction in < 1 1 1 > textured thin metal films
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6:1:17:9 Energetics of residual dislocations associated with slip-twin and slip-GBs interactions
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6:1:17:10 Micromechanistic origin of irradiation-assisted stress corrosion cracking
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6:1:17:11 Electron tomography of dislocation structures
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6:1:17:12 In situ and tomographic analysis of dislocation/grain boundary interactions in alpha-titanium
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6:1:17:13 Visualization of grain boundary/dislocation interactions using tomographic reconstructions
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6:1:17:14 Interactions between edge lattice dislocations and Sigma 11 symmetrical tilt grain boundaries in copper: A quasi-continuum method study
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6:1:17:15 Hydrogen-induced intergranular failure of iron
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6:1:17:16 Influence of irradiation damage on slip transfer across grain boundaries
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6:1:17:17 Interactions between edge lattice dislocations and Sigma 11 symmetrical tilt grain boundary: comparisons among several FCC metals and interatomic potentials
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6:1:17:18 A quantitative approach to study the effect of local texture and heterogeneous plastic strain on the deformation micromechanism in RR1000 nickel-based superalloy
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6:1:17:19 Three-dimensional visualization of dislocation-precipitate interactions in a Al-4Mg-0.3Sc alloy using weak-beam dark-field electron tomography
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6:1:17:20 Twin boundary interactions with grain boundaries investigated in pure rhenium
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6:1:17:21 "Positive'' and "negative'' edge dislocations simultaneously interacting with Sigma 11 GB during nanoindentation
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6:1:17:22 Transition from a punched-out dislocation to a slip dislocation revealed by electron tomography
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6:1:17:23 Sequential multiplication of dislocation sources along a crack front revealed by high-voltage electron microscopy and tomography
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6:1:17:24 Slip transmission in bcc FeCr polycrystal
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6:1:17:25 Plastic strain localization and fatigue micro-crack formation in Hastelloy X
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6:1:17:26 Twin migration in Fe-based bcc crystals: theory and experiments
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6:1:17:27 Twin nucleation and migration in FeCr single crystals
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6:1:17:28 Ultrafast Kikuchi Diffraction: Nanoscale Stress-Strain Dynamics of Wave-Guiding Structures
DOI:10.1021/nl301644t JN:NANO LETTERS PY:2012 TC:4 AU: Yurtsever, Aycan;Schaefer, Sascha;Zewail, Ahmed H.;
6:1:17:29 Plastic deformation behaviour of Fe-Cu composites predicted by 3D finite element simulations
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6:1:17:30 A molecular dynamics study of tilt grain boundary resistance to slip and heat transfer in nanocrystalline silicon
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6:1:17:31 Crack initiation and mechanical properties of TC21 titanium alloy with equiaxed microstructure
DOI:10.1016/j.msea.2013.08.012 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: Shao, Hui;Zhao, Yongqing;Ge, Peng;Zeng, Weidong;
6:1:18:1 High strength-ductility of thin nanocrystalline palladium films with nanoscale twins: On-chip testing and grain aggregate model
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6:1:18:2 Inter- and intragranular plasticity mechanisms in ultrafine-grained Al thin films: An in situ TEM study
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6:1:18:3 Ultrahigh Strain Hardening in Thin Palladium Films with Nanoscale Twins
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6:1:18:4 Strain in silicon nanowire beams
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6:1:18:5 In situ TEM study of microplasticity and Bauschinger effect in nanocrystalline metals
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6:1:18:6 Atomic-scale simulation of screw dislocation/coherent twin boundary interaction in Al, Au, Cu and Ni
DOI:10.1016/j.actamat.2010.11.007 JN:ACTA MATERIALIA PY:2011 TC:30 AU: Chassagne, M.;Legros, M.;Rodney, D.;
6:1:18:7 Texture-dependent twin formation in nanocrystalline thin Pd films
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6:1:18:8 In situ TEM observations of reverse dislocation motion upon unloading in tensile-deformed UFG aluminium
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6:1:18:9 High resolution transmission electron microscopy characterization of fcc -> 9R transformation in nanocrystalline palladium films due to hydriding
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6:1:18:10 Imperfection-sensitive ductility of aluminium thin films
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6:1:18:11 Plasticity mechanisms in ultrafine grained freestanding aluminum thin films revealed by in-situ transmission electron microscopy nanomechanical testing
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6:1:18:12 Study of creep/relaxation mechanisms in thin freestanding nanocrystalline palladium films through the lab-on-chip technology
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6:1:18:13 On-chip tensile testing of nanoscale silicon free-standing beams
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6:1:18:16 Effect of internal stress on the hydriding kinetics of nanocrystalline Pd thin films
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6:1:18:17 In-situ monitoring of hydride formation in Pd thin film systems
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6:1:18:18 Roughness analysis in strained silicon-on-insulator wires and films
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6:1:18:19 Effect of microstructural heterogeneity on the mechanical behavior of nanocrystalline metal films
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6:1:18:20 Surface reconstruction and elastic behavior of silicon nanobeams: The impact of applied deformation
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6:1:18:21 Experimental observations of surface roughness in uniaxially loaded strained Si microelectromechanical systems-based structures
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6:1:18:22 Tensile Behavior of Single-Crystal Tin Whiskers
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6:1:18:23 Microstructure and residual stress of magnetron sputtered nanocrystalline palladium and palladium gold films on polymer substrates
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6:1:18:24 Molecular dynamics study on size-dependent elastic properties of silicon nanoplates
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6:1:19:1 Atomistic modeling of interfaces and their impact on microstructure and properties
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6:1:19:2 Phase-field-crystal study of grain boundary premelting and shearing in bcc iron
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6:1:19:3 Thermodynamics of coherent interfaces under mechanical stresses. I. Theory
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6:1:19:4 Effect of Interface Phase Transformations on Diffusion and Segregation in High-Angle Grain Boundaries
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6:1:19:6 Amplitude equations for polycrystalline materials with interaction between composition and stress
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6:1:19:7 Dislocation-Pairing Transitions in Hot Grain Boundaries
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6:1:19:8 Temperature dependence of grain boundary free energy and elastic constants
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6:1:19:9 Effect of nonhydrostatic stresses on solid-fluid equilibrium. II. Interface thermodynamics
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6:1:19:10 Effect of nonhydrostatic stresses on solid-fluid equilibrium. I. Bulk thermodynamics
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6:1:19:11 Structural short-range forces between solid-melt interfaces
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6:1:19:12 Effect of interfacial structural phase transitions on the coupled motion of grain boundaries: A molecular dynamics study
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6:1:19:13 Liquid Nucleation at Superheated Grain Boundaries
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6:1:19:14 Influence of short-range forces on melting along grain boundaries
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6:1:19:15 Molecular dynamics simulation of the grain boundary sliding behaviour for Al Sigma 5 (210)
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6:1:19:17 Aluminum Sigma 3 grain boundary sliding enhanced by vacancy diffusion
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6:1:19:18 Orientation-field model for polycrystalline solidification with a singular coupling between order and orientation
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6:1:19:19 Characterization of small pure and Ni-doped titanium clusters: Ab initio versus classical approaches
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6:1:20:1 Propagating phase interface with intermediate interfacial phase: Phase field approach
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6:1:20:2 Surface Tension and Energy in Multivariant Martensitic Transformations: Phase-Field Theory, Simulations, and Model of Coherent Interface
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6:1:20:3 Interface stress for nonequilibrium microstructures in the phase field approach: Exact analytical results
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6:1:20:4 Melting and solidification of nanoparticles: Scale effects, thermally activated surface nucleation, and bistable states
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6:1:20:6 Solid-solid transformations via nanoscale intermediate interfacial phase: Multiple structures, scale and mechanics effects
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6:1:20:7 Surface-Induced Phase Transformations: Multiple Scale and Mechanics Effects and Morphological Transitions
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6:1:20:8 Advanced phase-field approach to dislocation evolution
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6:1:20:9 Coherent solid/liquid interface with stress relaxation in a phase-field approach to the melting/solidification transition
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6:1:20:10 Irreversible thermodynamics of creep in crystalline solids
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6:1:20:11 Unambiguous Gibbs dividing surface for nonequilibrium finite-width interface: Static equivalence approach
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6:1:20:12 Crystal-crystal phase transformation via surface-induced virtual premelting
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6:1:20:13 Multiple twinning and variant-variant transformations in martensite: Phase-field approach
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6:1:20:14 Phase field approach to interaction of phase transformation and dislocation evolution
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6:1:20:15 The Strong Influence of Internal Stresses on the Nucleation of a Nanosized, Deeply Undercooled Melt at a Solid-Solid Phase Interface
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6:1:20:17 Internal stress-induced melting below melting temperature at high-rate laser heating
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6:1:20:18 Self-Oscillating Regime of Crack Propagation Induced by a Local Phase Transition at Its Tip
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6:1:20:19 Fluctuations, bistability and hysteresis connected to phase transformations of nanoparticles
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6:1:20:20 Phase-field modeling of fracture in liquid
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6:1:20:21 Diffusion-Induced Oscillations of Extended Defects
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6:1:20:22 Material witness: Shock relief
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6:1:21:1 Controlling factors in tensile deformation of nanocrystalline cobalt and nickel
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6:1:21:4 New experimental insight into the mechanisms of nanoplasticity
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6:1:21:21 Mechanical testing via dominant shear deformation of small-sized specimen
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6:1:22:1 Ultra-strength materials
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6:1:23:1 A multiscale strength model for extreme loading conditions
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6:1:23:2 Strength effects in diamond under shock compression from 0.1 to 1 TPa
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6:1:23:3 Flow strength of tantalum under ramp compression to 250 GPa
DOI:10.1063/1.4863463 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:5 AU: Brown, J. L.;Alexander, C. S.;Asay, J. R.;Vogler, T. J.;Dolan, D. H.;Belof, J. L.;
6:1:23:4 Extracting strength from high pressure ramp-release experiments
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6:1:23:5 Strength of Shock-Loaded Single-Crystal Tantalum [100] Determined using In Situ Broadband X-Ray Laue Diffraction
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6:1:23:6 A multiscale strength model for tantalum over an extended range of strain rates
DOI:10.1063/1.4822027 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:3 AU: Barton, N. R.;Rhee, M.;
6:1:23:7 Modeling of the elastic precursor behavior and dynamic inelasticity of tantalum under ramp wave loading to 17 GPa
DOI:10.1063/1.3373388 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:13 AU: Ding, J. L.;Asay, J. R.;Ao, T.;
6:1:23:8 A unified approach for extracting strength information from nonsimple compression waves. Part II. Experiment and comparison with simulation
DOI:10.1063/1.3662173 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:7 AU: Reed, Bryan W.;Patterson, J. Reed;Swift, Damian C.;Stolken, James S.;Minich, Roger W.;Kumar, Mukul;
6:1:23:9 A unified approach for extracting strength information from nonsimple compression waves. Part I: Thermodynamics and numerical implementation
DOI:10.1063/1.3653821 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:6 AU: Reed, Bryan W.;Stolken, James S.;Minich, Roger W.;Kumar, Mukul;
6:1:23:10 Analysis of deformation twinning in tantalum single crystals under shock loading conditions
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6:1:23:11 Dynamic yielding of single crystal Ta at strain rates of similar to 5 x 10(5)/s
DOI:10.1063/1.3562178 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:5 AU: Asay, J. R.;Vogler, T. J.;Ao, T.;Ding, J. L.;
6:1:23:12 Experimental Determination of Third-Order Elastic Constants of Diamond
DOI:10.1103/PhysRevLett.106.125502 JN:PHYSICAL REVIEW LETTERS PY:2011 TC:6 AU: Lang, J. M., Jr.;Gupta, Y. M.;
6:1:23:13 Strength and elastic deformation of natural and synthetic diamond crystals shock compressed along [100]
DOI:10.1063/1.3448027 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:9 AU: Lang, J. M., Jr.;Gupta, Y. M.;
6:1:23:14 Unloading and reloading response of shocked aluminum single crystals: Time-dependent anisotropic material description
DOI:10.1063/1.4765012 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:5 AU: Winey, J. M.;Johnson, J. N.;Gupta, Y. M.;
6:1:23:15 An assessment of diamond anvil cell measurements on material strength
DOI:10.1063/1.4807786 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:2 AU: Vignes, Ryan M.;Becker, Richard;Stoelken, James;Kumar, Mukul;
6:1:23:16 Modeling of plasticity and fracture of metals at shock loading
DOI:10.1063/1.4805713 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:18 AU: Mayer, A. E.;Khishchenko, K. V.;Levashov, P. R.;Mayer, P. N.;
6:1:23:17 Multiscale dislocation dynamics simulations of shock-induced plasticity in small volumes
DOI:10.1080/14786435.2011.637988 JN:PHILOSOPHICAL MAGAZINE PY:2012 TC:9 AU: Shehadeh, Mutasem A.;
6:1:23:18 Material strength determination in the shock compressed state using x-ray diffraction measurements
DOI:10.1063/1.3597817 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:6 AU: Turneaure, Stefan J.;Gupta, Y. M.;
6:1:23:19 Shockless compression and release behavior of beryllium to 110GPa
DOI:10.1063/1.4890232 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Brown, J. L.;Knudson, M. D.;Alexander, C. S.;Asay, J. R.;
6:1:23:20 2169 steel waveform measurements for equation of state and strength determination
DOI:10.1063/1.4862277 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Furnish, M. D.;Alexander, C. S.;Brown, J. L.;Reinhart, W. D.;
6:1:23:21 Comment on "Strength of Shock-Loaded Single-Crystal Tantalum [100] Determined Using in situ Broadband X-Ray Laue Diffraction" Reply
DOI:10.1103/PhysRevLett.113.039602 JN:PHYSICAL REVIEW LETTERS PY:2014 TC:0 AU: Comley, A. J.;Maddox, B. R.;Rudd, R. E.;Barton, N. R.;Wehrenberg, C. E.;Prisbrey, S. T.;Hawreliak, J. A.;Orlikowski, D. A.;Peterson, S. C.;Satcher, J. H.;Elsholz, A. J.;Park, H. -S.;Remington, B. A.;Bazin, N.;Foster, J. M.;Graham, P.;Park, N.;Rosen, P. A.;Rothman, S. D.;Higginbotham, A.;Suggit, M.;Wark, J. S.;
6:1:23:22 Comment on "Strength of Shock-Loaded Single-Crystal Tantalum [100] Determined Using in situ Broadband X-Ray Laue Diffraction"
DOI:10.1103/PhysRevLett.113.039601 JN:PHYSICAL REVIEW LETTERS PY:2014 TC:1 AU: Hunter, Abigail;Preston, Dean L.;
6:1:23:23 Modeling of plastic localization in aluminum and Al-Cu alloys under shock loading
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6:1:23:24 Shock-compressed graphite to diamond transformation on nanosecond time scales
DOI:10.1103/PhysRevB.87.174104 JN:PHYSICAL REVIEW B PY:2013 TC:0 AU: Winey, J. M.;Gupta, Y. M.;
6:1:23:25 Modeling of the dynamic inelasticity of tantalum single crystal under ramp wave loading
DOI:10.1063/1.3561376 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:1 AU: Ding, J. L.;Asay, J. R.;
6:1:23:26 Verification of conventional equations of state for tantalum under quasi-isentropic compression
DOI:10.1063/1.4902064 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Luo Binqiang;Wang Guiji;Mo Jianjun;Zhang Hongpin;Tan Fuli;Zhao Jianheng;Liu Cangli;Sun Chengwei;
6:1:23:27 Lonsdaleite - A material stronger and stiffer than diamond
DOI:10.1016/j.scriptamat.2011.04.013 JN:SCRIPTA MATERIALIA PY:2011 TC:3 AU: Li Qingkun;Sun Yi;Li Zhiyuan;Zhou Yu;
6:1:23:28 Magnetically applied pressure-shear: A new method for direct measurement of strength at high pressure
DOI:10.1063/1.3517790 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:6 AU: Alexander, C. S.;Asay, J. R.;Haill, T. A.;
6:1:23:29 Reshock and release response of aluminum single crystal (vol 101, 063550, 2007)
DOI:10.1063/1.3275574 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:1 AU: Huang, H.;Asay, J. R.;
6:1:23:30 The direct measurement of ablation pressure driven by 351-nm laser radiation
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6:1:23:31 Lithographically fabricated gratings for the interferometric measurement of material shear moduli under extreme conditions
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6:1:24:1 The effect of film thickness on the failure strain of polymer-supported metal films
DOI:10.1016/j.actamat.2009.11.010 JN:ACTA MATERIALIA PY:2010 TC:52 AU: Lu, Nanshu;Suo, Zhigang;Vlassak, Joost J.;
6:1:24:2 Fatigue-Free, Electrically Reliable Copper Electrode with Nanohole Array
DOI:10.1002/smll.201200674 JN:SMALL PY:2012 TC:12 AU: Kim, Byoung-Joon;Cho, Yigil;Jung, Min-Suk;Shin, Hae-A-Seul;Moon, Myoung-Woon;Han, Heung Nam;Nam, Ki Tae;Joo, Young-Chang;Choi, In-Suk;
6:1:24:3 Fatigue of polymer-supported Ag thin films
DOI:10.1016/j.scriptamat.2012.02.030 JN:SCRIPTA MATERIALIA PY:2012 TC:18 AU: Sim, Gi-Dong;Hwangbo, Yun;Kim, Hyun-Ho;Lee, Soon-Bok;Vlassak, Joost J.;
6:1:24:4 Reinforcing Ag nanoparticle thin films with very long Ag nanowires
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6:1:24:5 Tensile characteristics of metal nanoparticle films on flexible polymer substrates for printed electronics applications
DOI:10.1088/0957-4484/24/8/085701 JN:NANOTECHNOLOGY PY:2013 TC:16 AU: Kim, Sanghyeok;Won, Sejeong;Sim, Gi-Dong;Park, Inkyu;Lee, Soon-Bok;
6:1:24:6 Strain rate sensitive stretchability and fracture behavior of nanocrystalline Cu films on flexible substrate
DOI:10.1016/j.msea.2012.01.006 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:5 AU: Cao, Z. H.;Hu, K.;Meng, X. K.;
6:1:24:7 Improving mechanical fatigue resistance by optimizing the nanoporous structure of inkjet-printed Ag electrodes for flexible devices
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6:1:24:8 Crack nucleation during mechanical fatigue in thin metal films on flexible substrates
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6:1:24:9 Improving the stretchability of as-deposited Ag coatings on poly-ethylene-terephthalate substrates through use of an acrylic primer
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6:1:24:10 Inverse effect of thickness on the ductility in nanocrystalline Cu films
DOI:10.1016/j.msea.2011.08.033 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:3 AU: Hu, K.;Cao, Z. H.;Meng, X. K.;
6:1:24:11 Recovery of electrical resistance in copper films on polyethylene terephthalate subjected to a tensile strain
DOI:10.1016/j.tsf.2013.12.055 JN:THIN SOLID FILMS PY:2014 TC:2 AU: Glushko, O.;Marx, V. M.;Kirchlechner, C.;Zizak, I.;Cordill, M. J.;
6:1:24:12 Tensile and fatigue behaviors of printed Ag thin films on flexible substrates
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6:1:24:13 Effect of film thickness on the stretchability and fatigue resistance of Cu films on polymer substrates
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6:1:24:14 Effects of stretching and cycling on the fatigue behavior of polymer-supported Ag thin films
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6:1:24:15 Improved mechanical properties of sputtered and evaporated Zn films deposited on a flexible substrate with an adhesive layer of amorphous ZrCu film
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6:1:24:16 Influences of semiconductor morphology on the mechanical fatigue behavior of flexible organic electronics
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6:1:24:17 Transition from dislocation glide to creep controlled damage in fatigued thin Cu films
DOI:10.1063/1.4819760 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:0 AU: Trinks, C.;Volkert, C. A.;
6:1:24:18 In situ TEM study on crack propagation in nanoscale Au thin films
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6:1:24:19 A study on crack propagation and electrical resistance change of sputtered aluminum thin film on poly ethylene terephthalate substrate under stretching
DOI:10.1016/j.tsf.2011.06.062 JN:THIN SOLID FILMS PY:2011 TC:13 AU: Hamasha, Mohammad M.;Alzoubi, Khalid;Switzer, James C., III;Lu, Susan;Desu, Seshu B.;Poliks, Mark;
6:1:24:20 On strain-localized damage in nanoscale Cu-Ta multilayers on a flexible substrate
DOI:10.1016/j.msea.2010.02.018 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:2 AU: Zhu, X. F.;Li, Y. P.;Zhang, G. P.;Zhu, S. J.;
6:1:24:21 Fatigue life and plastic deformation behavior of electrodeposited copper thin films
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6:1:24:22 Influences of Ta passivation layers on the fatigue behavior of thin Cu films
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6:1:24:23 Mechanical and thermal stability of plasmonic emitters on flexible polyimide substrates
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6:1:25:1 Ductile vs. brittle behavior of pre-cracked nanocrystalline and ultrafine-grained materials
DOI:10.1016/j.actamat.2010.05.058 JN:ACTA MATERIALIA PY:2010 TC:43 AU: Ovid'ko, I. A.;Sheinerman, A. G.;
6:1:25:2 Effect of cooperative nanograin boundary sliding and migration on dislocation emission from a blunt nanocrack tip in nanocrystalline materials
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6:1:25:3 Cooperative Grain Boundary Sliding and Migration Process in Nanocrystalline Solids
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6:1:25:4 Effect of cooperative grain boundary sliding and migration on crack growth in nanocrystalline solids
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6:1:25:5 Impact of grain size distribution on the multiscale mechanical behavior of nanocrystalline materials
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6:1:25:6 A combined dislocation-cohesive zone model for fracture in nanocrystalline materials
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6:1:25:7 Grain size dependent fracture toughness of nanocrystalline materials
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6:1:25:8 Effect of dislocation-GB interactions on crack blunting in nanocrystalline materials
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6:1:25:9 Fracture of ECAP-deformed iron and the role of extrinsic toughening mechanisms
DOI:10.1016/j.actamat.2013.01.057 JN:ACTA MATERIALIA PY:2013 TC:4 AU: Hohenwarter, A.;Pippan, R.;
6:1:25:10 Effects of ultrafine nanograins on the fracture toughness of nanocrystalline materials
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6:1:25:11 Fracture toughness estimation of ductile materials using a modified energy method of the small punch test
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6:1:25:12 The effects of intergranular sliding on the fracture toughness of nanocrystalline materials with finest grains
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6:1:25:13 Special fracture behavior of nanocrystalline metals driven by hydrogen
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6:1:25:14 Nucleation of nanograins near cracks in nanocrystalline materials
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6:1:25:15 Effect of special rotational deformation on dislocation emission from a semielliptical blunt crack tip in nanocrystalline solids
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6:1:25:16 Formation of nanocrystals due to giant-fault deformation in Gum Metals
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6:1:25:17 Grain rotation dependent fracture toughness of nanocrystalline materials
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6:1:25:18 Constitutive modeling for strain rate-dependent behaviors of nanocrystalline materials based on dislocation density evolution and strain gradient
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6:1:25:19 Influence of nano-inclusions' grain boundaries on crack propagation modes in materials
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6:1:25:20 Shear band formation and fracture behavior of nanocrystalline (Co,Fe)-based alloys
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6:1:25:21 Plastic deformation by conservative shear-coupled migration of tilt boundaries with intergranular nano-cracks or precipitates
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6:1:25:22 Crack tip dislocation emission and nanoscale deformation fields in silicon
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6:1:25:23 A study on influence factors of small punch creep test by experimental investigation and finite element analysis
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6:1:25:24 Phase-field model with plastic flow for grain growth in nanocrystalline material
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6:1:26:1 Modeling grain size dependent optimal twin spacing for achieving ultimate high strength and related high ductility in nanotwinned metals
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6:1:26:2 Scaling of maximum strength with grain size in nanotwinned fcc metals
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6:1:26:3 Hardening by twin boundary during nanoindentation in nanocrystals
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6:1:26:4 The effect of nanoscale twin boundaries on fracture toughness in nanocrystalline Ni
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6:1:26:5 High-Strength and High-Ductility Nanostructured and Amorphous Metallic Materials
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6:1:26:6 Molecular dynamics simulation study of the effect of grain size on the deformation behavior of nanocrystalline body-centered cubic iron
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6:1:26:7 Hydrostatic pressure effects on deformation mechanisms of nanocrystalline fcc metals
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6:1:26:8 Size effects of primary/secondary twins on the atomistic deformation mechanisms in hierarchically nanotwinned metals
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6:1:26:9 On the role of hierarchical twins for achieving maximum yield strength in nanotwinned metals
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6:1:26:10 Two softening stages in nanotwinned Cu
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6:1:26:11 Atomistic scale fracture behaviours in hierarchically nanotwinned metals
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6:1:26:12 Can nanoscale twin boundaries serve as dislocation sources in single crystals?
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6:1:26:13 Simulation on the deformation behaviors of nanotwinned Cu considering the angle effect between loading axis and twin boundary
DOI:10.1016/j.commatsci.2013.04.042 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:3 AU: Zhang, Shu;Zhou, Jianqiu;Wang, Ying;Wang, Lu;Dong, Shuhong;
6:1:26:14 Implications of the choice of interatomic potential on calculated planar faults and surface properties in nickel
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6:1:26:15 Tensile deformation properties of single crystal copper with nanotwins
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6:1:26:16 Formation sequences and roles of multiple deformation twins during the plastic deformation in nanocrystalline fcc metals
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6:1:26:17 Atomistic simulation of twin boundaries effect on nanoindentation of Ag(111) films
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6:1:26:18 Microstructure of single-phase cobalt and manganese oxide spinel Mn3-xCoxO4 ceramics
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6:1:27:1 High temperature micropillar compression of Al/SiC nanolaminates
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6:1:27:2 Micropillar compression of Al/SiC nanolaminates
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6:1:27:3 The influence of Zr layer thickness on contact deformation and fracture in a ZrN-Zr multilayer coating
DOI:10.1007/s10853-011-6001-y JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:3 AU: Verma, Nisha;Jayaram, Vikram;
6:1:27:4 Focused Ion Beam (FIB) tomography of nanoindentation damage in nanoscale metal/ceramic multilayers
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6:1:27:5 Effect of layer thickness on the high temperature mechanical properties of Al/SiC nanolaminates
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6:1:27:6 Indentation behavior of metal-ceramic multilayers at the nanoscale: Numerical analysis and experimental verification
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6:1:27:7 Understanding size effects on the strength of single crystals through high-temperature micropillar compression
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6:1:27:8 Detailed investigation of contact deformation in ZrN/Zr multiplayer-understanding the role of volume fraction, bilayer spacing, and morphology of interfaces
DOI:10.1557/jmr.2013.319 JN:JOURNAL OF MATERIALS RESEARCH PY:2013 TC:1 AU: Verma, Nisha;Jayaram, Vikram;
6:1:27:9 A transmission electron microscopy study of the deformation behavior underneath nanoindents in nanoscale Al-TiN multilayered composites
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6:1:27:10 Effect of Misorientation on the Compression of Highly Anisotropic Single-Crystal Micropillars
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6:1:27:11 First-principles calculations of phase transition, elastic modulus, and superconductivity under pressure for zirconium
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6:1:27:12 Cyclic indentation behavior of metal-ceramic nanolayered composites
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6:1:27:13 Viscoplastic analysis of cyclic indentation behavior of thin metallic films
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6:1:27:14 Characterization of nanoindentation damage in metal/ceramic multilayered films by transmission electron microscopy (TEM)
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6:1:27:15 Role of interface curvature on stress distribution under indentation for ZrN/Zr multilayer coating
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6:1:27:16 Indentation behavior of multilayered thin films: Effects of layer undulation
DOI:10.1016/j.tsf.2014.04.023 JN:THIN SOLID FILMS PY:2014 TC:1 AU: Jamison, R. D.;Shen, Y. -L.;
6:1:27:17 Mechanical Characterization of Lead-Free Sn-Ag-Cu Solder Joints by High-Temperature Nanoindentation
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6:1:27:18 Scratch resistance of Al/SiC metal/ceramic nanolaminates
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6:1:27:19 Anomalous viscoplasticity during nanoindentation of Al/SiC nanolaminated composites
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6:1:27:20 Three dimensional (3D) microstructure-based modeling of interfacial decohesion in particle reinforced metal matrix composites
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6:1:27:21 Residual stress characterization of Al/SiC nanoscale multilayers using X-ray synchrotron radiation
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6:1:27:22 Influence of hot rolling on the deformation behavior of particle reinforced aluminum metal matrix composite
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6:1:28:1 Elastic strain engineering for unprecedented materials properties
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6:1:28:2 Adaptive strain-boost hyperdynamics simulations of stress-driven atomic processes
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6:1:28:3 Atomistic predictions of dislocation nucleation with transition state theory
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6:1:28:4 Predicting the dislocation nucleation rate as a function of temperature and stress
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6:1:28:5 Energy barrier for homogeneous dislocation nucleation: Comparing atomistic and continuum models
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6:1:28:6 Diffusive molecular dynamics and its application to nanoindentation and sintering
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6:1:28:7 Improbability of Void Growth in Aluminum via Dislocation Nucleation under Typical Laboratory Conditions
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6:1:28:8 Ab initio prediction of environmental embrittlement at a crack tip in aluminum
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6:1:28:9 Thermal activation analysis of enthalpic and entropic contributions to the activation free energy of basal and prismatic slips in Mg
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6:1:28:10 Activation energy for nucleation of partial dislocation from grain boundaries
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6:1:28:11 Growth of deformation twins in tantalum via coherent twin boundary migration
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6:1:28:12 Computing transition rates of thermally activated events in dislocation dynamics
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6:1:28:13 Adaptive-boost molecular dynamics simulation of carbon diffusion in iron
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6:1:28:14 Entropic Stabilization of Nanoscale Voids in Materials under Tension
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6:1:28:15 Coupling quantum and continuum scales to predict crack tip dislocation nucleation
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6:1:28:16 Finding activation pathway of coupled displacive-diffusional defect processes in atomistics: Dislocation climb in fcc copper
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6:1:28:17 Entropically Stabilized Dislocations
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6:1:28:18 Scalable kernel polynomial method for calculating transition rates
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6:1:28:19 A new micromechanics-based scale transition model for the strain-rate sensitive behavior of nanocrystalline materials
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6:1:28:20 Dependence of Peierls stress on lattice strains in silicon
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6:1:28:21 Dislocation cross-slip mechanisms in aluminum
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6:1:29:1:1 Large-scale molecular dynamics study of jet breakup and ejecta production from shock-loaded copper with a hybrid method
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6:1:29:1:2 Microstructure effects on shock-induced surface jetting
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6:1:29:1:3 Power law and exponential ejecta size distributions from the dynamic fragmentation of shock-loaded Cu and Sn metals under melt conditions
DOI:10.1063/1.4832758 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:7 AU: Durand, O.;Soulard, L.;
6:1:29:1:4 Microjetting from grooved surfaces in metallic samples subjected to laser driven shocks
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6:1:29:1:5 Ejecta production from shocked Pb surface via molecular dynamics
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6:1:29:1:6 Atomistic simulations of shock-induced microjet from a grooved aluminium surface
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6:1:29:1:7 Microjetting from a grooved Al surface under supported and unsupported shocks
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6:1:29:1:8 Ejecta source model based on the nonlinear Richtmyer-Meshkov instability
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6:1:29:1:9 Use of the Richtmyer-Meshkov Instability to Infer Yield Stress at High-Energy Densities
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6:1:29:2:1 Spalling and melting in nanocrystalline Pb under shock loading: Molecular dynamics studies
DOI:10.1063/1.4799388 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:6 AU: Xiang, Meizhen;Hu, Haibo;Chen, Jun;
6:1:29:2:2 Experimental study of ejecta from shock melted lead
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6:1:29:2:3 Molecular dynamics study of the micro-spallation of single crystal tin
DOI:10.1016/j.commatsci.2014.07.014 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:0 AU: Liao, Yi;Xiang, Meizhen;Zeng, Xiangguo;Chen, Jun;
6:1:29:2:4 Experimental observations on the links between surface perturbation parameters and shock-induced mass ejection
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6:1:29:2:5 Molecular dynamics studies of thermal dissipation during shock induced spalling
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6:1:29:2:6 Second shock ejecta measurements with an explosively driven two-shockwave drive
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6:1:29:3:1 Ejection of spalled layers from laser shock-loaded metals
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6:1:29:3:2 Effects of cryogenic temperature on dynamic fragmentation of laser shock-loaded metal foils
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6:1:29:3:3 Skew photonic Doppler velocimetry to investigate the expansion of a cloud of droplets created by micro-spalling of laser shock-melted metal foils
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6:1:29:3:4 Characterization of laser-driven ultrafast shockless compression using gold targets
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6:1:29:3:5 Laser Driven Compression to Investigate Shock-Induced Melting of Metals
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6:1:29:4:1 New Universality Class for the Fragmentation of Plastic Materials
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6:1:29:4:2 Impact fragmentation of aluminum reactive materials
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6:1:29:4:3 Fragmentation of brittle plates by localized impact
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6:1:29:5:1 Molecular dynamics study on the failure modes of aluminium under decaying shock loading
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6:1:29:5:2 Spall strength of aluminium single crystals under high strain rates: Molecular dynamics study
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6:1:30:1 Comparative study of the mechanical properties of nanostructured thin films on stretchable substrates
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6:1:30:2 Deformation modes of nanostructured thin film under controlled biaxial deformation
DOI:10.1016/j.tsf.2012.05.051 JN:THIN SOLID FILMS PY:2013 TC:8 AU: Djaziri, S.;Faurie, D.;Le Bourhis, E.;Goudeau, Ph.;Renault, P. -O.;Mocuta, C.;Thiaudiere, D.;Hild, F.;
6:1:30:3 Elastic anisotropy of polycrystalline Au films: Modeling and respective contributions of X-ray diffraction, nanoindentation and Brillouin light scattering
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6:1:30:4 Yield surface of polycrystalline thin films as revealed by non-equibiaxial loadings at small deformation
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6:1:30:5 Elastic-strain distribution in metallic film-polymer substrate composites
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6:1:30:6 Copper coverage effect on tungsten crystallites texture development in W/Cu nanocomposite thin films
DOI:10.1063/1.3524264 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:12 AU: Girault, B.;Eyidi, D.;Chauveau, T.;Babonneau, D.;Renault, P. -O.;Le Bourhis, E.;Goudeau, P.;
6:1:30:7 Out-of-plane stresses arising from grain interactions in textured thin films
DOI:10.1016/j.actamat.2009.12.031 JN:ACTA MATERIALIA PY:2010 TC:9 AU: Vodnick, Aaron M.;Nowak, David E.;Labat, Stephane;Thomas, Olivier;Baker, Shefford P.;
6:1:30:8 Controlled nanostructuration of polycrystalline tungsten thin films
DOI:10.1063/1.4803699 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:4 AU: Girault, B.;Eyidi, D.;Goudeau, P.;Sauvage, T.;Guerin, P.;Le Bourhis, E.;Renault, P. -O.;
6:1:30:9 Non-equibiaxial deformation of W/Cu nanocomposite thin films on stretchable substrate: Effect of loading path
DOI:10.1016/j.tsf.2013.05.175 JN:THIN SOLID FILMS PY:2013 TC:1 AU: Renault, Pierre-Olivier;Le Bourhis, Eric;Goudeau, Philippe;Thiaudiere, Dominique;Faurie, Damien;
6:1:30:10 Sin(2) psi analysis in thin films using 2D detectors: Non-linearity due to set-up, stress state and microstructure
DOI:10.1016/j.tsf.2012.02.031 JN:THIN SOLID FILMS PY:2013 TC:3 AU: Faurie, D.;Geandier, G.;Renault, P. -O.;Le Bourhis, E.;Thiaudiere, D.;
6:1:30:11 Mastering the biaxial stress state in nanometric thin films on flexible substrates
DOI:10.1016/j.apsusc.2014.02.032 JN:APPLIED SURFACE SCIENCE PY:2014 TC:1 AU: Faurie, D.;Renault, P. -O.;Le Bourhis, E.;Geandier, G.;Goudeau, P.;Thiaudiere, D.;
6:1:30:12 In situ studies on the cohesive properties of alpha- and beta-Ta layers on polyimide substrates
DOI:10.1016/j.actamat.2011.05.057 JN:ACTA MATERIALIA PY:2011 TC:4 AU: Frank, Stephan;Gruber, Patric A.;Handge, Ulrich A.;Spolenak, Ralph;
6:1:30:13 Deformation mechanisms in nanocrystalline metals: Insights from in-situ diffraction and crystal plasticity modelling
DOI:10.1016/j.tsf.2012.03.053 JN:THIN SOLID FILMS PY:2013 TC:5 AU: Van Petegem, S.;Li, L.;Anderson, P. M.;Van Swygenhoven, H.;
6:1:30:14 Effects of local grain misorientation and beta-Sn elastic anisotropy on whisker and hillock formation
DOI:10.1557/jmr.2012.430 JN:JOURNAL OF MATERIALS RESEARCH PY:2013 TC:3 AU: Sarobol, Pylin;Chen, Wei-Hsun;Pedigo, Aaron E.;Su, Peng;Blendell, John E.;Handwerker, Carol A.;
6:1:30:15 Time resolved synchrotron x-ray strain measurements of gold thin film on flexible substrate
DOI:10.1016/j.tsf.2011.07.059 JN:THIN SOLID FILMS PY:2011 TC:2 AU: Faurie, D.;Renault, P. -O.;Geandier, G.;Le Bourhis, E.;
6:1:30:16 Determination of the macroscopic residual stress in thin film with fiber texture on the basis of local grain-interaction models
DOI:10.1016/j.actamat.2010.06.015 JN:ACTA MATERIALIA PY:2010 TC:5 AU: Liu, C. Q.;Li, W. L.;Fei, W. D.;
6:1:30:17 Strain transfer and inhomogeneous deformation in passivated thin films with mixed texture
DOI:10.1016/j.actamat.2011.05.043 JN:ACTA MATERIALIA PY:2011 TC:3 AU: Vodnick, Aaron M.;Baker, Shefford P.;
6:1:30:18 Interface structure and work function of W-Cu interfaces
DOI:10.1063/1.4833249 JN:APPLIED PHYSICS LETTERS PY:2013 TC:0 AU: Liang, C. P.;Fan, J. L.;Gong, H. R.;Liao, Xiangke;Zhu, Xiaoqian;Peng, Shaoliang;
6:1:30:19 Novel "redox reaction" route for synthesis of faceted, microcrystalline coatings of tungsten, molybdenum and their composites
DOI:10.1016/j.scriptamat.2009.10.033 JN:SCRIPTA MATERIALIA PY:2010 TC:2 AU: Godbole, V. P.;Deokar, Geetanjali;
6:1:30:20 Stress evaluation in thin films: Micro-focus synchrotron X-ray diffraction combined with focused ion beam patterning for d(o) evaluation
DOI:10.1016/j.tsf.2013.07.019 JN:THIN SOLID FILMS PY:2013 TC:3 AU: Baimpas, Nikolaos;Le Bourhis, Eric;Eve, Sophie;Thiaudiere, Dominique;Hardie, Christopher;Korsunsky, Alexander M.;
6:1:30:21 Growth and decay of hcp-like Cu hut-shaped structures on W(100)
DOI:10.1103/PhysRevB.85.125417 JN:PHYSICAL REVIEW B PY:2012 TC:1 AU: Bollmann, Tjeerd R. J.;van Gastel, Raoul;Wormeester, Herbert;Zandvliet, Harold J. W.;Poelsema, Bene;
6:1:30:22 Morphological and microstructural characterization of nanostructured pure alpha-phase W coatings on a wide thickness range
DOI:10.1016/j.apsusc.2014.07.061 JN:APPLIED SURFACE SCIENCE PY:2014 TC:3 AU: Gordillo, N.;Panizo-Laiz, M.;Tejado, E.;Fernandez-Martinez, I.;Rivera, A.;Pastor, J. Y.;Gomez de Castrog, C.;del Rio, J.;Perlado, J. M.;Gonzalez-Arrabal, R.;
6:1:30:23 Micro-structures and mechanical properties of Nb/Re layered composite produced by CVD
DOI:10.1016/j.msea.2011.09.070 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:0 AU: Chen Li;Wei Yan;Zhu Shaowu;Cai Hongzhong;Mao Chuanjun;Hu Changyi;
6:1:31:1 Effect of stacking fault and temperature on deformation behaviors of nanocrystalline Mg
DOI:10.1063/1.4752024 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:8 AU: Song, H. Y.;Li, Y. L.;
6:1:31:2 Atomic simulation of mechanical behavior of Mg in a super-lattice of nanocrystalline Mg and amorphous Mg-Al alloy
DOI:10.1063/1.4903526 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Song, H. Y.;An, M. R.;Li, Y. L.;Deng, Q.;
6:1:31:3 Grain size effects in the deformation of [0001] textured nanocrystalline Zr
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6:1:31:4 Layer thickness dependent tensile deformation mechanisms in sub-10nm multilayer nanowires
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6:1:31:5 Atomic simulations of the effect of twist grain boundaries on deformation behavior of nanocrystalline copper
DOI:10.1016/j.commatsci.2013.11.052 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:3 AU: Song, H. Y.;Li, Y. L.;An, M. R.;
6:1:31:6 Deformation processes in [1 1 (2)over-bar 0]-textured nanocrystalline Mg by molecular dynamics simulation
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6:1:31:7 Grain-boundary activated pyramidal dislocations in nano-textured Mg by molecular dynamics simulation
DOI:10.1016/j.msea.2011.02.082 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:18 AU: Kim, D. -H.;Ebrahimi, F.;Manuel, M. V.;Tulenko, J. S.;Phillpot, S. R.;
6:1:31:8 Atomic simulations of effect of grain size on deformation behavior of nano-polycrystal magnesium
DOI:10.1063/1.3687908 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:12 AU: Song, H. Y.;Li, Y. L.;
6:1:31:9 Repulsive force vs. source number: Competing mechanisms in the yield of twinned gold nanowires of finite length
DOI:10.1016/j.actamat.2010.12.031 JN:ACTA MATERIALIA PY:2011 TC:11 AU: Guo, Xu;Xia, Yuzhi;
6:1:31:10 Non-localized deformation in metallic alloys with amorphous structure
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6:1:31:11 Automated analysis of twins in hexagonal close-packed metals using molecular dynamics
DOI:10.1016/j.scriptamat.2012.01.034 JN:SCRIPTA MATERIALIA PY:2012 TC:6 AU: Barrett, C. D.;Tschopp, M. A.;El Kadiri, H.;
6:1:31:12 Determination of activation parameters for dislocation formation from a surface in fcc metals by atomistic simulations (vol 78, 064109, 2008)
DOI:10.1103/PhysRevB.81.059901 JN:PHYSICAL REVIEW B PY:2010 TC:3 AU: Hirel, P.;Godet, J.;Brochard, S.;Pizzagalli, L.;Beauchamp, P.;
6:1:31:13 Mapping of crack tip strains and twinned zone in a hexagonal close packed zirconium alloy
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6:1:31:14 Temperature effect on critical shear stress for twin boundary migration
DOI:10.1016/j.commatsci.2012.03.051 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:2 AU: Zhou, Haofei;Zhang, Lifeng;Qu, Shaoxing;
6:1:31:15 Ductility improvement in AZ31 magnesium alloy using constrained compression testing technique
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6:1:31:16 Automated analysis of twins in hexagonal close-packed metals using molecular dynamics (vol 66, pg 666, 2012)
DOI:10.1016/j.scriptamat.2012.04.016 JN:SCRIPTA MATERIALIA PY:2012 TC:1 AU: Barrett, C. D.;Tschopp, M. A.;El Kadiri, H.;
6:1:32:1 Buckling behaviors and adhesion energy of nanostructured Cu/X (X = Nb, Zr) multilayer films on a compliant substrate
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6:1:32:2 Adhesion energies of Cr thin films on polyimide determined from buckling: Experiment and model
DOI:10.1016/j.actamat.2010.06.032 JN:ACTA MATERIALIA PY:2010 TC:26 AU: Cordill, M. J.;Fischer, F. D.;Rammerstorfer, F. G.;Dehm, G.;
6:1:32:3 Estimation of interfacial fracture toughness based on progressive edge delamination of a thin transparent coating on a polymer substrate
DOI:10.1016/j.actamat.2010.01.023 JN:ACTA MATERIALIA PY:2010 TC:17 AU: Tarasovs, S.;Andersons, J.;Leterrier, Y.;
6:1:32:4 The crystallinity and mechanical properties of indium tin oxide coatings on polymer substrates
DOI:10.1063/1.3556452 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:10 AU: Kim, Eun-Hye;Yang, Chan-Woo;Park, Jin-Woo;
6:1:32:5 Investigation of the interfacial adhesion of the transparent conductive oxide films to large-area flexible polymer substrates using laser-induced thermo-mechanical stresses
DOI:10.1063/1.4818310 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:1 AU: Park, Jin-Woo;Lee, Seung-Ho;Yang, Chan-Woo;
6:1:32:6 How Does Adhesion Induce the Formation of Telephone Cord Buckles?
DOI:10.1103/PhysRevLett.108.116102 JN:PHYSICAL REVIEW LETTERS PY:2012 TC:16 AU: Faou, Jean-Yvon;Parry, Guillaume;Grachev, Sergey;Barthel, Etienne;
6:1:32:7 Ductile film delamination from compliant substrates using hard overlayers
DOI:10.1016/j.tsf.2014.02.093 JN:THIN SOLID FILMS PY:2014 TC:2 AU: Cordill, M. J.;Marx, V. M.;Kirchlechner, C.;
6:1:32:8 Gliding at interface during thin film buckling: A coupled atomistic/elastic approach
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6:1:32:9 Interface step-induced thin-film delamination and buckling
DOI:10.1016/j.actamat.2013.04.012 JN:ACTA MATERIALIA PY:2013 TC:3 AU: Ruffini, Antoine;Durinck, Julien;Colin, Jerome;Coupeau, Christophe;Grilhe, Jean;
6:1:32:10 On the growth of buckle-delamination pattern in compressed anisotropic thin films
DOI:10.1016/j.actamat.2014.01.041 JN:ACTA MATERIALIA PY:2014 TC:5 AU: Ni, Y.;Soh, A. K.;
6:1:32:11 Morphological selections and dynamical evolutions of buckling patterns in SiAlNx films: From straight-sided to telephone cord or bubble structures
DOI:10.1016/j.actamat.2013.11.038 JN:ACTA MATERIALIA PY:2014 TC:4 AU: Yu, Sen-Jiang;Xiao, Xiao-Fei;Chen, Miao-Gen;Zhou, Hong;Chen, Jun;Si, Ping-Zhan;Jiao, Zhi-Wei;
6:1:32:12 Designing interlayers to improve the mechanical reliability of transparent conductive oxide coatings on flexible substrates
DOI:10.1063/1.4709295 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:2 AU: Kim, Eun-Hye;Yang, Chan-Woo;Park, Jin-Woo;
6:1:32:13 Detailed modelling of delamination buckling of thin films under global tension
DOI:10.1016/j.actamat.2013.01.014 JN:ACTA MATERIALIA PY:2013 TC:11 AU: Toth, F.;Rammerstorfer, F. G.;Cordill, M. J.;Fischer, F. D.;
6:1:32:14 The effect of interface adhesion on buckling and cracking of hard thin films
DOI:10.1063/1.4900443 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Flores-Johnson, E. A.;Shen, L.;Annabattula, R. K.;Onck, P. R.;Shen, Y. G.;Chen, Z.;
6:1:32:15 Robust mechanical performance of chromium-coated polyethylene terephthalate over a broad range of conditions
DOI:10.1080/14786435.2012.700418 JN:PHILOSOPHICAL MAGAZINE PY:2012 TC:3 AU: Cordill, M. J.;Taylor, A. A.;Berger, J.;Schmidegg, K.;Dehm, G.;
6:1:32:16 Effects of sliding on interface delamination during thin film buckling
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6:1:32:17 Transitions from straight-sided to telephone cord buckles in SiAlNx films
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6:1:32:18 A non-contact, thermally-driven buckling delamination test to measure interfacial fracture toughness of thin film systems
DOI:10.1016/j.tsf.2009.07.148 JN:THIN SOLID FILMS PY:2010 TC:11 AU: Goyal, S.;Srinivasan, K.;Subbarayan, G.;Siegmund, T.;
6:1:32:19 An elevated temperature study of a Ti adhesion layer on polyimide
DOI:10.1016/j.tsf.2013.01.016 JN:THIN SOLID FILMS PY:2013 TC:6 AU: Taylor, A. A.;Cordill, M. J.;Bowles, L.;Schalko, J.;Dehm, G.;
6:1:32:20 Measurement of interfacial toughness of metal film wire and polymer membrane through electricity induced buckling method
DOI:10.1016/j.jcis.2011.03.042 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2011 TC:6 AU: Wang, Qinghua;Xie, Huimin;Lu, Jian;Chen, Pengwan;Zhang, Qingming;
6:1:32:21 Controlled formation of straight-sided buckles in patterned Ta films on glass substrates
DOI:10.1016/j.msea.2013.06.084 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:2 AU: Yu, Sen-Jiang;Zhou, Hong;Chen, Miao-Gen;Zhang, Xiao-Fei;Zhang, Yong-Ju;Si, Ping-Zhan;
6:1:32:22 An experimental study of the influence of film edges and imperfections on buckling morphologies of quenched iron films
DOI:10.1016/j.tsf.2011.07.024 JN:THIN SOLID FILMS PY:2011 TC:7 AU: Yu, Sen-Jiang;Chen, Miao-Gen;Zhang, Yong-Ju;Zhou, Hong;Si, Ping-Zhan;
6:1:33:1 Effects of grain size and grain boundaries on defect production in nanocrystalline 3C-SiC
DOI:10.1016/j.actamat.2010.01.009 JN:ACTA MATERIALIA PY:2010 TC:33 AU: Swaminathan, N.;Kamenski, Paul J.;Morgan, Dane;Szlufarska, Izabela;
6:1:33:2 Role of atomic structure on grain boundary-defect interactions in Cu
DOI:10.1103/PhysRevB.85.214103 JN:PHYSICAL REVIEW B PY:2012 TC:9 AU: Bai, Xian-Ming;Vernon, Louis J.;Hoagland, Richard G.;Voter, Arthur F.;Nastasi, Michael;Uberuaga, Blas Pedro;
6:1:33:3 Modeling of long-term defect evolution in heavy-ion irradiated 3C-SiC: Mechanism for thermal annealing and influences of spatial correlation
DOI:10.1063/1.4902145 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Guo, Daxi;Martin-Bragado, Ignacio;He, Chaohui;Zang, Hang;Zhang, Peng;
6:1:33:4 Energy barriers for point-defect reactions in 3C-SiC
DOI:10.1103/PhysRevB.88.054105 JN:PHYSICAL REVIEW B PY:2013 TC:4 AU: Zheng, Ming-Jie;Swaminathan, Narasimhan;Morgan, Dane;Szlufarska, Izabela;
6:1:33:5 Grain boundary stoichiometry and interactions with defects in SrTiO3
DOI:10.1016/j.scriptamat.2011.10.019 JN:SCRIPTA MATERIALIA PY:2012 TC:10 AU: Uberuaga, Blas P.;Choudhury, Samrat;Bai, Xian-Ming;Benedek, Nicole A.;
6:1:33:6 Transition from Irradiation-Induced Amorphization to Crystallization in Nanocrystalline Silicon Carbide
DOI:10.1111/j.1551-2916.2011.04887.x JN:JOURNAL OF THE AMERICAN CERAMIC SOCIETY PY:2011 TC:9 AU: Jiang, Weilin;Jiao, Liang;Wang, Haiyan;
6:1:33:7 Multi-timescale investigation of radiation damage near TiO2 rutile grain boundaries
DOI:10.1080/14786435.2011.648229 JN:PHILOSOPHICAL MAGAZINE PY:2012 TC:11 AU: Bai, Xian-Ming;Uberuaga, Blas P.;
6:1:33:8 Energy dissipation and defect generation in nanocrystalline silicon carbide
DOI:10.1103/PhysRevB.81.184101 JN:PHYSICAL REVIEW B PY:2010 TC:13 AU: Gao, F.;Chen, D.;Hu, Wangyu;Weber, W. J.;
6:1:33:9 Structures and stabilities of small carbon interstitial clusters in cubic silicon carbide
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6:1:33:10 Accelerated atomistic simulation study on the stability and mobility of carbon tri-interstitial cluster in cubic SiC
DOI:10.1016/j.commatsci.2014.03.051 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:5 AU: Jiang, H.;Jiang, C.;Morgan, D.;Szlufarska, I.;
6:1:33:11 Grain boundary effects on defect production and mechanical properties of irradiated nanocrystalline SiC
DOI:10.1063/1.4723648 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:5 AU: Jin, Enze;Niu, Li-Sha;Lin, Enqiang;Song, Xiaoxiong;
6:1:33:12 Amorphization of nanocrystalline 3C-SiC irradiated with Si+ ions
DOI:10.1557/JMR.2010.0311 JN:JOURNAL OF MATERIALS RESEARCH PY:2010 TC:15 AU: Jiang, W.;Wang, H.;Kim, I.;Zhang, Y.;Weber, W. J.;
6:1:33:13 Temperature and irradiation species dependence of radiation response of nanocrystalline silicon carbide
DOI:10.1557/jmr.2014.340 JN:JOURNAL OF MATERIALS RESEARCH PY:2014 TC:2 AU: Jamison, Laura;Sridharan, Kumar;Shannon, Steve;Szlufarska, Izabela;
6:1:33:14 Analysis of grain boundary sinks and interstitial diffusion in neutron-irradiated SiC
DOI:10.1103/PhysRevB.83.075202 JN:PHYSICAL REVIEW B PY:2011 TC:10 AU: Kondo, Sosuke;Katoh, Yutai;Snead, Lance L.;
6:1:33:15 An ab initio study of the structure-strength correlation in impact damaged SiC grain boundaries
DOI:10.1016/j.commatsci.2013.10.08 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:2 AU: Han, You Sung;Tomar, Vikas;
6:1:33:16 Radiation interaction with tilt grain boundaries in beta-SiC
DOI:10.1063/1.3693036 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:9 AU: Swaminathan, Narasimhan;Wojdyr, Marcin;Morgan, Dane D.;Szlufarska, Izabela;
6:1:33:17 Irradiation-induced defect clustering and amorphization in silicon carbide
DOI:10.1557/JMR.2010.0292 JN:JOURNAL OF MATERIALS RESEARCH PY:2010 TC:10 AU: Weber, William J.;Gao, Fei;
6:1:33:18 Amorphization Driven by Defect-Induced Mechanical Instability
DOI:10.1103/PhysRevLett.111.155501 JN:PHYSICAL REVIEW LETTERS PY:2013 TC:0 AU: Jiang, Chao;Zheng, Ming-Jie;Morgan, Dane;Szlufarska, Izabela;
6:1:33:19 Role of recombination kinetics and grain size in radiation-induced amorphization
DOI:10.1103/PhysRevB.86.214110 JN:PHYSICAL REVIEW B PY:2012 TC:3 AU: ;FN Thomson Reuters Web of Scienceâ„¢;1.0;J;Aizin, Gregory R.;Dyer, Gregory C.;Transmission line theory of collective plasma excitations in periodic;two-dimensional electron systems: Finite plasmonic crystals and Tamm;states;PHYSICAL REVIEW B;86;23;235316;10.1103/PhysRevB.86.235316;DEC 28 2012;2012;We present a comprehensive theory of the one-dimensional plasmonic;crystal formed in the grating-gated two-dimensional electron gas (2DEG);in semiconductor heterostructures. To describe collective plasma;excitations in the 2DEG, we develop a generalized transmission line;theoretical formalism consistent with the plasma hydrodynamic model. We;then apply this formalism to analyze the plasmonic spectra of 2DEG;systems with steplike periodic changes of electron density, gate;screening, or both. We show that in a periodically modulated 2DEG, a;plasmonic crystal is formed, and we derive closed-form analytical;expressions describing its energy band spectrum for both infinite and;finite size crystals. Our results demonstrate a nonmonotonic dependence;of the plasmonic band gap width on the electron density modulation. At;so-called transparency points, where the plasmon propagates through the;periodic 2DEG in a resonant manner, the plasmonic band gaps vanish. In;semi-infinite plasmonic crystals, we demonstrate the formation of;plasmonic Tamm states and analytically derive their energy dispersion;and spatial localization. Finally, we present detailed numerical;analysis of the plasmonic band structure of a finite four-period;plasmonic crystal terminated either by an ohmic contact or by an;infinite barrier on each side. We trace the evolution of the plasmonic;band spectrum, including the Tamm states, with changing electron density;modulation and analyze the boundary conditions necessary for formation;of the Tamm states. We also analyze interaction between the Tamm states;formed at the opposite edges of the short length plasmonic crystal. The;validity of our theoretical approach was confirmed in experimental;studies of plasmonic crystals in short, modulated plasmonic cavities;[Dyer et al., Phys. Rev. Lett. 109, 126803 (2012)], which demonstrated;excellent quantitative agreement between theory and experiment.;DOI:10.1103/PhysRevB.86.235316;9;0;0;0;9;1098-0121;WOS:000312833200005;;;J;Arakawa, Tomonori;Tanaka, Takahiro;Chida, Kensaku;Matsuo, Sadashige;Nishihara, Yoshitaka;Chiba, Daichi;Kobayashi, Kensuke;Ono, Teruo;Fukushima, Akio;Yuasa, Shinji;Low-frequency and shot noises in CoFeB/MgO/CoFeB magnetic tunneling;junctions;PHYSICAL REVIEW B;86;22;224423;10.1103/PhysRevB.86.224423;DEC 28 2012;2012;The low-frequency and shot noises in spin-valve CoFeB/MgO/CoFeB magnetic;tunneling junctions were studied at low temperature. The measured 1/f;noise around the magnetic hysteresis loops of the free layer indicates;that the main origin of the 1/f noise is the magnetic fluctuation, which;is discussed in terms of a fluctuation-dissipation relation. Random;telegraph noise (RTN) is observed to be symmetrically enhanced in the;hysteresis loop with regard to the two magnetic configurations. We found;that this enhancement is caused by the fluctuation between two magnetic;states in the free layer. Although the 1/f noise is almost independent;of the magnetic configuration, the RTN is enhanced in the antiparallel;configuration. These findings indicate the presence of spin-dependent;activation of RTN. Shot noise reveals the spin-dependent coherent;tunneling process via a crystalline MgO barrier. DOI:;10.1103/PhysRevB.86.224423;Kobayashi, Kensuke/E-5404-2010;Kobayashi, Kensuke/0000-0001-7072-5945;4;0;0;0;4;1098-0121;WOS:000312832400004;;;J;Cucchiara, J.;Le Gall, S.;Fullerton, E. E.;Kim, J. -V.;Ravelosona, D.;Henry, Y.;Katine, J. A.;Kent, A. D.;Bedau, D.;Gopman, D.;Mangin, S.;Domain wall motion in nanopillar spin-valves with perpendicular;anisotropy driven by spin-transfer torques;PHYSICAL REVIEW B;86;21;214429;10.1103/PhysRevB.86.214429;DEC 28 2012;2012;Using transport measurements and micromagnetic simulations we have;investigated the domain wall motion driven by spin-transfer torques in;all-perpendicular hexagonal nanopillar spin-valves. In particular, we;probe domain walls nucleated in the free layer of the spin-valves, which;are then pinned in the devices. We have determined both the;field-current state diagrams for the domain-wall state and the thermally;activated dynamics of the nucleation and depinning processes. We show;that the nucleation process is well-described by a modified Neel-Brown;model taking into account the spin-transfer torque, whereas the;depinning process is independent of the current. This is confirmed by an;analytical calculation which shows that spin-torques have no effect on;the Arrhenius escape rate associated with thermally activated domain;wall depinning in this geometry. Furthermore, micromagnetic simulations;indicate that spin-transfer only weakly affects the domain wall motion,;but instead modifies the inner domain wall structure. DOI:;10.1103/PhysRevB.86.214429;Kim, Joo-Von/B-3672-2008; Fullerton, Eric/H-8445-2013;Kim, Joo-Von/0000-0002-3849-649X; Fullerton, Eric/0000-0002-4725-9509;0;0;0;0;0;1098-0121;WOS:000312830800003;;;J;Fernandez-Dominguez, A. I.;Zhang, P.;Luo, Y.;Maier, S. A.;Garcia-Vidal, F. J.;Pendry, J. B.;Transformation-optics insight into nonlocal effects in separated;nanowires;PHYSICAL REVIEW B;86;24;241110;10.1103/PhysRevB.86.241110;DEC 28 2012;2012;We present a transformation-optics approach which sheds analytical;insight into the impact that spatial dispersion has on the optical;response of separated dimers of metallic nanowires. We show that;nonlocal effects are apparent at interparticle distances one order of;magnitude larger than the longitudinal plasmon decay length, which;coincides with the spatial regime where electron tunneling phenomena;occur. Our method also clarifies the interplay between nonlocal and;radiation effects taking place in the nanostructure, yielding the dimer;dimensions that optimize its light harvesting capabilities. DOI:;10.1103/PhysRevB.86.241110;Luo, Yu/C-7799-2009; Fernandez-Dominguez, Antonio I./C-4448-2013; Garcia-Vidal, Francisco /B-8280-2011;Luo, Yu/0000-0003-2925-682X; Fernandez-Dominguez, Antonio;I./0000-0002-8082-395X; Garcia-Vidal, Francisco /0000-0003-4354-0982;10;0;0;0;10;1098-0121;WOS:000312834100001;;;J;Gati, E.;Koehler, S.;Guterding, D.;Wolf, B.;Knoener, S.;Ran, S.;Bud'ko, S. L.;Canfield, P. C.;Lang, M.;Hydrostatic-pressure tuning of magnetic, nonmagnetic, and;superconducting states in annealed Ca(Fe1-xCox)(2)As-2;PHYSICAL REVIEW B;86;22;220511;10.1103/PhysRevB.86.220511;DEC 28 2012;2012;We report on measurements of the magnetic susceptibility and electrical;resistance under He-gas pressure on single crystals of;Ca(Fe1-xCox)(2)As-2. We find that for properly heat-treated crystals;with modest Co concentration, x = 0.028, the salient ground states;associated with iron-arsenide superconductors, i.e.,;orthorhombic/antiferromagnetic (o/afm), superconducting, and nonmagnetic;collapsed-tetragonal (cT) states can be accessed all in one sample with;reasonably small and truly hydrostatic pressure. This is possible owing;to the extreme sensitivity of the o/afm (for T <= T-s,T-N) and;superconducting (T <= T-c) states against variation of pressure,;disclosing pressure coefficients of dT(s,N)/dP = -(1100 +/- 50) K/GPa;and dT(c)/dP = -(60 +/- 3) K/GPa, respectively. Systematic;investigations of the various phase transitions and ground states via;pressure tuning revealed no coexistence of bulk superconductivity (sc);with the o/afm state which we link to the strongly first-order character;of the corresponding structural/magnetic transition in this compound.;Our results, together with literature results, indicate that preserving;fluctuations associated with the o/afm transition to low enough;temperatures is vital for sc to form. DOI: 10.1103/PhysRevB.86.220511;Canfield, Paul/H-2698-2014;14;0;0;0;14;1098-0121;WOS:000312832400001;;;J;Hakobyan, Ye.;Tadmor, E. B.;James, R. D.;Objective quasicontinuum approach for rod problems;PHYSICAL REVIEW B;86;24;245435;10.1103/PhysRevB.86.245435;DEC 28 2012;2012;An objective quasicontinuum (OQC) method is developed for simulating;rodlike systems that can be represented as a combination of locally;objective structures. An objective structure (OS) is one for which a;group of atoms, called a "fundamental domain" (FD), is repeated using;specific rules of translation and rotation to build a more complex;structure. An objective Cauchy-Born rule defines the kinematics of the;OS atoms in terms of a set of symmetry parameters and the positions of;the FD atoms. The computational advantage lies in the capability of;representing a large system of atoms through a small set of symmetry;parameters and FD atom positions. As an illustrative example, we;consider the deformation of a copper single-crystal nanobeam which can;be described as an OS. OQC simulations are performed for uniform and;nonuniform bending for two different orientations (nanobeam axis;oriented along [111] and [100]) and compared with elastica results. In;the uniform bending case, the [111]-oriented single-crystal nanobeam;experiences elongation, while the [100]-oriented nanobeam experiences;contraction in total length. The nonuniform bending allows for;stretching, contraction, and bending as deformation. Under certain;loading conditions, dislocation nucleation is observed within the FD.;DOI: 10.1103/PhysRevB.86.245435 PACS number(s): 61.46.Km, 62.23.Hj,;81.07.Gf, 02.70.Ns;1;0;0;0;1;1098-0121;WOS:000312834100006;;;J;He, Jing;Wang, Bo;Kou, Su-Peng;Ferromagnetism and antiferromagnetism of a correlated topological;insulator with a flat band;PHYSICAL REVIEW B;86;23;235146;10.1103/PhysRevB.86.235146;DEC 28 2012;2012;In this paper, based on the mean-field approach and random-phase;approximation, we studied the magnetic properties of the spinfull;Haldane model on honeycomb lattice of topological flat band with onsite;repulsive Coulomb interaction. We found that the antiferromagnetic (AF);order is more stable than the ferromagnetic (FM) order at, or near, half;filling. Away from half filling, the phase diagram becomes complex: at;large doping, the FM order is more stable than the AF order due to the;flatness of band structure. In particular, we found that at quarter;filling, the system becomes a Chern number Q = 1 topological insulator;induced by the FM order. DOI:10.1103/PhysRevB.86.235146;1;0;0;0;1;1098-0121;WOS:000312833200002;;;J;Hu, Jianbo;Misochko, Oleg V.;Goto, Arihiro;Nakamura, Kazutaka G.;Delayed formation of coherent LO phonon-plasmon coupled modes in n- and;p-type GaAs measured using a femtosecond coherent control technique;PHYSICAL REVIEW B;86;23;235145;10.1103/PhysRevB.86.235145;DEC 28 2012;2012;Coherent control experiments using a pair of collinear femtosecond laser;pulses have been carried out to manipulate longitudinal optical (LO);phonon-plasmon coupled (LOPC) modes in both p-and n-type GaAs. By tuning;the interpulse separation, remarkably distinct responses have been;observed in the two samples. To understand the results obtained a;phenomenological model taking the delayed formation of coherent LOPC;modes into account is proposed. The model suggests that the lifetime of;coherent LOPC modes plays a key role and the interference of the;coherent LO phonons excited successively by two pump pulses strongly;affects the manipulation of coherent LOPC modes.;DOI:10.1103/PhysRevB.86.235145;Oleg, Misochko/E-6136-2013; Nakamura, Kazutaka/F-4095-2014;0;0;0;0;0;1098-0121;WOS:000312833200001;;;J;Imura, Ken-Ichiro;Okamoto, Mayuko;Yoshimura, Yukinori;Takane, Yositake;Ohtsuki, Tomi;Finite-size energy gap in weak and strong topological insulators;PHYSICAL REVIEW B;86;24;245436;10.1103/PhysRevB.86.245436;DEC 28 2012;2012;The nontrivialness of a topological insulator (TI) is characterized;either by a bulk topological invariant or by the existence of a;protected metallic surface state. Yet, in realistic samples of finite;size, this nontrivialness does not necessarily guarantee the gaplessness;of the surface state. Depending on the geometry and on the topological;indices, a finite-size energy gap of different nature can appear, and,;correspondingly, exhibit various scaling behaviors of the gap. The;spin-to-surface locking provides one such gap-opening mechanism,;resulting in a power-law scaling of the energy gap. Weak and strong TIs;show different degrees of sensitivity to the geometry of the sample. As;a noteworthy example, a strong TI nanowire of a rectangular-prism shape;is shown to be more gapped than that of a weak TI of precisely the same;geometry. DOI: 10.1103/PhysRevB.86.245436 PACS number(s): 73.22.-f,;73.20.At, 72.80.Sk;Imura, Ken/D-6633-2013;11;0;0;0;11;1098-0121;WOS:000312834100007;;;J;Lenertz, M.;Alaria, J.;Stoeffler, D.;Colis, S.;Dinia, A.;Mentre, O.;Andre, G.;Porcher, F.;Suard, E.;Magnetic structure of ground and field-induced ordered states of;low-dimensional alpha-CoV2O6: Experiment and theory;PHYSICAL REVIEW B;86;21;214428;10.1103/PhysRevB.86.214428;DEC 28 2012;2012;In this work, we investigate the magnetic properties of the monoclinic;alpha-CoV2O6 by powder neutron diffraction measurements and ab initio;calculations. An emphasis has been pointed towards the magnetic;structure and the interaction between the Co ions leading to magnetic;frustrations in this compound. Neutron diffraction experiments were;carried out both in the ground state (zero magnetic field) and under;applied external field of 2.5 and 5 T corresponding to the ferrimagnetic;and ferromagnetic states, respectively. The antiferromagnetic ground;state below 14 K corresponds to k = (1,0, 1/2) magnetic propagation;vector in C1 space group. The magnetic structure can be described by;ferromagnetic interactions along the chains (b axis) and;antiferromagnetic coupling between the chains (along a and c axes). The;ferrimagnetic structure implies a ninefold unit cell (3a, b, 3c) in;which ferromagnetic chains follow an "up-up-down" sequence along the a;and c axes. In the ferromagnetic state, the spin orientations remain;unchanged while every chain lies ferromagnetically ordered. In all;cases, the magnetic moments lie in the ac plane, along the CoO6;octahedra axis, at an angle of 9.3 degrees with respect to the c axis.;The magnetic structure of alpha-CoV2O6 resolved for all the ordered;states is successfully related to a theoretical model. Ab initio;calculations allowed us to (i) confirm the ground-state magnetic;structure, (ii) calculate the interactions between the Co ions, (iii);explain the frustration leading to the stepped variation of the;magnetization curves, (iv) calculate the orbital magnetic moment (1.5;mu(B)) on Co atoms, and (v) confirm the direction of the magnetic;moments near the c direction. DOI: 10.1103/PhysRevB.86.214428;10;0;0;0;10;1098-0121;WOS:000312830800002;;;J;Nakajima, Nobuo;Oki, Megumi;Isohama, Yoichi;Maruyama, Hiroshi;Tezuka, Yasuhisa;Ishiji, Kotaro;Iwazumi, Toshiaki;Okada, Kozo;Enhancement of dielectric constant of BaTiO3 nanoparticles studied by;resonant x-ray emission spectroscopy;PHYSICAL REVIEW B;86;22;224114;10.1103/PhysRevB.86.224114;DEC 28 2012;2012;The nanoscopic origin of the enhancement of the dielectric constant of;BaTiO3 nanoparticles was investigated by means of Ti K beta resonant;x-ray emission spectroscopy. Two inelastic peaks due to charge-transfer;excitations were observed, one of which disappeared as the particle size;(d) was reduced, while the other remained unchanged. This is consistent;with the fact that tetragonality was also reduced with decreasing d. The;origin of the large enhancement in the dielectric constant is briefly;discussed from a microscopic point of view. DOI:;10.1103/PhysRevB.86.224114;3;0;0;0;3;1098-0121;WOS:000312832400003;;;J;Olmon, Robert L.;Slovick, Brian;Johnson, Timothy W.;Shelton, David;Oh, Sang-Hyun;Boreman, Glenn D.;Raschke, Markus B.;Optical dielectric function of gold;PHYSICAL REVIEW B;86;23;235147;10.1103/PhysRevB.86.235147;DEC 28 2012;2012;In metal optics gold assumes a special status because of its practical;importance in optoelectronic and nano-optical devices, and its role as a;model system for the study of the elementary electronic excitations that;underlie the interaction of electromagnetic fields with metals. However,;largely inconsistent values for the frequency dependence of the;dielectric function describing the optical response of gold are found in;the literature. We performed precise spectroscopic ellipsometry;measurements on evaporated gold, template-stripped gold, and;single-crystal gold to determine the optical dielectric function across;a broad spectral range from 300 nm to 25 mu m (0.05-4.14 eV) with high;spectral resolution. We fit the data to the Drude free-electron model,;with an electron relaxation time tau(D) = 14 +/- 3 fs and plasma energy;h omega(p) = 8.45 eV. We find that the variation in dielectric functions;for the different types of samples is small compared to the range of;values reported in the literature. Our values, however, are comparable;to the aggregate mean of the collection of previous measurements from;over the past six decades. This suggests that although some variation;can be attributed to surface morphology, the past measurements using;different approaches seem to have been plagued more by systematic errors;than previously assumed. DOI:10.1103/PhysRevB.86.235147;22;2;0;0;22;1098-0121;WOS:000312833200003;;;J;Phuong, L. Q.;Ichimiya, M.;Ishihara, H.;Ashida, M.;Multiple light-coupling modes of confined excitons observable in;photoluminescence spectra of high-quality CuCl thin films;PHYSICAL REVIEW B;86;23;235449;10.1103/PhysRevB.86.235449;DEC 28 2012;2012;We report the observation of multiple light-coupling modes of excitons;confined in CuCl thin films with thicknesses of a few hundred nanometers;beyond the long-wavelength approximation in photoluminescence spectra.;Due to a remarkably long coupling length between light and;multinode-type excitons resulted from very high crystalline quality of;thin films, photoluminescence signals from the excitonic states;corresponding to not only odd but also even quantum numbers, which are;optically forbidden in the long-wavelength approximation, are clearly;observed. The full width at half maximum of the excitonic state deduced;qualitatively from the corresponding photoluminescence band shows almost;the same dependence on the quantum number as the theoretical prediction.;DOI:10.1103/PhysRevB.86.235449;0;0;0;0;0;1098-0121;WOS:000312833200008;;;J;Reynoso, Andres A.;Usaj, Gonzalo;Balseiro, C. A.;Feinberg, D.;Avignon, M.;Spin-orbit-induced chirality of Andreev states in Josephson junctions;PHYSICAL REVIEW B;86;21;214519;10.1103/PhysRevB.86.214519;DEC 28 2012;2012;We study Josephson junctions (JJs) in which the region between the two;superconductors is a multichannel system with Rashba spin-orbit coupling;(SOC) where a barrier or a quantum point contact (QPC) is present. These;systems might present unconventional Josephson effects such as Josephson;currents for zero phase difference or critical currents that depend on;the current direction. Here, we discuss how the spin polarizing;properties of the system in the normal state affect the spin;characteristics of the Andreev bound states inside the junction. This;results in a strong correlation between the spin of the Andreev states;and the direction in which they transport Cooper pairs. While the;current-phase relation for the JJ at zero magnetic field is;qualitatively unchanged by SOC, in the presence of a weak magnetic;field, a strongly anisotropic behavior and the mentioned anomalous;Josephson effects follow. We show that the situation is not restricted;to barriers based on constrictions such as QPCs and should generically;arise if in the normal system the direction of the carrier's spin is;linked to its direction of motion. DOI: 10.1103/PhysRevB.86.214519;Usaj, Gonzalo/E-6394-2010;Usaj, Gonzalo/0000-0002-3044-5778;5;0;0;0;5;1098-0121;WOS:000312830800005;;;J;Sato, W.;Komatsuda, S.;Ohkubo, Y.;Characteristic local association of In impurities dispersed in ZnO;PHYSICAL REVIEW B;86;23;235209;10.1103/PhysRevB.86.235209;DEC 28 2012;2012;Local environments in 0.5 at.% In-doped ZnO were investigated by means;of the time-differential perturbed angular correlation (TDPAC) method.;In a comparative study, using the Cd-111 probe nuclei as the decay;products of different parents, In-111 and Cd-111m, we found that In-111;microscopically forms a unique structure with nonradioactive In ion(s);dispersed in ZnO, whereas (111)mCd has no specific interaction with the;In impurities. The spectral damping of the TDPAC spectra is attributed;to the aftereffect following the EC decay of In-111. It was demonstrated;from the aftereffect that the local density and/or mobility of;conduction electrons at the In-111 probe site in the In-doped ZnO is;lowered due to the characteristic structure locally formed by the;dispersed In ion(s). DOI:10.1103/PhysRevB.86.235209;1;0;0;0;1;1098-0121;WOS:000312833200004;;;J;Sherman, Benjamin L.;Wilson, Hugh F.;Weeraratne, Dayanthie;Militzer, Burkhard;Ab initio simulations of hot dense methane during shock experiments;PHYSICAL REVIEW B;86;22;224113;10.1103/PhysRevB.86.224113;DEC 28 2012;2012;Using density functional theory molecular dynamics simulations, we;predict shock Hugoniot curves of precompressed methane up to 75 000 K;for initial densities ranging from 0.35 to 0.70 g cm(-3). At 4000 K, we;observe the transformation into a metallic, polymeric state consisting;of long hydrocarbon chains. These chains persist when the sample is;quenched to 300 K, leading to an increase in shock compression. At 6000;K, the sample transforms into a plasma composed of many, short-lived;chemical species. We conclude by discussing implications for the;interiors of Uranus and Neptune and analyzing the possibility of;creating a superionic state of methane in high pressure experiments.;DOI:10.1103/PhysRevB.86.224113;Wilson, Hugh/B-3447-2009;4;0;0;0;4;1098-0121;WOS:000312832400002;;;J;Trescher, Maximilian;Bergholtz, Emil J.;Flat bands with higher Chern number in pyrochlore slabs;PHYSICAL REVIEW B;86;24;241111;10.1103/PhysRevB.86.241111;DEC 28 2012;2012;A large number of recent works point to the emergence of intriguing;analogs of fractional quantum Hall states in lattice models due to;effective interactions in nearly flat bands with Chern number C = 1.;Here, we provide an intuitive and efficient construction of almost;dispersionless bands with higher Chern numbers. Inspired by the physics;of quantum Hall multilayers and pyrochlore-based transition-metal;oxides, we study a tight-binding model describing spin-orbit coupled;electrons in N parallel kagome layers connected by apical sites forming;N - 1 intermediate triangular layers (as in the pyrochlore lattice). For;each N, we find finite regions in parameter space giving a virtually;flat band with C = N. We analytically express the states within these;topological bands in terms of single-layer states and thereby explicitly;demonstrate that the C = N wave functions have an appealing structure in;which layer index and translations in reciprocal space are intricately;coupled. This provides a promising arena for new collective states of;matter. DOI: 10.1103/PhysRevB.86.241111;Bergholtz, Emil/C-3820-2008;Bergholtz, Emil/0000-0002-9739-2930;29;0;1;0;29;1098-0121;WOS:000312834100002;;;J;van Duijn, J.;Ruiz-Bustos, R.;Daoud-Aladine, A.;Kagome-like lattice distortion in the pyrochlore material Hg2Ru2O7;PHYSICAL REVIEW B;86;21;214111;10.1103/PhysRevB.86.214111;DEC 28 2012;2012;The structural transition which accompanies the metal to insulator;transition (MIT), at T = 107 K, in the pyrochlore material Hg2Ru2O7, was;investigated by high-resolution neutron powder diffraction measurements.;Below the MIT the symmetry is lowered from cubic to monoclinic and the;Ru-Ru bonds, which are equal in the pyrochlore phase (3.60147 angstrom),;become split into short (3.599 37 angstrom), medium (3.6028 angstrom),;and long bonds (3.6047 angstrom). As a result the exchange interactions;between the Ru atoms become more two dimensional. The short and medium;bonds form layers, which are separated by the long bonds, that run;parallel to the monoclinic ab plane. Overall the low-temperature;structure of Hg2Ru2O7 can best be described as a stacking of Kagome-like;layers. DOI: 10.1103/PhysRevB.86.214111;0;0;0;0;0;1098-0121;WOS:000312830800001;;;J;Vanevic, Mihajlo;Belzig, Wolfgang;Control of electron-hole pair generation by biharmonic voltage drive of;a quantum point contact;PHYSICAL REVIEW B;86;24;241306;10.1103/PhysRevB.86.241306;DEC 28 2012;2012;A time-dependent electromagnetic field creates electron-hole excitations;in a Fermi sea at low temperature. We show that the electron-hole pairs;can be generated in a controlled way using harmonic and biharmonic;time-dependent voltages applied to a quantum contact, and we obtain the;probabilities of the pair creations. For a biharmonic voltage drive, we;find that the probability of a pair creation decreases in the presence;of an in-phase second harmonic. This accounts for the suppression of the;excess noise observed experimentally (Gabelli and Reulet,;arXiv:1205.3638), proving that dynamic control and detection of;elementary excitations in quantum conductors are within the reach of the;present technology. DOI: 10.1103/PhysRevB.86.241306;6;1;0;0;6;1098-0121;WOS:000312834100004;;;J;Virgus, Yudistira;Purwanto, Wirawan;Krakauer, Henry;Zhang, Shiwei;Ab initio many-body study of cobalt adatoms adsorbed on graphene;PHYSICAL REVIEW B;86;24;241406;10.1103/PhysRevB.86.241406;DEC 28 2012;2012;Many recent calculations have been performed to study a Co atom adsorbed;on graphene, with significantly varying results on the nature of the;bonding. We use the auxiliary-field quantum Monte Carlo method and a;size-correction embedding scheme to accurately calculate the binding;energy of Co on graphene. We find that as a function of the distance h;between the Co atom and the sixfold hollow site, there are three;distinct ground states corresponding to three electronic configurations;of the Co atom. Two of these states provide binding and exhibit a;double-well feature with nearly equal binding energy of 0.4 eV at h =;1.51 and h = 1.65 angstrom, corresponding to low-spin Co-2 (3d(9) 4s(0));and high-spin Co-4 (3d(8) 4s(1)), respectively. DOI:;10.1103/PhysRevB.86.241406;3;0;0;0;3;1098-0121;WOS:000312834100005;;;J;Xing, Jie;Li, Sheng;Ding, Xiaxin;Yang, Huan;Wen, Hai-Hu;Superconductivity appears in the vicinity of semiconducting-like;behavior in CeO1-xFxBiS2;PHYSICAL REVIEW B;86;21;214518;10.1103/PhysRevB.86.214518;DEC 28 2012;2012;Resistive and magnetic properties have been measured in BiS2-based;samples CeO1-xFxBiS2 with a systematic substitution of O with F (0 < x <;0.6). In contrast to the band-structure calculations, it is found that;the parent phase of CeOBiS2 is a bad metal instead of a band insulator.;By doping electrons into the system, it is surprising to find that;superconductivity appears together with a semiconducting normal state.;This evolution is clearly different from the cuprate and the iron;pnictide systems, and is interpreted as approaching the Pomeranchuk;transition with a von Hove singularity and the possible;charge-density-wave instability. Furthermore, ferromagnetism, which may;arise from the Ce magnetic moments, has been observed in the;low-temperature region in all samples, suggesting the coexistence of;superconductivity and ferromagnetism in the superconducting samples.;DOI: 10.1103/PhysRevB.86.214518;55;0;1;0;56;1098-0121;WOS:000312830800004;;;J;Yaji, Koichiro;Hatta, Shinichiro;Aruga, Tetsuya;Okuyama, Hiroshi;Structural and electronic properties of the Pb/Ge(111)-beta(root 3 x;root 3)R30 degrees surface studied by photoelectron spectroscopy and;first-principles calculations;PHYSICAL REVIEW B;86;23;235317;10.1103/PhysRevB.86.235317;DEC 28 2012;2012;We have studied structural and electronic properties of a Ge(111);surface covered with a monatomic Pb layer [Pb/Ge(111)-beta] by means of;core-level photoelectron spectroscopy, angle-resolved photoelectron;spectroscopy (ARPES), and a first-principles band structure calculation.;There has been a controversy about the surface structure of;Pb/Ge(111)-beta between a close-packed model with a coverage of 4/3;monolayers and a trimer model with a coverage of 1 monolayer. This;problem has been examined by analyzing the line shape of a Pb 5d;core-level spectrum and comparing the experimental band structure with;those calculated for two models. The line shape of the core-level;spectrum agrees with a close-packed model. The valence band structure;observed by ARPES has been well reproduced by the calculation employing;the close-packed model. The close-packed model therefore describes;correctly the surface structure of Pb/Ge(111)-beta. The;scanning-tunneling microscopy (STM) image simulated for the close-packed;model is in good agreement with the experimental filled-state STM image,;in which three protrusions per unit cell were observed.;DOI:10.1103/PhysRevB.86.235317;Aruga, Tetsuya/B-7782-2010; Okuyama, Hiroshi/H-7570-2014;2;1;0;0;2;1098-0121;WOS:000312833200006;;;J;Yang, Shuo;Gu, Zheng-Cheng;Sun, Kai;Das Sarma, S.;Topological flat band models with arbitrary Chern numbers;PHYSICAL REVIEW B;86;24;241112;10.1103/PhysRevB.86.241112;DEC 28 2012;2012;We report the theoretical discovery of a systematic scheme to produce;topological flat bands (TFBs) with arbitrary Chern numbers. We find that;generically a multiorbital high Chern number TFB model can be;constructed by considering multilayer Chern number C = 1 TFB models with;enhanced translational symmetry. A series of models are presented as;examples, including a two-band model on a triangular lattice with a;Chern number C = 3 and an N-band square lattice model with C = N for an;arbitrary integer N. In all these models, the flatness ratio for the;TFBs is larger than 30 and increases with increasing Chern number. In;the presence of appropriate interparticle interactions, these models are;likely to lead to the formation of Abelian and non-Abelian fractional;Chern insulators. As a simple example, we test the C = 2 model with;hardcore bosons at 1/3 filling, and an intriguing fractional quantum;Hall state is observed. DOI: 10.1103/PhysRevB.86.241112;Sun, Kai/F-2282-2010; Yang, Shuo/D-1372-2011; Das Sarma, Sankar/B-2400-2009; Gu, Zheng-Cheng/L-5415-2014;Sun, Kai/0000-0001-9595-7646; Yang, Shuo/0000-0001-9733-8566;;24;0;1;0;24;1098-0121;WOS:000312834100003;;;J;Yue, Qu;Chang, Shengli;Tan, Jichun;Qin, Shiqiao;Kang, Jun;Li, Jingbo;Symmetry-dependent transport properties and bipolar spin filtering in;zigzag alpha-graphyne nanoribbons;PHYSICAL REVIEW B;86;23;235448;10.1103/PhysRevB.86.235448;DEC 28 2012;2012;First-principles calculations are performed to investigate the transport;properties of zigzag alpha-graphyne nanoribbons (ZaGNRs). It is found;that asymmetric Z alpha GNRs behave as conductors with linear;current-voltage relationships, whereas symmetric Z alpha GNRs have very;small currents under finite bias voltages, similar to those of zigzag;graphene nanoribbons. The symmetry-dependent transport properties arise;from different coupling rules between the pi and pi* subbands around the;Fermi level, which are dependent on the wave-function symmetry of the;two subbands. Based on the coupling rules, we further demonstrate the;bipolar spin-filtering effect in the symmetric Z alpha GNRs. It is shown;that nearly 100% spin-polarized current can be produced and modulated by;the direction of bias voltage and/or magnetization configuration of the;electrodes. Moreover, the magnetoresistance effect with the order larger;than 500 000% is also predicted. Our calculations suggest Z alpha GNRs;as a promising candidate material for spintronics.;DOI:10.1103/PhysRevB.86.235448;Kang, Jun/F-7105-2011;7;1;0;0;7;1098-0121;WOS:000312833200007;;;J;Berry, Joel;Provatas, Nikolas;Rottler, Joerg;Sinclair, Chad W.;Defect stability in phase-field crystal models: Stacking faults and;partial dislocations;PHYSICAL REVIEW B;86;22;224112;10.1103/PhysRevB.86.224112;DEC 27 2012;2012;The primary factors controlling defect stability in phase-field crystal;(PFC) models are examined, with illustrative examples involving several;existing variations of the model. Guidelines are presented for;constructing models with stable defect structures that maintain high;numerical efficiency. The general framework combines both long-range;elastic fields and basic features of atomic-level core structures, with;defect dynamics operable over diffusive time scales. Fundamental;elements of the resulting defect physics are characterized for the case;of fcc crystals. Stacking faults and split Shockley partial dislocations;are stabilized for the first time within the PFC formalism, and various;properties of associated defect structures are characterized. These;include the dissociation width of perfect edge and screw dislocations,;the effect of applied stresses on dissociation, Peierls strains for;glide, and dynamic contraction of gliding pairs of partials. Our results;in general are shown to compare favorably with continuum elastic;theories and experimental findings. DOI: 10.1103/PhysRevB.86.224112;Rottler, Joerg/L-5539-2013;8;0;0;0;8;1098-0121;WOS:000312831900001;;;J;Emary, Clive;Lambert, Neill;Nori, Franco;Leggett-Garg inequality in electron interferometers;PHYSICAL REVIEW B;86;23;235447;10.1103/PhysRevB.86.235447;DEC 27 2012;2012;We consider the violation of the Leggett-Garg inequality in electronic;Mach-Zehnder inteferometers. This setup has two distinct advantages over;earlier quantum-transport proposals: Firstly, the required correlation;functions can be obtained without time-resolved measurements. Secondly,;the geometry of an interferometer allows one to construct the;correlation functions from ideal negative measurements, which addresses;the noninvasiveness requirement of the Leggett-Garg inequality. We;discuss two concrete realizations of these ideas: the first in quantum;Hall edge-channels, the second in a double quantum dot interferometer.;DOI: 10.1103/PhysRevB.86.235447 PACS number(s): 03.65.Ud, 73.23.-b,;03.65.Ta, 42.50.Lc;Lambert, Neill/B-4998-2009; Emary, Clive/B-9596-2008; Nori, Franco/B-1222-2009;Emary, Clive/0000-0002-9822-8390; Nori, Franco/0000-0003-3682-7432;3;0;0;0;3;1098-0121;WOS:000312832900004;;;J;Kato, Yuto;Endo, Akira;Katsumoto, Shingo;Iye, Yasuhiro;Geometric resonances in the magnetoresistance of hexagonal lateral;superlattices;PHYSICAL REVIEW B;86;23;235315;10.1103/PhysRevB.86.235315;DEC 27 2012;2012;We have measured magnetoresistance of hexagonal lateral superlattices.;We observe three types of oscillations engendered by periodic potential;modulation having hexagonal-lattice symmetry: amplitude modulation of;the Shubnikov-de Haas oscillations, commensurability oscillations, and;the geometric resonances of open orbits generated by Bragg reflections.;The latter two reveal the presence of two characteristic periodicities,;root 3a/2 and a/2, inherent in a hexagonal lattice with the lattice;constant a. The formation of the hexagonal-superlattice minibands;manifested by the observation of open orbits marks the first step toward;realizing massless Dirac fermions in semiconductor 2DEGs. DOI:;10.1103/PhysRevB.86.235315 PACS number(s): 73.43.Qt, 73.23.-b, 73.21.Cd;1;0;0;0;1;1098-0121;WOS:000312832900002;;;J;Lin, I-Tan;Liu, Jia-Ming;Shi, Kai-Yao;Tseng, Pei-Shan;Wu, Kuang-Hsiung;Luo, Chih-Wei;Li, Lain-Jong;Terahertz optical properties of multilayer graphene: Experimental;observation of strong dependence on stacking arrangements and;misorientation angles;PHYSICAL REVIEW B;86;23;235446;10.1103/PhysRevB.86.235446;DEC 27 2012;2012;The optical conductivity of monolayer and multilayer graphene in the;terahertz spectral region is experimentally measured using terahertz;time-domain spectroscopy. The stacking arrangement and the;misorientation angle of each sample are determined by Raman;spectroscopy. The chemical potential of each sample is measured using;ultrafast midinfrared pump-probe spectroscopy to be 63 or 64 meV for all;samples. The intraband scattering rate can be obtained by fitting the;measured data with theoretical models. Other physical parameters,;including carrier density, dc conductivity, and carrier mobility, of;each sample can also be deduced from the theoretical fitting. The;fitting results show the existence of misoriented or AA-stacked layers;with an interaction energy of alpha(1) = 217 meV in our multilayer;samples. Here we show that the scattering rate strongly depends on the;stacking arrangement of the sample. High scattering rates and high;optical conductivity are associated with AA-stacked samples, while lower;ones are associated with misoriented multilayer graphene. This implies;that the THz optoelectronic properties of multilayer graphene can be;tuned by purposefully misorienting layers or employing different;stacking schemes. DOI: 10.1103/PhysRevB.86.235446 PACS number(s):;78.67.Wj, 61.48.Gh, 72.80.Vp, 73.50.Mx;Li, Lain-Jong/D-5244-2011; Luo, Chih Wei/D-3485-2013;Li, Lain-Jong/0000-0002-4059-7783; Luo, Chih Wei/0000-0002-6453-7435;11;0;0;0;11;1098-0121;WOS:000312832900003;;;J;Lundgren, Rex;Chua, Victor;Fiete, Gregory A.;Entanglement entropy and spectra of the one-dimensional Kugel-Khomskii;model;PHYSICAL REVIEW B;86;22;224422;10.1103/PhysRevB.86.224422;DEC 27 2012;2012;We study the quantum entanglement of the spin and orbital degrees of;freedom in the one-dimensional Kugel-Khomskii model, which includes both;gapless and gapped phases, using analytical techniques and exact;diagonalization with up to 16 sites. We compute the entanglement entropy;and the entanglement spectra using a variety of partitions or "cuts" of;the Hilbert space, including two distinct real-space cuts and a;momentum-space cut. Our results show that the Kugel-Khomski model;possesses a number of new features not previously encountered in studies;of the entanglement spectra. Notably, we find robust gaps in the;entanglement spectra for both gapped and gapless phases with the orbital;partition, and show these are not connected to each other. The counting;of the low-lying entanglement eigenvalues shows that the "virtual edge";picture, which equates the low-energy Hamiltonian of a virtual edge,;here one gapless leg of a two-leg ladder, to the "low-energy";entanglement Hamiltonian, breaks down for this model, even though the;equivalence has been shown to hold for a similar cut in a large class of;closely related models. In addition, we show that a momentum space cut;in the gapless phase leads to qualitative differences in the;entanglement spectrum when compared with the same cut in the gapless;spin-1/2 Heisenberg spin chain. We emphasize the new information content;in the entanglement spectra compared to the entanglement entropy, and;using quantum entanglement, we present a refined phase diagram of the;model. Using analytical arguments, exploiting various symmetries of the;model, and applying arguments of adiabatic continuity from two exactly;solvable points of the model, we are also able to prove several results;regarding the structure of the low-lying entanglement eigenvalues. DOI:;10.1103/PhysRevB.86.224422;11;0;1;0;12;1098-0121;WOS:000312831900002;;;J;L'vov, Victor S.;Nazarenko, Sergey V.;Comment on "Symmetry of Kelvin-wave dynamics and the Kelvin-wave cascade;in the T=0 superfluid turbulence";PHYSICAL REVIEW B;86;22;226501;10.1103/PhysRevB.86.226501;DEC 27 2012;2012;We comment on the paper by Sonin [Phys. Rev. B 85, 104516 (2012)] with;most statements of which we disagree. We use this option to shed light;on some important issues of a theory of Kelvin-wave turbulence, touched;on in Sonin's paper, in particular, on the relation between the Vinen;spectrum of strong and the L'vov-Nazarenko spectrum of weak turbulence;of Kelvin waves. We also discuss the role of explicit calculation of the;Kelvin-wave interaction Hamiltonian and "symmetry arguments" that have;to resolve a contradiction between the Kozik-Svistunov and the;L'vov-Nazarenko spectrum of weak turbulence of Kelvin waves. DOI:;10.1103/PhysRevB.86.226501;5;1;0;0;5;1098-0121;WOS:000312831900003;;;J;Misguich, G.;Schwinger boson mean-field theory: Numerics for the energy landscape and;gauge excitations in two-dimensional antiferromagnets;PHYSICAL REVIEW B;86;24;245132;10.1103/PhysRevB.86.245132;DEC 27 2012;2012;We perform some systematic numerical search for Schwinger boson;mean-field states on square and triangular clusters. We look for;possible inhomogeneous ground states as well as low-energy excited;saddle points. The spectrum of the Hessian is also computed for each;solution. On the square lattice, we find gapless U(1) gauge modes in the;nonmagnetic phase. In the Z(2) liquid phase of the triangular lattice,;we identify the topological degeneracy as well as vison states.;DOI:10.1103/PhysRevB.86.245132;2;0;0;0;2;1098-0121;WOS:000312833600001;;;J;Mokhlespour, Salman;Haverkort, J. E. M.;Slepyan, Gregory;Maksimenko, Sergey;Hoffmann, A.;Collective spontaneous emission in coupled quantum dots: Physical;mechanism of quantum nanoantenna;PHYSICAL REVIEW B;86;24;245322;10.1103/PhysRevB.86.245322;DEC 27 2012;2012;We investigate the collective spontaneous emission in a system of two;identical quantum dots (QDs) strongly coupled through the dipole-dipole;(d-d) interaction. The QDs are modeled as two-level quantum objects,;while the d-d interaction is described as the exchange of a virtual;photon through the photonic reservoir. The master equation approach is;used in the analysis. The main attention is focused on antenna;characteristics of the two-QD system-the radiation intensity dependence;on the meridian and azimuthal angles of observation. We show that the;radiation pattern of such a system is nonstationary and its temporal;behavior depends on the initial quantum state. In particular, for;entangled initial states the radiative pattern exhibits oscillations on;the frequency which corresponds to the d-d interaction energy. We also;analyze spectral properties of the directional diagram. The comparison;of radiation patterns is carried out for two QDs and two classical;dipoles. The concept of quantum nanoantenna is proposed based on;collective spontaneous emission in QD ensembles.;DOI:10.1103/PhysRevB.86.245322;Maksimenko, Sergey/F-1888-2011;Maksimenko, Sergey/0000-0002-8271-0449;8;1;0;0;8;1098-0121;WOS:000312833600002;;;J;Muravev, V. M.;Gusikhin, P. A.;Tsydynzhapov, G. E.;Fortunatov, A. A.;Kukushkin, I. V.;Spectroscopy of terahertz radiation using high-Q photonic crystal;microcavities;PHYSICAL REVIEW B;86;23;235144;10.1103/PhysRevB.86.235144;DEC 27 2012;2012;We report observation of high-Q resonance in the photoresponse of a;detector embedded in the 2D photonic crystal slab (PCS) microcavity;illuminated by terahertz radiation. The detector and PCS are fabricated;from a single GaAs wafer in a unified process. The influence of the;period of PCS lattice, microcavity geometry, and detector location on;the resonant photoresponse is studied. The resonance is found to;originate from coupling of the fundamental PCS microcavity photon mode;to the detector. The phenomenon can be exploited to devise a;spectrometer-on-a-chip for terahertz range. DOI:;10.1103/PhysRevB.86.235144 PACS number(s): 42.50.-p, 42.70.Qs, 42.79.-e,;73.21.-b;0;0;0;0;0;1098-0121;WOS:000312832900001;;;J;Reguzzoni, M.;Fasolino, A.;Molinari, E.;Righi, M. C.;Potential energy surface for graphene on graphene: Ab initio derivation,;analytical description, and microscopic interpretation;PHYSICAL REVIEW B;86;24;245434;10.1103/PhysRevB.86.245434;DEC 27 2012;2012;We derive an analytical expression that describes the interaction energy;between two graphene layers identically oriented as a function of the;relative lateral and vertical positions, in excellent agreement with;first principles calculations. Thanks to its formal simplicity, the;proposed model allows for an immediate interpretation of the;interactions, in particular of the potential corrugation. This last;quantity plays a crucial role in determining the intrinsic resistance to;interlayer sliding and its increase upon compression influences the;frictional behavior under load. We show that, for these weakly adherent;layers, the corrugation possesses the same nature and z dependence of;Pauli repulsion. We investigate the microscopic origin of these;phenomena by analyzing the electronic charge distribution: We observe a;pressure-induced charge transfer from the interlayer region toward the;near-layer regions, with a much more consistent depletion of charge;occurring for the AA stacking than for the AB stacking of the two;layers. DOI:10.1103/PhysRevB.86.245434;8;0;0;0;8;1098-0121;WOS:000312833600003;;;J;Sonin, E. B.;Reply to "Comment on 'Symmetry of Kelvin-wave dynamics and the;Kelvin-wave cascade in the T=0 superfluid turbulence'";PHYSICAL REVIEW B;86;22;226502;10.1103/PhysRevB.86.226502;DEC 27 2012;2012;The goal of the Comment by L'vov and Nazarenko is to refute my;perviously published criticism of their mechanism of the Kelvin-wave;cascade. It is important, however, that, in their Comment, L'vov and;Nazarenko admitted that the Hamiltonian, from which they derived their;mechanism, is not tilt invariant. This provides full ammunition to their;critics, who believe that their mechanism is in conflict with the tilt;symmetry of the Kelvin-wave dynamics and, therefore, is not valid for;the real isotropic world. DOI: 10.1103/PhysRevB.86.226502;3;1;0;0;3;1098-0121;WOS:000312831900004;;;J;Swaminathan, Narasimhan;Morgan, Dane;Szlufarska, Izabela;
6:1:33:20 Carbon tri-interstitial defect: A model for the D-II center
DOI:10.1103/PhysRevB.86.144118 JN:PHYSICAL REVIEW B PY:2012 TC:4 AU: Jiang, Chao;Morgan, Dane;Szlufarska, Izabela;
6:1:33:21 Thermal conductivity degradation induced by point defects in irradiated silicon carbide
DOI:10.1063/1.3589358 JN:APPLIED PHYSICS LETTERS PY:2011 TC:11 AU: Crocombette, Jean-Paul;Proville, Laurent;
6:1:33:22 Nitrogen-promoted formation of graphite-like aggregations in SiC during neutron irradiation
DOI:10.1063/1.3697681 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:4 AU: Wang, P. F.;Ruan, Y. F.;Huang, L.;Zhu, W.;
6:1:33:23 Interface-mediated suppression of radiation damage in GaN
DOI:10.1016/j.scriptamat.2012.04.020 JN:SCRIPTA MATERIALIA PY:2012 TC:3 AU: Charnvanichborikarn, S.;Myers, M. T.;Shao, L.;Kucheyev, S. O.;
6:1:33:24 Size dependence of radiation-induced amorphization and recrystallization of synthetic nanostructured CePO4 monazite
DOI:10.1016/j.actamat.2013.01.058 JN:ACTA MATERIALIA PY:2013 TC:4 AU: Lu, Fengyuan;Shen, Yiqiang;Sun, Xiang;Dong, Zhili;Ewing, Rodney C.;Lian, Jie;
6:1:33:25 A crossover in the mechanical response of silicon carbide due to the accumulation of chemical disorder
DOI:10.1063/1.3345763 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:1 AU: Xue, Kun;Niu, Li-Sha;
6:1:34:1 Dynamic tensile response of Zr-based bulk amorphous alloys: Fracture morphologies and mechanisms
DOI:10.1063/1.3447751 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:24 AU: Escobedo, J. P.;Gupta, Y. M.;
6:1:34:2 Effects of grain size and boundary structure on the dynamic tensile response of copper
DOI:10.1063/1.3607294 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:30 AU: Escobedo, J. P.;Dennis-Koller, D.;Cerreta, E. K.;Patterson, B. M.;Bronkhorst, C. A.;Hansen, B. L.;Tonks, D.;Lebensohn, R. A.;
6:1:34:3 Statistics of weak grain boundaries for spall damage in polycrystalline copper
DOI:10.1016/j.scriptamat.2010.08.003 JN:SCRIPTA MATERIALIA PY:2010 TC:25 AU: Wayne, L.;Krishnan, K.;DiGiacomo, S.;Kovvali, N.;Peralta, P.;Luo, S. N.;Greenfield, S.;Byler, D.;Paisley, D.;McClellan, K. J.;Koskelo, A.;Dickerson, R.;
6:1:34:4 Inherent strength of grain boundaries in tungsten
DOI:10.1103/PhysRevB.83.134115 JN:PHYSICAL REVIEW B PY:2011 TC:8 AU: Mikhailovskij, I. M.;Mazilova, T. I.;Voyevodin, V. N.;Mazilov, A. A.;
6:1:34:5 Effect of loading direction on grain boundary failure under shock loading
DOI:10.1016/j.actamat.2013.11.026 JN:ACTA MATERIALIA PY:2014 TC:4 AU: Fensin, S. J.;Escobedo-Diaz, J. P.;Brandl, C.;Cerreta, E. K.;Gray, G. T., III;Germann, T. C.;Valone, S. M.;
6:1:34:6 Influence of grain boundary properties on spall strength: Grain boundary energy and excess volume
DOI:10.1063/1.4761816 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:8 AU: Fensin, S. J.;Valone, S. M.;Cerreta, E. K.;Gray, G. T., III;
6:1:34:7 Influence of boundary structure and near neighbor crystallographic orientation on the dynamic damage evolution during shock loading
DOI:10.1080/14786435.2012.734638 JN:PHILOSOPHICAL MAGAZINE PY:2013 TC:7 AU: Escobedo, Juan P.;Cerreta, Ellen K.;Dennis-Koller, Darcie;Trujillo, Carl P.;Bronkhorst, Curt A.;
6:1:34:8 Modeling void growth in polycrystalline materials
DOI:10.1016/j.actamat.2013.08.004 JN:ACTA MATERIALIA PY:2013 TC:7 AU: Lebensohn, Ricardo A.;Escobedo, Juan P.;Cerreta, Ellen K.;Dennis-Koller, Darcie;Bronkhorst, Curt A.;Bingert, John F.;
6:1:34:9 An experimental investigation into the micro-mechanics of spall initiation and propagation in Ti-6Al-4V during shock loading
DOI:10.1016/j.msea.2013.04.055 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:2 AU: Wielewski, E.;Appleby-Thomas, G. J.;Hazell, P. J.;Hameed, A.;
6:1:34:10 Early stage dynamic damage and the role of grain boundary type
DOI:10.1016/j.scriptamat.2012.01.051 JN:SCRIPTA MATERIALIA PY:2012 TC:12 AU: Cerreta, E. K.;Escobedo, J. P.;Perez-Bergquist, A.;Koller, D. D.;Trujillo, C. P.;Gray, G. T., III;Brandl, C.;Germann, T. C.;
6:1:34:11 Dilatational viscoplasticity of polycrystalline solids with intergranular cavities
DOI:10.1080/14786435.2011.561811 JN:PHILOSOPHICAL MAGAZINE PY:2011 TC:22 AU: Lebensohn, R. A.;Idiart, M. I.;Ponte Castaneda, P.;Vincent, P. -G.;
6:1:34:12 A metallography and x-ray tomography study of spall damage in ultrapure Al
DOI:10.1063/1.4890310 JN:AIP ADVANCES PY:2014 TC:2 AU: Qi, M. L.;Bie, B. X.;Zhao, F. P.;Hu, C. M.;Fan, D.;Ran, X. X.;Xiao, X. H.;Yang, W. G.;Li, P.;Luo, S. N.;
6:1:34:13 The effect of shock-wave profile on dynamic brittle failure
DOI:10.1063/1.4794002 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:6 AU: Escobedo, J. P.;Brown, E. N.;Trujillo, C. P.;Cerreta, E. K.;Gray, G. T., III;
6:1:34:14 Dynamic damage nucleation and evolution in multiphase materials
DOI:10.1063/1.4880435 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Fensin, S. J.;Escobedo, J. P.;Gray, G. T., III;Patterson, B. M.;Trujillo, C. P.;Cerreta, E. K.;
6:1:34:15 Transmission electron microscopy study of the role of interface structure at 100/111 boundaries in a shocked copper multicrystal
DOI:10.1016/j.scriptamat.2012.05.035 JN:SCRIPTA MATERIALIA PY:2012 TC:1 AU: Perez-Bergquist, A. G.;Cerreta, E. K.;Trujillo, C. P.;Gray, G. T., III;Brandl, C.;Germann, T. C.;
6:1:34:16 Microstructural dependence of mechanical properties in Hf-based bulk metallic glasses and their composites
DOI:10.1016/j.jallcom.2013.06.075 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:0 AU: Sun, B. R.;Qi, L.;Zhan, Z. J.;
6:1:34:17 Shock compression of monocrystalline copper: Experiments, characterization, and analysis
DOI:10.1016/j.msea.2009.08.047 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:5 AU: Cao, Buyang;Lassila, David H.;Huang, Chongxiang;Xu, Yongbo;Meyers, Marc Andre;
6:1:34:18 Orientation dependence of void formation and substructure deformation in a spalled copper bicrystal
DOI:10.1016/j.scriptamat.2011.09.015 JN:SCRIPTA MATERIALIA PY:2011 TC:1 AU: Perez-Bergquist, A. G.;Cerreta, E. K.;Trujillo, C. P.;Cao, F.;Gray, G. T., III;
6:1:34:19 The influence of microstructure on the shock and spall behaviour of the magnesium alloy, Elektron 675
DOI:10.1016/j.actamat.2012.07.041 JN:ACTA MATERIALIA PY:2012 TC:3 AU: Hazell, P. J.;Appleby-Thomas, G. J.;Wielewski, E.;Stennett, C.;Siviour, C.;
6:1:34:20 Damage property of incompletely spalled aluminum under shock wave loading
DOI:10.1063/1.3681301 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:6 AU: Qi, Meilan;Luo, Chao;He, Hongliang;Wang, Yonggang;Fan, Duan;Yan, Shilin;
6:1:35:1 Fatigue cracking at twin boundaries: Effects of crystallographic orientation and stacking fault energy
DOI:10.1016/j.actamat.2012.02.016 JN:ACTA MATERIALIA PY:2012 TC:23 AU: Zhang, Z. J.;Zhang, P.;Li, L. L.;Zhang, Z. F.;
6:1:35:2 Fatigue cracking at twin boundary: Effect of dislocation reactions
DOI:10.1063/1.4732144 JN:APPLIED PHYSICS LETTERS PY:2012 TC:6 AU: Zhang, Z. J.;Li, L. L.;Zhang, P.;Zhang, Z. F.;
6:1:35:3 Twin boundary: Stronger or weaker interface to resist fatigue cracking?
DOI:10.1016/j.scriptamat.2012.01.028 JN:SCRIPTA MATERIALIA PY:2012 TC:19 AU: Zhang, P.;Zhang, Z. J.;Li, L. L.;Zhang, Z. F.;
6:1:35:4 Strain localization and fatigue cracking behaviors of Cu bicrystal with an inclined twin boundary
DOI:10.1016/j.actamat.2014.04.004 JN:ACTA MATERIALIA PY:2014 TC:4 AU: Li, L. L.;Zhang, P.;Zhang, Z. J.;Zhou, H. F.;Qu, S. X.;Yang, J. B.;Zhang, Z. F.;
6:1:35:5 Higher fatigue cracking resistance of twin boundaries than grain boundaries in Cu bicrystals
DOI:10.1016/j.scriptamat.2011.06.009 JN:SCRIPTA MATERIALIA PY:2011 TC:13 AU: Li, L. L.;Zhang, Z. J.;Zhang, P.;Zhang, Z. F.;
6:1:35:6 Microcompression and cyclic deformation behaviors of coaxial copper bicrystals with a single twin boundary
DOI:10.1016/j.scriptamat.2013.04.004 JN:SCRIPTA MATERIALIA PY:2013 TC:6 AU: Li, L. L.;An, X. H.;Imrich, P. J.;Zhang, P.;Zhang, Z. J.;Dehm, G.;Zhang, Z. F.;
6:1:35:7 Effect of crystallographic orientation and grain boundary character on fatigue cracking behaviors of coaxial copper bicrystals
DOI:10.1016/j.actamat.2012.08.045 JN:ACTA MATERIALIA PY:2013 TC:8 AU: Li, L. L.;Zhang, P.;Zhang, Z. J.;Zhang, Z. F.;
6:1:35:8 Low-cycle fatigue-cracking mechanisms in fcc crystalline materials
DOI:10.1080/14786435.2010.518169 JN:PHILOSOPHICAL MAGAZINE PY:2011 TC:13 AU: Zhang, P.;Qu, S.;Duan, Q. Q.;Wu, S. D.;Li, S. X.;Wang, Z. G.;Zhang, Z. F.;
6:1:35:9 Fatigue cracking at twin boundaries: Effects of crystallographic orientation and stacking fault energy (vol 60, pg 3113, 2012)
DOI:10.1016/j.actamat.2012.07.020 JN:ACTA MATERIALIA PY:2012 TC:0 AU: Zhang, Z. J.;Zhang, P.;Li, L. L.;Zhang, Z. F.;
6:1:35:10 Investigations of twin boundary fatigue cracking in nickel and nitrogen-stabilized cold-worked austenitic stainless steels
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6:1:35:11 Effect of stacking fault energy on pulsating fatigue behavior for fcc metals under the fully repeated loading
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6:1:35:12 Fatigue cracking at twin boundary effect of dislocation reactions (vol 101, 011907, 2012)
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6:1:35:13 Analysis of a pulsating fatigue process on carbon steel with different carbide shapes
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6:1:35:14 Twin boundary: Stronger or weaker interface to resist fatigue cracking? (vol 66, pg 854, 2012)
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6:1:36:1 On the intrinsic ductility of electrodeposited nanocrystalline metals
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6:1:36:2 Effect of interstitial carbon on the mechanical properties of electrodeposited bulk nanocrystalline Ni
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6:1:36:3 Strategy for Electrodeposition of Highly Ductile Bulk Nanocrystalline Metals with a Face-Centered Cubic Structure
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6:1:36:4 Fabrication of bulk nanocrystalline Al electrodeposited from a dimethylsulfone bath
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6:1:36:5 Enhancement in mechanical properties of bulk nanocrystalline Fe-Ni alloys electrodeposited using propionic acid
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6:1:36:6 Effect of additives on tensile properties of bulk nanocrystalline Ni-W alloys electrodeposited from a sulfamate bath
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6:1:36:7 Effect of orientation on tensile ductility of electrodeposited bulk nanocrystalline Ni-W alloys
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6:1:36:8 Enhanced tensile ductility in bulk nanocrystalline nickel electrodeposited by sulfamate bath
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6:1:36:9 Pre-electrodeposition process for improving tensile ductility of Al electrodeposited from a dimethylsulfone bath
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6:1:36:10 Fabrication of bulk nanocrystalline Fe-Ni alloys with high strength and high ductility by an electrodeposition
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6:1:36:11 The effect of tungsten addition on metallurgical state and solute content in nanocrystalline electrodeposited nickel
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6:1:36:12 First-Principles Calculation of Grain Boundary Excess Volume and Free Volume in Nanocrystalline and Ultrafine-Grained Aluminum
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6:1:36:13 Elongated nanoscale voids at deformed special grain boundary structures in nanocrystalline materials
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6:1:36:14 Application of Electroforming Process to Bulk Amorphous Ni-W Alloy
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6:1:36:15 An energy analysis of nanovoid nucleation in nanocrystalline materials with grain boundary sliding accommodations
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6:1:37:1 Average yielding and weakest link statistics in micron-scale plasticity
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6:1:37:2 Submicron Plasticity: Yield Stress, Dislocation Avalanches, and Velocity Distribution
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6:1:37:3 Dislocations Jam at Any Density
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6:1:37:4 Sample size effects on the large strain bursts in submicron aluminum pillars
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6:1:37:5 Fluctuations and Scaling in Creep Deformation
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6:1:37:6 Criticality of Relaxation in Dislocation Systems
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6:1:37:7 Dynamical Correlations near Dislocation Jamming
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6:1:37:8 Minimal Integer Automaton behind Crystal Plasticity
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6:1:37:9 Dynamic Hysteresis in Cyclic Deformation of Crystalline Solids
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6:1:37:10 Avalanches in 2D Dislocation Systems: Plastic Yielding Is Not Depinning
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6:1:37:11 Dipole formation and yielding in a two-dimensional continuum dislocation model
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6:1:37:12 Bending Crystals: Emergence of Fractal Dislocation Structures
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6:1:37:13 Distribution of Maximum Velocities in Avalanches Near the Depinning Transition
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6:1:37:14 Comment on "Dislocations Jam at Any Density"
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6:1:37:15 Tsekenis, Goldenfeld, and Dahmen Reply
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6:1:37:16 Elastic-plastic transition in three-dimensional random materials: massively parallel simulations, fractal morphogenesis and scaling functions
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6:1:38:1 In situ nanoindentation: Probing nanoscale multifunctionality
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6:1:38:2 Correlation between nanomechanical and piezoelectric properties of thin films: An experimental and finite element study
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6:1:38:3 Nanoscale Characterization of Energy Generation from Piezoelectric Thin Films
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6:1:38:4 Nanoindentation in materials research: Past, present, and future
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6:1:38:5 Grain and grain boundary activities observed in alumina-zirconia-magnesia spinel nanocomposites by in situ nanoindentation using transmission electron microscopy
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6:1:38:6 Quantitative electromechanical characterization of materials using conductive ceramic tips
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6:1:38:7 Low-temperature deposition of high-response piezoelectric thin films
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6:1:38:8 Surface Morphology Induced Localized Electric Field and Piezoresponse Enhancement in Nanostructured Thin Films
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6:1:38:9 Nanoindentation response of piezoelectric nano-islands
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6:1:38:10 Nanoscale electro-mechanical dynamics of nano-crystalline platinum thin films: An in situ electrical nanoindentation study
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6:1:38:11 Structural characterization of B-doped diamond nanoindentation tips
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6:1:38:12 Direct observation of twin deformation in YBa2Cu3O7-x thin films by in situ nanoindentation in TEM
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6:1:38:13 Effect of electric fields on the nanoindentation response of piezoelectric materials
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6:1:38:14 Nanomechanical and Dielectric Properties of Sol-Gel Derived PZT Thin Films Annealed with Microwave Energy
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6:1:38:15 Quasi-Continuum Study of Grain Boundary Effects on Incipient Yield of Bicrystal Aluminum Under Nanoindentation
DOI:10.1166/jctn.2013.2816 JN:JOURNAL OF COMPUTATIONAL AND THEORETICAL NANOSCIENCE PY:2013 TC:0 AU: Yuan, L.;Wang, L. M.;Shan, D. B.;
6:1:38:16 Plastic response of the native oxide on Cr and Al thin films from in situ conductive nanoindentation
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6:1:39:1 Inelastic deformation of nanocrystalline Au thin films as a function of temperature and strain rate
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6:1:39:2 Room temperature creep behavior of free-standing Cu films with bimodal grain size distribution
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6:1:39:3 Strain rate sensitivity of nanocrystalline Au films at room temperature
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6:1:39:4 Quantification of internal dislocation density using scanning transmission electron microscopy in ultrafine grained pure aluminium fabricated by severe plastic deformation
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6:1:39:5 Inverse temperature dependence of activation volume in ultrafine-grained copper processed by accumulative roll-bonding
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6:1:39:6 An apparatus for performing microtensile tests at elevated temperatures inside a scanning electron microscope
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6:1:39:7 Effects of Si on mechanical properties and microstructure evolution in ultrafine-grained Cu-Si alloys processed by accumulative roll bonding
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6:1:39:8 Hall-Petch Relationship and Dislocation Model for Deformation of Ultrafine-Grained and Nanocrystalline Metals
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6:1:39:9 High-temperature tensile behavior of freestanding Au thin films
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6:1:39:10 Effects of Temperature and Strain Rate on Plastic Deformation of Ultrafine-Grained Copper Prepared by Equal-Channel Angular Pressing
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6:1:39:11 A thermally activated model for room temperature creep in nanocrystalline Au films at intermediate stresses
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6:1:39:12 Rapid hardening induced by electric pulse annealing in nanostructured pure aluminum
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6:1:39:13 Change in Crystal Orientations of a {100} < 001 > Pure Aluminum Single Crystal during Accumulative Roll Bonding
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6:1:39:14 Changes in Strength and Microstructure of Cu (100) [001] Single Crystals Caused by Accumulative Roll-Bonding
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6:1:39:15 Tensile yield behavior and precipitation strengthening mechanism in Super304H steel
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6:1:39:16 Effects of Si addition on mechanical properties of copper severely deformed by accumulative roll-bonding
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6:1:39:17 Microstructure Evolution of a Novel Super304H Steel Aged at High Temperatures
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6:1:39:18 A comparison between steady state creep and stress relaxation in copper
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6:1:39:19 A large strain rate effect in thin free-standing Al films
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6:1:40:1 Nanoindentation strain-rate jump tests for determining the local strain-rate sensitivity in nanocrystalline Ni and ultrafine-grained Al
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6:1:40:2 An improved long-term nanoindentation creep testing approach for studying the local deformation processes in nanocrystalline metals at room and elevated temperatures
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6:1:40:3 Macro- and Nanomechanical Properties and Strain Rate Sensitivity of Accumulative Roll Bonded and Equal Channel Angular Pressed Ultrafine-Grained Materials
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6:1:40:4 In situ SEM indentation of a Zr-based bulk metallic glass at elevated temperatures
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6:1:40:5 Temperature invariant flow stress during microcompression of a Zr-based bulk metallic glass
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6:1:40:6 Influences of residual stresses on the serrated flow in bulk metallic glass under elastostatic four-point bending - A nanoindentation and atomic force microscopy study
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6:1:40:7 Activation parameters for deformation of ultrafine-grained aluminium as determined by indentation strain rate jumps at elevated temperature
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6:1:40:8 Experimental determination of the effective indenter shape and epsilon-factor for nanoindentation by continuously measuring the unloading stiffness
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6:1:40:9 A new method for reliable determination of strain-rate sensitivity of low-dimensional metallic materials by using nanoindentation
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6:1:40:10 Elevated temperature, in situ indentation with calibrated contact temperatures
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6:1:40:11 Determination of Young's modulus of thin films using the concept of the effective indenter
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6:1:40:12 Highly resolved analysis of the chemistry and mechanical properties of an a-C:H coating system by nanoindentation and auger electron spectroscopy
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6:1:40:13 Plastic instability in amorphous selenium near its glass transition temperature
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6:1:41:7 In-situ TEM investigation of fracture process in an Al-Cu-Mg alloy
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6:1:42:4 Study of AFM-based nanometric cutting process using molecular dynamics
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6:1:42:5 Nanotwinning in monocrystalline silicon upon nanoscratching
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6:1:42:6 Prediction of the threshold load of dislocation emission in silicon during nanoscratching
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6:1:42:7 Study of effect of indenter shape in nanometric scratching process using molecular dynamics
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6:1:42:9 Research on the effects of machining-induced subsurface damages on mono-crystalline silicon via molecular dynamics simulation
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6:1:42:10 Multiscale simulations of nanoindentation and nanoscratch of single crystal copper
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6:1:42:11 Evolution of Workpiece Microstructure and Cutting Force During Ultraprecision Vibration Assisted Machining
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6:1:42:12 An atomistic investigation on the mechanism of machining nanostructures when using single tip and multi-tip diamond tools
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6:1:42:13 Molecular Dynamics Simulation of the Crystal Orientation and Temperature Influences in the Hardness on Monocrystalline Silicon
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6:1:42:14 A new method for evaluating the plastic properties of materials through instrumented frictional sliding tests
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6:1:42:15 Investigation of the shape transferability of nanoscale multi-tip diamond tools in the diamond turning of nanostructures
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6:1:42:16 A molecular dynamics study of the effect of impact velocity, particle size and angle of impact of abrasive grain in the Vibration Assisted Nano Impact-machining by Loose Abrasives
DOI:10.1016/j.wear.2013.03.039 JN:WEAR PY:2013 TC:1 AU: James, Sagil;Sundaram, Murali M.;
6:1:42:17 A study on the vibration induced transport of nanoabrasives in liquid medium
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6:1:42:18 Quantitative analysis of the mechanical robustness of multilayered bonding pad on a semiconductor device by nanoindentation and nanoscratch tests
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6:1:43:1 Ductile-brittle transition in micropillar compression of GaAs at room temperature
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6:1:43:2 Discussion of the dependence of the effect of size on the yield stress in hard materials studied by microcompression of MgO
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6:1:43:3 Mapping deformation in small-scale testing
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6:1:43:4 Mechanical Properties and Deformation of Cubic Silicon Carbide Micropillars in Compression at Room Temperature
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6:1:43:5 Three-dimensional electron backscattered diffraction analysis of deformation in MgO micropillars
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6:1:43:6 Fracture modes in micropillar compression of brittle crystals
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6:1:43:7 Micropillar compression deformation of single crystals of the intermetallic compound zeta-FeZn13
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6:1:43:8 Plasticity and fracture of sapphire at room temperature: Load-controlled microcompression of four different orientations
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6:1:43:9 Deformation characteristics of WC micropillars
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6:1:43:10 Studying Plasticity in Hard and Soft Nb-Co Intermetallics
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6:1:43:11 High temperature microcompression and nanoindentation in vacuum
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6:1:43:12 Compression deformability of Gamma and zeta Fe-Zn intermetallics to mitigate detachment of brittle intermetallic coating of galvannealed steels
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6:1:43:13 Order-disorder structure of the delta(1k) phase in the Fe-Zn system determined by scanning transmission electron microscopy
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6:1:43:14 Nanoindentation of WC-Co hardmetals
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6:1:43:15 In situ micropillar compression reveals superior strength and ductility but an absence of damage in lamellar bone
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6:1:43:16 Determination of interfacial mechanical properties of ceramic composites by the compression of micro-pillar test specimens
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6:1:44:2 Influence of the stacking fault energy surface on partial dislocations in fcc metals with a three-dimensional phase field dislocations dynamics model
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6:1:44:3 Effect of core energy on mobility in a continuum dislocation model
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6:1:44:4 Molecular dynamics simulations of shock waves in cis-1,4-polybutadiene melts
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6:1:44:5 Predictions of an alternative pathway for grain-boundary driven twinning
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6:1:44:6 Mesoscale modeling of dislocations in molecular crystals
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6:1:44:7 Effect of grain size distribution on plastic strain recovery
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6:1:44:8 Stacking fault emission from grain boundaries: Material dependencies and grain size effects
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6:1:44:9 Effect of microstructural uncertainty on the yield stress of nanocrystalline nickel
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6:1:44:10 Defect-induced solid state amorphization of molecular crystals
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6:1:44:11 The core structure of dislocations and their relationship to the material gamma-surface
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6:1:44:12 Role of molecule flexibility on the nucleation of dislocations in molecular crystals
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6:1:44:14 Generalized stacking fault energy surfaces in the molecular crystal alpha RDX
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6:1:44:15 Elastic-plastic shock wave profiles in oriented single crystals of cyclotrimethylene trinitramine (RDX) at 2.25 GPa (vol 100, 024908, 2006)
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6:1:44:16 Investigation of comminution in a Wiley Mill: Experiments and DEM Simulations
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6:1:45:1 Probing grain boundary sink strength at the nanoscale: Energetics and length scales of vacancy and interstitial absorption by grain boundaries in alpha-Fe
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6:1:45:2 Healing of Nanocracks by Disclinations
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6:1:45:3 Anisotropic radiation-induced segregation in 316L austenitic stainless steel with grain boundary character
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6:1:45:10 Evolution of the Burgers-vector population of Cu-Nb multilayers with 7 at% He-implantation determined by X-ray diffraction
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6:1:45:12 Atomic diffusion in the Fe [001] Sigma=5 (310) and (210) symmetric tilt grain boundary
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6:1:45:13 Self-Healing Phenomenon and Dynamic Hardness of C-60-Based Nanocomposite Coatings
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6:1:46:1 Anomalous Plasticity in the Cyclic Torsion of Micron Scale Metallic Wires
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6:1:46:3 In Situ Visualization of Birth and Annihilation of Grain Boundaries in an Au Nanocrystal
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6:1:46:5 60 Years of Hall-Petch: Past to Present Nano-Scale Connections
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6:1:46:7 Observation of the critical thickness phenomenon in dislocation dynamics simulation of microbeam bending
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6:1:46:8 Critical Thickness Theory Applied to Micromechanical Testing
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6:1:46:15 Atomistic Simulations on the Mechanical Behavior of Single-Crystalline Cu Nanowires Under Bending and Torsion Loads
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6:1:47:1 Micro-Raman spectroscopy and analysis of near-surface stresses in silicon around through-silicon vias for three-dimensional interconnects
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6:1:47:2 Characterization of thermal stresses in through-silicon vias for three-dimensional interconnects by bending beam technique
DOI:10.1063/1.3678020 JN:APPLIED PHYSICS LETTERS PY:2012 TC:24 AU: Ryu, Suk-Kyu;Jiang, Tengfei;Lu, Kuan H.;Im, Jay;Son, Ho-Young;Byun, Kwang-Yoo;Huang, Rui;Ho, Paul S.;
6:1:47:3 Effects of the Microstructure of Copper Through-Silicon Vias on their Thermally Induced Linear Elastic Mechanical Behavior
DOI:10.1007/s13391-013-3053-y JN:ELECTRONIC MATERIALS LETTERS PY:2014 TC:3 AU: Wu, Zhiyong;Huang, Zhiheng;Ma, Yucheng;Xiong, Hua;Conway, Paul P.;
6:1:47:4 X-ray mu-Laue diffraction analysis of Cu through-silicon vias: A two-dimensional and three-dimensional study
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6:1:47:5 Stress evolution in surrounding silicon of Cu-filled through-silicon via undergoing thermal annealing by multiwavelength micro-Raman spectroscopy
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6:1:47:6 Thermomechanical strain measurements by synchrotron x-ray diffraction and data interpretation for through-silicon vias
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6:1:47:7 In-situ microscale through-silicon via strain measurements by synchrotron x-ray microdiffraction exploring the physics behind data interpretation
DOI:10.1063/1.4896141 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Liu, Xi;Thadesar, Paragkumar A.;Taylor, Christine L.;Oh, Hanju;Kunz, Martin;Tamura, Nobumichi;Bakir, Muhannad S.;Sitaraman, Suresh K.;
6:1:47:8 Mechanical Property Evaluation of TSV-Cu Micropillar by Compression Method
DOI:10.1007/s13391-014-014-3286-4 JN:ELECTRONIC MATERIALS LETTERS PY:2014 TC:1 AU: Gu, Ting;Cheng, Ping;Wang, Su;Wang, Huiying;Dai, Xuhan;Wang, Hong;Ding, Guifu;
6:1:47:9 Micro-scale measurement and modeling of stress in silicon surrounding a tungsten-filled through-silicon via
DOI:10.1063/1.3644971 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:5 AU: Koseski, Ryan P.;Osborn, William A.;Stranick, Stephan J.;DelRio, Frank W.;Vaudin, Mark D.;Thuy Dao;Adams, Vance H.;Cook, Robert F.;
6:1:47:10 Measurement of temperature-dependent stress in copper-filled silicon vias using polarized Raman spectroscopy
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6:1:47:11 Dimension and liner dependent thermomechanical strain characterization of through-silicon vias using synchrotron x-ray diffraction
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6:1:47:12 Effect of Copper TSV Annealing on Via Protrusion for TSV Wafer Fabrication
DOI:10.1007/s11664-012-2117-3 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:19 AU: Heryanto, A.;Putra, W. N.;Trigg, A.;Gao, S.;Kwon, W. S.;Che, F. X.;Ang, X. F.;Wei, J.;Made, R. I.;Gan, C. L.;Pey, K. L.;
6:1:47:13 Anomalous multiple pop-in behavior in Cu-Sn-based intermetallic compounds during nanoindentation
DOI:10.1016/j.msea.2014.06.048 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Jun, Hoin;Kim, Yiseol;Lee, Sangjun;Kang, Namhyun;Kim, Kyoung-Bo;Kim, Moojin;Kim, Soo Hyung;Lee, Dongyun;
6:1:47:14 The demonstration of nonlinear analytic model for the strain field induced by thermal copper filled TSVs (through silicon via)
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6:1:47:15 The reduction of keep-out zone (similar to 10x) by the optimized novel trench structures near the through silicon vias for the application in 3-dimensional integrated circuits
DOI:10.1063/1.4826196 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:3 AU: Liao, M. H.;
6:1:47:16 Surface stress variation as a function of applied compressive stress and temperature in microscale silicon
DOI:10.1063/1.4892623 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Gan, Ming;Tomar, Vikas;
6:1:47:17 Strain- and strain-rate-dependent mechanical properties and behaviors of Cu3Sn compound using molecular dynamics simulation
DOI:10.1007/s10853-011-6144-x JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:11 AU: Cheng, Hsien-Chie;Yu, Ching-Feng;Chen, Wen-Hwa;
6:1:47:18 Submicron mapping of strain distributions induced by three-dimensional through-silicon via features
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6:1:47:19 Plasticity mechanism for copper extrusion in through-silicon vias for three-dimensional interconnects
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6:1:47:20 The systematic study and simulation modeling on nano-level dislocation edge stress effects
DOI:10.1063/1.4706565 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:4 AU: Liao, M. -H.;Chen, C. -H.;Chang, L. -C.;Yang, C.;
6:1:48:1 A microcantilever investigation of size effect, solid-solution strengthening and second-phase strengthening for < a > prism slip in alpha-Ti
DOI:10.1016/j.actamat.2011.06.005 JN:ACTA MATERIALIA PY:2011 TC:13 AU: Gong, Jicheng;Wilkinson, Angus J.;
6:1:48:2 Transmission electron microscopy of deformed Ti-6Al-4V micro-cantilevers
DOI:10.1080/14786435.2012.700414 JN:PHILOSOPHICAL MAGAZINE PY:2012 TC:4 AU: Ding, Rengen;Gong, Jicheng;Wilkinson, Angus J.;Jones, Ian P.;
6:1:48:3 Micro-cantilever testing of < a > prismatic slip in commercially pure Ti
DOI:10.1080/14786435.2010.495359 JN:PHILOSOPHICAL MAGAZINE PY:2011 TC:11 AU: Gong, Jicheng;Wilkinson, Angus J.;
6:1:48:4 Influence of porosity on mechanical properties and in vivo response of Ti6Al4V implants
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6:1:48:5 Lattice strain evolution during tensile and compressive loading of CP Ti
DOI:10.1016/j.actamat.2012.08.042 JN:ACTA MATERIALIA PY:2012 TC:8 AU: Warwick, J. L. W.;Jones, N. G.;Rahman, K. M.;Dye, D.;
6:1:48:6 Methodology for estimating the critical resolved shear stress ratios of alpha-phase Ti using EBSD-based trace analysis
DOI:10.1016/j.actamat.2013.08.042 JN:ACTA MATERIALIA PY:2013 TC:12 AU: Li, H.;Mason, D. E.;Bieler, T. R.;Boehlert, C. J.;Crimp, M. A.;
6:1:48:7 Effects of orientation on hardness, strain accumulation, and fracture
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6:1:48:8 Detecting mechanical properties of microstructure units in Ti-6.5Al-3.5Mo-1.5Zr-0.3Si alloy
DOI:10.1016/j.msea.2014.08.044 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Yang, J.;Song, Z. M.;Lei, L. M.;Zhang, G. P.;
6:1:48:9 Analysis of slip activity and heterogeneous deformation in tension and tension-creep of Ti-5Al-2.5Sn (wt %) using in-situ SEM experiments
DOI:10.1080/14786435.2012.682174 JN:PHILOSOPHICAL MAGAZINE PY:2012 TC:10 AU: Li, H.;Boehlert, C. J.;Bieler, T. R.;Crimp, M. A.;
6:1:48:10 Deformation and damage behavior of colonies in a small-sized alpha/beta Ti alloy
DOI:10.1016/j.scriptamat.2012.12.034 JN:SCRIPTA MATERIALIA PY:2013 TC:3 AU: Yang, Jia;Xu, Jin;Zhang, Guang-Ping;
6:1:48:11 Comparison of the deformation behaviour of commercially pure titanium and Ti-5Al-2.5Sn(wt.%) at 296 and 728K
DOI:10.1080/14786435.2013.791752 JN:PHILOSOPHICAL MAGAZINE PY:2013 TC:7 AU: Li, H.;Mason, D. E.;Yang, Y.;Bieler, T. R.;Crimp, M. A.;Boehlert, C. J.;
6:1:48:12 Fatigue properties of titanium alloy thin foils for MEMS applications
DOI:10.1016/j.matlet.2012.08.134 JN:MATERIALS LETTERS PY:2012 TC:3 AU: Zhang, Bin;Lei, Li-Ming;Yang, Jia;Guo, Xin-Hu;Zhang, Guang-Ping;
6:1:48:13 Analysis of slip transfer and deformation behavior across the alpha/beta interface in Ti-5Al-2.5Sn (wt.%) with an equiaxed microstructure
DOI:10.1016/j.msea.2012.04.114 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:11 AU: Seal, James R.;Crimp, Martin A.;Bieler, Thomas R.;Boehlert, Carl J.;
6:1:48:14 Deformation and fracture behavior of laser processed dense and porous Ti6Al4V alloy under static and dynamic loadinge
DOI:10.1016/j.msea.2012.04.036 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:10 AU: Biswas, N.;Ding, J. L.;Balla, V. K.;Field, D. P.;Bandyopadhyay, A.;
6:1:48:15 < c plus a > Dislocations in deformed Ti-6A1-4V micro-cantilevers
DOI:10.1016/j.actamat.2014.05.010 JN:ACTA MATERIALIA PY:2014 TC:2 AU: Ding, Rengen;Gong, Jicheng;Wilkinson, Angus J.;Jones, Ian P.;
6:1:49:1 Effects of twist twin boundary and stacking fault on crack propagation of nanocrystal Al
DOI:10.1016/j.commatsci.2014.08.016 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:1 AU: Gao, L.;Song, H. Y.;Sun, Y.;Zhang, Y. G.;
6:1:49:2 Deformation and failure mechanisms of nanotwinned copper films with a pre-existing crack
DOI:10.1016/j.msea.2014.03.113 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Sun, L. G.;He, X. Q.;Wang, J. B.;Lu, J.;
6:1:49:3 Mechanisms of dislocation multiplication at crack tips
DOI:10.1016/j.actamat.2012.11.016 JN:ACTA MATERIALIA PY:2013 TC:11 AU: Bitzek, Erik;Gumbsch, Peter;
6:1:49:4 Fracture toughness and bond trapping of grain boundary cracks
DOI:10.1016/j.actamat.2014.03.035 JN:ACTA MATERIALIA PY:2014 TC:4 AU: Moeller, Johannes J.;Bitzek, Erik;
6:1:49:5 Blunting of a brittle crack at grain boundaries: An atomistic study in BCC Iron
DOI:10.1016/j.msea.2013.04.012 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:6 AU: Terentyev, D.;Gao, F.;
6:1:49:6 Emission of full and partial dislocations from a crack in BCC and FCC metals: An atomistic study
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6:1:49:7 Atomistic modeling of the crack-void interaction in alpha-Fe
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6:1:49:8 Interaction of a dislocation with a crack tip: From stimulated emission to avalanche generation
DOI:10.1016/j.actamat.2011.03.010 JN:ACTA MATERIALIA PY:2011 TC:8 AU: Michot, G.;
6:1:49:9 Deformation mechanism of the single-crystalline nano-Cu films: Molecular dynamics simulation
DOI:10.1016/j.commatsci.2012.08.044 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:3 AU: Xu, Shuang;Guo, Ya-Fang;Wang, Zheng-Dao;
6:1:49:10 The Early Stage of Dislocation Process around a Crack Tip Observed by HVEM-Tomography in Silicon Single Crystals
DOI:10.2320/matertrans.MB201024 JN:MATERIALS TRANSACTIONS PY:2011 TC:4 AU: Tanaka, Masaki;Sadamatsu, Sunao;Nakamura, Hiroto;Higashida, Kenji;
6:1:49:11 Tensile properties of ultrathin copper films and their temperature dependence
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6:1:49:12 Molecular dynamic simulation of crack propagation in nanocrystalline Ni containing different shapes and types of second phases
DOI:10.1016/j.commatsci.2011.04.032 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:5 AU: Musazadeh, M. H.;Dehghani, K.;
6:1:49:13 Universality Classes in Constrained Crack Growth
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6:1:49:14 Anisotropic fracture behaviour and brittle-to-ductile transition of polycrystalline tungsten
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6:1:49:15 Dislocation shielding and crack tip decohesion at the atomic scale
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6:1:49:16 Interaction of an interfacial crack with linear small defects under out-of-plane shear loading
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6:1:49:17 Novel technique for evaluating grain boundary fracture strength in metallic materials
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6:1:50:1 Size effect in compression of single-crystal gold microparticles
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6:1:50:2 Size effects in bimetallic nickel-gold nanowires: Insight from atomic force microscopy nanoindentation
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6:1:50:3 Nanoindentation size effect in single-crystal nanoparticles and thin films: A comparative experimental and simulation study
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6:1:50:4 Pristine-to-pristine regime of plastic deformation in submicron-sized single crystal gold particles
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6:1:50:5 In situ TEM study of mechanical behaviour of twinned nanoparticles
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6:1:50:6 Pseudoelastic Deformation during Nanoscale Adhesive Contact Formation
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6:1:50:7 Effects of focused-ion-beam irradiation and prestraining on the mechanical properties of FCC Au microparticles on a sapphire substrate
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6:1:50:8 Finite element analysis of nanowire indentation on a flat substrate
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6:1:51:1 Electrodeposited multilayer films with giant magnetoresistance (GMR): Progress and problems
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6:1:51:2 Study on the pulse reverse electrodeposition of Fe-nano-Si composite coatings in magnetic field
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6:1:51:3 Effect of annealing and additive agent on magnetoresistance properties of pulse plated Cu-Co nano-granular alloys
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6:1:51:4 Dynamic Nanofin Heat Sinks
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6:1:51:5 Electrodeposition Efficiency of Co and Cu in the Fabrication of Multilayer Nanowires by Polymeric Track-Etched Templates
DOI:10.1021/am1011222 JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:13 AU: Pullini, D.;Busquets-Mataix, D.;
6:1:51:6 Giant magnetoresistance (GMR) and ferromagnetic properties of DC and pulse electrodeposited Cu-Co alloys
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6:1:51:7 Magnetic and magnetoresistance studies of the evolution of the magnetic layer structure with Co layer thickness in electrodeposited Co-Cu/Cu multilayers
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6:1:51:8 Electrodeposition, characterization and morphological investigations of NiFe/Cu multilayers prepared by pulsed galvanostatic, dual bath technique
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6:1:51:9 MAGNETOCALORIC MATERIALS Strained relations
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6:1:51:10 Magnetoresistance of electrodeposited NiFeCu alloys
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6:1:51:11 Microstructure formation in electrodeposited Co-Cu/Cu multilayers with GMR effect: Influence of current density during magnetic layer deposition
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6:1:51:12 Magnetoresistance effect in Gd-doped Cu-Co alloys
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6:1:51:13 Composition, morphology and electrical transport properties of Co-Pb electrodeposits
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6:1:51:14 Characterization of CrO2-poly-vinyl pyrrolidone magnetic nanofluid
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6:1:51:15 Sensor and microelectronic elements based on nanoscale granular systems
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6:1:51:16 Electrochemical synthesis of Co-Ag/Ag multilayered nanowires for GMR applications
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6:1:51:17 Preparation and magnetic properties of electrodeposited [Co/Zn] multilayer films
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6:1:51:18 Effects of parallel magnetic field on electrocodeposition behavior of Fe/nano-Si particles composite electroplating
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6:1:51:19 Temperature dependence of GMR and effect of annealing on electrodeposited Co-Ag granular films
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6:1:51:20 Lithography-free study of spin torque
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6:1:51:21 Analysis of the magnetoresistance contributions in a nanocrystallized Cr-doped FINEMET alloy
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6:1:51:22 Investigation of the local electron emission from current-carrying silver nanoparticle films by an emission electron microscope
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6:1:52:7 Fatigue Damage Behavior of Freestanding 40 mu m-Thick Nickel Foils for MEMS Applications
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6:1:52:8 Cyclic plastic behavior analysis based on the micromorphic mixed hardening plasticity model
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6:1:52:9 3D finite element modeling of shear band localization via the micro-polar Cosserat continuum theory
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6:1:52:10 On size effects on fatigue properties of metal foils at micrometer scales
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6:1:52:11 Effects of grain size and initial immobile dislocation density on fatigue behavior of polycrystalline metals
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6:1:52:12 A discrete dislocation dynamics modeling for thermal fatigue of preferred oriented copper via patterns
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6:1:53:1 Towards realistic molecular dynamics simulations of grain boundary mobility
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6:1:53:2 A molecular dynamics study of grain boundary free energies, migration mechanisms and mobilities in a bcc Fe-20Cr alloy
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6:1:53:3 Cohesive and magnetic properties of grain boundaries in bcc Fe with Cr additions
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6:1:53:4 A comprehensive molecular dynamics study of low-angle grain boundary mobility in a pure aluminum system
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6:1:53:5 Drag effects on grain growth dynamics
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6:1:53:7 Structure and strength of < 1 1 0 > tilt grain boundaries in bcc Fe: An atomistic study
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6:1:53:8 Comment on "Toward realistic molecular dynamics simulations of grain boundary mobility" by Zhou and Mohles
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6:1:53:9 Energy density in density functional theory: Application to crystalline defects and surfaces
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6:1:53:10 Response to the comment by Holm, Foiles, Homer and Olmsted on "Towards realistic molecular dynamics simulations of grain boundary mobility" by Zhou and Mohles
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6:1:53:11 Quantum energy density: Improved efficiency for quantum Monte Carlo calculations
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6:1:53:12 Microstructural evolution during fatigue of ultrafine grained aluminum alloy
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6:1:53:13 The effect of grain size diversity on the flow stress of nanocrystalline metals by finite-element modelling
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6:1:53:14 Magnetism of fcc/fcc, hcp/hcp twin and fcc/hcp twin-like boundaries in cobalt
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6:1:53:15 Evaluation of stability of hydrogen in alloys using energy density formalism
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6:1:54:1 Interface defects, reference spaces and the Frank-Bilby equation
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6:1:54:2 Compatibility and accommodation in displacive phase transformations
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6:1:54:3 Elastic and plastic aspects of martensitic transformations
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6:1:54:4 Interphase boundary structure and accommodation mechanism of lenticular martensite in Fe-Ni alloys
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6:1:54:5 Determining the Burgers vectors and elastic strain energies of interface dislocation arrays using anisotropic elasticity theory
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6:1:54:6 Strains and rotations in thin deposited films
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6:1:54:7 Non-classical {334}(beta) type of twinned alpha ' martensite in a Ti-5.26 wt.% Cr alloy
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6:1:54:8 Effect of interface dislocation Burgers vectors on elastic fields in anisotropic bicrystals
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6:1:54:9 3D defect structure of products in displacive phase transformations
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6:1:54:10 Martensite/austenite interfaces in ultrafine grained Fe-Ni-C alloy
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6:1:55:1 Thermal stability of ultrafine grains size of pure copper obtained by equal-channel angular pressing
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6:1:55:2 Effects of solutes on the thermal stability of nanotwinned materials
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6:1:55:3 Vacancies, twins, and the thermal stability of ultrafine-grained copper
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6:1:55:4 Thermal stability of highly nanotwinned copper: The role of grain boundaries and texture
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6:1:55:5 Thermal stability and strength of deformation microstructures in pure copper
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6:1:55:6 Thermal stability of nanotwinned and nanocrystalline microstructures produced by cryogenic shear deformation
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6:1:55:7 Controlling deformation and microstructure on machined surfaces
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6:1:55:8 Incipient straining in severe plastic deformation methods
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6:1:55:9 Analyses of route Bc equal channel angular pressing and post-equal channel angular pressing behavior by the finite element method
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6:1:55:11 Deformation field in large-strain extrusion machining and implications for deformation processing
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6:1:55:12 Columns formed by multiple twinning in nickel layers-An approach of grain boundary engineering by electrodeposition
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6:1:56:1 Atomistic study of the buckling of gold nanowires
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6:1:56:2 Modified beam theories for bending properties of nanowires considering surface/intrinsic effects and axial extension effect
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6:1:56:3 Bending properties of Ag nanowires with pre-existing surface defects
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6:1:56:4 A fundamental numerical and theoretical study for the vibrational properties of nanowires
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6:1:56:5 Theoretical and numerical investigation of bending properties of Cu nanowires
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6:1:56:6 Transverse resonant properties of strained gold nanowires
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6:1:56:7 Atomistic simulation of single crystal copper nanowires under tensile stress: Influence of silver impurities in the emission of dislocations
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6:1:56:8 The Influence of shearing and rotary inertia on the resonant properties of gold nanowires
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6:1:56:9 Numerical exploration of plastic deformation mechanisms of copper nanowires with surface defects
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6:1:56:10 Surface stress effects on the critical buckling strains of silicon nanowires
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6:1:56:11 Resonant frequency analysis of Timoshenko nanowires with surface stress for different boundary conditions
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6:1:56:12 Buckling of Cu-Zr-based metallic glasses nanowires: molecular dynamics study of surface effects
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6:1:57:1 Modeling of grain size effect on micro deformation behavior in micro-forming of pure copper
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6:1:57:2 Experimental studies and numerical modeling of the specimen and grain size effects on the flow stress of sheet metal in microforming
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6:1:57:3 Experimental studies of the size effect affected microscale plastic deformation in micro upsetting process
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6:1:57:4 Effect of Surface Nanocrystals on the Plastic Deformation Behavior in Micro Compression
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6:1:57:5 Experimental and simulation based study on micro-scaled sheet metal deformation behavior in microembossing process
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6:1:57:6 Temperature dependence and size effects on strain hardening mechanisms in copper polycrystals
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6:1:57:8 Size effects in micro cup drawing
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6:1:57:11 Analysis of the Size Effect on Springback Behavior in Micro-Scaled U-Bending Process of Sheet Metals
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6:1:57:12 Influence of size effect on the springback of sheet metal foils in micro-bending
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6:1:57:13 Modelling of size effects in microforming process with consideration of grained heterogeneity
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6:1:57:14 Size effect on material surface deformation behavior in micro-forming process
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6:1:57:15 Application of Drucker-Prager plasticity to predict fracture in rectangular cup drawing of AZ31 alloy sheet
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6:1:57:16 Specimen Dimension and Grain Size Effects on Deformation Behavior in Micro Tensile of SUS304 Stainless Steel Foil
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6:1:57:17 Texture evolution during micro-drawing of ultrafine grained copper
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6:1:58:1 Characterization of nickel-based microlattice materials with structural hierarchy from the nanometer to the millimeter scale
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6:1:58:2 Initiator-Integrated 3D Printing Enables the Formation of Complex Metallic Architectures
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6:1:58:3 Fabrication and Deformation of Metallic Glass Micro-Lattices
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6:1:58:4 Compressive strength of hollow microlattices: Experimental characterization, modeling, and optimal design
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6:1:58:5 Energy dissipation mechanisms in hollow metallic microlattices
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6:1:58:6 Catastrophic vs Gradual Collapse of Thin-Walled Nanocrystalline Ni Hollow Cylinders As Building Blocks of Microlattice Structures
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6:1:58:11 Tuning the surface chemistry of iPDMS for improved protein microarray performance
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6:1:58:12 Effect of the oxygen partial pressure on the toughness of tetragonal zirconia thin films for optical applications
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6:1:58:13 Inertial stabilization of flexible polymer micro-lattice materials
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6:1:58:14 Controlled wrinkle formation via bubble inflation strain engineering
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6:1:59:1 Nanoscale multiplane shear and twin deformation in nanowires and nanocrystalline solids
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6:1:59:2 Anisotropic and temperature effects on mechanical properties of copper nanowires under tensile loading
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6:1:59:3 Mechanical Deformation of Nanoscale Metal Rods: When Size and Shape Matter
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6:1:59:4 Influence of microstructures on mechanical behaviours of SiC nanowires: a molecular dynamics study
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6:1:59:5 Nanoscale amorphization as a special deformation mode in nanowires
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6:1:59:6 Correlation between quantum conductance and atomic arrangement of atomic-size silver nanowires
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6:1:59:7 Atomistic simulation of plasticity in silicon nanowires
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6:1:59:8 Temperature effects on the occurrence of long interatomic distances in atomic chains formed from stretched gold nanowires
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6:1:59:9 Orientation-dependent mechanical properties of Au nanowires under uniaxial loading
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6:1:59:10 The deformation behaviors of silver nanowires including 3D defects under tension
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6:1:59:11 Investigation on the mechanical behaviors of copper nanowires under torsion
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6:1:59:12 Temperature effects on the atomic arrangement and conductance of atomic-size gold nanowires generated by mechanical stretching
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6:1:59:13 Nanoscale Chemical and Structural Characterization of Transient Metallic Nanowires using Aberration-Corrected STEM-EELS
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6:1:60:1 Mechanical characteristics of nanocrystalline layers containing nanotwins induced by nanogrinding of soft-brittle CdZnTe single crystals
DOI:10.1016/j.scriptamat.2012.05.033 JN:SCRIPTA MATERIALIA PY:2012 TC:9 AU: Zhang, Zhenyu;Xu, Chaoge;Zhang, Xianzhong;Guo, Dongming;
6:1:60:2 Nanoscratch-induced phase transformation of monocrystalline Si
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6:1:60:3 New deformation mechanism of soft-brittle CdZnTe single crystals under nanogrinding
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6:1:60:4 Fabrication and size prediction of crystalline nanoparticles of silicon induced by nanogrinding with ultrafine diamond grits
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6:1:60:5 Phase transformation of single crystal silicon induced by grinding with ultrafine diamond grits
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6:1:60:6 A novel model for undeformed nanometer chips of soft-brittle HgCdTe films induced by ultrafine diamond grits
DOI:10.1016/j.scriptamat.2012.04.017 JN:SCRIPTA MATERIALIA PY:2012 TC:8 AU: Zhang, Zhenyu;Song, Yaxing;Xu, Chaoge;Guo, Dongming;
6:1:60:7 Atomic Structure and Electrical Properties of In(Te) Nanocontacts on CdZnTe(110) by Scanning Probe Microscopy
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6:1:60:8 Phase transitions in metastable phases of silicon
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6:1:60:9 Transmission electron microscopy characterization of the deformation of CdZnTe single crystals induced by nanoscratching
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6:1:60:10 Improvement in the mechanical performance of Czochralski silicon under indentation by germanium doping
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6:1:60:11 Mechanical properties and material removal characteristics of soft-brittle HgCdTe single crystals
DOI:10.1016/j.msea.2012.08.129 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:1 AU: Irwan, R.;Huang, H.;Zheng, H. Y.;Wu, H.;
6:1:60:12 Anomalous behavior of epitaxial indium nano-contacts on cadmium-zinc-telluride
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6:1:60:13 Lattice bending in monocrystalline GaAs induced by nanoscratching
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6:1:61:1 Interstitial and vacancy mediated transport mechanisms in perovskites: A comparison of chemistry and potentials
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6:1:61:2 Role of the interface on radiation damage in the SrTiO3/LaAlO3 heterostructure under Ne2+ ion irradiation
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6:1:61:3 The role of non-stoichiometric defects in radiation damage evolution of SrTiO3
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6:1:61:4 Interface-enhanced defect absorption between epitaxial anatase TiO2 film and single crystal SrTiO3
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6:1:61:5 Growth mechanisms for TiO2 at its rutile (110) surface
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6:1:61:6 Orientation-specific amorphization and intercalated recrystallization at ion-irradiated SrTiO3/MgO interfaces
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6:1:61:7 Role of Antisite Disorder on Preamorphization Swelling in Titanate Pyrochlores
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6:1:61:8 Radiation damage in heteroepitaxial BaTiO3 thin films on SrTiO3 under Ne ion irradiation
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6:1:61:9 Modeling evaporation, ion-beam assist, and magnetron sputtering of thin metal films over realistic time scales
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6:1:61:10 Modeling evaporation, ion-beam assist, and magnetron sputtering of TiO2 thin films over realistic timescales
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6:1:61:11 Line defects, planar defects and voids in SrTiO3 films grown on MgO by pulsed laser and pulsed laser interval deposition
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6:1:61:12 First-principles study of energetic and electronic properties of delta-Re6MO12 (Re = Ho, Gd, Y; M = U, W)
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6:1:62:1 In situ observation of the indentation-induced phase transformation of silicon thin films
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6:1:62:2 Temperature dependent deformation mechanisms in pure amorphous silicon
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6:1:62:3 Direct observation of phase transformation anisotropy in indented silicon studied by confocal Raman spectroscopy
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6:1:62:4 Distribution of residual strain around nanoindentations in silicon
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6:1:62:5 Measurement of residual stress field anisotropy at indentations in silicon
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6:1:62:6 Nanoindentation experiments with different loading rate distinguish the mechanism of incipient plasticity
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6:1:62:7 Anisotropic distribution of residual strain around conical nanoindentation in silicon
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6:1:62:8 Amorphous silicon under mechanical shear deformations: Shear velocity and temperature effects
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6:1:62:9 Evaluation of 3C-SiC/Si residual stress and curvatures along different wafer direction
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6:1:62:10 Crystallization of amorphous silicon induced by mechanical shear deformations
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6:1:62:11 Effect of residual stresses on the stability of bct-5 silicon
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6:1:62:12 Unexpected short- and medium-range atomic structure of sputtered amorphous silicon upon thermal annealing
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6:1:62:13 Study of microstructure deflections and film/substrate curvature under generalized stress fields and mechanical properties
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6:1:62:14 The indentation hardness of silicon measured by instrumented indentation: What does it mean?
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6:1:62:15 Correlation of indentation-induced phase transformations with the degree of relaxation of ion-implanted amorphous silicon
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6:1:62:16 Stress nature investigation on heteroepitaxial 3C-SiC film on (100) Si substrates
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6:1:62:17 Comparison of residual stress in deep boron diffused silicon (100), (110) and (111) wafers
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6:1:63:1 Microstructural evolution and its influence on creep and stress relaxation in nanocrystalline Ni
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6:1:63:2 A crossover from hardening to softening in nanocrystalline Ni by annealing and rolling
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6:1:63:3 Dislocation density evolution and interactions in crystalline materials
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6:1:63:4 Tensile-relaxation behavior of electrodeposited nanocrystalline Ni
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6:1:63:5 Optimal microstructures for martensitic steels
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6:1:63:6 Anisotropic tensile properties of recovery annealed aluminum alloy sheet
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6:1:63:7 Mathematical description of indentation creep and its application for the determination of strain rate sensitivity
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6:1:63:8 Experimental and computational investigation of the dynamic behavior of Al-Cu-Li alloys
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6:1:63:9 Dispersed particle and triple junction interactions in aluminum alloys
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6:1:63:10 Electrodeposition of Ni-B/SiC composite films with high hardness and wear resistance
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6:1:63:11 Deformation mechanisms of an Omega precipitate in a high-strength aluminum alloy subjected to high strain rates
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6:1:63:12 The deformation and fracture behavior of an electrodeposited nanocrystalline Ni under compression
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6:1:63:13 Dynamic crack nucleation, propagation, and interactions with crystalline secondary phases in aluminum alloys subjected to large deformations
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6:1:63:14 The effects of microstructural defects on hot spot formation in cyclotrimethylenetrinitramine-polychlorotrifluoroethylene energetic aggregates
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6:1:63:15 Microstructural evolution and mechanical properties of as-cast and T6-treated AA2195 DC cast alloy
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6:1:63:16 Investigation of mechanical properties and operative deformation mechanism in nano-crystalline Ni-Co/SiC electrodeposits
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6:1:63:17 Effect of manganese addition on the tensile properties of cold-rolled and recovery-annealed aluminum alloy sheets
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6:1:64:1 Temperature effect on ideal shear strength of Al and Cu
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6:1:64:2 A universal scaling of planar fault energy barriers in face-centered cubic metals
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6:1:64:3 Temperature effects on the generalized planar fault energies and twinnabilities of Al, Ni and Cu: First principles calculations
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6:1:64:4 Ideal strength and structural instability of aluminum at finite temperatures
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6:1:64:5 Ab initio tensile tests of Al bulk crystals and grain boundaries: Universality of mechanical behavior
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6:1:64:6 Screw-dislocation constrictions in face-centered cubic crystals
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6:1:64:7 The mechanical shear behavior of Al single crystals and grain boundaries
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6:1:64:8 Structure of a 2 degrees (010) Cu twist boundary interface and the segregation of vacancies and He atoms
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6:1:64:10 Generalized planar fault energies and mechanical twinning in gamma TiAl alloys
DOI:10.1016/j.scriptamat.2012.12.032 JN:SCRIPTA MATERIALIA PY:2013 TC:5 AU: Wen, Y. F.;Sun, J.;
6:1:65:1 Fatigue of 1 mu m-scale gold by vibration with reduced resonant frequency
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6:1:65:2 Cu/Si interface fracture due to fatigue of copper film in nanometer scale
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6:1:65:3 Characteristic features of slip bands in submicron single-crystal gold component produced by fatigue
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6:1:65:4 Interface crack initiation due to nano-scale stress concentration
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6:1:65:5 Size dependence of fatigue damage in sub-micrometer single crystal gold
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6:1:65:6 Evaluation on plastic deformation property of copper nano-film by nano-scale cantilever specimen
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6:1:65:7 Fatigue strength of the Cu/Si interface in nano-components
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6:1:65:8 Effect of environment on fatigue strength of Cu/Si interface in nanoscale components
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6:1:65:9 Formation of slip bands in poly-crystalline nano-copper under high-cycle fatigue of fully-reversed loading
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6:1:65:10 Dislocation arrangements in cyclically deformed Au single crystal
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6:1:65:11 Effect of microscopic structure on deformation in nano-sized copper and Cu/Si interfacial cracking
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6:1:66:1 Tensile and compressive mechanical behavior of twinned silicon carbide nanowires
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6:1:66:2 Defects and Doping in One-Dimensional SiC Nanostructures
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6:1:66:3 Effects of irradiation on the mechanical behavior of twined SiC nanowires
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6:1:66:4 First principles study of the electronic properties of twinned SiC nanowires
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6:1:66:5 Nanoscale twinning-induced elastic strengthening in silicon carbide nanowires
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6:1:66:6 Codoping of magnesium with oxygen in gallium nitride nanowires
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6:1:66:7 Design of Twin Structures in SiC Nanowires
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6:1:66:8 Probing the Effect of Applied Electric Field in Charge Density Distribution and Electrostatic Properties of Au Substituted Saturated Polycyclic Hydrocarbon Molecular Nanowires via Quantum Chemical and Charge Density Study
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6:1:66:9 Mechanical behavior of twinned SiC nanowires under combined tension-torsion and compression-torsion strain
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6:1:66:10 Electronic Structure, Optical Properties and Electronic Conductivity of Silicon Carbide Nanowires
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6:1:66:11 Study on silicon carbide nanowires produced from carbon blacks and structure of carbon blacks
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6:1:66:12 Thermal conductivity of bulk GaN-Effects of oxygen, magnesium doping, and strain field compensation
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6:1:66:13 First principles study of p-type doping in SiC nanowires: role of quantum effect
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6:1:66:14 Self-assembled crystalline silicon carbide Y junctions by coalescence of nucleated iron catalysts
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6:1:66:15 Assessment of the surface chemistry of carbon blacks by TGA-MS, XPS and inverse gas chromatography using statistical chemometric analysis
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6:1:66:16 Preparation and photoluminescence of netlike and curved beta-SiC nanostructures
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6:1:67:1 Generalized type III internal stress from interfaces, triple junctions and other microstructural components in nanocrystalline materials
DOI:10.1016/j.actamat.2013.04.048 JN:ACTA MATERIALIA PY:2013 TC:1 AU: Guo, Yong-Bo;Xu, Tao;Li, Mo;
6:1:67:2 Geometric methods for microstructure rendition and atomic characterization of poly- and nano-crystalline materials
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6:1:67:3 Hierarchical dislocation nucleation controlled by internal stress in nanocrystalline copper
DOI:10.1063/1.4811791 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Guo, Yong-Bo;Xu, Tao;Li, Mo;
6:1:67:4 Quantifying microstructures in isotropic grain growth from phase field modeling: Methods
DOI:10.1016/j.actamat.2012.05.040 JN:ACTA MATERIALIA PY:2012 TC:3 AU: Xu, Tao;Sarkar, Sanket;Li, Mo;Wang, Yunzhi;
6:1:67:5 Atomistic calculation of internal stress in nanoscale polycrystalline materials
DOI:10.1080/14786435.2012.685963 JN:PHILOSOPHICAL MAGAZINE PY:2012 TC:5 AU: Guo, Yong-Bo;Xu, Tao;Li, Mo;
6:1:67:6 Realistic nano-polycrystalline microstructures: beyond the classical Voronoi tessellation
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6:1:67:7 Topological and atomic scale characterization of grain boundary networks in polycrystalline and nanocrystalline materials
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6:1:67:8 Quantifying microstructures in isotropic grain growth from phase field modeling: Topological properties
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6:1:67:9 Analysis of periodic dislocation networks using x-ray diffraction and extended finite element modeling
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6:1:67:10 X-ray diffraction from hexagonal dislocation networks
DOI:10.1080/14786435.2014.956837 JN:PHILOSOPHICAL MAGAZINE PY:2014 TC:0 AU: Kopp, Viktor S.;Kaganer, Vladimir M.;
6:1:67:11 Atomistic interpretation of microstrain in diffraction line profile analysis
DOI:10.1016/j.tsf.2012.05.037 JN:THIN SOLID FILMS PY:2013 TC:1 AU: Leonardi, Alberto;Leoni, Matteo;Scardi, Paolo;
6:1:67:12 Atomistic modeling and HRTEM analysis of misfit dislocations in InN/GaN heterostructures
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6:1:67:13 Tension-compression asymmetry in nanocrystalline Cu: High strain rate vs. quasi-static deformation
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6:1:67:14 Atomistic modelling of polycrystalline microstructures: An evolutional approach to overcome topological restrictions
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6:1:68:1 Size-Dependent Fracture Mode Transition in Copper Nanowires
DOI:10.1002/smll.201101911 JN:SMALL PY:2012 TC:17 AU: Peng, Cheng;Zhan, Yongjie;Lou, Jun;
6:1:68:2 Quantitative in situ TEM tensile testing of an individual nickel nanowire
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6:1:68:3 Yield strength dependence on strain rate of molybdenum-alloy nanofibers
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6:1:68:4 Strain rate dependent mechanical properties in single crystal nickel nanowires
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6:1:68:5 Size dependent mechanical properties of single crystalline nickel nanowires
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6:1:68:6 High resolution transmission electron microscopic in-situ observations of plastic deformation of compressed nanocrystalline gold
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6:1:68:7 Approaching theoretical strengths by synergistic internal and external size refinement
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6:1:68:8 Effect of orientation and loading rate on compression behavior of small-scale Mo pillars (vol 508, pg 241, 2009)
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6:1:69:1 Anomalous yielding in the complex metallic alloy Al13Co4
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6:1:69:2 Indentation creep revisited
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6:1:69:3 Estimating the stress exponent of nanocrystalline nickel: Sharp vs. spherical indentation
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6:1:69:4 Evaluation of strain rate sensitivity by constant load nanoindentation
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6:1:69:5 Room temperature creep in amorphous alloys: Influence of initial strain and free volume
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6:1:69:6 Room-temperature anelasticity and viscoplasticity of Cu-Zr bulk metallic glasses evaluated using nanoindentation
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6:1:69:7 Nanoscale mechanical behavior of vanadium doped ZnO piezoelectric nanofiber by nanoindentation technique
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6:1:69:8 Room-temperature creep of nanoporous silica
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6:1:70:1 Highly optimized embedded-atom-method potentials for fourteen fcc metals
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6:1:70:2 The sintering and densification behaviour of many copper nanoparticles: A molecular dynamics study
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6:1:70:3 Molecular dynamics simulation of the sintering of metallic nanoparticles
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6:1:70:4 Crystal plasticity of Cu nanocrystals during collision
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6:1:70:5 Multiscale quantum/atomistic coupling using constrained density functional theory
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6:1:70:6 Atomistic modeling of lattice relaxation in metallic nanocrystals
DOI:10.1016/j.tsf.2012.07.063 JN:THIN SOLID FILMS PY:2013 TC:2 AU: Gelisio, L.;Beyerlein, K. R.;Scardi, P.;
6:1:70:7 Molecular dynamics simulation of neck growth in laser sintering of different-sized gold nanoparticles under different heating rates
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6:1:70:8 Size-dependent surface energy density of typically fcc metallic nanomaterials
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6:1:70:9 Gupta potential for alkaline earth metals: Calcium and strontium
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6:1:70:10 Molecular dynamics simulation of stress field around edge dislocations in Aluminum
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6:1:70:11 Interface energy and its influence on interface fracture between metal and ceramic thin films in nanoscale
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6:1:70:12 A reactive molecular dynamic simulation of oxidation of a silicon nanocluster
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6:1:70:13 Application of the Debye function to systems of crystallites
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6:1:70:14 Atomistic modelling of lattice relaxation in metallic nanocrystals (vol 530C, pg 35, 2013)
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6:1:71:1 Dislocation storage in single slip-oriented Cu micro-tensile samples: new insights via X-ray microdiffraction
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6:1:71:2 Microshear deformation of gold single crystals
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6:1:71:3 Impact of instrumental constraints and imperfections on the dislocation structure in micron-sized Cu compression pillars
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6:1:71:4 Investigation of reversible plasticity in a micron-sized, single crystalline copper bending beam by X-ray mu Laue diffraction
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6:1:71:5 In Situ mu Laue: Instrumental Setup for the Deformation of Micron Sized Samples
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6:1:71:6 Expected and unexpected plastic behavior at the micron scale: An in situ mu Laue tensile study
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6:1:72:1 Grain boundary orientation effects on deformation of Ta bicrystal nanopillars under high strain-rate compression
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6:1:72:2 Shock-induced plasticity in tantalum single crystals: Interatomic potentials and large-scale molecular-dynamics simulations
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6:1:72:3 Superelasticity in bcc nanowires by a reversible twinning mechanism
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6:1:72:4 Inverse martensitic transformation in Zr nanowires
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6:1:72:5 Deformation twins in nanocrystalline body-centered cubic Mo as predicted by molecular dynamics simulations
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6:1:72:6 Pseudo-elasticity and ultra-high recoverable strain in cobalt nanowire: A molecular dynamics study
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6:1:72:7 Shock-induced plasticity in tantalum single crystals: Interatomic potentials and large-scale molecular-dynamics simulations (vol 88, 134101, 2013)
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6:1:73:1 What is "stationary" deformation of pure Cu?
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6:1:73:2 Deformation resistance in the transition from coarse-grained to ultrafine-grained Cu by severe plastic deformation up to 24 passes of ECAP
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6:1:73:7 Basic model for primary and secondary creep in copper
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6:1:73:9 Change in electrical resistivity of commercial purity aluminium severely plastic deformed
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6:1:73:11 A study on cryogenic temperature ECAP on the and mechanical properties of Al-Mg alloy
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6:1:73:12 Creep crack growth in phosphorus alloyed oxygen free copper
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6:1:74:2 Size-affected single-slip behavior of Rene N5 microcrystals
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6:1:74:3 An experimental investigation of intermittent flow and strain burst scaling behavior in LiF crystals during microcompression testing
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6:1:74:4 Higher-order gradient effects in micropillar compression
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6:1:74:5 Self-energy of elliptical dislocation loops in anisotropic crystals and its application for defect-free core/shell nanowires
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6:1:74:6 Interpreting the stress-strain response of Al micropillars through gradient plasticity
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6:1:74:7 Elastoplastic buckling as source of misinterpretation of micropillar tests
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6:1:74:8 Determination of the critical resolved shear stress and the friction stress in austenitic stainless steels by compression of pillars extracted from single grains
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6:1:74:9 Strengthening and plastic flow of Ni3Al alloy microcrystals
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6:1:74:10 Dislocation mechanisms of radius effect on displacement bursts during spherical nanoindentations
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6:1:74:11 Statistical heterogeneity of plastic deformation: An investigation based on surface profilometry
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6:1:75:2 Quasicontinuum study on formation of fivefold deformation twin in nanocrystalline aluminum
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6:1:75:3 Position effect of cylindrical indenter on nanoindentation into Cu thin film by multiscale analysis
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6:1:75:4 Quasicontinuum study the influence of misfit dislocation interactions on nanoindentation
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6:1:75:5 Effect of surface step on nanoindentation of thin films by multiscale analysis
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6:1:75:6 Effect of microstructure on the nanomechanical properties of Zn1-xCdxSe alloys
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6:1:75:7 Mechanical responses of Zn1-xMnxO epitaxial thin films
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6:1:75:8 Multiscale simulations of wedged nanoindentation on nickel
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6:1:75:10 Verification of the applicability of classical contact theories for nanoscale contact problems using multiscale simulation
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6:1:75:14 Nanoscratch behavior of Zn1-xCdxSe heteroepitaxial layers
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6:1:75:15 Quantum mechanical simulations of nanoindentation of Al thin film
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6:1:76:1 Relationship between hardness and dislocation processes in a nanocrystalline metal at the atomic scale
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6:1:76:2 Molecular dynamic simulations of nanoindentation in aluminum thin film on silicon substrate
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6:1:76:3 Nanoindentation and plasticity in nanocrystalline Ni nanowires: A case study in size effect mitigation
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6:1:76:4 Quasicontinuum study of the shear behavior of defective tilt grain boundaries in Cu
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6:1:76:6 Effect of boundary conditions on the MD simulation of nanoindentation
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6:1:76:7 Interactions Between Copper and Silicon Nanofilms with Nanogap: A Molecular Dynamics Investigation
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6:1:76:8 Effect of the Sigma 5(310)/[001]theta=53.1 degrees grain boundary on the incipient yield of bicrystal copper: A quasicontinuum simulation and nanoindentation experiment
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6:1:76:9 Multiscale computational modeling of deformation mechanics and intergranular fracture in nanocrystalline copper
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6:1:76:10 Multiscale modeling of nanoindentation in copper thin films via the concurrent coupling of the meshless Hermite-Cloud method with molecular dynamics
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6:1:76:12 Plastic flattening of a sinusoidal metal surface: A discrete dislocation plasticity study
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6:1:77:1:1 Guidance to design grain boundary mobility experiments with molecular dynamics and phase-field modeling
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6:1:77:1:4 Phase field simulations of elastic deformation-driven grain growth in 2D copper polycrystals
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6:1:77:2:2 Directional annealing studies on rapidly solidified Sm-Co-Nb-C alloys
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6:1:77:2:3 Anisotropic nanostructured magnets by magnetic-field-assisted processing
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6:1:77:4:1 Texture development in Fe-3.0 mass% Si during high-temperature deformation: Examination of the preferential dynamic grain growth mechanism
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6:1:77:4:2 {001} Texture Map of AA5182 Aluminum Alloy for High Temperature Uniaxial Compression
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6:1:77:4:3 Investigation of work softening mechanisms and texture in a hot deformed 6061 aluminum alloy at high temperature
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6:1:78:1 Grain growth studies on nanocrystalline Ni powder
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6:1:78:2 Nanoscale planar faulting in nanocrystalline Ni-W thin films: Grain growth, segregation, and residual stress
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6:1:78:5 Non-monotonic lattice parameter variation with crystallite size in nanocrystalline solids
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6:1:78:6 The dislocation density and twin-boundary frequency determined by X-ray peak profile analysis in cold rolled magnetron-sputter deposited nanotwinned copper
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6:1:78:7 The thermal stability of Ni-Mo and Ni-W thin films: Solute segregation and planar faults
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6:1:78:8 The microstructural evolution and thermal stability of nanocrystalline ball-milled Ni-15 at.% W powder
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6:1:79:1 Emerging materials for microelectromechanical systems at elevated temperatures
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6:1:79:2 Deformation and fracture of single-crystal silicon theta-like specimens
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6:1:79:3 Tensile mechanical behaviors of cubic silicon carbide thin films
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6:1:79:4 The influence of tungsten on the thermal stability and mechanical behavior of electrodeposited nickel MEMS structures
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6:1:79:5 Development of Ni-based superalloys for microelectromechanical systems
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6:1:79:6 Stress mapping of micromachined polycrystalline silicon devices via confocal Raman microscopy
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6:1:79:7 Decoupling small-scale roughness and long-range features on deep reactive ion etched silicon surfaces
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6:1:79:8 Properties of sputter deposited Ni-base superalloys for microelectromechanical systems
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6:1:79:11 Effects of size and surface on the elasticity of silicon nanoplates: Molecular dynamics and semi-continuum approaches
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6:1:80:1 Non-planar grain boundary structures in fcc metals and their role in nano-scale deformation mechanisms
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6:1:80:2 Evolution of structure and free volume in symmetric tilt grain boundaries during dislocation nucleation
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6:1:80:3 Damage nucleation from repeated dislocation absorption at a grain boundary
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6:1:80:4 Relationship between localized strain and irradiation assisted stress corrosion cracking in an austenitic alloy
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6:1:80:5 Dynamic crack propagation in copper bicrystals grain boundary by atomistic simulation
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6:1:80:6 The interactions of self-interstitials with twin boundaries
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6:1:80:7 Simulated defect growth avalanches during deformation of nanocrystalline copper
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6:1:80:8 Athermal critical stresses for dislocation propagation in nanocrystalline aluminium
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6:1:81:1 Dislocations with edge components in nanocrystalline bcc Mo
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6:1:81:2 On the mechanism of anomalous slip in bcc metals
DOI:10.1016/j.msea.2010.09.017 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:12 AU: Hsiung, Luke L.;
6:1:81:3 Topological analysis of {110} slip in an alpha-iron crystal from in situ atomic force microscopy
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6:1:81:4 Dislocation junctions as indicators of elementary slip planes in body-centered cubic metals
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6:1:81:5 Origin of Anomalous Slip in Tungsten
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6:1:81:6 Atypical "boomerang" slip traces in [001] niobium single crystals deformed at room temperature
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6:1:81:7 Investigation of active slip-systems in some body-centered cubic metals
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6:1:81:8 Plastic material parameters and plastic anisotropy of tungsten single crystal: a spherical micro-indentation study
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6:1:81:9 Expectable specific features of BCC crystal plastic flow and consistency with the Schmid law
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6:1:82:1 Strain-hardening in submicron silicon pillars and spheres
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6:1:82:2 A review of models for single particle compression and their application to silica microspheres
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6:1:82:3 Small size strength dependence on dislocation nucleation
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6:1:82:4 Real time TEM observation of alumina ceramic nano-particles during compression
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6:1:82:5 Smaller is tougher
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6:1:82:6 Grinding in an air classifier mill - Part I: Characterisation of the one-phase flow
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6:1:82:7 Mechanical behavior law of ceramic nanoparticles from transmission electron microscopy in situ nano-compression tests
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6:1:82:8 Grinding in an air classifier mill - Part II: Characterisation of the two-phase flow
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6:1:82:9 Phase transformations, dislocations and hardening behavior in uniaxially compressed silicon nanospheres
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6:1:82:10 Dislocation morphology and nucleation within compressed Si nanospheres: A molecular dynamics study
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6:1:83:1 Size effect on fracture toughness of freestanding copper nano-films
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6:1:83:2 Effects of stress ratio on fatigue crack propagation properties of submicron-thick free-standing copper films
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6:1:83:3 The effect of thickness on the steady-state creep properties of freestanding aluminum nano-films
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6:1:83:4 Creation of freestanding wrinkled nano-films with desired deformation properties by controlling the surface morphology of a sacrificial layer
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6:1:83:5 Experimental study on tensile bifurcation of nanoscale Cu film bonded to polyethylene terephthalate substrate
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6:1:83:6 Assessment of mechanical properties of metallic thin-films through micro-beam testing
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6:1:83:7 Residual plastic strain recovery driven by grain boundary diffusion in nanocrystalline thin films
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6:1:83:8 Realization of freestanding wrinkled thin films with flexible deformability
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6:1:83:9 Fatigue Crack Growth and Related Microstructure Evolution in Ultrafine Grain Copper Processed by ECAP
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6:1:83:10 Numerical analysis of the indentation size effect using a strain gradient crystal plasticity model
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6:1:84:1 Fabrication of in situ Ni(W)-WC nano composites via mechanical alloying and spark plasma sintering
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6:1:84:2 Microstructural evolution of mechanically alloyed and spark plasma sintered Ni-W alloy matrix composites
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6:1:84:3 Characterization investigations during mechanical alloying and sintering of Ni-W solid solution alloys dispersed with WC and Y2O3 particles
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6:1:84:4 The heat treatment effect on the structure and mechanical properties of electrodeposited nano grain size Ni-W alloy coatings
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6:1:84:5 Grain growth and sintering characteristics of Ni-Cu alloy nanopowders consolidated by the spark plasma sintering method
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6:1:84:6 Elevated temperature deformation behavior of spark plasma sintered nanometric nickel with varied grain size distributions
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6:1:84:7 Ni-WC composite coatings by carburizing electrodeposited amorphous and nanocrystalline Ni-W alloys
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6:1:85:1 Viscous Rayleigh-Taylor Instability Experiments at High Pressure and Strain Rate
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6:1:85:2 Force-matched embedded-atom method potential for niobium
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6:1:85:3 Strain rate and orientation dependencies of the strength of single crystalline copper under compression
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6:1:85:4 Contributions of the embedded-atom method to materials science and engineering
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6:1:85:5 Metal deformation and phase transitions at extremely high strain rates
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6:1:85:6 Response embedded atom method of interatomic potentials
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6:1:85:7 Comment on "Viscous Rayleigh-Taylor Instability Experiments at High Pressure and Strain Rate" Reply
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6:1:85:8 Comment on "Viscous Rayleigh-Taylor Instability Experiments at High Pressure and Strain Rate"
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6:1:86:1 Deformation mechanisms in micron-sized PST TiAl compression samples: Experiment and model
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6:1:86:2 Evaluation of the block boundary and sub-block boundary strengths of ferrous lath martensite using a micro-bending test
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6:1:86:3 Reversible-irreversible plasticity transition in twinned copper nanopillars
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6:1:86:4 Microtension behaviour of TiAl polysynthetically twinned crystals with 0 degrees- and 90 degrees-oriented lamellae
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6:1:86:5 Size effects in twinned nanopillars
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6:1:86:6 Microtension behaviour of lenticular martensite structure of Fe-30 mass% Ni alloy
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6:1:86:7 Molecular dynamics simulations of compression tension asymmetry in plasticity of Fe nanopillars
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6:1:86:8 Micro-tension behaviour of lath martensite structures of carbon steel
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6:1:86:9 Micromechanical characterization of deformation behavior in ferrous lath martensite
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6:1:86:10 Characterization of deformation-induced structural change of Pd78Cu6Si16 metallic glass using a micro-sized cantilever-beam specimen
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6:1:87:1 High strength Mg/Nb nanolayer composites
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6:1:87:2 First-principles study of the structure of Mg/Nb multilayers
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6:1:87:3 First-principles studies of the structural, electronic and optical properties of dinitrides CN2, SiN2 and GeN2
DOI:10.1016/j.commatsci.2014.07.003 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:0 AU: Manyali, George S.;Warmbier, Robert;Quandt, Alexander;
6:1:87:4 Microcantilever bend testing and finite element simulations of HIP-ed interface-free bulk Al and Al-Al HIP bonded interfaces
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6:1:87:5 Ab initio study of elastic properties of super hard and graphitic structures of C3N4
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6:1:87:6 Elastic and structural instability of cubic Sn3N4 and C3N4 under pressure
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6:1:87:7 Computational study of the structural, electronic and optical properties of M2N2(NH): M = C, Si, Ge, Sn
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6:1:87:8 Lithium-doped triazine-based graphitic C3N4 sheet for hydrogen storage at ambient temperature
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6:1:87:9 Large strain deformation of bimodal layer thickness Cu/Nb nanolamellar composites
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6:1:87:10 Preface to the viewpoint set on the strengthening effect of nanoscale twins
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6:1:88:1 Growth of single-walled Ag and Cu nanotubes confined in carbon nanotubes, studied by molecular dynamics simulations
DOI:10.1063/1.4811368 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:3 AU: Han, Yang;Li, Rui;Ge, Yong;Dong, Jinming;
6:1:88:2 Intrinsic Stability of the Smallest Possible Silver Nanotube
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6:1:88:3 Near-ideal strength in metal nanotubes revealed by atomistic simulations
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6:1:88:4 Vibrational properties between silver (4,4) nanotube and nanowire
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6:1:88:5 Electronic and structural properties of ultrathin tungsten nanowires and nanotubes by density functional theory calculation
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6:1:88:6 Strong Hall-Petch Type Behavior in the Elastic Strain Limit of Nanotwinned Gold Nanowires
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6:1:88:7 Repulsive force of twin boundary on curved dislocations and its role on the yielding of twinned nanowires
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6:1:88:8 Ag nanotubes and Ag/AgCl electrodes in nanoporous membranes
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6:1:88:9 Surface segregation of bimetallic alloys in nanoscale confinement
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6:1:88:10 Strain-induced structural transformation of a silver nanowire
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6:1:89:1 Influence of grain size on the density of deformation twins in Cu-30%Zn alloy
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6:1:89:2 Plasticity Initiation and Evolution during Nanoindentation of an Iron-3% Silicon Crystal
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6:1:89:3 Characterization of local deformation behavior of Fe-Ni lenticular martensite by nanoindentation
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6:1:89:4 Direct observation of plastic deformation in iron-3% silicon single crystal by in situ nanoindentation in transmission electron microscopy
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6:1:89:5 A tension stress loading unit designed for characterizing indentation response of single crystal silicon under tension stress
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6:1:89:6 Evolution of nanostructure in alpha-brass upon cryorolling
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6:1:89:7 Mechanical properties and dry-sliding tribological behavior of partially twinned Fe70Ni30 alloy
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6:1:89:8 Load Effects on Nanoindentation Behaviour and Microstructural Evolution of Single-Crystal Silicon
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6:1:90:1 The effects of the finest grains on the mechanical behaviours of nanocrystalline materials
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6:1:90:2 Localized strain and heat generation during plastic deformation in nanocrystalline Ni and Ni-Fe
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6:1:90:3 Modeling the strain-hardening effect and plastic deformation of nanocrystalline FCC metals dispersed with the finest grains
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6:1:90:4 Deformation twinning mechanism and its effects on the mechanical behaviors of ultrafine grained and nanocrystalline copper
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6:1:90:5 Multi-scale modeling of shear banding in fully dense nanocrystalline Ni sheet
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6:1:90:6 Strain localization of fully dense nanocrystalline Ni sheet
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6:1:90:7 Nanomagnetism in nanocrystalline multiferroic bismuth ferrite lead titanate films
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6:1:90:8 Investigation of shear-banding mechanism in fully dense nanocrystalline Ni sheet
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6:1:90:9 Void evolution in nanocrystalline metal film under uniform tensile stress
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6:1:90:10 Effect of twin boundaries on nanovoid growth based on dislocation emission
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6:1:90:11 High-energy mesoscale strips observed in two-dimensional atomistic modeling of plastic deformation of nano-polycrystal
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6:1:91:1 Atomic and electronic structures of alpha-Al2O3 surfaces
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6:1:91:2 Mechanism for adsorption, dissociation and diffusion of hydrogen in hydrogen permeation barrier of alpha-Al2O3: A density functional theory study
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6:1:91:3 First-principles assessment of hydrogen absorption into FeAl and Fe3Si: Towards prevention of steel embrittlement
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6:1:91:4 Energetics and diffusion of hydrogen in hydrogen permeation barrier of alpha-Al2O3/FeAl with two different interfaces
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6:1:91:5 An atomic study of hydrogen effect on the early stage oxidation of transition metal surfaces
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6:1:91:6 Mechanisms for adsorption, dissociation and diffusion of hydrogen in hydrogen permeation barrier of alpha-Al2O3: The role of crystal orientation
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6:1:91:7 Surface coating with a high resistance to hydrogen entry under high-pressure hydrogen-gas environment
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6:1:91:8 Synthesis of ultra-thin oxide layer in laser-treated 3x (Al/Fe)/Si multilayer structure
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6:1:91:9 Nitridation of Al2O3 Surfaces: Chemical and Structural Change Triggered by Oxygen Desorption
DOI:10.1103/PhysRevLett.110.026101 JN:PHYSICAL REVIEW LETTERS PY:2013 TC:1 AU: Akiyama, Toru;Saito, Yasutaka;Nakamura, Kohji;Ito, Tomonori;
6:1:91:10 Ab initio-based approach to elemental nitridation process of alpha-Al2O3
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6:1:92:1 Minimum Threshold for Incipient Plasticity in the Atomic-Scale Nanoindentation of Au(111)
DOI:10.1103/PhysRevLett.110.135506 JN:PHYSICAL REVIEW LETTERS PY:2013 TC:10 AU: Paul, William;Oliver, David;Miyahara, Yoichi;Gruetter, Peter H.;
6:1:92:2 Open source scanning probe microscopy control software package GXSM
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6:1:92:3 Implementation of atomically defined field ion microscopy tips in scanning probe microscopy
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6:1:92:4 Microstructure and magnetic disorder induced by nanoindentation in single-crystalline Fe
DOI:10.1103/PhysRevB.89.104105 JN:PHYSICAL REVIEW B PY:2014 TC:0 AU: Wang, Binjun;Gao, Yu;Urbassek, Herbert M.;
6:1:92:5 Transient adhesion and conductance phenomena in initial nanoscale mechanical contacts between dissimilar metals
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6:1:92:6 FIM tips in SPM: Apex orientation and temperature considerations on atom transfer and diffusion
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6:1:92:7 Surface oxidation of GaN(0001): Nitrogen plasma-assisted cleaning for ultrahigh vacuum applications
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6:1:92:8 One-to-one spatially matched experiment and atomistic simulations of nanometre-scale indentation
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6:1:92:9 Simple Si(111) surface preparation by thin wafer cleavage
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6:1:93:1 Phase-specific elastic/plastic interface interactions in layered NiAl-Cr(Mo) structures
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6:1:93:2 Deformation dynamics study of a wrought magnesium alloy by real-time in situ neutron diffraction
DOI:10.1016/j.scriptamat.2013.05.008 JN:SCRIPTA MATERIALIA PY:2013 TC:7 AU: Wu, Wei;An, Ke;Huang, Lu;Lee, Soo Yeol;Liaw, Peter K.;
6:1:93:3 Indentation-induced localized deformation and elastic strain partitioning in composites at submicron length scale
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6:1:93:4 Synchrotron X-ray diffraction measurements of internal stresses during loading of steel-based metal matrix composites reinforced with TiB2 particles
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6:1:93:5 Revealing the cyclic hardening mechanism of an austenitic stainless steel by real-time in situ neutron diffraction
DOI:10.1016/j.scriptamat.2014.06.021 JN:SCRIPTA MATERIALIA PY:2014 TC:4 AU: Yu, D.;An, K.;Chen, Y.;Chen, X.;
6:1:93:6 Phase-specific deformation behavior of a relatively tough NiAl-Cr(Mo) lamellar composite
DOI:10.1016/j.scriptamat.2014.04.025 JN:SCRIPTA MATERIALIA PY:2014 TC:0 AU: Yu, D.;Bei, H.;Chen, Y.;George, E. P.;An, K.;
6:1:93:7 Interface structure and chemistry in a novel steel-based composite Fe-TiB2 obtained by eutectic solidification
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6:1:93:8 Micro-deformation mechanism of Zr-based metallic glass/porous tungsten composite by in-situ high-energy X-ray diffraction and finite element modeling
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6:1:93:9 An in situ high-energy X-ray diffraction study of micromechanical behavior of Zr-based metallic glass reinforced porous W matrix composite
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6:1:94:1 Grain-boundary strengthening in nanocrystalline chromium and the Hall-Petch coefficient of body-centered cubic metals
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6:1:94:2 Determining the activation energies and slip systems for dislocation nucleation in body-centered cubic Mo and face-centered cubic Ni single crystals
DOI:10.1016/j.scriptamat.2011.03.036 JN:SCRIPTA MATERIALIA PY:2011 TC:13 AU: Wang, L.;Bei, H.;Li, T. L.;Gao, Y. F.;George, E. P.;Nieh, T. G.;
6:1:94:3 Hall-Petch Breakdown at Elevated Temperatures
DOI:10.2320/matertrans.MA201309 JN:MATERIALS TRANSACTIONS PY:2014 TC:2 AU: Schneibel, Joachim H.;Heilmaier, Martin;
6:1:94:4 Grain size dependent strain rate sensitivity in nanocrystalline body-centered cubic metal thin films
DOI:10.1016/j.msea.2014.04.080 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Zhou, Q.;Zhao, J.;Xie, J. Y.;Wang, F.;Huang, P.;Lu, T. J.;Xu, K. W.;
6:1:94:5 Determination of the mechanical behavior of lithium disilicate glass ceramics by nanoindentation & scanning probe microscopy
DOI:10.1016/j.matchemphys.2014.09.015 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:1 AU: Smith, Calvin M.;Jiang, Danyu;Gong, Jianghong;Yin, Ling;
6:1:94:6 Surface morphology and fracture in handpiece adjusting of a leucite-reinforced glass ceramic with coarse diamond burs
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6:1:94:7 Cutting characteristics of dental glass ceramics during in vitro dental abrasive adjusting using a high-speed electric handpiece
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6:1:95:1 Fragmentation pathways of nanofractal structures on surfaces
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6:1:95:2 Defect-induced shift of the Peierls transition in TTF-TCNQ thin films
DOI:10.1016/j.synthmet.2011.03.003 JN:SYNTHETIC METALS PY:2011 TC:9 AU: Solovyeva, Vita;Huth, Michael;
6:1:95:3 Fullerene-based one-dimensional crystalline nanopolymer formed through topochemical transformation of the parent nanowire
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6:1:95:4 Molecular dynamics simulations of the nanoindentation process of titanium crystal
DOI:10.1016/j.commatsci.2013.02.015 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:7 AU: Verkhovtsev, Alexey V.;Yakubovich, Alexander V.;Sushko, Gennady B.;Hanauske, Matthias;Solov'yov, Andrey V.;
6:1:95:5 Stochastic coarsening model for Pb islands on a Si(111) surface
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6:1:95:6 Computer simulation of diffusion process at interfaces of nickel and titanium crystals
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6:1:95:7 One-Pot Radical Polymerization of One Inimer to Form One-Dimensional Polymeric Nanomaterials
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6:1:95:8 Evaporation temperature-tuned physical vapor deposition growth engineering of one-dimensional non-Fermi liquid tetrathiofulvalene tetracyanoquinodimethane thin films
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6:1:95:9 Kinetically driven shape changes in early stages of two-dimensional island coarsening: Ag/Ag(111)
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6:1:95:10 Kinetics of liquid-solid phase transition in large nickel clusters
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6:1:95:11 Tetrathiafulvalene-tetracyanoquinodimethane thin films grown by physical vapor deposition: Influence of substrate structures and substrate materials
DOI:10.1016/j.tsf.2013.04.097 JN:THIN SOLID FILMS PY:2014 TC:1 AU: Maruo, Yasuko Y.;Maruno, Tohru;
6:1:96:1 Effects of nano-scale grain boundaries in Cu on its Bauschinger's effect and response to cyclic deformation
DOI:10.1016/j.msea.2013.06.050 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:1 AU: Zhu, D.;Zhang, H.;Li, D. Y.;
6:1:96:2 A closer look at the local responses of twin and grain boundaries in Cu to stress at the nanoscale with possible transition from the P-H to the inverse P-H relation
DOI:10.1016/j.actamat.2009.12.054 JN:ACTA MATERIALIA PY:2010 TC:10 AU: Yue, L.;Zhang, H.;Li, D. Y.;
6:1:96:3 Defect generation in nano-twinned, nano-grained and single crystal Cu systems caused by wear: A molecular dynamics study
DOI:10.1016/j.scriptamat.2010.08.019 JN:SCRIPTA MATERIALIA PY:2010 TC:8 AU: Yue, L.;Zhang, H.;Li, D. Y.;
6:1:96:4 Molecular dynamics simulation of Bauschinger's effect in deformed copper single crystal in different strain ranges
DOI:10.1063/1.3672414 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:2 AU: Zhu, D.;Zhang, H.;Li, D. Y.;
6:1:96:5 Atomic simulations of dislocation emission from Cu/Cu and Co/Cu grain boundaries
DOI:10.1016/j.msea.2010.09.040 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:6 AU: Yuasa, Motohiro;Nakazawa, Takumi;Mabuchi, Mamoru;
6:1:96:6 Application of a simple surface nanocrystallization process to a Cu-30Ni alloy for enhanced resistances to wear and corrosive wear
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6:1:96:7 Bauschinger effect in wear of Cu-40Zn alloy and its variations with the wear condition
DOI:10.1016/j.wear.2010.11.026 JN:WEAR PY:2011 TC:3 AU: Tang, C.;Wang, J. M.;Wen, G. W.;Wang, Y.;Li, D. Y.;
6:1:96:8 Deformation behavior of an ultrafine grained two phase Co-Cu alloy processed by electrodeposition
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6:1:97:1:1 Spall behavior of rolled aluminum 5083-H116 plate
DOI:10.1063/1.4811452 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:3 AU: Whelchel, R. L.;Kennedy, G. B.;Dwivedi, S. K.;Sanders, T. H., Jr.;Thadhani, N. N.;
6:1:97:1:2 Effects of microstructure and composition on spall fracture in aluminum
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6:1:97:1:3 Microstructure dependence of dynamic fracture and yielding in aluminum and an aluminum alloy at strain rates of 2 x 10(6) s(-1) and faster
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6:1:97:1:4 Spall behavior of cast iron with varying microstructures
DOI:10.1063/1.4890361 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Plume, Gifford;Rousseau, Carl-Ernst;
6:1:97:2:1 A study on the strength of an armour-grade aluminum under high strain-rate loading
DOI:10.1063/1.3431346 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:11 AU: Appleby-Thomas, G. J.;Hazell, P. J.;
6:1:97:2:2 Shock behaviour of a phenolic resin
DOI:10.1007/s10853-011-5560-2 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:9 AU: Wood, David C.;Hazell, Paul J.;Appleby-Thomas, Gareth J.;Barnes, Nick R.;
6:1:97:2:3 Revisiting the calibration of manganin gauges for lateral stress measurements in shock-loaded solids
DOI:10.1063/1.4868296 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Rosenberg, Z.;Moshel, G.;
6:1:97:2:4 Spall and dynamic yield behavior of an annealed aluminum-magnesium alloy
DOI:10.1016/j.scriptamat.2014.08.014 JN:SCRIPTA MATERIALIA PY:2014 TC:0 AU: Whelchel, R. L.;Sanders, T. H., Jr.;Thadhani, N. N.;
6:1:97:3:1 On the interpretation of lateral manganin gauge stress measurements in polymers
DOI:10.1063/1.3460812 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:11 AU: Appleby-Thomas, Gareth J.;Hazell, Paul J.;Wilgeroth, James M.;Wood, David C.;
6:1:97:3:2 On the dynamic behavior of three readily available soft tissue simulants
DOI:10.1063/1.3573632 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:5 AU: Appleby-Thomas, G. J.;Hazell, P. J.;Wilgeroth, J. M.;Shepherd, C. J.;Wood, D. C.;Roberts, A.;
6:1:97:3:3 The shock response of a rendered porcine fat
DOI:10.1063/1.3501046 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:7 AU: Wilgeroth, J. M.;Hazell, P. J.;Appleby-Thomas, G. J.;
6:1:97:3:4 Shockless and shock wave compression of ballistic gel to 1.3GPa
DOI:10.1063/1.4898679 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Toyoda, Y.;Gupta, Y. M.;
6:1:98:1 Dependence of strain rate sensitivity upon deformed microstructures in nanocrystalline Cu
DOI:10.1016/j.actamat.2010.05.055 JN:ACTA MATERIALIA PY:2010 TC:23 AU: Huang, P.;Wang, F.;Xu, M.;Xu, K. W.;Lu, T. J.;
6:1:98:2 An investigation of the mechanical behaviors of micro-sized tungsten whiskers using nanoindentation
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6:1:98:3 High-speed creep process mediated by rapid dislocation absorption in nanocrystalline Cu
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6:1:98:4 Strain rate sensitivity of unequal grained nano-multilayers
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6:1:98:5 Preparation of Nanocrystalline Cu Films by Brush-Plating
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6:1:99:1 Asymmetric ability of grain boundaries to generate dislocations under tensile or compressive loadings
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6:1:99:2 Modeling size effects on fracture toughness by dislocation dynamics
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6:1:99:3 Roles of grain boundaries in improving fracture toughness of ultrafine-grained metals
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6:1:99:4 Influence of Competition between Intragranular Dislocation Nucleation and Intergranular Slip Transfer on Mechanical Properties of Ultrafine-Grained Metals
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6:1:99:5 Grain Boundary Structure Dependence of Extrinsic Grain Boundary Dislocation Emission Phenomena: A Molecular Dynamics Study
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6:1:99:6 Dislocation Multiplication from the Frank-Read Source in Atomic Models
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6:1:99:7 Enhancement of Low Temperature Toughness in Bulk Nanostructured Metals
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6:1:100:1 Emission of partial dislocations in silicon under nanoindentation
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6:1:100:2 Analysis of indentation creep
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6:1:100:3 Mechanical characteristics of soft-brittle HgCdTe single crystals investigated using nanoindentation and nanoscratching
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6:1:100:4 Analysis of onset of dislocation nucleation during nanoindentation and nanoscratching of InP
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6:1:100:5 The joint effect of laser and shear stress treatments for the surface strengthening of Zr alloys
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6:1:100:6 Broadband nanoindentation of glassy polymers: Part II. Viscoplasticity
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6:1:100:7 A brittleness transition in silicon due to scale
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6:1:100:8 Fracture transitions in iron: Strain rate and environmental effects
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6:1:100:9 A plastic damage model for finite element analysis of cracking of silicon under indentation
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6:1:100:10 Size effect in microcompression of epoxy micropillars
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6:1:101:1 Scalable parallel Monte Carlo algorithm for atomistic simulations of precipitation in alloys
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6:1:101:2 Calculation of excess free energies of precipitates via direct thermodynamic integration across phase boundaries
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6:1:101:3 Structure of nanoscale copper precipitates in neutron-irradiated Fe-Cu-C alloys
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6:1:101:4 Low-temperature phase transition of nanoscale copper precipitates in Fe-Cu alloys
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6:1:101:5 Molecular-dynamics study of the viscous to inertial crossover in nanodroplet coalescence
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6:1:101:6 Thermodynamic and mechanical properties of copper precipitates in alpha-iron from atomistic simulations
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6:1:101:7 Investigation of the phase transition of Ge2Sb2Te5 films using internal friction method
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6:1:101:8 Effect of low-temperature phase transition on mechanical behavior of Fe-Cu alloys
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6:1:101:9 Low-Temperature Criticality of Martensitic Transformations of Cu Nanoprecipitates in alpha-Fe
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6:1:102:1:1 Elastic-plastic behavior of cyclotrimethylene trinitramine single crystals under spherical indentation: Modeling and simulation
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6:1:102:1:2 Shock-induced subgrain microstructures as possible homogenous sources of hot spots and initiation sites in energetic polycrystals
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6:1:102:1:3 Analysis of thermomechanical response of polycrystalline HMX under impact loading through mesoscale simulations
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6:1:102:1:4 Defect and surface asperity dependent yield during contact loading of an organic molecular single crystal
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6:1:102:2:1 Photoacoustic determination of the speed of sound in single crystal cyclotrimethylene trinitramine at acoustic frequencies from 0.5 to 15 GHz
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6:1:102:2:2 A comparative evaluation of elasticity in pentaerythritol tetranitrate using Brillouin scattering and resonant ultrasound spectroscopy
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6:1:102:2:3 The elastic tensor of single crystal RDX determined by Brillouin spectroscopy
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6:1:102:2:4 Photoacoustic determination of the speed of sound in single crystal cyclotrimethylene trinitramine at acoustic frequencies from 0.5 to 15 GHz (vol 110, 113513, 2011)
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6:1:102:3:1 Anisotropic material model and wave propagation simulations for shocked pentaerythritol tetranitrate single crystals
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6:1:102:3:2 Modeling the effect of orientation on the shock response of a damageable composite material
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6:1:102:3:3 Shock wave compression of hexagonal-close-packed metal single crystals: Time-dependent, anisotropic elastic-plastic response of beryllium
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6:1:102:3:4 Comment on "Modeling shock waves in orthotropic elastic materials" [J. Appl. Phys. 104, 044904 (2008)]
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6:1:103:1 Grain Boundary Segregation and Interdiffusion Effects in Nickel-Copper Alloys: An Effective Means to Improve the Thermal Stability of Nanocrystalline Nickel
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6:1:103:2 Nanocrystalline Electroplated Cu-Ni: Metallic Thin Films with Enhanced Mechanical Properties and Tunable Magnetic Behavior
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6:1:103:3 Morphological and microstructural properties of two-phase Ni-Cu films electrodeposited at different electrolyte temperatures
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6:1:103:4 Performance of open-cell foam of Cu-Ni alloy integrated with graphene as a shield against electromagnetic interference
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6:1:104:1 Use of nanoindentation to measure residual stresses in surface layers
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6:1:104:2 A combined experimental and finite element approach for determining mechanical properties of aluminium alloys by nanoindentation
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6:1:104:3 Effect of residual stress on the nanoindentation response of (100) copper single crystal
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6:1:104:4 Application of synchrotron X-ray diffraction and nanoindentation for the determination of residual stress fields around scratches
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6:1:104:5 Determination of hardness and Young's modulus for important III-V compound semiconductors
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6:1:104:6 Effect of residual stress on the nanoindentation response of aerospace aluminium alloys
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6:1:104:7 Influence of the degree of order of InGaP on its hardness determined using nanoindentation
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6:1:104:8 Development of an improved energy-based method for residual stress assessment
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6:1:104:9 Numerical study of interfacial crack growth effects on nanoindentation mechanical properties in presence of pre-existing defect
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6:1:104:10 Ordering InGaP epilayer directly grown on Ge substrate
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6:1:104:11 Effects of hydrogen exposure on the mechanical and tribological properties of alpha-titanium surfaces
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6:1:105:1 Modelling dislocation transmission across tilt grain boundaries in 2D
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6:1:105:2 Dislocation climb in two-dimensional discrete dislocation dynamics
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6:1:105:3 Mechanisms of grain boundary softening and strain-rate sensitivity in deformation of ultrafine-grained metals at high temperatures
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6:1:105:4 Polycrystal deformation in a discrete dislocation dynamics framework
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6:1:105:5 Dislocation dynamics simulations of the Bauschinger effect in metallic thin films
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6:1:105:6 Bauschinger effect in unpassivated freestanding thin films
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6:1:105:7 Bauschinger effect in thin metal films: Discrete dislocation dynamics study
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6:1:106:1 In Situ Study of Size and Temperature Dependent Brittle-to-Ductile Transition in Single Crystal Silicon
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6:1:106:2 A microelectromechanical system for thermomechanical testing of nanostructures
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6:1:106:3 Temperature control in thermal microactuators with applications to in-situ nanomechanical testing
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6:1:106:4 Image forces on edge dislocations: a revisit of the fundamental concept with special regard to nanocrystals
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6:1:106:5 Out-of-plane micro-force function generator based on polymeric thermal actuators for modifying micro-deformation
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6:1:106:6 Critical sizes for the stabilization of coherent precipitates
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6:1:106:7 Stable edge dislocations in finite crystals
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6:1:106:8 Fast electrothermally activated micro-positioner using a high-aspect-ratio micro-machined polymeric composite
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6:1:106:9 Thermal stress in silica-on-silicon disk resonators
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6:1:107:1 The interface and surface effects of the bicrystal nanowires on their mechanical behaviors under uniaxial stretching
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6:1:107:2 Investigation on the effect of atomic defects on the breaking behaviors of gold nanowires
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6:1:107:3 Uniaxial tension-induced breaking in the gold nanowire with the influence of defects and temperatures
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6:1:107:4 Abnormal stress drop at the yield point of aluminum nanowires: A molecular dynamics study
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6:1:107:5 The size dependence of the mechanical properties and breaking behavior of metallic nanowires: A statistical description
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6:1:107:6 Atomically controlled fabrications of subnanometer scale electrode gaps
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6:1:107:7 Effect of size on fracture and tensile manipulation of gold nanowires
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6:1:107:8 Investigation on the most probable breaking behaviors of copper nanowires with the dependence of temperature
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6:1:107:9 The self-breaking mechanism of atomic scale Au nanocontacts
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6:1:108:1 Molecular Dynamics Simulation of the Effects of Crystal Orientation and Grain Boundary Misorientation Angle on the Nano-Crack Growth
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6:1:108:2 Fatigue crack growth in magnesium single crystals under cyclic loading: Molecular dynamics simulation
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6:1:108:3 The Effect of Crystallographic Orientation on Sintering Behavior of Ni Nanoparticles: A Molecular Dynamic Study
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6:1:108:4 Semi-ab initio interionic potential for gadolinia-doped ceria
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6:1:108:5 Molecular dynamics simulation of crack tip processes in ceria and gadolinia doped ceria
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6:1:108:6 Initial Stage of Consolidation of Silicon-Carbide Nanocrystals under Pressure: A Tight-Binding Molecular-Dynamics Study
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6:1:108:7 Atomistic simulations of fatigue crack growth and the associated fatigue crack tip stress evolution in magnesium single crystals
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6:1:108:8 Atomic-scale simulation of alpha/gamma-iron phase boundary affecting crack propagation using molecular dynamics method
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6:1:108:9 A Numerical Model for Simulation of Crack Initiation Around Inclusion Under Tensile Load
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6:1:108:10 Thermomechanical Properties of Non-Stoichiometric Gadolinium Doped Ceria by Molecular Dynamics Simulations
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6:1:109:1 On the relevance of kinking to reversible hysteresis in MAX phases
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6:1:109:2 Slip line analysis around nanoindentation imprints in Ti3SnC2: a new insight into plasticity of MAX-phase materials
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6:1:109:3 Effect of microstructure anisotropy on the deformation of MAX polycrystals studied by in-situ compression combined with neutron diffraction
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6:1:109:4 Dislocation analysis of Ti2AlN deformed at room temperature under confining pressure
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6:1:109:5 Amorphous Fe1-xCx coatings as carbon reservoirs for diffusion strengthening of steel sheets
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6:1:109:6 Pressure-enforced plasticity in MAX phases: from single grain to polycrystal investigation
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6:1:109:7 Mechanical properties of the aluminum roll-bond laminate AA5005-AA5083-AA5005
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6:1:109:8 An evaluation of the tensile properties of a supersaturated carbon layer via in situ synchrotron diffraction
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6:1:110:1 Nanohardness of high purity Cu (111) single crystals: The effect of indenter load and prior plastic sample strain
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6:1:110:2 Elastic anisotropy of Cu and its impact on stress management for 3D IC: Nanoindentation and TCAD simulation study
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6:1:110:3 Nanometer deformation of elastically anisotropic materials studied by nanoindentation
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6:1:110:4 The influence of residual stress on incipient plasticity in single-crystal copper thin film under nanoindentation
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6:1:110:5 Comment on "Nanohardness of high purity Cu single crystals" [J. Appl. Phys. 107, 043510 (2010)]
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6:1:110:6 Thermodynamics of elastic strength of the metal surface layer
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6:1:111:1 The kinetics of the omega to alpha phase transformation in Zr, Ti: Analysis of data from shock-recovered samples and atomistic simulations
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6:1:111:2 The influence of phase and substructural evolution during dynamic loading on subsequent mechanical properties of zirconium
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6:1:111:3 Stability of the two-phase (alpha/omega) microstructure of shocked zirconium
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6:1:111:4 Shockwave response of two carbon fiber-polymer composites to 50 GPa
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6:1:111:5 Influence of texture and test velocity on the dynamic, high-strain, tensile behavior of zirconium
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6:1:111:6 Reactive, anomalous compression in shocked polyurethane foams
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6:1:111:7 Lattice study of the incommensurate omega phase transition in Zr-Nb alloys
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6:1:112:1 Molecular dynamics study on the equal biaxial tension of Cu/Ag bilayer films
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6:1:112:2 Nanoscratch behavior of carbon nanotube reinforced aluminum coatings
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6:1:112:3 Anisotropic wear behavior of human enamel at the rod level in terms of nanoscratching
DOI:10.1016/j.wear.2012.04.020 JN:WEAR PY:2012 TC:4 AU: Jia, Yun-Fei;Xuan, Fu-Zhen;
6:1:112:4 Mechanical and tribological properties of Ni/Al multilayers-A molecular dynamics study
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6:1:112:5 Molecular dynamics simulations of the temperature effect in the hardness on Cr and CrN films
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6:1:112:6 Study of nanocontact and incipient nanoscratch process using the quasicontinuum method
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6:1:112:7 Nanotribological behaviour of tooth enamel rod affected by bleaching treatment
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6:1:112:8 AFM analysis of bleaching effects on dental enamel microtopography
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6:1:112:9 Micro-characterization of macro-sliding wear for steel
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6:1:112:10 Investigation on the microtribological behaviour of human tooth enamel by nanoscratch
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6:1:113:1 Atomistic Study of Crack-Tip Cleavage to Dislocation Emission Transition in Silicon Single Crystals
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6:1:113:2 Synthesis and structural characterization of two-dimensional hierarchical covellite nano-structures
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6:1:113:3 Dependence on diameter and growth direction of apparent strain to failure of Si nanowires
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6:1:113:4 The role of deposited layers in the nonlinear constitutive behavior of Si nanowires
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6:1:113:5 Nonadiabatic Study of Dynamic Electronic Effects during Brittle Fracture of Silicon
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6:1:113:6 Strain engineering via amorphization and recrystallization in Si/Ge heterostructures
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6:1:113:7 Simultaneous measurement of the emission of photons and charged particles during fracture of brittle materials
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6:1:113:8 Time-resolved measurement of photon emission during fast crack propagation in three-point bending fracture of silica glass and soda lime glass
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6:1:113:9 Hydrothermal synthesis of chalcopyrite using an environmental friendly chelating agent
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6:1:114:1 Mechanical behaviors of as-deposited and annealed nanostructured Ni-Fe alloys
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6:1:114:2 Microstructure and deformation mechanisms in nanocrystalline Ni-Fe. Part II. In situ testing during X-ray diffraction
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6:1:114:3 Slip-induced intergranular stress redistribution in nanocrystalline Ni
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6:1:114:4 Effect of Current Density on the Microstructure and Mechanical Properties of Bulk NC Ni-Fe Alloy
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6:1:114:5 Room temperature mechanical behaviour of a Ni-Fe multilayered material with modulated grain size distribution
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6:1:114:6 Yield point phenomenon during strain rate change in nanocrystalline Ni-Fe
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6:1:114:7 Microstructure and deformation mechanisms in nanocrystalline Ni-Fe. Part I. Microstructure
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6:1:114:8 Wallner lines in a nanocrystalline Ni-23% Fe alloy
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6:1:115:1 In situ TEM study of grain growth in nanocrystalline copper thin films
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6:1:115:2 Topological view of the thermal stability of nanotwinned copper
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6:1:115:3 In situ transmission electron microscopy imaging of grain growth in a platinum nanobridge induced by electric current annealing
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6:1:115:4 A predictive model for microstructure evolution in metallic multilayers with immiscible constituents
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6:1:115:5 Simulation of Joule annealing in nanoscale Pt wires
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6:1:116:1 Diffusive-to-ballistic transition in grain boundary motion studied by atomistic simulations
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6:1:116:2 Atomistic Simulation of Slow Grain Boundary Motion
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6:1:116:3 Adapted solute drag model for impurity-controlled grain boundary motion
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6:1:116:4 Direct quantification of solute effects on grain boundary motion by atomistic simulations
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6:1:116:5 The effect of synthetic driving force on the atomic mechanisms associated with grain boundary motion below the interface roughening temperature
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6:1:117:1 Effect of strain on the stacking fault energy of copper: A first-principles study
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6:1:117:2 Planar fault energies of copper at large strain: A density functional theory study
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6:1:117:3 Atomistic Mechanisms in Silicon Carbide Nanostructures
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6:1:117:4 Nanoductility induced brittle fracture in shocked high performance ceramics
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6:1:118:1 Growth of abnormal planar faceted grains in nanocrystalline nickel containing impurity sulphur
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6:1:118:2 Microstrain and growth fault structures in electrodeposited nanocrystalline Ni and Ni-Fe alloys
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6:1:118:3 Effect of iron content on mechanical behavior of nanocrystalline nickel and alloys
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6:1:118:4 Effect of pre-strain on grain size distributions in 316H austenitic stainless steel
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6:1:118:5 Microstructure evolution and mechanical properties of nanocrystalline Ni-30Fe alloy
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6:1:119:1 Effect of an interphase region on debonding of a CNT reinforced polymer composite
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6:1:119:2 Revealing the Interface in Polymer Nanocomposites
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6:1:119:4 The main factor influencing the tensile properties of surface nano-crystallized graded materials
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6:1:119:5 Investigation of non-local cracking in layered stainless steel with nanostructured interface
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6:1:119:6 Interface analysis and design in carbon nanotube array composite based on cohesive finite element approach
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6:1:120:1 Physical mechanism of anisotropic sensitivity in pentaerythritol tetranitrate from compressive-shear reaction dynamics simulations
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6:1:120:2 Self-Enhanced Catalytic Activities of Functionalized Graphene Sheets in the Combustion of Nitromethane: Molecular Dynamic Simulations by Molecular Reactive Force Field
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6:1:120:3 Multistage reaction pathways in detonating high explosives
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6:1:120:4 Anisotropic shock sensitivity for beta-octahydro-1,3,5,7-tetranitro-1,3,5,7-tetrazocine energetic material under compressive-shear loading from ReaxFF-lg reactive dynamics simulations
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6:1:120:5 Direct Measurement of Lattice Dynamics and Optical Phonon Excitation in Semiconductor Nanocrystals Using Femtosecond Stimulated Raman Spectroscopy
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6:1:120:7 Femtosecond Stimulated Raman Scattering Picosecond Molecular Thermometry in Condensed Phases
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6:1:121:1 Role of a single surface vacancy on the tensile stress-strain relations of single crystal Ni nanowire
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6:1:121:2 An atomic-level study of material ablation and spallation in ultrafast laser processing of gold films
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6:1:121:3 Shear fracture of confined NaCl nanofilms
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6:1:121:4 Stress-dependence and time-dependence of the post-fatigue tensile behavior of carbon fiber reinforced SiC matrix composites
DOI:10.1016/j.compscitech.2011.05.013 JN:COMPOSITES SCIENCE AND TECHNOLOGY PY:2011 TC:11 AU: Mei, Hui;Cheng, Laifei;
6:1:121:5 Atomistic modeling of lattice frame effects on laser-induced dislocation behaviors in nanopore mending processes
DOI:10.1063/1.3517788 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:2 AU: Huang, Pei-Hsing;Lai, Hsin-Yi;
6:1:121:6 Atomistic modeling of electron relaxation effect on femtosecond laser-induced thermoelastic response of gold films
DOI:10.1063/1.4739256 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:2 AU: Xiong, Q. L.;Tian, X. G.;Lu, T. J.;
6:1:121:7 Nondestructive investigation of density defect in C/SiCs and its effect on the mechanical properties
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6:1:122:1:1 Flow Reversals in Thermally Driven Turbulence
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6:1:122:1:2 Coherent Oscillations of Turbulent Rayleigh-Benard Convection in a Thin Vertical Disk
DOI:10.1103/PhysRevLett.106.184504 JN:PHYSICAL REVIEW LETTERS PY:2011 TC:1 AU: Song, Hao;Villermaux, E.;Tong, Penger;
6:1:122:1:3 Confinement-Induced Heat-Transport Enhancement in Turbulent Thermal Convection
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6:1:122:1:4 Flow Reversals in Turbulent Convection via Vortex Reconnections
DOI:10.1103/PhysRevLett.110.114503 JN:PHYSICAL REVIEW LETTERS PY:2013 TC:3 AU: Chandra, Mani;Verma, Mahendra K.;
6:1:122:2:1 Recurrent Bursts via Linear Processes in Turbulent Environments
DOI:10.1103/PhysRevLett.112.144502 JN:PHYSICAL REVIEW LETTERS PY:2014 TC:0 AU: Brethouwer, Geert;Schlatter, Philipp;Duguet, Yohann;Henningson, Dan S.;Johansson, Arne V.;
6:1:122:2:2 Phase Synchronization of the El Nino-Southern Oscillation with the Annual Cycle
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6:1:122:2:3 Unraveling Quasiperiodic Relaxations of Transport Barriers with Gyrokinetic Simulations of Tokamak Plasmas
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6:1:122:2:4 Multiscale Atmospheric Dynamics: Cross-Frequency Phase-Amplitude Coupling in the Air Temperature
DOI:10.1103/PhysRevLett.112.078702 JN:PHYSICAL REVIEW LETTERS PY:2014 TC:1 AU: Palus, Milan;
6:1:122:3:1 Effect of Weak Rotation on Large-Scale Circulation Cessations in Turbulent Convection
DOI:10.1103/PhysRevLett.109.074502 JN:PHYSICAL REVIEW LETTERS PY:2012 TC:1 AU: Assaf, Michael;Angheluta, Luiza;Goldenfeld, Nigel;
6:1:122:3:2 Finite-Size Effects Lead to Supercritical Bifurcations in Turbulent Rotating Rayleigh-Benard Convection
DOI:10.1103/PhysRevLett.105.224501 JN:PHYSICAL REVIEW LETTERS PY:2010 TC:22 AU: Weiss, Stephan;Stevens, Richard J. A. M.;Zhong, Jin-Qiang;Clercx, Herman J. H.;Lohse, Detlef;Ahlers, Guenter;
6:1:122:3:3 Rare Fluctuations and Large-Scale Circulation Cessations in Turbulent Convection
DOI:10.1103/PhysRevLett.107.044502 JN:PHYSICAL REVIEW LETTERS PY:2011 TC:3 AU: Assaf, Michael;Angheluta, Luiza;Goldenfeld, Nigel;
6:1:122:4:1 Traveling Wave of Segregation in a Highly Filled Rotating Drum
DOI:10.1103/PhysRevLett.105.118001 JN:PHYSICAL REVIEW LETTERS PY:2010 TC:6 AU: Inagaki, Shio;Yoshikawa, Kenichi;
6:1:122:4:2 Oscillations, Cessations, and Circulation Reversals of Granular Convection in a Densely Filled Rotating Container
DOI:10.1103/PhysRevLett.108.118001 JN:PHYSICAL REVIEW LETTERS PY:2012 TC:3 AU: Rietz, Frank;Stannarius, Ralf;
6:1:123:1 High temperature nanoindentation - the importance of isothermal contact
DOI:10.1080/14786435.2010.496745 JN:PHILOSOPHICAL MAGAZINE PY:2011 TC:19 AU: Everitt, N. M.;Davies, M. I.;Smith, J. F.;
6:1:123:2 Nanocharacterization of the negative stiffness of ferroelectric materials
DOI:10.1063/1.4894274 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Skandani, A. Alipour;Ctvrtlik, R.;Al-Haik, M.;
6:1:123:3 The effect of temperature on wear and friction of a high strength steel in fretting
DOI:10.1016/j.wear.2013.03.048 JN:WEAR PY:2013 TC:9 AU: Pearson, S. R.;Shipway, P. H.;Abere, J. O.;Hewitt, R. A. A.;
6:1:123:4 Size-driven ferroelectric-paraelectric phase transition in TGS nanocomposites
DOI:10.1007/s11051-013-1807-y JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2013 TC:4 AU: Cizman, A.;Antropova, T.;Anfimova, I.;Drozdova, I.;Rysiakiewicz-Pasek, E.;Radojewska, E. B.;Poprawski, R.;
6:1:123:5 Synthesis and Low Temperature In Situ Sintering of Uranium Oxide Nanoparticles
DOI:10.1021/cm2020669 JN:CHEMISTRY OF MATERIALS PY:2011 TC:21 AU: Nenoff, Tina M.;Jacobs, Benjamin W.;Robinson, David B.;Provencio, Paula P.;Huang, Jianyu;Ferreira, Summer;Hanson, Donald J.;
6:1:123:6 Instrumented nanoindentation investigation into the mechanical behavior of ceramics at moderately elevated temperatures
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6:1:123:7 Dielectric properties of fine-grained triglycine sulphate (TGS)
DOI:10.1016/j.jnoncrysol.2011.09.014 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2012 TC:1 AU: Ostrowski, A.;Bednarski, W.;Jesionowski, T.;Modrzejewska-Sikorska, A.;Waplak, S.;
6:1:123:8 Size-driven ferroelectric effects in TGS induced by high hydrostatic pressure
DOI:10.1016/j.jnoncrysol.2010.04.013 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2010 TC:1 AU: Stankowski, J.;Waplak, S.;Jurga, W.;Krupski, M.;
6:1:124:1 First-principles calculation of grain boundary energy and grain boundary excess free volume in aluminum: role of grain boundary elastic energy
DOI:10.1007/s10853-011-5305-2 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:9 AU: Uesugi, Tokuteru;Higashi, Kenji;
6:1:124:2 First-principles studies on lattice constants and local lattice distortions in solid solution aluminum alloys
DOI:10.1016/j.commatsci.2012.08.037 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:4 AU: Uesugi, Tokuteru;Higashi, Kenji;
6:1:124:3 Molecular dynamics simulations of Al-Al2Cu phase boundaries
DOI:10.1016/j.commatsci.2014.01.014 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:3 AU: Kokotin, V.;Hecht, U.;
6:1:124:4 Theoretical investigations of interstitial atoms in bcc metals: Local lattice distortion and diffusion barrier
DOI:10.1016/j.commatsci.2012.02.007 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:4 AU: Li, Chun-Xia;Luo, Hu-Bin;Hu, Qing-Miao;Yin, Fu-Xing;Umezawa, Osamu;Yang, Rui;
6:1:124:5 Atomic structure of random grain boundaries in tungsten
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6:1:124:6 The stability and diffusion properties of foreign impurity atoms on the surface and in the bulk of vanadium: A first-principles study
DOI:10.1016/j.commatsci.2013.08.011 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:1 AU: Gong, Ling;Su, Qiulei;Deng, Huiqiu;Xiao, Shifang;Hu, Wangyu;
6:1:125:1:1 Ignition probability of polymer-bonded explosives accounting for multiple sources of material stochasticity
DOI:10.1063/1.4874915 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:2 AU: Kim, S.;Barua, A.;Horie, Y.;Zhou, M.;
6:1:125:1:2 Multiscale thermoelastic analysis of random heterogeneous materials Part I: Microstructure characterization and homogenization of material properties
DOI:10.1016/j.commatsci.2009.11.015 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2010 TC:28 AU: Vel, Senthil S.;Goupee, Andrew J.;
6:1:125:1:3 Multiscale thermoelastic analysis of random heterogeneous materials Part II: Direct micromechanical failure analysis and multiscale simulations
DOI:10.1016/j.commatsci.2009.10.004 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2010 TC:10 AU: Goupee, Andrew J.;Vel, Senthil S.;
6:1:125:1:4 Effective properties of nodular cast-iron: A multi-scale computational approach
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6:1:125:2:1 Energy localization in HMX-Estane polymer-bonded explosives during impact loading
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6:1:125:2:2 Surface defects and their role in the shock sensitivity of cyclotrimethylene-trinitramine
DOI:10.1016/j.apsusc.2009.12.060 JN:APPLIED SURFACE SCIENCE PY:2010 TC:8 AU: Bellitto, Victor J.;Melnik, Mikhail I.;
6:1:125:2:3 Computational analysis of hot-spot formation by quasi-steady deformation waves in porous explosive
DOI:10.1063/1.4804932 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:1 AU: Gilbert, John;Chakravarthy, Sunada;Gonthier, Keith A.;
6:1:125:2:4 Theoretical study of breaking and slipping processes for HMX/graphite interface
DOI:10.1016/j.apsusc.2011.10.052 JN:APPLIED SURFACE SCIENCE PY:2012 TC:3 AU: Long, Y.;Liu, Y. G.;Nie, F. D.;Chen, J.;
6:1:125:3:1 Ignition criterion for heterogeneous energetic materials based on hotspot size-temperature threshold
DOI:10.1063/1.4792001 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:8 AU: Barua, A.;Kim, S.;Horie, Y.;Zhou, M.;
6:1:125:3:2 Effects of void size, density, and arrangement on deflagration and detonation sensitivity of a reactive empirical bond order high explosive
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6:1:125:3:3 Prediction of probabilistic ignition behavior of polymer-bonded explosives from microstructural stochasticity
DOI:10.1063/1.4804251 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:1 AU: Barua, A.;Kim, S.;Horie, Y.;Zhou, M.;
6:1:126:1 Effect of a high magnetic field on the Al-Al3Ni fiber eutectic during directional solidification
DOI:10.1016/j.actamat.2009.12.029 JN:ACTA MATERIALIA PY:2010 TC:8 AU: Li, Xi;Fautrelle, Yves;Ren, Zhongming;Zhang, Yudong;Esling, Claude;
6:1:126:2 Microstructure and mechanical properties of in situ NiAl-Mo2C nanocomposites prepared by hot-pressing sintering
DOI:10.1016/j.msea.2013.06.078 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:6 AU: Liu, Eryong;Gao, Yimin;Jia, Junhong;Bai, Yaping;Wang, Wenzhen;
6:1:126:3 Regular rod-like eutectic spacing selection during directional solidified NiAl-9Mo eutectic in situ composite
DOI:10.1016/j.jcrysgro.2011.06.049 JN:JOURNAL OF CRYSTAL GROWTH PY:2011 TC:3 AU: Zhang, Jianfei;Shen, Jun;Shang, Zhao;Feng, Zhourong;Wang, Lingshui;Fu, Hengzhi;
6:1:126:4 Perfect cellular eutectic growth in directionally solidified NiAl-Cr(Mo) hypereutectic alloy
DOI:10.1016/j.jcrysgro.2012.06.005 JN:JOURNAL OF CRYSTAL GROWTH PY:2012 TC:5 AU: Shang, Zhao;Shen, Jun;Zhang, Jianfei;Wang, Lei;Fu, Hengzhi;
6:1:126:5 Effect of microstructures on the room temperature fracture toughness of NiAl-32Cr-6Mo hypereutectic alloy directionally solidified at different withdrawal rates
DOI:10.1016/j.msea.2014.05.090 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Shang, Zhao;Shen, Jun;Zhang, Jianfei;Wang, Lei;Wang, Lingshui;Fu, Hengzhi;
6:1:126:6 Increasing the growth velocity of coupled eutectics in directional solidification of off-eutectic alloys
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6:1:126:7 Microstructure and mechanical property of directionally solidified NiAl-Cr(Mo)-(Hf, Dy) alloy at different withdrawal rates
DOI:10.1016/j.msea.2014.04.006 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Wang, Lei;Shen, Jun;Shang, Zhao;Zhang, Jianfei;Du, Yujun;Fu, Hengzhi;
6:1:126:8 High work-hardening effect of the pure NiAl intermetallic compound fabricated by the combustion synthesis and hot pressing technique
DOI:10.1016/j.matlet.2011.05.091 JN:MATERIALS LETTERS PY:2011 TC:6 AU: Zhao, H. L.;Qiu, F.;Jin, S. B.;Jiang, Q. C.;
6:1:126:9 Microstructure evolution and enhancement of fracture toughness of NiAl-Cr(Mo)-(Hf,Dy) alloy with a small addition of Fe during heat treatment
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6:1:127:1 Microstructure and ultrahigh strength of nanoscale Cu/Nb multilayers
DOI:10.1016/j.tsf.2010.12.251 JN:THIN SOLID FILMS PY:2011 TC:13 AU: Zhu, X. Y.;Luo, J. T.;Zeng, F.;Pan, F.;
6:1:127:2 Size dependence of creep behavior in nanoscale Cu/Co multilayer thin films
DOI:10.1016/j.jallcom.2010.07.024 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:8 AU: Zhu, X. Y.;Luo, J. T.;Chen, G.;Zeng, F.;Pan, F.;
6:1:127:3 Microstructure and mechanical properties of nanoscale Cu/Ni multilayers
DOI:10.1016/j.msea.2009.09.058 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:10 AU: Zhu, X. Y.;Liu, X. J.;Zong, R. L.;Zeng, F.;Pan, F.;
6:1:127:4 Al-Pd interatomic potential and its application to nanoscale multilayer thin films
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6:1:128:1 Dynamic yield and spallation properties of aluminum alloys at different temperatures
DOI:10.1016/j.msea.2013.12.055 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Wang, YongGang;Jiang, ZhaoXiu;Xing, MingZhi;Wang, LiLi;
6:1:128:2 Contact morphology and constitutive equation in evaluating tensile properties of austenitic stainless steels through instrumented spherical indentation
DOI:10.1007/s10853-012-6733-3 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:3 AU: Kim, Young-Cheon;Kang, Seung-Kyun;Kim, Ju-Young;Kwon, Dongil;
6:1:128:3 Correlation between the plastic strain and the plastic pileup of the instrumented indentation by utilizing the interrupted tensile test
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6:1:128:4 Conventional Vickers and true instrumented indentation hardness determined by instrumented indentation tests
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6:1:128:5 Effect of temperature on constraint factor of IN718 under static indentation conditions
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6:1:128:6 High strain-rate plastic flow behavior of Ti-6Al-4V from dynamic indentation experiments
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6:1:128:7 Evaluation of indentation tensile properties of Ti alloys by considering plastic constraint effect
DOI:10.1016/j.msea.2011.03.052 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:3 AU: Kim, Kug-Hwan;Kim, Young-Cheon;Jeon, Eun-chae;Kwon, Dongil;
6:1:128:8 Dynamic compressive behavior of selected aluminum alloy at low temperature
DOI:10.1016/j.msea.2012.06.010 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:4 AU: Wang, Yonggang;Jiang, Zhaoxiu;
6:1:128:9 Plastic flow behavior of 7017 and 7055 aluminum alloys under different high strain rate test methods
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6:1:129:1:1 Interface stress induced hardness enhancement and superelasticity in polytetrafluoroethylene/metal multilayer thin films
DOI:10.1016/j.tsf.2011.07.034 JN:THIN SOLID FILMS PY:2011 TC:6 AU: Kusano, E.;Kikuchi, N.;
6:1:129:1:2 Structure and protective effect of AlN/Al multilayered coatings on NdFeB by magnetron sputtering
DOI:10.1016/j.tsf.2014.08.012 JN:THIN SOLID FILMS PY:2014 TC:0 AU: Li, Jinlong;Wang, Yongxin;Wang, Liping;
6:1:129:1:3 Corrosion properties of aluminium coatings deposited on sintered NdFeB by ion-beam-assisted deposition
DOI:10.1016/j.apsusc.2011.01.049 JN:APPLIED SURFACE SCIENCE PY:2011 TC:8 AU: Mao, Shoudong;Yang, Hengxiu;Li, Jinlong;Huang, Feng;Song, Zhenlun;
6:1:129:1:4 Effect of N-2 flow rate on structure and property of ZrNbAlNx multilayer films deposited by magnetron sputtering
DOI:10.1016/j.jallcom.2013.01.074 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:2 AU: Shi, Yongjing;Pan, Fusheng;Bao, Mingdong;Yang, Zhili;Wang, Lian;
6:1:129:2:1 Theoretical analysis of the relationships between hardness, elastic modulus, and the work of indentation for work-hardening materials
DOI:10.1557/JMR.2010.0267 JN:JOURNAL OF MATERIALS RESEARCH PY:2010 TC:5 AU: Yang, Rong;Zhang, Taihua;Feng, Yihui;
6:1:129:2:2 Further analysis of energy-based indentation relationship among Young's modulus, nominal hardness, and indentation work
DOI:10.1557/JMR.2010.0137 JN:JOURNAL OF MATERIALS RESEARCH PY:2010 TC:4 AU: Ma, Dejun;Ong, Chung Wo;
6:1:129:2:3 An integrated method to determine elastic-plastic parameters by instrumented spherical indentation
DOI:10.1557/jmr.2014.78 JN:JOURNAL OF MATERIALS RESEARCH PY:2014 TC:1 AU: Yu, Chang;Feng, Yihui;Yang, Rong;Peng, Guangjian;Lu, Zhike;Zhang, Taihua;
6:1:129:2:4 Experimental verification for an instrumented spherical indentation technique in determining mechanical properties of metallic materials
DOI:10.1557/jmr.2011.51 JN:JOURNAL OF MATERIALS RESEARCH PY:2011 TC:1 AU: Jiang, Peng;Zhang, Taihua;Yang, Rong;
6:1:129:3:1 Modulating individual thickness for optimized combination of strength and ductility in Cu/Ru multilayer films
DOI:10.1016/j.matlet.2013.06.053 JN:MATERIALS LETTERS PY:2013 TC:3 AU: Hu, K.;Xu, L. J.;Cao, Y. Q.;Pan, G. J.;Cao, Z. H.;Meng, X. K.;
6:1:129:3:2 Size-dependent rate sensitivity and plasticity of nanocrystalline Ru films
DOI:10.1016/j.scriptamat.2010.07.031 JN:SCRIPTA MATERIALIA PY:2010 TC:3 AU: Cao, Z. H.;Huang, Y. L.;Meng, X. K.;
6:1:130:1:1 CFD modeling and analysis of the fish-hook effect on the rotor separator's efficiency
DOI:10.1016/j.powtec.2014.05.020 JN:POWDER TECHNOLOGY PY:2014 TC:2 AU: Guizani, Rim;Mokni, Ines;Mhiri, Hatem;Bournot, Philippe;
6:1:130:1:2 Study on the cut size of a turbo air classifier
DOI:10.1016/j.powtec.2012.12.043 JN:POWDER TECHNOLOGY PY:2013 TC:5 AU: Gao, Liping;Yu, Yuan;Liu, Jiaxiang;
6:1:130:1:3 Establishment of a prediction model for the cut size of turbo air classifiers
DOI:10.1016/j.powtec.2014.01.009 JN:POWDER TECHNOLOGY PY:2014 TC:3 AU: Yu, Yuan;Liu, Jiaxiang;Zhang, Kai;
6:1:130:1:4 Turbo air classifier guide vane improvement and inner flow field numerical simulation
DOI:10.1016/j.powtec.2012.03.026 JN:POWDER TECHNOLOGY PY:2012 TC:8 AU: Huang, Qiang;Liu, Jiaxiang;Yu, Yuan;
6:1:130:1:5 Is the fish-hook effect in hydrocyclones a real phenomenon?
DOI:10.1016/j.powtec.2012.12.017 JN:POWDER TECHNOLOGY PY:2013 TC:8 AU: Bourgeois, Florent;Majumder, Arun K.;
6:1:130:1:6 Parametric CFD studies on hydrocyclone
DOI:10.1016/j.powtec.2012.06.048 JN:POWDER TECHNOLOGY PY:2012 TC:5 AU: Murthy, Y. Rama;Bhaskar, K. Udaya;
6:1:130:1:7 Comment on: 'Is the fish-hook effect in hydrocyclones a real phenomenon?' by F. Bourgeois and A. K. Majumder [Powder Technology 237 (2013) 367-375]
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6:1:130:2:1 Selection and mathematical modelling of high efficiency air classifiers
DOI:10.1016/j.powtec.2014.05.013 JN:POWDER TECHNOLOGY PY:2014 TC:4 AU: Altun, Okay;Benzer, Hakan;
6:1:130:2:2 Mechanism of particle separation and analysis of fish-hook phenomenon in a circulating air classifier
DOI:10.1016/j.powtec.2011.11.036 JN:POWDER TECHNOLOGY PY:2012 TC:8 AU: Eswaraiah, C.;Angadi, S. I.;Mishra, B. K.;
6:1:131:1 Microstructure of a Cu film grown on bcc Ta (100) by large-scale molecular-dynamics simulations
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6:1:131:2 Molecular dynamics evaluation of strain rate and size effects on mechanical properties of FCC nickel nanowires
DOI:10.1016/j.commatsci.2010.10.028 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:13 AU: Huang, Dan;Zhang, Qing;Qiao, Pizhong;
6:1:131:3 Effects of Cu Self-Capping and Ta Capping on Nanometer-Sized Cu Films Sputter-Deposited on beta-Ta
DOI:10.2320/matertrans.M2010286 JN:MATERIALS TRANSACTIONS PY:2011 TC:2 AU: Tanimoto, Hisanori;Sugimori, Takayuki;Kumamoto, Shoichiro;Matsui, Hazuki;Mizubayashi, Hiroshi;
6:1:131:4 On reliability of molecular statics simulations of plasticity in crystals
DOI:10.1016/j.commatsci.2010.10.009 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2010 TC:3 AU: Vinogradov, O. G.;
6:1:131:5 A modified Morse potential accounting for non-zero temperature in molecular statics for Nickel crystals
DOI:10.1016/j.commatsci.2012.05.040 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:0 AU: Li, Guannan;Vinogradov, Oleg;Gubanov, Artem;
6:1:131:6 Atomistic relaxation of systems containing plasticity elements
DOI:10.1016/j.commatsci.2013.03.001 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:0 AU: Restrepo, Sebastian Echeverri;Sluiter, Marcel H. F.;Thijsse, Barend J.;
6:1:132:1 Continuum Fracture Analysis and Molecular Dynamic Study on Crack Initiation and Propagation in Nanofilms
DOI:10.1155/2014/732434 JN:JOURNAL OF NANOMATERIALS PY:2014 TC:0 AU: Huang, Dan;Wang, Mengwei;Lu, Guangda;
6:1:132:2 Strain gradient plasticity analysis of the grain-size-dependent strength and ductility of polycrystals with evolving grain boundary confinement
DOI:10.1016/j.actamat.2010.06.052 JN:ACTA MATERIALIA PY:2010 TC:15 AU: Massart, T. J.;Pardoen, T.;
6:1:132:3 In-situ observation of crack propagation through the nucleation of nanoscale voids in ultra-thin, freestanding Ag films
DOI:10.1016/j.msea.2014.09.056 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Zhang, Yuefei;Wang, Fei;Zang, Peng;Wang, Jin;Mao, Shengcheng;Zhang, Xiaona;Lu, Junxia;
6:1:132:4 In situ observation of intergranular fracture propagation in nanocrystalline freestanding ultrathin tungsten film
DOI:10.1016/j.matlet.2014.02.052 JN:MATERIALS LETTERS PY:2014 TC:2 AU: Wang, Fei;Zhang, Yuefei;Lu, Junxia;Zang, Peng;Wang, Jin;Zhang, Xiaona;
6:1:132:5 Fracture behavior of nano-layered coatings under tension
DOI:10.1016/j.tsf.2010.07.086 JN:THIN SOLID FILMS PY:2010 TC:3 AU: Chai, Herzl;Josell, Daniel;
6:1:132:6 Crack-healing behavior induced by oxidation in SiN/SiC nanolaminated films
DOI:10.1016/j.tsf.2014.01.014 JN:THIN SOLID FILMS PY:2014 TC:3 AU: Nakatani, Masanori;Nishimura, Junki;Hanaki, Satoshi;Uchida, Hitoshi;
6:1:133:1:1 Theoretical study of phonon density of states, thermodynamic properties and phase transitions for HMX
DOI:10.1080/14786435.2014.927598 JN:PHILOSOPHICAL MAGAZINE PY:2014 TC:3 AU: Long, Yao;Chen, Jun;
6:1:133:1:2 Thermal Decomposition of the Solid Phase of Nitromethane: Ab Initio Molecular Dynamics Simulations
DOI:10.1103/PhysRevLett.105.188302 JN:PHYSICAL REVIEW LETTERS PY:2010 TC:21 AU: Chang, Jing;Lian, Peng;Wei, Dong-Qing;Chen, Xiang-Rong;Zhang, Qing-Ming;Gong, Zi-Zheng;
6:1:133:1:3 A method to calculate the thermal conductivity of HMX under high pressure
DOI:10.1080/14786435.2011.637981 JN:PHILOSOPHICAL MAGAZINE PY:2012 TC:5 AU: Long, Y.;Liu, Y. G.;Nie, F. D.;Chen, J.;
6:1:133:2:1 A molecular dynamics study of the early-time mechanical heating in shock-loaded octahydro-1,3,5,7-tetranitro-1,3,5,7-tetrazocine-based explosives
DOI:10.1063/1.4890715 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Long, Yao;Chen, Jun;
6:1:133:2:2 On the low pressure shock initiation of octahydro-1,3,5,7-tetranitro-1,3,5,7-tetrazocine based plastic bonded explosives
DOI:10.1063/1.3407570 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:7 AU: Vandersall, Kevin S.;Tarver, Craig M.;Garcia, Frank;Chidester, Steven K.;
6:1:133:2:3 One-dimensional plate impact experiments on the cyclotetramethylene tetranitramine (HMX) based explosive EDC32
DOI:10.1063/1.4752865 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:0 AU: Burns, Malcolm J.;Gustavsen, Richard L.;Bartram, Brian D.;
6:1:133:3:1 Equations of state for energetic materials from density functional theory with van der Waals, thermal, and zero-point energy corrections
DOI:10.1063/1.3526754 JN:APPLIED PHYSICS LETTERS PY:2010 TC:16 AU: Landerville, A. C.;Conroy, M. W.;Budzevich, M. M.;Lin, Y.;White, C. T.;Oleynik, I. I.;
6:1:133:3:2 Hydrostatic and uniaxial compression studies of 1,3,5-triamino-2,4,6-trinitrobenzene using density functional theory with van der Waals correction
DOI:10.1063/1.3361407 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:14 AU: Budzevich, M. M.;Landerville, A. C.;Conroy, M. W.;Lin, Y.;Oleynik, I. I.;White, C. T.;
6:1:133:3:3 A high-pressure far- and mid-infrared study of 1,1-diamino-2,2-dinitroethylene
DOI:10.1063/1.4722350 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:12 AU: Pravica, Michael;Liu, Yu;Robinson, John;Velisavljevic, Nenad;Liu, Zhenxian;Galley, Martin;
6:1:134:1 Strain Rate Dependent Shear Banding Deformation in Al/W Nanomultilayers
DOI:10.1080/10584587.2013.790247 JN:INTEGRATED FERROELECTRICS PY:2013 TC:2 AU: Xie, J. Y.;Huang, P.;Wang, F.;Li, Y.;Zhang, L. F.;Xu, K. W.;
6:1:134:2 Grain rotation dependent non-homogeneous deformation behavior in nanocrystalline materials
DOI:10.1016/j.msea.2010.05.054 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:5 AU: Li, Xinbo;Zhou, Jianqiu;Zhu, Rongtao;Liu, Yingguang;Jiang, Hua;
6:1:134:3 Thermal stability and strength of Mo/Pt multilayered films
DOI:10.1007/s10853-009-3943-4 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:7 AU: Bellou, A.;Scudiero, L.;Bahr, D. F.;
6:1:134:4 Impacts of accelerated aging on the mechanical properties of Cu-Nb nanolaminates
DOI:10.1007/s10853-012-6649-y JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:2 AU: Economy, D. R.;Schultz, B. M.;Kennedy, M. S.;
6:1:134:5 The dominant deformation mechanism of nanocrystalline materials with the finest grains: grain boundary sliding or grain boundary migration?
DOI:10.1007/s11051-013-2200-6 JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2013 TC:0 AU: Han, Xueping;Zhou, Jianqiu;Liu, Hongxi;Zhang, Shu;Wang, Ying;Dong, Shuhong;
6:1:134:6 Strength and aging behavior of Mo/Pt multilayers
DOI:10.1007/s10853-010-4845-1 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:3 AU: Bellou, A.;Bahr, D. F.;
6:1:135:1 The effect of nanoscratching direction on the plastic deformation and surface morphology of InP crystals
DOI:10.1063/1.4833237 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:0 AU: Huang, J. Y.;Ponce, F. A.;Caldas, P. G.;Prioli, R.;Almeida, C. M.;
6:1:135:2 Strain-related optical properties of ZnO crystals due to nanoindentation on various surface orientations
DOI:10.1063/1.4804309 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:2 AU: Juday, R.;Silva, E. M.;Huang, J. Y.;Caldas, P. G.;Prioli, R.;Ponce, F. A.;
6:1:135:3 Excitonic transport in ZnO
DOI:10.1557/jmr.2012.139 JN:JOURNAL OF MATERIALS RESEARCH PY:2012 TC:5 AU: Noltemeyer, Martin;Bertram, Frank;Hempel, Thomas;Bastek, Barbara;Polyakov, Andrey;Christen, Juergen;Brandt, Matthias;Lorenz, Michael;Grundmann, Marius;
6:1:135:4 Growth of linearly ordered arrays of InAs nanocrystals on scratched InP
DOI:10.1063/1.3309836 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:3 AU: Fonseca-Filho, H. D.;Almeida, C. M.;Prioli, R.;Pires, M. P.;Souza, P. L.;Wu, Z. H.;Wei, Q. Y.;Ponce, F. A.;
6:1:135:5 Plastic hardening in cubic semiconductors by nanoscratching
DOI:10.1063/1.3517459 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:2 AU: Caldas, P. G.;Prioli, R.;Almeida, C. M.;Huang, J. Y.;Ponce, F. A.;
6:1:135:6 Early stages of mechanical deformation in indium phosphide with the zinc blende structure
DOI:10.1063/1.4752881 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:2 AU: Almeida, C. M.;Prioli, R.;Wei, Q. Y.;Ponce, F. A.;
6:1:136:1 The behaviour of niobium and molybdenum during uni-axial strain loading
DOI:10.1063/1.4838037 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Millett, J. C. F.;Cotton, M.;Bourne, N. K.;Park, N. T.;Whiteman, G.;
6:1:136:2 Spall response of 1100-O aluminum
DOI:10.1063/1.4729305 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:8 AU: Williams, C. L.;Ramesh, K. T.;Dandekar, D. P.;
6:1:136:3 The role of cold work on the shock response of tantalum
DOI:10.1063/1.4810896 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:6 AU: Millett, J. C. F.;Whiteman, G.;Park, N. T.;Case, S.;Bourne, N. K.;
6:1:136:4 On the shock stress, substructure evolution, and spall response of commercially pure 1100-O aluminum
DOI:10.1016/j.msea.2014.09.030 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Williams, C. L.;Chen, C. Q.;Ramesh, K. T.;Dandekar, D. P.;
6:1:136:5 The effects of cold rolling on the microstructural and spall response of 1100 aluminum
DOI:10.1063/1.4817844 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:3 AU: Williams, C. L.;Chen, C. Q.;Ramesh, K. T.;Dandekar, D. P.;
6:1:136:6 On the behaviour of body-centred cubic metals to one-dimensional shock loading
DOI:10.1007/s10853-011-5311-4 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:9 AU: Millett, J. C. F.;Bourne, N. K.;Park, N. T.;Whiteman, G.;Gray, G. T., III;
6:1:137:1 Orientation selection process during the early stage of cubic dendrite growth: A phase-field crystal study
DOI:10.1016/j.actamat.2012.07.012 JN:ACTA MATERIALIA PY:2012 TC:8 AU: Tang, Sai;Wang, Zhijun;Guo, Yaolin;Wang, Jincheng;Yu, Yanmei;Zhou, Yaohe;
6:1:137:2 Three-dimensional phase-field crystal modeling of fcc and bcc dendritic crystal growth
DOI:10.1016/j.jcrysgro.2011.08.027 JN:JOURNAL OF CRYSTAL GROWTH PY:2011 TC:16 AU: Tang, Sai;Backofen, Rainer;Wang, Jincheng;Zhou, Yaohe;Voigt, Axel;Yu, Yan-Mei;
6:1:137:3 A relook at the preferred growth direction of the solid-liquid interface during solidification of pure metals
DOI:10.1016/j.actamat.2010.06.009 JN:ACTA MATERIALIA PY:2010 TC:2 AU: Chattopadhyay, C.;Sangal, S.;Mondal, K.;
6:1:137:4 Morphological instability of heteroepitaxial growth on vicinal substrates: A phase-field crystal study
DOI:10.1016/j.jcrysgro.2010.08.047 JN:JOURNAL OF CRYSTAL GROWTH PY:2011 TC:13 AU: Yu, Yan-Mei;Backofen, Rainer;Voigt, Axel;
6:1:137:5 Atomic scale modeling of vicinal surface growth from melts using the phase-field crystal method
DOI:10.1016/j.jcrysgro.2013.04.004 JN:JOURNAL OF CRYSTAL GROWTH PY:2013 TC:1 AU: Tang, Sai;Wang, Zhijun;Guo, Yaolin;Wang, Jincheng;Yu, Yanmei;Zhou, Yaohe;
6:1:138:1 Low-Temperature Creep at Ultra-Low Strain Rates in Pure Aluminum Studied by a Helicoid Spring Specimen Technique
DOI:10.2320/matertrans.M2010405 JN:MATERIALS TRANSACTIONS PY:2011 TC:6 AU: Shen, Junjie;Yamasaki, Shigeto;Ikeda, Ken-ichi;Hata, Satoshi;Nakashima, Hideharu;
6:1:138:2 Creep Mechanism in Several Grades of Aluminum at Low Temperatures
DOI:10.2320/matertrans.L-M2013833 JN:MATERIALS TRANSACTIONS PY:2013 TC:1 AU: Matsunaga, Tetsuya;Sato, Eiichi;
6:1:138:3 Transient Creep in High-Purity Aluminum at Ultra-Low Strain Rate and Room Temperature by Constant Stress and Changing-Stress Experiments
DOI:10.2320/matertrans.M2011175 JN:MATERIALS TRANSACTIONS PY:2011 TC:2 AU: Shen, Junjie;Ikeda, Ken-ichi;Hata, Satoshi;Nakashima, Hideharu;
6:1:138:4 New creep region in pure face-centered cubic metals at low temperatures
DOI:10.1016/j.scriptamat.2010.05.019 JN:SCRIPTA MATERIALIA PY:2010 TC:7 AU: Matsunaga, Tetsuya;Ueda, Shouji;Sato, Eiichi;
6:1:138:5 Grain boundary sliding during ambient-temperature creep in hexagonal close-packed metals
DOI:10.1080/14786435.2010.502883 JN:PHILOSOPHICAL MAGAZINE PY:2010 TC:7 AU: Matsunaga, Tetsuya;Kameyama, Tatsuya;Ueda, Shouji;Sato, Eiichi;
6:1:138:6 A study of annealing stages in commercial pure Cu using mechanical measurements and positron annihilation lifetime technique
DOI:10.1016/j.msea.2010.02.074 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:2 AU: Bishay, I. K.;Aly, E. Hassan;Saadallah, F. A.;
6:1:139:1 Tensile creep of directionally solidified NiAl-9Mo in situ composites
DOI:10.1016/j.actamat.2013.08.017 JN:ACTA MATERIALIA PY:2013 TC:1 AU: Hu, L.;Zhang, G.;Hu, W.;Gottstein, G.;Bogner, S.;Buehrig-Polaczek, A.;
6:1:139:2 3D x-ray microprobe investigation of local dislocation densities and elastic strain gradients in a NiAl-Mo composite and exposed Mo micropillars as a function of prestrain
DOI:10.1557/JMR.2010.0043 JN:JOURNAL OF MATERIALS RESEARCH PY:2010 TC:11 AU: Barabasha, Rozaliya I.;Bei, Hongbin;Gao, Yanfei;Ice, Gene E.;George, Easo P.;
6:1:139:3 Investigation into microstructure and mechanical properties of NiAl-Mo composites produced by directional solidification
DOI:10.1016/j.msea.2012.01.083 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:4 AU: Hu, L.;Hu, W.;Gottstein, G.;Bogner, S.;Hollad, S.;Buehrig-Polaczek, A.;
6:1:139:4 Creep in directionally solidified NiAl-Mo eutectics
DOI:10.1016/j.scriptamat.2011.07.019 JN:SCRIPTA MATERIALIA PY:2011 TC:7 AU: Dudova, M.;Kucharova, K.;Bartak, T.;Bei, H.;George, E. P.;Somsen, Ch.;Dlouhy, A.;
6:1:139:5 Mapping strain gradients in the FIB-structured InGaN/GaN multilayered films with 3D X-ray microbeam
DOI:10.1016/j.msea.2010.04.045 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:1 AU: Barabash, R. I.;Gao, Y. F.;Ice, G. E.;Barabash, O. M.;Chung, Jin-Seok;Liu, W.;Kroeger, R.;Lohmeyer, H.;Sebald, K.;Gutowski, J.;Boettcher, T.;Hommel, D.;
6:1:139:6 Interface strength in NiAl-Mo composites from 3-D X-ray microdiffraction
DOI:10.1016/j.scriptamat.2011.01.028 JN:SCRIPTA MATERIALIA PY:2011 TC:9 AU: Barabash, R. I.;Bei, H.;Gao, Y. F.;Ice, G. E.;
6:1:139:7 Effect of Mo dispersion size and water vapor on oxidation of two-phase directionally solidified NiAl-9Mo in-situ composites
DOI:10.1016/j.scriptamat.2014.02.011 JN:SCRIPTA MATERIALIA PY:2014 TC:0 AU: Brady, M. P.;Bei, H.;Meisner, R. A.;Lance, M. J.;Tortorelli, P. F.;
6:1:140:1 Collision of a suddenly released bent carbon nanotube with a circular graphene sheet
DOI:10.1063/1.3330754 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:5 AU: Duan, W. H.;Wang, C. M.;Tang, W. X.;
6:1:140:2 Molecular dynamics study of the influence of functionalization on the elastic properties of single and multiwall carbon nanotubes
DOI:10.1016/j.commatsci.2011.07.003 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:9 AU: Coto, Borja;Antia, Ibai;Blanco, Miren;Martinez-de-Arenaza, Inger;Meaurio, Emilio;Barriga, Javier;Sarasua, Jose-Ramon;
6:1:140:3 Intertube van der Waals Interaction in Double Walled Carbon Nanotubes Under Axial Compression
DOI:10.1166/jctn.2012.2635 JN:JOURNAL OF COMPUTATIONAL AND THEORETICAL NANOSCIENCE PY:2012 TC:1 AU: Kan, Biao;Ding, Jianning;Zhu, Yuanyuan;Hua, Tongshu;Zhang, Yongbin;Yuan, Ningyi;
6:1:140:4 The Potential of the Interaction Between of Two Nonpoint Nanoparticles
DOI:10.1166/jctn.2013.3200 JN:JOURNAL OF COMPUTATIONAL AND THEORETICAL NANOSCIENCE PY:2013 TC:0 AU: Lozovski, V.;Piatnytsia, V.;
6:1:140:5 Molecular modeling of the mechanical behavior of carbon fiber-amine functionalized multiwall carbon nanotube/epoxy composites
DOI:10.1016/S1872-5805(14)60131-1 JN:NEW CARBON MATERIALS PY:2014 TC:3 AU: Sharma, Kamal;Shukla, Mukul;
6:1:140:6 The effect of intertube van der Waals interaction on the stability of pristine and functionalized carbon nanotubes under compression
DOI:10.1088/0957-4484/21/12/125704 JN:NANOTECHNOLOGY PY:2010 TC:4 AU: Kuang, Y. D.;Shi, S. Q.;Chan, P. K. L.;Chen, C. Y.;
6:1:140:7 Vibration of Axially Strained Triple-Wall Carbon Nanotubes
DOI:10.1166/jctn.2010.1601 JN:JOURNAL OF COMPUTATIONAL AND THEORETICAL NANOSCIENCE PY:2010 TC:2 AU: Wang, C. Y.;Zhao, Y.;Adhikari, S.;Feng, Y. T.;
6:1:141:1 Coalescence of ZnSe Nanoparticles: Molecular Dynamics Study
DOI:10.1166/jctn.2014.3564 JN:JOURNAL OF COMPUTATIONAL AND THEORETICAL NANOSCIENCE PY:2014 TC:0 AU: Zhang, Yajun;Feng, Guoying;Gao, Xiang;Zhou, Shouhuan;
6:1:141:2 Nonlinear Optical Rectification and Oscillator Strength in a Spherical Quantum Dot with an Off-Center Hydrogenic Impurity in Presence of an Applied Electric Field
DOI:10.1166/jctn.2013.3163 JN:JOURNAL OF COMPUTATIONAL AND THEORETICAL NANOSCIENCE PY:2013 TC:2 AU: Yilmaz, Sait;
6:1:141:3 Investigation of Metal Nanoparticles Enhanced Solar Cell Absorption
DOI:10.1166/jctn.2013.2873 JN:JOURNAL OF COMPUTATIONAL AND THEORETICAL NANOSCIENCE PY:2013 TC:2 AU: Yu, Mengxia;Zhou, Xiuli;
6:1:141:4 Optical Absorption Coefficients in a Polar Quantum Dot Nanostructure
DOI:10.1166/jctn.2012.2100 JN:JOURNAL OF COMPUTATIONAL AND THEORETICAL NANOSCIENCE PY:2012 TC:2 AU: Kumar, K. Mathan;Peter, A. John;Lee, Chang Woo;
6:1:141:5 Semiempirical Study of Electron Transport of Heterocyclic Molecule Based Molecular Devices
DOI:10.1166/jctn.2013.2681 JN:JOURNAL OF COMPUTATIONAL AND THEORETICAL NANOSCIENCE PY:2013 TC:4 AU: Kala, C. Preferencial;Priya, P. Aruna;Thiruvadigal, D. John;
6:1:141:6 Study of the Spin Orbit Interaction Effects on the Intersubband Optical Absorption Coefficients and Refractive Index Changes of a Spherical Quantum Dot
DOI:10.1166/jctn.2010.1458 JN:JOURNAL OF COMPUTATIONAL AND THEORETICAL NANOSCIENCE PY:2010 TC:5 AU: Pourmand, S. E.;Rezaei, G.;
6:1:141:7 Structural Properties of ZnO Nanoparticels and Nanorings: Molecular Dynamics Simulations
DOI:10.1166/jctn.2013.2878 JN:JOURNAL OF COMPUTATIONAL AND THEORETICAL NANOSCIENCE PY:2013 TC:6 AU: Kilic, Mehmet Emin;Erkoc, Sakir;
6:1:142:1 Deformation mechanisms and pseudoelastic behaviors in trilayer composite metal nanowires
DOI:10.1103/PhysRevB.81.054117 JN:PHYSICAL REVIEW B PY:2010 TC:12 AU: Abdolrahim, N.;Mastorakos, I. N.;Zbib, H. M.;
6:1:142:2 Discontinuous elastic strain observed during stretching of NiAl single crystal nanofilms
DOI:10.1016/j.commatsci.2013.06.007 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:3 AU: Babicheva, Rita I.;Bukreeva, Karina A.;Dmitriev, Sergey V.;Zhou, Kun;
6:1:142:3 Nanodisturbances and nanoscale deformation twins in fcc nanowires
DOI:10.1103/PhysRevB.83.054111 JN:PHYSICAL REVIEW B PY:2011 TC:4 AU: Bobylev, S. V.;Ovid'ko, I. A.;
6:1:142:4 Infinitely stiff composite via a rotation-stabilized negative-stiffness phase
DOI:10.1063/1.3609328 JN:APPLIED PHYSICS LETTERS PY:2011 TC:8 AU: Kochmann, D. M.;Drugan, W. J.;
6:1:142:5 Mechanical effect of rotating non-spherical particles on failure in compression
DOI:10.1080/14786435.2012.704421 JN:PHILOSOPHICAL MAGAZINE PY:2012 TC:3 AU: Dyskin, Arcady V.;Pasternak, Elena;
6:1:143:1 Influence of morphologic texture on stress analysis by X-ray and neutron diffraction in single-phase metallic materials
DOI:10.1007/s10853-014-8410-1 JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:0 AU: Hounkpati, Viwanou;Freour, Sylvain;Gloaguen, David;Legrand, Vincent;
6:1:143:2 Experimental and theoretical studies of intergranular strain in an alpha titanium alloy during plastic deformation
DOI:10.1016/j.actamat.2013.06.022 JN:ACTA MATERIALIA PY:2013 TC:6 AU: Gloaguen, D.;Oum, G.;Legrand, V.;Fajoui, J.;Branchu, S.;
6:1:143:3 Diffraction residual stress analysis in technical components - Status and prospects
DOI:10.1016/j.tsf.2012.03.064 JN:THIN SOLID FILMS PY:2013 TC:3 AU: Manns, T.;Scholtes, B.;
6:1:143:4 Deformation behaviour of a ferritic hot-work tool steel with respect to the microstructure
DOI:10.1016/j.commatsci.2011.03.047 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:2 AU: Krumphals, Friedrich;Reggiani, Barbara;Donati, Lorenzo;Wlanis, Thomas;Sommitsch, Christof;
6:1:143:5 Cyclic stress-strain behavior and damage of tool steel AISI H11 under isothermal and thermal fatigue conditions
DOI:10.1016/j.msea.2009.11.031 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:6 AU: Gruening, A.;Lebsanft, M.;Scholtes, B.;
6:1:143:6 Residual stress fields analysis in rolled Zircaloy-4 plates: Grazing incidence diffraction and elastoplastic self-consistent model
DOI:10.1016/j.actamat.2014.02.031 JN:ACTA MATERIALIA PY:2014 TC:0 AU: Gloaguen, D.;Fajoui, J.;Girault, B.;
6:1:143:7 Multilayer Systems for Cutting Tools: On the Relationship between Coating Design, Surface Processing, and Residual Stress
DOI:10.1002/adem.201000306 JN:ADVANCED ENGINEERING MATERIALS PY:2011 TC:4 AU: Klaus, Manuela;Genzel, Christoph;
6:1:143:8 Damage analysis of extrusion tools made from the austenitic hot work tool steel Bohler W750
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6:1:144:1 Fatigue-induced grain coarsening in nanocrystalline platinum films
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6:1:144:2 Deformation behavior of nanograined platinum films
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6:1:144:3 The role of specimen thickness in the fracture toughness and fatigue crack growth resistance of nanocrystalline platinum films
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6:1:144:4 Electro-degradation and resistive switching of Fe-doped SrTiO3 single crystal
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6:1:144:5 Softening under membrane contact stress due to ultra-thin Ru coatings on Au films
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6:1:145:1 First-principles study of shear behavior of Al, TiN, and coherent Al/TiN interfaces
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6:1:145:2 Nanoscale rotational deformation in solids at high stresses
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6:1:145:3 Pseudoelastic stacking fault and deformation twinning in nanocrystalline Ni
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6:1:145:4 Structural rotation of Al under uniaxial compression: A first-principles prediction
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6:1:145:5 Heterotwin formation during growth of nanolayered Al-TiN composites
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6:1:146:1:1 High-temperature mechanical- and fatigue properties of cast alloys intended for use in exhaust manifolds
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6:1:146:1:2 High temperature fatigue behaviors of a cast ferritic stainless steel
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6:1:146:1:3 High temperature fatigue resistance of an ACI HH50-type cast austenitic stainless steel
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6:1:146:1:4 Microstructure influence on fatigue behaviour of nodular cast iron
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6:1:146:1:5 High temperature low cycle fatigue properties of 24Cr ferritic stainless steel for SOFC applications
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6:1:146:2:1 Grain boundary structure dependent fracture in nanocrystalline Au films
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6:1:146:2:2 Fatigue properties of ductile cast iron containing chunky graphite
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6:1:146:2:3 Molecular statics simulations of intergranular fracture along I 11 pound tilt grain boundaries in copper bicrystals
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6:1:147:1 Micromechanics of tensile twinning in magnesium gleaned from molecular dynamics simulations
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6:1:147:2 Molecular dynamics simulations of void growth in gamma-TiAl single crystal
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6:1:147:3 Molecular dynamics simulations of void growth and coalescence in single crystal magnesium
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6:1:148:1 In situ observations of crack arrest and bridging by nanoscale twins in copper thin films
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6:1:148:2 An in-situ transmission electron microscopy study on room temperature ductility of TiAl alloys with fully lamellar microstructure
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6:1:148:3 In situ TEM study of crack-grain boundary interactions in thin copper foils
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6:1:148:4 Crack-grain boundary interactions in zinc bicrystals
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6:1:149:1 Extraordinary stability of nano-twinned structure formed during phase transformation coupled with grain growth in electrodeposited Co-Ni alloys
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6:1:149:2 Phase stability in pulse electrodeposited nanograined Co and Fe-Ni
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6:1:149:3 Grain size dependent phase stability of pulse electrodeposited nano-grained Co-Ni films
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6:1:149:4 Phase stability of Co nanowires prepared by electrodeposition via AAO templates
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6:1:150:1 New insights on the structural and optical properties of Ce-Ti mixed oxide nanoparticles doped with praseodymium
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6:1:150:2 Pt nanoparticles supported over Ce-Ti-O: the solvothermal and photochemical approaches for the preparation of catalytic materials
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6:1:150:3 Synergic effect of the TiO2-CeO2 nanoconjugate system on the band-gap for visible light photocatalysis
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6:1:150:4 Morphological and phase dependence of nanotitania materials generated under extreme pH conditions for large scale production of TiO2 nanowires (basic) and nanosquares or nanrods (acidic)
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6:1:150:6 Photodeposition of Pt nanoparticles on TiO2-carbon xerogel composites
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6:1:151:1 Studying grain boundary regions in polycrystalline materials using spherical nano-indentation and orientation imaging microscopy
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6:1:151:2 Understanding pop-ins in spherical nanoindentation
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6:1:151:3 Local plastic deformation in the vicinity of grain boundaries in Fe-3 mass% Si alloy bicrystals and tricrystal
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6:1:151:4 Effect of the continuous stiffness measurement on the mechanical properties extracted using spherical nanoindentation
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6:1:151:5 Indentation size effect in FCC metals: An examination of experimental techniques and the bilinear behavior
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6:1:152:1 Indentation studies in b.c.c. crystals with enhanced model of strain-gradient crystal plasticity
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6:1:152:2 Numerical solution of crystal plasticity problems by a mixed formulation
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6:1:152:3 Influence of strain gradients on lattice rotation in nano-indentation experiments: A numerical study
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6:1:152:4 Implicit iterative finite element scheme for a strain gradient crystal plasticity model based on self-energy of geometrically necessary dislocations
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6:1:152:5 Plastic deformation of multicrystalline thin films: Grain size distribution vs. grain orientation
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6:1:153:1 Molecular dynamics simulations of edge cracks in copper and aluminum single crystals
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6:1:153:2 AA2024-CNTs composites by milling process after T6-temper condition
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6:1:153:3 Effects of pre-stretching and ageing on the strength and fracture toughness of aluminum alloy 7050
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6:1:153:4 Microstructure evolution and mechanical properties of Al-Zn-Mg-Cu alloy reprocessed by spray-forming and heat treated at peak aged condition
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6:1:153:5 Dispersion of silicon carbide nanoparticles in a AA2024 aluminum alloy by a high-energy ball mill
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6:1:154:1 Observation of Self-Similarity in the Magnetic Fields Generated by the Ablative Nonlinear Rayleigh-Taylor Instability
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6:1:154:2 Magnetic Field Generation by the Rayleigh-Taylor Instability in Laser-Driven Planar Plastic Targets
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6:1:154:3 First Measurements of Rayleigh-Taylor-Induced Magnetic Fields in Laser-Produced Plasmas
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6:1:154:4 Magnetic field generation in Rayleigh-Taylor unstable inertial confinement fusion plasmas
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6:1:155:2 Microstructure and nanoindentation measurement of residual stress in Fe-based coating by laser cladding
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6:1:155:3 Measurement of residual stress in quenched 1045 steel by the nanoindentation method
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6:1:155:4 Effects of mechanical properties on the contact profile in Berkovich nanoindentation of elastoplastic materials
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6:1:155:5 Analytical relationship among nominal hardness, reduced Young's modulus, the work of indentation, and strain hardening exponent
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6:1:156:1 Quantitative analysis of grain boundaries in carbon- and nitrogen-added ferritic steels by atom probe tomography
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6:1:156:2 High Temperature Tensile Properties and Its Mechanism in Low-Carbon Nb-Bearing Steel
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6:1:156:3 Effect of Grain Boundary Segregation of Interstitial Elements on Hall-Petch Coefficient in Steels
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6:1:156:4 Correlation between Continuous/Discontinuous Yielding and Hall-Petch Slope in High Purity Iron
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6:1:156:5 Discontinuous yielding induced by the addition of nickel to interstitial-free steel
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6:1:157:1 Atomic-scale investigation and magnetic properties of Cu80Co20 nanowires
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6:1:157:2 Preparation and growth of Ni-Cu alloy nanoparticles prepared by arc plasma evaporation
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6:1:157:3 Morphology, optical and electrical properties of Cu-Ni nanoparticles in a-C:H prepared by co-deposition of RF-sputtering and RF-PECVD
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6:1:157:4 Synthesis and magnetic characterization of a Cu80Co20 thin film obtained by electrodeposition technique
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6:1:157:5 Structural and magnetic characterization of electrode posited Ni/Cu multilayers
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6:1:158:1 Wear behavior of Au-ZnO nanocomposite films for electrical contacts
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6:1:158:2 The nanoscratch hardness of a gold-nickel nanocrystalline nanolaminate at high strain rate
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6:1:158:3 Electrical resistivity of Au-ZnO nanocomposite films
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6:1:158:4 Wear resistant electrically conductive Au-ZnO nanocomposite coatings synthesized by e-beam evaporation
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6:1:158:5 Microstructure evolution of gold thin films under spherical indentation for micro switch contact applications
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6:1:159:2 Formation of arsenolite crystals at room temperature after very high dose arsenic implantation in silicon
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6:1:159:3 Ex situ Ohmic contacts to n-InGaAs
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6:1:160:1 Hybrid Potts-phase field model for coupled microstructural-compositional evolution
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6:1:160:2 Quantitative comparison of the phase-transformation kinetics in a sharp-interface and a phase-field model
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6:1:160:3 Microstructual path analysis of polycrystalline solidification by using multi-phase-field method incorporating a nucleation model
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6:1:161:1 Relaxation of the Bauschinger effect by thermal treatment on tempered martensitic steels
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6:1:161:2 Aging-induced anisotropy of mechanical properties in steel products: Implications for the measurement of engineering properties
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6:1:161:3 The influence of dynamic strain aging on resistance to strain reversal as assessed through the Bauschinger effect
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6:1:161:4 Mechanical behavior of a compositionally graded 300M steel
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6:1:162:2 Self-organizing nanochannel networks in periodically perforated semiconductor films
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6:1:162:3 Micron-scale pattern formation in prestressed polygonal films
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6:1:163:1 An approximate continuum theory for interaction between dislocation and inhomogeneity of any shape and properties
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6:1:163:2 Interaction between an edge dislocation and a circular inclusion with interface slip and diffusion
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6:1:163:3 Creep and stress relaxation in free-standing thin metal films controlled by coupled surface and grain boundary diffusion
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6:1:163:4 Transverse creep and stress relaxation induced by interface diffusion in unidirectional metal matrix composites
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6:1:163:5 A plasticity-corrected stress intensity factor for fatigue crack growth in ductile materials
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6:1:164:1 On definitions and assumptions in the dislocation theory for solid solutions
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6:1:164:2 Reprise: partial chemical strain dislocations and their role in pinning dislocations to their atmospheres
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6:1:164:3 Response to comments
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6:1:164:4 Thermodynamic aspects of Cottrell atmospheres
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6:1:165:1 Tuning nanoscale grain size distribution in multilayered Al-Mn alloys
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6:1:165:2 Microstructure and mechanical properties of electrodeposited Al1-xMnx/Al1-yMny nanostructured multilayers
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6:1:165:3 Enhancement of magnetoresistance by hydrogen ion treatment for current-perpendicular-to-plane giant magnetoresistive films with a current-confined-path nano-oxide layer
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6:1:166:1 Nanostructured alpha and beta tantalum formation-Relationship between plasma parameters and microstructure
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6:1:166:2 Controllable residual stresses in sputtered nanostructured alpha-tantalum
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6:1:166:3 Investigation of the Structure and Properties of Nanoscale Grain-Size beta-Tantalum Thin Films
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6:1:167:1 Nickel-carbon nanocomposites: Synthesis, structural changes and strengthening mechanisms
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6:1:167:2 Mechanical synthesis of copper-carbon nanocomposites: Structural changes, strengthening and thermal stabilization
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6:1:167:3 Development of pitch-based carbon-copper composites
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6:1:168:1 In situ deformation of micro-objects as a tool to uncover the micro-mechanisms of the brittle-to-ductile transition in semiconductors: the case of indium antimonide
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6:1:168:2 Plasticity of indium antimonide between-176 and 400 degrees C under pressure. Part I: Macroscopic aspects of the deformation
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6:1:168:3 Plasticity of indium antimonide between-176 degrees C and 400 degrees C under hydrostatic pressure. Part II: Microscopic aspects of the deformation
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6:1:169:1 Self-organized spatio-temporal micropatteming in ferromagnetic Co-In films
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6:1:169:2 Phases and phase equilibria in cobalt-rich Pr-Co-In alloys for permanent magnets
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6:1:169:3 Formation of Regular Magnetic Domains on Spontaneously Nanostructured Cobalt Filaments
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6:1:169:4 Indium substituted PrCo(5) sintered magnet: A microstructure view
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6:1:170:1 Equipment design for thermal cycling absorption process column efficiency test
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6:1:170:2 Quantitative analysis of oxygen, nitrogen, hydrogen and hydrogen deuteride in high-purity deuterium by gas chromatography
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6:1:170:3 Hydrogen isotopes separation using frontal displacement chromatography with Pd-Al2O3 packed column
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6:1:170:4 Dynamic simulation of Thermal Cycling Absorption Process with twin columns for hydrogen isotopes separation
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6:1:171:1 Elastic fields generated by a semi-spherical hydride particle on a free surface of a metal and their effect on its growth
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6:1:171:2 Preferred hydride growth orientations on oxide-coated gadolinium surfaces
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6:1:171:3 Heat pretreatment-induced activation of gadolinium surfaces towards the initial precipitation of hydrides
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6:1:172:1 Stress migration risk on electromigration reliability in advanced narrow line copper interconnects
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6:1:172:2 The effect of stress migration on electromigration in dual damascene copper interconnects
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6:1:172:3 Large-scale statistical analysis of early failures in Cu electromigration, Part I: Dominating mechanisms
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6:1:172:4 An investigation of electromigration induced void nucleation time statistics in short copper interconnects
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6:1:173:1 Constitutive modeling of shock response of polytetrafluoroethylene
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6:1:173:2 Constitutive modeling of shock response of phase-transforming and porous materials with strength
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6:1:173:3 Phase transition modeling of polytetrafluoroethylene during Taylor impact
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6:1:174:1 Release path temperatures of shock-compressed tin from dynamic reflectance and radiance measurements
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6:1:174:2 Infrared emissivity of tin upon release of a 25 GPa shock into a lithium fluoride window
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6:1:174:3 Emissivity measurements of shocked tin using a multi-wavelength integrating sphere
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6:1:174:4 Luminescence from edge fracture in shocked lithium fluoride crystals
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6:1:175:1 Correlations Between Creep, Shrinkage, and Dynamic Mechanical Characteristics of Magnetic Tape Materials
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6:1:175:2 Viscoelastic Behavior of Polymer Tape in a Wound Roll
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6:1:175:3 Dynamic Mechanical Analysis of Magnetic Tapes at Ultra-Low Frequencies
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6:1:176:1 Sequence of deformation and cracking behaviours of Gallium-Arsenide during nano-scratching
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6:1:176:2 Nanoindentation cracking in gallium arsenide: Part I. In situ SEM nanoindentation
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6:1:176:3 Nanoindentation cracking in gallium arsenide: Part II. TEM investigation
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6:1:177:1 Absorption of crystal/amorphous interfacial dislocations during in situ TEM nanoindentation of an Al thin film on Si
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6:1:177:2 Preparation of H-bar cross-sectional specimen for in situ TEM straining experiments: A FIB-based method applied to a nitrided Ti-6Al-4V alloy
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6:1:177:3 Dislocation plasticity of Al film on polyimide investigated by cross-sectional in situ transmission electron microscopy straining
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6:1:178:1 Cryogenic nanoindentation size effect in [001]-oriented face-centered cubic and body-centered cubic single crystals
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6:1:178:2 Temperature dependence of the indentation size effect
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6:1:179:1 Phonon Emission Induced Dynamic Fracture Phenomena
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6:1:179:2 Evaluation of the thermal phonon emission in dynamic fracture of brittle crystals
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6:1:179:3 Dynamic crack surface instabilities initiated at dopants
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6:1:180:1 Combined experimental and computational study of the recrystallization process induced by electronic interactions of swift heavy ions with silicon carbide crystals
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6:1:180:2 Molecular dynamics simulations of swift heavy ion induced defect recovery in SiC
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6:1:180:3 Recrystallization of hexagonal silicon carbide after gold ion irradiation and thermal annealing
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6:1:181:1 The fibre/matrix interface and its influence on mechanical and physical properties of Cu-MMC
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6:1:181:2 Filament-reinforced nanocrystalline Ni composites by pulse electroforming
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6:1:181:3 Thermal Cycling Stresses in W-Monofilament Reinforced Copper
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6:1:182:1 Laser-deposited Cu/alpha-Al2O3 nanocomposite: experiment and modeling
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6:1:182:2 Symmetry-based approach to parametrization of embedded-atom-method interatomic potentials
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6:1:182:3 Quantitative TEM analysis of Al/Cu multilayer systems prepared by pulsed laser deposition
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6:1:183:1 Low frequency tantalum electromechanical systems for biomimetical applications
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6:1:183:2 Bimaterial electromechanical systems for a biomimetical acoustic sensor
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6:1:183:3 Microelectromechanical systems for biomimetical applications
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6:1:184:1 Effect of particle hardness on mild-severe wear transition of hard second phase materials
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6:1:184:2 Effect of abrasive size on wear of metallic materials and its relationship with microchips morphology and wear micromechanisms: Part 1
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6:1:184:3 Effect of abrasive size on wear of metallic materials and its relationship with microchips morphology and wear micromechanisms: Part 2
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6:1:185:1 Collective nature of plasticity in mediating phase transformation under shock compression
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6:1:185:2 Collective nature of plasticity in mediating phase transformation under shock compression (vol 89, 220101, 2014)
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6:1:186:1 Effect of cold work on surface reactivity and nano-hardness of alloy 800 in corroding environments
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6:1:186:2 Affects of applied stresses on the isothermal and cyclic high-temperature oxidation behavior of superalloys
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6:1:187:1 A three-dimensional dislocation dynamics study of the effects of grain size and shape on strengthening behavior of fcc Cu
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6:1:187:2 Modeling effects of initial dislocation microstructure on the yield strength in FCC single crystal Cu with dislocation dynamics
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6:1:188:1 Nanoindentation of palladium-hydrogen
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6:1:188:2 Effects of hydrogen exposure temperature on the tensile strength, microhardness and ductility of Pd/Ag (25 wt.%) alloy
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6:1:189:1 A vibrational approach to determine the elastic modulus of individual thin films in multilayers
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6:1:189:2 Experimental analysis of galvanic corrosion of a thin metal film in a multilayer stack for MEMS application
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6:2:1:1 Role of {10-12} twinning characteristics in the deformation behavior of a polycrystalline magnesium alloy
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6:2:1:2 Deformation twinning in AZ31: Influence on strain hardening and texture evolution
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6:2:1:3 Temperature dependency of slip and twinning in plane strain compressed magnesium single crystals
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6:2:1:4 Effective values of critical resolved shear stress for slip in polycrystalline magnesium and other hcp metals
DOI:10.1016/j.scriptamat.2010.05.047 JN:SCRIPTA MATERIALIA PY:2010 TC:83 AU: Hutchinson, W. B.;Barnett, M. R.;
6:2:1:5 Mechanical behavior and microstructural evolution of a Mg AZ31 sheet at dynamic strain rates
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6:2:1:6 Activation mode dependent {10-12} twinning characteristics in a polycrystalline magnesium alloy
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6:2:1:7 Improving tensile and compressive properties of magnesium alloy plates by pre-cold rolling
DOI:10.1016/j.scriptamat.2012.02.047 JN:SCRIPTA MATERIALIA PY:2012 TC:47 AU: Song, Bo;Xin, Renlong;Chen, Gang;Zhang, Xiyan;Liu, Qing;
6:2:1:8 Strengthening and toughening of magnesium alloy by {10-12} extension twins
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6:2:1:9 Relationship between deformation twinning and surface step formation in AZ31 magnesium alloys
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6:2:1:10 {10-12} Twin variants selection mechanisms during twinning, re-twinning and detwinning
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6:2:1:11 Investigation of deformation twinning in a fine-grained and coarse-grained ZM20 Mg alloy: Combined in situ neutron diffraction and acoustic emission
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6:2:1:12 Dependence of compressive deformation on pre-strain and loading direction in an extruded magnesium alloy: Texture, twinning and de-twinning
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6:2:1:13 Twin characteristics and flow stress evolution in extruded magnesium alloy AZ31 subjected to multiple loads
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6:2:1:14 Twinning and grain subdivision during dynamic deformation of a Mg AZ31 sheet alloy at room temperature
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6:2:1:15 Effects of aluminum content and strain rate on strain hardening behavior of cast magnesium alloys during compression
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6:2:1:16 Yield point elongation due to twinning in a magnesium alloy
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6:2:1:17 Effect of crystal orientation on the mechanical properties and strain hardening behavior of magnesium alloy AZ31 during uniaxial compression
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6:2:1:18 Multiple twinning modes in rolled Mg-3Al-1Zn alloy and their selection mechanism
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6:2:1:19 Detwinning and strain hardening of an extruded magnesium alloy during compression
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6:2:1:20 Detwinning behavior of Mg-3Al-1Zn alloy at elevated temperatures
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6:2:1:21 Strain path dependence of {10-12} twinning activity in a polycrystalline magnesium alloy
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6:2:1:22 Sensitivity of deformation twinning to grain size in titanium and magnesium
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6:2:1:23 Influence of yttrium content on phase formation and strain hardening behavior of Mg-Zn-Mn magnesium alloy
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6:2:1:24 Anisotropy of the extruded and heat-treated Li containing AZ31 magnesium alloys
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6:2:1:25 Influence of pre-deformation and subsequent annealing on strain hardening and anisotropy of AM30 magnesium alloy
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6:2:1:26 In-plane anisotropic deformation behavior of rolled Mg-3Al-1Zn alloy by initial {10-12} twins
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6:2:1:27 Influence of pre-strain on de-twinning activity in an extruded AM30 magnesium alloy
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6:2:1:28 Tailoring the texture of magnesium alloy by twinning deformation to improve the rolling capability
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6:2:1:29 Low cycle fatigue of a rare-earth containing extruded magnesium alloy
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6:2:1:30 Twinning behavior of a strongly basal textured AZ31 Mg alloy during warm rolling
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6:2:1:31 Anisotropy of dynamic behavior of extruded AZ31 magnesium alloy
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6:2:1:32 A tilted weak texture processed by an asymmetric extrusion for magnesium alloy sheets
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6:2:1:33 Enhancing the strength of rolled ZK60 alloys via the combined use of twinning deformation and aging treatment
DOI:10.1016/j.msea.2013.06.047 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:7 AU: Song, Bo;Xin, Renlong;Sun, Liyun;Chen, Gang;Liu, Qing;
6:2:1:34 Nanostructured extension twins in rapidly compressed Mg-3.0Al-1.0Zn alloy
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6:2:1:35 Twinning behaviour of AZ31Mg alloy alternately compressed in two orthogonal directions
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6:2:1:36 Interactions of a screw dislocation with a {10(1)over-bar1}-{10(1)over-bar2} double twin in Mg
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6:2:1:37 The effects of compressive pre-deformation on yield asymmetry in hot-extruded Mg-3Al-1Zn alloy
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6:2:1:38 Enhanced stretch formability of rolled Mg-3Al-1Zn alloy at room temperature by initial {10-12} twins
DOI:10.1016/j.msea.2013.04.084 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:18 AU: Park, Sung Hyuk;Hong, Seong-Gu;Lee, Chong Soo;
6:2:1:39 The influence of a secondary twin on the detwinning deformation of a primary twin in Mg-3Al-1Zn alloy
DOI:10.1016/j.msea.2014.03.068 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:6 AU: Xin, Yunchang;Zhou, Xiaojun;Lv, Liangchen;Liu, Qing;
6:2:1:40 Microscale plastic strain heterogeneity in slip dominated deformation of magnesium alloy containing rare earth
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6:2:1:41 Characteristics of long {10-12} twin bands in sheet rolling of a magnesium alloy
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6:2:1:42 Deformation mechanisms and plastic anisotropy in magnesium alloy AZ31
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6:2:1:43 Understanding of variant selection and twin patterns in compressed Mg alloy sheets via combined analysis of Schmid factor and strain compatibility factor
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6:2:1:44 Deformation behaviour of commercially pure titanium at extreme strain rates
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6:2:1:45 Enhancing the fatigue property of rolled AZ31 magnesium alloy by controlling {10-12} twinning-detwinning characteristics
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6:2:1:46 Gradient nano microstructure and its formation mechanism in pure titanium produced by surface rolling treatment
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6:2:1:47 EBSD analysis of {10-12} twinning activity in Mg-3Al-1Zn alloy during compression
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6:2:1:48 An experimental and numerical study of texture change and twinning-induced hardening during tensile deformation of an AZ31 magnesium alloy rolled plate
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6:2:1:49 Twinning characteristic and variant selection in compression of a pre-side-rolled Mg alloy sheet
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6:2:1:50 Tailoring texture and refining grain of magnesium alloy by differential speed extrusion process
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6:2:1:51 On the Swift effect and twinning in a rolled magnesium alloy under free-end torsion
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6:2:1:52 Twinning-induced negative strain rate sensitivity in wrought Mg alloy AZ31
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6:2:1:53 Extension twin variant selection during uniaxial compression of a magnesium alloy
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6:2:1:54 Influence of texture on the recrystallization mechanisms in an AZ31 Mg sheet alloy at dynamic rates
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6:2:1:55 Calculation of Schmid factors in magnesium: Analysis of deformation behaviors
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6:2:1:56 Strain rate and texture effects on microstructural characteristics of Mg-3Al-1Zn alloy during compression
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6:2:1:57 In situ analysis of the tensile and tensile-creep deformation mechanisms in rolled AZ31
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6:2:1:58 Microstructure evolution and mechanical properties of twinned AZ31 alloy plates at lower elevated temperature
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6:2:1:59 Texture transformation in an extruded magnesium alloy under pressure
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6:2:1:60 Twinning and mechanical behavior of an extruded Mg-6Al-3Sn alloy with a dual basal texture
DOI:10.1016/j.msea.2013.04.026 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: Zhang, Lei;Liu, Chun-Guo;Wang, Hui-Yuan;Nan, Xiao-Long;Xiao, Wei;Jiang, Qi-Chuan;
6:2:1:61 Deformation mechanisms of a rolled Mg-6Al-3Sn alloy during plane strain compression
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6:2:1:62 Tension-compression asymmetry in an extruded Mg alloy AM30: Temperature and strain rate effects
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6:2:1:63 Influence of an asymmetric shear deformation on microstructure evolution and mechanical behavior of AZ31 magnesium alloy sheet
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6:2:1:64 Enhancing the effect of texture control using {10-12} twins by retarding detwinning activity in rolled Mg-3Al-1Zn alloy
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6:2:1:65 Influence of grain size on strain rate sensitivity in rolled Mg-3Al-3Sn alloy at room temperature
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6:2:1:66 Influence of texture on Hall-Petch relationships in an Mg alloy
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6:2:1:67 Anisotropic fatigue behavior of rolled Mg-3Al-1Zn alloy
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6:2:1:68 Deformation behavior of as-rolled and strip-cast AZ31 magnesium alloy sheets
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6:2:1:69 Suppressing the tension-compression yield asymmetry of Mg alloy by hybrid extension twins structure
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6:2:1:70 Enhancing yield strength by suppressing detwinning in a rolled Mg-3Al-1Zn alloy with {10(1)over-bar2} twins
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6:2:1:71 Reducing the anisotropy of a pre-twinned hot-rolled Mg-3Al-1Zn alloy by plane-strain compression
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6:2:1:72 Strain-rate sensitivity of textured Mg-3.0Al-1.0Zn alloy (AZ31) under impact deformation
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6:2:1:73 Influence of orientation on twin nucleation and growth at low strains in a magnesium alloy
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6:2:1:74 Role of initial texture on the plastic anisotropy of Mg-3Al-1Zn alloy at various temperatures
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6:2:1:75 Plastic deformation behavior of AZ31 magnesium alloy under multiple passes cross compression
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6:2:1:77 Experimental and simulation analysis of texture formation and deformation mechanism of rolled AZ31B magnesium alloy under dynamic loading
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6:2:1:78 Slip-induced texture evolution of rolled Mg-6Al-3Sn alloy during uniaxial tension along rolling and transverse directions
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6:2:1:80 Texture analysis of the effect of non-basal slip systems on the dynamic recrystallization of the Mg alloy AZ31
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6:2:1:81 Effects of basal texture on mechanical behaviour of magnesium alloy AZ31B sheet
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6:2:1:82 Texture effect on microyielding of wrought magnesium alloy AZ31
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6:2:1:83 The deformation behaviour of the magnesium alloy AZ80 at 77 and 293 K
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6:2:1:84 The effects of detwinning on the mechanical properties of AZ31B magnesium alloy with different strain rates at 423 K
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6:2:1:86 Annealing hardening in detwinning deformation of Mg-3Al-1Zn alloy
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6:2:1:87 Texture effects on development of shear bands in rolled AZ31 alloy
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6:2:1:88 Effect of initial texture on deformation behavior of AZ31 magnesium alloy sheets under biaxial loading
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6:2:1:89 Improved mechanical properties of AZ31 magnesium alloy plates by pre-rolling followed by warm compression
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6:2:1:90 A comparative study between uniaxial compression and plane strain compression of Mg-3Al-1Zn alloy using experiments and simulations
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6:2:1:91 Role of {10-12} twinning and detwinning in the shock-hardening behavior of rolled Mg-3Al-1Zn alloy
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6:2:1:92 In situ identification of twin-related bands near yielding in a magnesium alloy
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6:2:1:93 Effect of strain rate on twinning in a Zr alloy
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6:2:1:94 A minimum parameter approach to crystal plasticity modelling
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6:2:1:95 Plastic relaxation of the internal stress induced by twinning
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6:2:1:96 Characteristics of different {10-12} twin variants in magnesium alloy during room temperature dynamic plastic deformation
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6:2:1:97 Microstructure and Mechanical Properties of Alternately-Compressed AZ31 Mg Alloy in Two Orthogonal Directions
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6:2:1:98 Influence of grain size on deformation mechanisms in rolled Mg-3Al-3Sn alloy at room temperature
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6:2:1:99 Dynamic plasticity of AZ31 magnesium alloy: Experimental investigation and constitutive modeling
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6:2:1:100 Influence of temperature and plastic relaxation on tensile twinning in a magnesium alloy
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6:2:1:101 Twinning and de-twinning in beryllium during strain path changes
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6:2:1:102 Improved strength and ductility of magnesium alloy below micro-twin lamellar structure
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6:2:1:103 Effect of current frequency on the mechanical properties, microstructure and texture evolution in AZ31 magnesium alloy strips during electroplastic rolling
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6:2:1:104 Strain-rate sensitivity and microstructural evolution in a Mg-Al-Zn alloy
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6:2:1:105 Grain refining and improving mechanical properties of a warm rolled AZ31 alloy plate
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6:2:1:106 Texture and microstructure evolution during the symmetric and asymmetric rolling of AZ31B magnesium alloys
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6:2:1:107 Bending behavior, and evolution of texture and microstructure during differential speed warm rolling of AZ31B magnesium alloys
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6:2:1:108 Effect of microalloying (Ca, Sr, and Ce) on elevated temperature tensile behavior of AZ31 magnesium sheet alloy
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6:2:1:109 Texture effect on high strain rates tension and compression deformation behavior of extruded AM30 alloy
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6:2:1:110 The influences of long period stacking order phase and texture on compressive behavior of an extruded magnesium alloy
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6:2:1:111 The anisotropy and diverse mechanical properties of rolled Mg-3% Al-1% Zn alloyl
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6:2:1:112 Forming limit diagrams of twin-roll cast, rolled and heat-treated AZ31 as a function of temperature and loading rate
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6:2:1:113 Tension-compression yield asymmetry in as-cast magnesium alloy
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6:2:1:114 Deformation of twins in a magnesium alloy under tension at room temperature
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6:2:1:115 Effect of twinning on the deformation behavior of an extruded Mg-Zn-Zr alloy during hot compression testing
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6:2:1:116 Influence of observation plane on twin variant identification in magnesium via trace and misorientation analysis
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6:2:1:117 Polycrystal modeling of tensile twinning in a Mg alloy during cyclic loading
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6:2:1:118 Mechanical behavior and microstructural characteristics of magnesium alloy containing {10-12} twin lamellar structure
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6:2:1:119 Effect of grain size on cyclic microplasticity of ECAP processed commercial pure magnesium
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6:2:1:120 Negative lateral strain ratio induced by deformation twinning in magnesium alloy AZ31
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6:2:1:121 The role of deformation twinning in the fracture behavior and mechanism of basal textured magnesium alloys
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6:2:1:122 Compressive and constitutive analysis of AZ31B magnesium alloy over a wide range of strain rates
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6:2:1:123 Mechanical properties of the icosahedral phase reinforced duplex Mg-Li alloy both at room and elevated temperatures
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6:2:1:124 Twin growth and its interaction with precipitates
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6:2:1:125 Achieving synchronous improvement of strength and ductility of Mg-3% Al-1% Zn alloy through controlling the rolling orientation
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6:2:1:126 Prediction of flow stress and textures of AZ31 magnesium alloy at elevated temperature
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6:2:1:127 A microstructure-based model of the deformation mechanisms and flow stress during elevated-temperature straining of a magnesium alloy
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6:2:2:1 The 18R and 14H long-period stacking ordered structures in Mg-Y-Zn alloys
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6:2:2:2 Effect of long-period stacking ordered phase on mechanical properties of Mg97Zn1Y2 extruded alloy
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6:2:2:3 Strengthening and toughening mechanisms in Mg-Zn-Y alloy with a long period stacking ordered structure
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6:2:2:4 Effect of multimodal microstructure evolution on mechanical properties of Mg-Zn-Y extruded alloy
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6:2:2:6 Enrichment of Gd and Al atoms in the quadruple close packed planes and their in-plane long-range ordering in the long period stacking-ordered phase in the Mg-Al-Gd system
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6:2:2:7 Microstructures and mechanical properties of high-strength Mg-Gd-Y-Zn-Zr alloy sheets processed by severe hot rolling
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6:2:2:8 Microstructures and mechanical properties of Mg-10Gd-6Y-2Zn-0.6Zr(wt.%) alloy
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6:2:2:9 Microstructure and mechanical properties of Mg-Gd-Dy-Zn alloy with long period stacking ordered structure or stacking faults
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6:2:2:10 Effect of the LPSO volume fraction on the microstructure and mechanical properties of Mg-Y-2X -Zn (X) alloys
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6:2:2:11 Formation of profuse long period stacking ordered microcells in Mg-Gd-Zn-Zr alloy during multipass ECAP process
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6:2:2:12 Microstructure and high mechanical properties of Mg-9RY-4Zn (RY: Y-rich misch metal) alloy with long period stacking ordered phase
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6:2:2:13 Ultra high-strength Mg-Gd-Y-Zn-Zr alloy sheets processed by large-strain hot rolling and ageing
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6:2:2:14 Effect of substitution of 1 at% Ni for Zn on the microstructure and mechanical properties of Mg94Y4Zn2 alloy
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6:2:2:15 Effect of final rolling reduction on the microstructure and mechanical properties of Mg-Gd-Y-Zn-Zr alloy sheets
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6:2:2:16 Effects of heat treatments on microstructure and mechanical properties of Mg-11Y-5Gd-2Zn-0.5Zr (wt.%) alloy
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6:2:2:17 Development of high-strength magnesium alloys via combined processes of extrusion, rolling and ageing
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6:2:2:18 Elastic properties of an Mg-Zn-Y alloy single crystal with a long-period stacking-ordered structure
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6:2:2:19 Microstructure and mechanical properties of rolled sheets of Mg-Gd-Y-Zn-Zr alloy: As-cast versus as-homogenized
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6:2:2:20 Effect of heat treatments on the microstructure and mechanical properties of an extruded Mg95.5Y3Zn1.5 alloy
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6:2:2:21 Characterization of planar features in Mg-Y-Zn alloys
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6:2:2:22 Growth and transformation mechanisms of 18R and 14H in Mg-Y-Zn alloys
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6:2:2:23 Effect of ageing treatment on the microstructures and mechanical properties of the extruded Mg-7Y-4Gd-1.5Zn-0.4Zr alloy
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6:2:2:24 18R and 14H long-period stacking ordered structures in the Mg93.96Zn2Y4Sr0.04 alloy and the modification effect of Sr on X-phase
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6:2:2:25 Microstructure and mechanical properties of Mg-Gd-Y-Zn-Zr alloy sheets processed by combined processes of extrusion, hot rolling and ageing
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6:2:2:27 The relationship between (Mg,Zn)(3)RE phase and 14H-LPSO phase in Mg-Gd-Y-Zn-Zr alloys solidified at different cooling rates
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6:2:2:28 Superplastic behavior of extruded Mg-9RY-4Zn alloy containing long period stacking ordered phase
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6:2:2:29 Effect of Gd and Y contents on the microstructural evolution of long period stacking ordered phase and the corresponding mechanical properties in Mg-Gd-Y-Zn-Mn alloys
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6:2:2:31 New polytypes of long-period stacking ordered structures in Mg-Co-Y alloys
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6:2:2:32 Phase equilibria and transformations in ternary Mg-rich Mg-Y-Zn alloys
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6:2:2:33 Double-peak ageing behavior of Mg-2Dy-0.5Zn alloy
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6:2:2:34 Effect of Extrusion Parameters on Mechanical Properties of Mg97Zn1Y2 Alloys at Room and Elevated Temperatures
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6:2:2:37 Thermodynamic stability of Mg-Y-Z long-period stacking ordered structures
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6:2:2:38 Effect of solid solution and aging treatments on the microstructures evolution and mechanical properties of Mg-14Gd-3Y-1.8Zn-0.5Zr alloy
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6:2:2:39 Electronic structures of long periodic stacking order structures in Mg: A first-principles study
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6:2:2:41 Study of Mg-Gd-Zn-Zr alloys with long period stacking ordered structures
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6:2:2:42 Effects of heat treatment on the morphology of long-period stacking ordered phase and the corresponding mechanical properties of Mg-9Gd-xEr-1.6Zn-0.6Zr magnesium alloys
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6:2:2:43 Optimization of strength by microstructural refinement of MgY2Zn1 alloy during extrusion and ECAP processing
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6:2:2:44 The evolution of internal strain in Mg-Y-Zn alloys with a long period stacking ordered structure
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6:2:2:46 Influence of rare-earth addition on the long-period stacking ordered phase in cast Mg-Y-Zn alloys
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6:2:2:48 Microstructure and mechanical properties of Mg-Zn-Y alloy sheet prepared by hot-rolling
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6:2:2:49 Microstructure and mechanical properties of Mg-Zn-Dy-Zr alloy with long-period stacking ordered phases by heat treatments and ECAP process
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6:2:2:50 High-strength and good-ductility Mg-RE-Zn-Mn magnesium alloy with long-period stacking ordered phase
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6:2:2:51 Effect of LPSO Phase-Stimulated Texture Evolution on Creep Resistance of Extruded Mg-Zn-Gd Alloys
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6:2:2:52 Effect of long period stacking ordered phase on the microstructure, texture and mechanical properties of extruded Mg-Y-Zn alloy
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6:2:2:53 First-principles study of long-period stacking ordered-like multi-stacking fault structures in pure magnesium
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6:2:2:54 Microstructures and mechanical properties of the extruded Mg-4Y-2Gd-xZn-0.4Zr alloys
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6:2:2:55 A transmission electron microscopy investigation of defects in an Mg-Cu-Mn-Zn-Y damping alloy
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6:2:2:56 Exceptional high-strain-rate superplasticity in Mg-Gd-Y-Zn-Zr alloy with long-period stacking ordered phase
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6:2:2:57 Experimental study on strengthening of Mg-Li alloy by introducing long-period stacking ordered structure
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6:2:2:58 Crystallographic classification of kink bands in an extruded Mg-Zn-Y alloy using intragranular misorientation axis analysis
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6:2:2:59 Crystal structure of the mirror symmetry 10H-type long-period stacking order phase in Mg-Y-Zn alloy
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6:2:2:62 Non-Basal Slip Systems Operative in Mg12ZnY Long-Period Stacking Ordered (LPSO) Phase with 18R and 14H Structures
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6:2:2:64 Effect of microstructure on creep behaviour of cast Mg97Y2Zn1 (at.%) alloy
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6:2:2:65 Microstructure and mechanical properties of Mg-9RY-4Cu alloy with long period stacking ordered phase
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6:2:2:66 Effect of cooling rate on the microstructure evolution and mechanical properties of homogenized Mg-Gd-Y-Zn-Zr alloy
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6:2:2:67 Microstructures and mechanical properties of the Mg-8Gd-4Y-Nd-Zn-3Si (wt%) alloy
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6:2:2:71 Effect of heat treatment on the microstructures and mechanical properties of the extruded Mg-11Gd-1Zn alloy
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6:2:2:73 A study of the microstructure, phase composition, and mechanical properties of extruded Mg-9Er-6Y-xZn-0.6Zr magnesium alloys
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6:2:2:75 Effect of V on the microstructure and mechanical properties of Mg-10Er-2Cu alloy with a long period stacking ordered structure
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6:2:2:76 Microstructure and super high strength of cast Mg-8.5Gd-2.3Y-1.8Ag-0.4Zr alloy
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6:2:2:80 Effects of Zn on the microstructures and mechanical properties of Mg-3Sm-0.5Gd-xZn-0.5Zr (x=0, 0.3 and 0.6) alloy
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6:2:2:81 Microstructure and mechanical properties of the hot-rolled Mg-Y-Nd-Zr alloy
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6:2:2:82 Microstructure and mechanical properties of Mg-2Gd-3Y-0.6Zr alloy upon conventional and hydrostatic extrusion
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6:2:2:83 The effect of LPSO phase on hot deformation behavior and dynamic recrystallization evolution of Mg-2.0Zn-0.3Zr-5.8Y alloy
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6:2:2:85 Effect of multi-pass equal channel angular pressing on microstructure and mechanical properties of Mg97.1Zn1Gd1.8Zr0.1 alloy
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6:2:2:87 Non-basal slip in Ni-3(Ti, Nb) and Ni-3(Ti, Al) single crystals with various long-period stacking ordered structures
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6:2:2:88 Microstructure and microhardness evolution of a Mg83Ni6Zn5Y6 alloy upon annealing
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6:2:2:89 Microstructure and Mechanical Properties of Mg-Zn-Y Rolled Sheet with a Mg12ZnY Phase
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6:2:2:90 On the Elastic Accommodation Between the Structural Units in the LPSO Structures
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6:2:2:91 Precipitation microstructure and their strengthening effects of an Mg-2.8Nd-0.6Zn-0.4Zr alloy with a 0.2 wt.% Y addition
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6:2:2:92 Effect of zirconium on the microstructure and mechanical properties of long period stacking ordered Mg96Gd3Zn1 alloy
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6:2:2:96 The maximum solubility of Y in alpha-Mg and composition ranges of Mg24Y5 (-) (x) and Mg2Y1 (-) (x) intermetallic phases in Mg-Y binary system
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6:2:2:97 Research on long-period-stacking-ordered phase in Mg-Zn-Dy-Zr alloy
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6:2:2:98 Effects of Mn on the microstructure and mechanical properties of long period stacking ordered Mg95Zn2.5Y2.5 alloy
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6:2:2:99 Effect of Nd on the microstructure and mechanical properties of Mg-8Gd-5Y-2Zn-0.5Zr alloy
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6:2:2:100 High-strength Mg93.96Zn2Y4Sr0.04 alloy with long-period stacking ordered structure
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6:2:2:101 Microfracture behaviour of extruded Mg-Zn-Y alloys containing long-period stacking ordered structure at room and elevated temperatures
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6:2:2:102 Effect of rolling passes on the microstructures and mechanical properties of Mg-Gd-Y-Zr alloy sheets
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6:2:2:103 Abundant long period stacking ordered structure induced by Ni addition into Mg-Gd-Zn alloy
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6:2:2:104 Enhancement of properties in cast Mg-Y-Zn rod processed by severe plastic deformation
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6:2:2:105 Effect of long-period stacking ordered phase on thermal stability of refined grains in Mg-RE-based alloys
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6:2:2:106 In situ measurements on stability of long-period stacking-ordered structures in Mg85Y9Zn6 alloys during heating examined by multicolor synchrotron radiation small-angle scattering
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6:2:2:107 Effect of precipitates on microstructures and properties of forged Mg-10Gd-2Y-0.5Zn-0.3Zr alloy during ageing process
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6:2:2:108 Phase transformation in Mg-8Gd-4Y-Nd-Zr alloy
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6:2:2:109 Tensile property and cold formability of a Mg96Zn2Y2 alloy sheet with a long-period ordered phase
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6:2:2:110 Effect of Sn on the formation of the long period stacking ordered phase and mechanical properties of Mg-RE-Zn alloy
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6:2:2:111 Dislocations in Deformation Microstructure of Extruded Mg97Y2Zn1 Alloy Studied by High-Angle Annular Detector Dark-Field Scanning Transmission Electron Microscopy (HAADF-STEM)
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6:2:2:112 In-Situ Neutron Diffraction Study on Tensile Behavior of LPSO Mg-Zn-Y Alloys
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6:2:2:113 Activation Free Energy of Nucleation of a Dislocation Pair in Magnesium
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6:2:2:114 Micro-Kinking of the Long-Period Stacking/Order (LPSO) Phase in a Hot-Extruded Mg97Zn1Y2 Alloy
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6:2:2:115 Hardening and microstructural reactions in high-temperature equal-channel angular pressed Mg-Nd-Gd-Zn-Zr alloy
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6:2:2:116 Application of mixture rule to finite element analysis for forging of cast Mg-Zn-Y alloys with long period stacking ordered structure
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6:2:2:117 Creep behavior of Mg-11Y-5Gd-2Zn-0.5Zr (wt.%) at 573
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6:2:2:118 Microstructures and mechanical properties of high performance Mg-6Gd-3Y-2Nd-0.4Zr alloy by indirect extrusion and aging treatment
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6:2:2:119 Effects of Mn addition and X-phase on the microstructure and mechanical properties of high-strength Mg-Zn-Y-Mn alloys
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6:2:2:120 Deformation twinning in a Mg-Al-Gd ternary alloy containing precipitates with a long-period stacking-ordered (LPSO) structure
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6:2:2:121 Structure of a new ternary compound with high magnesium content, so-called Gd13Ni9Mg78
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6:2:2:122 ZrB2 nanoparticle induced nano-LPSO-grain and nano-LPSO-layer reinforced ultra-high strength Mg-RE alloy
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6:2:2:123 Neutron Diffraction on LPSO Structure in Mg-Zn-Y Alloys
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6:2:2:124 Structural and Compositional Modulation in Transformation of LPSO Structure in Mg97Zn1Y2 Cast Alloys
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6:2:2:125 Molecular Dynamics Analyses of Deformation Behavior of Long-Period-Stacking-Ordered Structures
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6:2:2:126 Effect of Y and Zn substitution on elastic properties of 6H-type ABCBCB LPSO structure in Mg97Zn1Y2 alloy
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6:2:2:127 Enhancing strength and ductility of Mg-12Gd-3Y-0.5Zr alloy by forming a bi-ultrafine microstructure
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6:2:2:128 Microstructure and mechanical properties of semi-continuous cast Mg-Gd-Y-Zr alloy
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6:2:2:129 Thermodynamic measurements in the Mg-Zn system
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6:2:2:130 Intermetallic phases in Mg-Co-Y alloys
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6:2:2:131 Microstructure evolution and mechanical properties of an ultra-high strength casting Mg-15.6Gd-1.8Ag-0.4Zr alloy
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6:2:2:132 Experimental investigation and thermodynamic assessment of the Mg-Zn-Gd system focused on Mg-rich corner
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6:2:2:133 Influence of processing route on microstructure and mechanical properties of two Mg-Ni-Y-RE alloys
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6:2:2:134 Formation and characterization of microstructure of as-cast Mg-6Gd-4Y-xZn-0.5Zr (x=0.3, 0.5 and 0.7 wt.%) alloys
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6:2:2:135 Precipitates formed in the as-forged Mg-Zn-RE alloy during ageing process at 250 degrees C
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6:2:2:136 Microstructure and mechanical properties of extruded Mg96Zn1Y3 alloy
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6:2:2:137 An Attempt to Image Chemical Ordering in Close-Packed Layer of Mg-Zn-Y 18R Long-Period Stacking-Ordered Structure by Scanning Tunneling Microscopy
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6:2:2:138 Thermodynamic Analysis of the Mg-RE-Zn (RE = Y, La) Ternary hcp Phase Using the Cluster Variation Method
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6:2:2:139 Compositional Transition Layer around Growing LPSO in Mg97Zn1Y2 Cast Alloys
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6:2:2:140 Microstructures and mechanical properties of Mg-2Y-1Mn-1-2Nd alloys fabricated by extrusion
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6:2:2:141 Microstructure and superior mechanical properties of cast Mg-12Gd-2Y-0.5Sm-0.5Sb-0.5Zr alloy
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6:2:2:142 Precipitation microstructure and age-hardening response of an Mg-Gd-Nd-Zn-Zr alloy
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6:2:2:143 Refinement of the microstructure during superplastic deformation of extruded Mg94Ni3Y1.5CeMM1.5 alloy
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6:2:2:144 Microstructure and mechanical properties of a rapidly solidified Mg94.5Zn2Y1.5LaMM1.5Mn0.5 alloy
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6:2:2:145 Formation of long-period stacking ordered structures in Mg88M5Y7 (M = Ti, Ni and Pb) casting alloys
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6:2:2:146 Modification of long period stacking ordered phase and improvement of mechanical properties of Mg-Gd-Zn-Zr alloy by friction stir processing
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6:2:2:147 Microstructures of Long-Period Stacking Ordered Phase of Mg-Zn-Y Alloy
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6:2:2:148 First Principles Calculations of Solute Ordering in Mg-Zn-Y Alloys
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6:2:2:149 Hydrogenation kinetics of ZK60 Mg alloy during solid-gas reaction milling in hydrogen
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6:2:2:150 Structural examination of aging precipitation in a Mg-Y-Nd alloy at different temperatures
DOI:10.1016/j.matchar.2011.03.007 JN:MATERIALS CHARACTERIZATION PY:2011 TC:8 AU: Xin, Renlong;Li, Ling;Zeng, Ke;Song, Bo;Liu, Qing;
6:2:2:151 Forgeability and die-forging forming of direct chill casting Mg-Nd-Zn-Zr magnesium alloy
DOI:10.1016/j.msea.2010.03.002 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:6 AU: Zheng, Xingwei;Dong, Jie;Yin, Dongdi;Liu, Wencai;Wang, Fenghua;Jin, Li;Ding, Wenjiang;
6:2:2:152 Effects of calcium on the microstructures and tensile properties of Mg-5Li-3Al alloys
DOI:10.1016/j.msea.2011.04.034 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:5 AU: Wang, Tao;Wu, Ruizhi;Zhang, Milin;Li, Li;Zhang, Jinghuai;Li, Jiqing;
6:2:2:153 Influence of Rare Earth Elements on Microstructure and Mechanical Properties of Mg97Zn1Y1RE1 Alloys
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6:2:3:1 Effect of rare earth additions on microstructure and texture development of magnesium alloy sheets
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6:2:3:2 Micro-alloying Mg with Y, Ce, Gd and La for texture modification-A comparative study
DOI:10.1016/j.msea.2009.12.036 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:106 AU: Stanford, N.;
6:2:3:3 On the role of non-basal deformation mechanisms for the ductility of Mg and Mg-Y alloys
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6:2:3:4 Sheet texture modification in magnesium-based alloys by selective rare earth alloying
DOI:10.1016/j.msea.2011.01.080 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:77 AU: Al-Samman, T.;Li, X.;
6:2:3:5 Superior light metals by texture engineering: Optimized aluminum and magnesium alloys for automotive applications
DOI:10.1016/j.actamat.2012.10.044 JN:ACTA MATERIALIA PY:2013 TC:94 AU: Hirsch, J.;Al-Samman, T.;
6:2:3:6 Effect of rare earth elements on the microstructure and texture development in magnesium-manganese alloys during extrusion
DOI:10.1016/j.msea.2010.07.081 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:97 AU: Bohlen, Jan;Yi, Sangbong;Letzig, Dietmar;Kainer, Karl Ulrich;
6:2:3:7 The effect of Gd on the recrystallisation, texture and deformation behaviour of magnesium-based alloys
DOI:10.1016/j.actamat.2010.09.003 JN:ACTA MATERIALIA PY:2010 TC:57 AU: Stanford, Nicole;Atwell, Dale;Barnett, Matthew R.;
6:2:3:8 Effect of strain ratio on cyclic deformation behavior of a rare-earth containing extruded magnesium alloy
DOI:10.1016/j.msea.2013.09.023 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:15 AU: Mirza, F. A.;Chen, D. L.;Li, D. J.;Zeng, X. Q.;
6:2:3:9 Solute segregation and texture modification in an extruded magnesium alloy containing gadolinium
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6:2:3:10 Grain growth and texture evolution during annealing in an indirect-extruded Mg-1Gd alloy
DOI:10.1016/j.jallcom.2013.09.028 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:3 AU: Wu, W. X.;Jin, L.;Zhang, Z. Y.;Ding, W. J.;Dong, J.;
6:2:3:11 Changes of the texture and the mechanical properties of the extruded Mg alloy ME21 as a function of the process parameters
DOI:10.1016/j.msea.2010.09.025 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:26 AU: Huppmann, Michael;Gall, Sven;Mueller, Soeren;Reimers, Walter;
6:2:3:12 Effect of extrusion conditions on microstructure, texture, and yield asymmetry in Mg-6Y-7Gd-0.5 wt%Zr alloy
DOI:10.1016/j.msea.2011.05.075 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:32 AU: Robson, J. D.;Twier, A. M.;Lorimer, G. W.;Rogers, P.;
6:2:3:13 Atomistic simulations of the interaction of alloying elements with grain boundaries in Mg
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6:2:3:14 Role of yttrium in the microstructure and texture evolution of Mg
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6:2:3:15 Evolution of microstructure and microtexture during the hot deformation of Mg-3% Al
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6:2:3:16 In situ observation of collective grain-scale mechanics in Mg and Mg-rare earth alloys
DOI:10.1016/j.actamat.2014.07.048 JN:ACTA MATERIALIA PY:2014 TC:3 AU: Wang, F.;Sandloebes, S.;Diehl, M.;Sharma, L.;Roters, F.;Raabe, D.;
6:2:3:17 Deformation behavior and texture evolution in an extruded Mg-1Gd alloy during uniaxial compression
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6:2:3:18 Texture selection mechanisms in uniaxially extruded magnesium alloys
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6:2:3:19 Effect of aluminium and calcium on the microstructure, texture, plastic deformation and related acoustic emission of extruded magnesium-manganese alloys
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6:2:3:22 Effect of dynamic strain aging on the appearance of the rare earth texture component in magnesium alloys
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6:2:3:24 An investigation of dynamic recrystallization behavior of ZK60-Er magnesium alloy
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6:2:3:27 Microstructure and texture evolution during hot rolling and subsequent annealing of Mg-1Gd alloy
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6:2:3:28 Microstructure and texture evolution of Mg-Zn-Ce magnesium alloys sheets and associated restoration mechanisms during annealing
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6:2:3:29 High ductility of a Mg-Y-Ca alloy via extrusion
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6:2:3:30 Three-point bending behavior of a ZEK100 Mg alloy at room temperature
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6:2:3:34 On the deformation, recrystallization and texture of hot-rolled Mg-2.9Y and Mg-2.9Zn solid solution alloys-A comparative study
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6:2:3:35 Mechanical properties and forming behavior of extruded AZ31 and ME21 magnesium alloy sheets
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6:2:3:39 Texture and microstructure development during hot deformation of ME20 magnesium alloy: Experiments and simulations
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6:2:3:40 Effects of yttrium and zinc on the texture, microstructure and tensile properties of hot-rolled magnesium plates
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6:2:3:42 Effects of calcium and rare-earth elements on the microstructure and tension-compression yield asymmetry of ZEK100 alloy
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6:2:3:43 Thermodynamic modeling and diffusion kinetic experiments of binary Mg-Gd and Mg-Y systems
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6:2:3:44 Promotion of texture weakening in magnesium by alloying and thermomechanical processing. II: rolling speed
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6:2:3:45 Processing and properties of Mg-6Gd-1Zn-0.6Zr: Part 1-Recrystallisation and texture development
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6:2:3:46 Effect of ageing treatment on the microstructure, texture and mechanical properties of extruded Mg-8.2Gd-3.8Y-1Zn-0.4Zr (wt%) alloy
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6:2:3:48 Microstructure and Mechanical Properties of the Extruded and Aged Mg-6Al-2Sn-0.4Mn-xAg Alloys (x=1, 2 and 3 mass%)
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6:2:3:50 Modification of texture and microstructure of magnesium alloy extrusions by particle-stimulated recrystallization
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6:2:3:51 Shear band-related recrystallization and grain growth in two rolled magnesium-rare earth alloys
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6:2:3:53 Effect of microalloying with rare-earth on recrystallization behaviour and damping properties of Mg sheets
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6:2:3:54 Shear band formation during hot compression of AZ31 Mg alloy sheets
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6:2:3:55 Plastic strain heterogeneities in an Mg-1Zn-0.5Nd alloy
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6:2:3:56 Nano-ZnO particle addition to monolithic magnesium for enhanced tensile and compressive response
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6:2:3:58 Effect of twinning on recrystallisation textures in deformed magnesium alloy AZ31
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6:2:3:59 Effect of rare earth additions on the critical resolved shear stresses of magnesium alloys
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6:2:3:61 Simulation of the deformation of polycrystalline nanostructured Ti by computational homogenization
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6:2:3:66 Effect of the basal plane orientation on Al and Zn diffusion in hcp Mg
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6:2:3:67 A new metastable phase in dilute, hot-rolled Mg-Nd alloys
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6:2:4:12 A new mechanism for twin growth in Mg alloys
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6:2:4:14 First-principles study of the generalized stacking fault energy in Mg-3Al-3Sn alloy
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6:2:4:21 Nanoindentation behavior and deformed microstructures in coarse-grained magnesium alloys
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6:2:4:22 Prediction of thermal cross-slip stress in magnesium alloys from direct first-principles data
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6:2:4:29 First-principles calculations of generalized stacking fault energy in Mg alloys with Sn, Pb and Sn plus Pb dopings
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6:2:4:30 Solute strengthening of twinning dislocations in Mg alloys
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6:2:4:32 High-strain-rate nanoindentation behavior of fine-grained magnesium alloys
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6:2:4:33 Effect of dynamic precipitation and twinning on dynamic recrystallization of micro-alloyed Mg-Al-Ca alloys
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6:2:4:34 Prism stacking faults observed contiguous to a {10-12} twin in a Mg-Y alloy
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6:2:4:35 First-principles study of dislocations in hcp metals through the investigation of the (11(2)over-bar1) twin boundary
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6:2:4:36 Effects of Stacking Fault Energy on Fundamental Deformation Modes in Single Crystalline Magnesium by Molecular Dynamics Simulations
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6:2:4:37 Unstable dissociation of a prismatic dislocation in magnesium
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6:2:4:38 Solute effect on the < a plus c > dislocation nucleation mechanism in magnesium
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6:2:4:39 Effects of Zn atoms on the basal dislocation in magnesium solution from Peierls-Nabarro model
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6:2:4:40 Effect of strain-induced precipitation on dynamic recrystallization in Mg-Al-Sn alloys
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6:2:4:41 First-principles core structures of < c plus a > edge and screw dislocations in Mg
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6:2:4:42 The effects of alloying elements on generalized stacking fault energies, strength and ductility of gamma '-Ni3Al
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6:2:4:43 Atomistic study of plastic deformation in Mg-Al alloys
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6:2:4:44 Highly anisotropic slip-behavior of pyramidal I < c plus a > dislocations in hexagonal close-packed magnesium
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6:2:4:45 Twin-like domains and fracture in deformed magnesium
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6:2:4:46 A concentration dependent embedded atom method potential for the Mg-Li system
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6:2:4:47 Energetic Analysis of Deformation Twins and Twinning Dislocations in Magnesium
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6:2:4:48 Influence of the anisotropy in lattice friction on the macroscopic behavior of magnesium single crystal: A study by discrete dislocation dynamics
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6:2:5:1 An atomic and probabilistic perspective on twin nucleation in Mg
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6:2:5:2 Statistical analyses of deformation twinning in magnesium
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6:2:5:3 The effect of twin-twin interactions on the nucleation and propagation of {10(1)over-bar2} twinning in magnesium
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6:2:5:4 Twinning dislocations on {(1)over-bar011} and {(1)over-bar013} planes in hexagonal close-packed crystals
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6:2:5:5 Three-dimensional investigation of grain boundary-twin interactions in a Mg AZ31 alloy by electron backscatter diffraction and continuum modeling
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6:2:5:6 Twin-twin interactions in magnesium
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6:2:5:7 Hall-Petch relation for deformation twinning in solid solution magnesium alloys
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6:2:5:8 Structural characterization of {10(1)over-bar2} twin boundaries in cobalt
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6:2:5:9 Faceted interfacial structure of {10(1)over-bar1} twins in Ti formed during equal channel angular pressing
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6:2:5:10 Interfacial structure of {1 0 (1)over-bar 2} twin tip in deformed magnesium alloy
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6:2:5:11 Toward understanding twin-twin interactions in hcp metals: Utilizing multiscale techniques to characterize deformation mechanisms in magnesium
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6:2:5:12 Nucleation of paired twins at grain boundaries in titanium
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6:2:5:13 Twin boundaries showing very large deviations from the twinning plane
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6:2:5:14 Fatigue damage development in pure polycrystalline magnesium under cyclic tension-compression loading
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6:2:5:15 Deformation twinning in polycrystalline Co during room temperature dynamic plastic deformation
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6:2:5:16 Crack propagation behaviour in magnesium binary alloys
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6:2:5:17 Characterization of the matrix-twin interface of a (10(1)over-bar2) twin during growth
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6:2:5:18 Localized twin bands in sheet bending of a magnesium alloy
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6:2:5:19 Impact of deformation faceting on {1 0 (1)over-bar 2}, {1 0 (1)over-bar 1} and {1 0 (1)over-bar3} embryonic twin nucleation in hexagonal close-packed metals
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6:2:5:20 The roles of grain boundary dislocations and disclinations in the nucleation of {10(1)over-bar12} twinning
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6:2:5:21 On the importance of prismatic/basal interfaces in the growth of (1012) twins in hexagonal close packed crystals
DOI:10.1016/j.scriptamat.2013.02.023 JN:SCRIPTA MATERIALIA PY:2013 TC:24 AU: Xu, B.;Capolungo, L.;Rodney, D.;
6:2:5:22 Comment on "Atomic Shuffling Dominated Mechanism For Deformation Twinning In Magnesium''
DOI:10.1103/PhysRevLett.104.029603 JN:PHYSICAL REVIEW LETTERS PY:2010 TC:15 AU: Serra, A.;Bacon, D. J.;Pond, R. C.;
6:2:5:23 On the relationship between the "shuffling-dominated" and "shear-dominated" mechanisms for {10(1)over-bar2} twinning in magnesium
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6:2:5:24 Atomic shearing and shuffling accompanying the motion of twinning disconnections in Zirconium
DOI:10.1080/14786435.2013.769071 JN:PHILOSOPHICAL MAGAZINE PY:2013 TC:8 AU: Khater, H. A.;Serra, A.;Pond, R. C.;
6:2:5:25 An analytical approach and experimental confirmation of dislocation-twin boundary interactions in titanium
DOI:10.1007/s10853-013-7284-y JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:1 AU: Zhang, Yue;Dong, Zhao Shi;Wang, Jing Tao;Liu, Jin Qiang;Gao, Nong;Langdon, Terence G.;
6:2:5:26 Formation of nano-twin domains by nucleation and multiplication of twins during fracture of a magnesium alloy
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6:2:5:27 Extended zonal dislocations mediating {11(2)over-bar2}< 11(23)over-bar > twinning in titanium
DOI:10.1080/14786435.2011.637985 JN:PHILOSOPHICAL MAGAZINE PY:2012 TC:6 AU: Li, B.;El Kadiri, H.;Horstemeyer, M. F.;
6:2:5:28 High-resolution electron microscopy study of the {10(1)over-bar1} twin boundary and twinning dislocation analysis in deformed polycrystalline cobalt
DOI:10.1016/j.scriptamat.2012.09.004 JN:SCRIPTA MATERIALIA PY:2012 TC:4 AU: Zhang, X. Y.;Tu, J.;Liu, Q.;
6:2:5:29 Relationship between fatigue crack initiation and activated {1 0 (1)over-bar 2} twins in as-extruded pure magnesium
DOI:10.1016/j.scriptamat.2013.08.006 JN:SCRIPTA MATERIALIA PY:2013 TC:4 AU: Xu, D. K.;Han, E. H.;
6:2:5:30 Global strain generated by shuffling-dominated {10(1)over-bar2} < 10(1)over-bar(1)over-bar > twinning
DOI:10.1016/j.scriptamat.2013.10.002 JN:SCRIPTA MATERIALIA PY:2014 TC:6 AU: Li, B.;Zhang, X. Y.;
6:2:5:31 Comment on "Atomic Shuffling Dominated Mechanism For Deformation Twinning In Magnesium'' Reply
DOI:10.1103/PhysRevLett.104.029604 JN:PHYSICAL REVIEW LETTERS PY:2010 TC:7 AU: Li, B.;Ma, E.;
6:2:5:32 Effect of solute atoms on fracture toughness in dilute magnesium alloys
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6:2:5:33 The candidacy of shuffle and shear during compound twinning in hexagonal close-packed structures
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6:2:5:34 Variability in EBSD statistics for textured zirconium
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6:2:5:35 Observation of twins in polycrystalline cobalt containing face-center-cubic and hexagonal-close-packed phases
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6:2:5:36 A comment on B. Li, H. El Kadiri and MF Horstemeyer 'Extended zonal dislocations mediating {11(2)over-bar 2} < 1 1 (2)over-bar (3)over-bar > twinning in titanium'
DOI:10.1080/14786435.2013.815816 JN:PHILOSOPHICAL MAGAZINE PY:2013 TC:1 AU: Serra, A.;Bacon, D. J.;Pond, R. C.;
6:2:5:37 Reply to the two Comments, by A. Serra, D. J. Bacon and R. C. Pond, and by H. El Kadiri and C. Barrett on B. Li, H. El Kadiri and M. F. Horstemeyer "Extended zonal dislocations mediating {11 (2)over-bar 2} < 11(2)over-bar(3)over-bar twinning in titanium"
DOI:10.1080/14786435.2013.815818 JN:PHILOSOPHICAL MAGAZINE PY:2013 TC:0 AU: Li, Bin;
6:2:5:38 Rejoinder to the response by B. Li [1] on our Comment [2] on the paper B. Li, H. El Kadiri and M. F. Horstemeyer 'Extended zonal dislocations mediating {11(2)over-bar 2} < 11(2)over-bar (3)over-bartwinning in titanium'
DOI:10.1080/14786435.2013.815819 JN:PHILOSOPHICAL MAGAZINE PY:2013 TC:0 AU: Serra, A.;Bacon, D. J.;Pond, R. C.;
6:2:5:39 Fundamentals of mobile tilt grain boundary faceting
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6:2:5:40 Formation of {1 1 (2)over-bar 1} twins in polycrystalline cobalt during dynamic plastic deformation
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6:2:5:41 Comments on "extended zonal dislocations mediating {1 1 (2)over-bar 2} < 1 1 (2)over-bar (2)over-bar > twinning in titanium"
DOI:10.1080/14786435.2013.815815 JN:PHILOSOPHICAL MAGAZINE PY:2013 TC:0 AU: El Kadiri, Haitham;Barrett, Christopher D.;
6:2:6:1 Effect of Ca additions on the microstructure, thermal stability and mechanical properties of a cast AM60 magnesium alloy
DOI:10.1016/j.msea.2009.11.043 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:49 AU: Kondori, B.;Mahmudi, R.;
6:2:6:2 Effects of Sb additions on the microstructure and impression creep behavior of a cast Mg-5Sn alloy
DOI:10.1016/j.msea.2009.08.056 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:43 AU: Nayyeri, G.;Mahmudi, R.;
6:2:6:3 Evaluating high-temperature mechanical behavior of cast Mg-4Zn-xSb magnesium alloys by shear punch testing
DOI:10.1016/j.msea.2010.03.007 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:33 AU: Alizadeh, R.;Mahmudi, R.;
6:2:6:4 Effects of Sb addition on the modification of Mg2Si particles and high-temperature mechanical properties of cast Mg-4Zn-2Si alloy
DOI:10.1016/j.jallcom.2011.06.109 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:20 AU: Alizadeh, R.;Mahmudi, R.;
6:2:6:5 The microstructure and impression creep behavior of cast, Mg-5Sn-xCa alloys
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6:2:6:6 The microstructure, creep resistance, and high-temperature mechanical properties of Mg-5Sn alloy with Ca and Sb additions, and aging treatment
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6:2:6:7 Microstructure and creep behavior of the rare-earth doped Mg-6Zn-3Cu cast alloy
DOI:10.1016/j.msea.2010.10.095 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:19 AU: Golmakaniyoon, S.;Mahmudi, R.;
6:2:6:8 Effects of Sn additions on the microstructure and impression creep behavior of AZ91 magnesium alloy
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6:2:6:9 Impression creep behavior of the extruded Mg-4Zn-0.5Ca and Mg-4Zn-0.5Ca-2RE alloys
DOI:10.1016/j.msea.2014.08.031 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Naghdi, F.;Mahmudi, R.;
6:2:6:10 Enhanced creep properties of a cast Mg-5Sn alloy subjected to aging-treatment
DOI:10.1016/j.msea.2010.04.015 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:24 AU: Nayyeri, G.;Mahmudi, R.;
6:2:6:11 The microstructure and creep characteristics of cast Mg-4Zn-0.5Ca and Mg-4Zn-0.5Ca-2RE alloys
DOI:10.1016/j.msea.2014.05.043 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:4 AU: Naghdi, F.;Mahmudi, R.;
6:2:6:12 Compressive and impression creep behavior of a cast Mg-Al-Zn-Si alloy
DOI:10.1016/j.matchemphys.2012.12.040 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2013 TC:6 AU: Geranmayeh, A. R.;Mahmudi, R.;
6:2:6:13 Comparison of the effects of La- and Ce-rich rare earth additions on the microstructure, creep resistance, and high-temperature mechanical properties of Mg-6Zn-3Cu cast alloy
DOI:10.1016/j.msea.2011.03.083 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:10 AU: Golmakaniyoon, S.;Mahmudi, R.;
6:2:6:14 Shear punch creep characteristics of Mg-3Al-1Zn thin sheets
DOI:10.1016/j.msea.2012.10.058 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:5 AU: Mahmudi, R.;Ansary, Sh;
6:2:6:15 Hot shear deformation constitutive analysis of an extruded Mg-6Li-1Zn alloy
DOI:10.1016/j.matlet.2012.05.020 JN:MATERIALS LETTERS PY:2012 TC:14 AU: Karami, M.;Mahmudi, R.;
6:2:6:16 Effect of Sb additions on the microstructural stability and mechanical properties of cast Mg-4Zn alloy
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6:2:6:17 Creep of AZ31 Mg alloy: A comparison of impression and tensile behavior
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6:2:6:18 Microstructural Characterization and High-Temperature Mechanical Behavior of Cast Mg-4Zn-xSi Alloys
DOI:10.1002/adem.201400037 JN:ADVANCED ENGINEERING MATERIALS PY:2014 TC:0 AU: Alizadeh, Reza;Mahmudi, Reza;
6:2:6:19 Strain rate sensitivity of equal-channel angularly pressed Sn-5Sb alloy determined by shear punch test
DOI:10.1016/j.matlet.2013.01.078 JN:MATERIALS LETTERS PY:2013 TC:4 AU: Mahmudi, R.;Alizadeh, R.;Azhari, Sh.;
6:2:6:20 Shear punch superplasticity in equal-channel angularly pressed Mg-12Li-1Zn alloy
DOI:10.1016/j.msea.2013.03.080 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:14 AU: Karami, M.;Mahmudi, R.;
6:2:6:21 Work hardening behavior of the extruded and equal-channel angularly pressed Mg-Li-Zn alloys under tensile and shear deformation modes
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6:2:6:22 Effects of the addition of Ca and Sb on the microstructure and mechanical properties of AZ91 magnesium
DOI:10.1016/j.msea.2013.07.092 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:10 AU: Chen, Yu'an;Liu, Hao;Ye, Ruiyu;Liu, Guangqiong;
6:2:6:23 Effect of Bi, Sb, and Ca additions on the hot hardness and microstructure of cast Mg-5Sn alloy
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6:2:6:24 Microstructure and mechanical properties of extruded and ECAPed AZ31 Mg alloy, grain refined with Al-Ti-C master alloy
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6:2:6:25 High-temperature shear strength of lead-free Sn-Sb-Ag/Al2O3 composite solder
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6:2:6:26 Elevated-temperature shear strength and hardness of Zn-3Cu-xAl ultra-high-temperature lead-free solders
DOI:10.1016/j.msea.2012.08.121 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: Mahmudi, R.;Alibabaie, S.;
6:2:6:27 Creep mechanisms in an Mg-4Zn alloy in the as-cast and aged conditions
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6:2:6:28 The correlation between the impression and double shear creep of AZ31 magnesium alloy
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6:2:6:29 Work hardening behavior of Mg-based nano-composites strengthened by Al2O3 nano-particles
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6:2:6:30 Effect of Ag addition on the elevated-temperature mechanical properties of an extruded high strength Mg-Gd-Y-Zr alloy
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6:2:6:31 Shear punch creep behavior of cast lead-free solders
DOI:10.1016/j.msea.2014.01.082 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Mahmudi, R.;Maraghi, A.;
6:2:6:32 Enhanced superplasticity in equal-channel angularly pressed Sn-5Sb alloy
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6:2:6:33 Shear punch creep test: A novel localized method for evaluating creep properties
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6:2:6:34 Indentation creep of the wrought AZ31 magnesium alloy
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6:2:6:35 Modification of Mg2Si morphology in Mg-9%Al-0.7%Si alloy by the SIMA process
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6:2:6:36 Effect of CaO Addition on Microstructure and Damping Capacity of AM50 Magnesium Alloy
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6:2:6:37 Damping Capacities of Mg-(0-9)%Sn Casting Alloys
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6:2:6:38 High-temperature deformation and creep in Mg wrought alloys
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6:2:6:39 Effect of holding temperature on microstructure of an AS91 alloy during semisolid isothermal heat treatment
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6:2:6:40 Preliminary investigations about effects of Zr, Sc and Ce additions on as-cast microstructure and mechanical properties of Mg-3Sn-1 Mn (wt.%) magnesium alloy
DOI:10.1016/j.msea.2011.02.095 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:10 AU: Pan, Fusheng;Yang, Mingbo;
6:2:6:41 Microstructure and properties of Mg-3Sn-1Mn (wt%) alloy processed by a novel continuous shearing and rolling and heat treatment
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6:2:6:42 Indentation creep of a cast Mg-6Al-1Zn-0.7Si alloy
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6:2:6:43 Damping behaviors of as-cast and solution-treated AZ91-Ca magnesium alloys
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6:2:6:44 Modification of Mg2Si in Mg-Si alloys with gadolinium
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6:2:6:45 Creep behavior of ultra-fine grained Zn-4.5Al
DOI:10.1016/j.msea.2010.08.020 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:3 AU: Gobien, J. M.;Murty, K. L.;Scattergood, R. O.;Goodwin, F.;Koch, C. C.;
6:2:6:46 An investigation on DC casting of a wrought aluminium alloy at below liquidus temperature by using melt conditioner
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6:2:6:47 Zonular evaluation of Inconel 617/310 SS dissimilar joint by shear punch test
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6:2:6:48 Effect of CaO Addition on the Ignition Resistance of Mg-Al Alloys
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6:2:6:49 Tensile flow and strain-hardening behaviors of dual-phase Mg-Li-Zn alloy thin sheets
DOI:10.1016/j.msea.2010.08.019 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:4 AU: Wu, Horng-Yu;Yan, Jie-Chen;Tsai, Hsin-Han;Chiu, Chui-Hung;Zhou, Geng-Zhong;Lin, Chi-Feng;
6:2:6:50 Comparison between impression creep and uni-axial tensile creep performed on nickel-based single crystal superalloys
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6:2:7:1 Cyclic deformation and fatigue of extruded ZK60 magnesium alloy with aging effects
DOI:10.1016/j.msea.2014.07.074 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Dong, Shuai;Jiang, Yanyao;Dong, Jie;Wang, Fenghua;Ding, Wenjiang;
6:2:7:2 Cyclic deformation and fatigue of extruded Mg-Gd-Y magnesium alloy
DOI:10.1016/j.msea.2012.10.048 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:17 AU: Wang, Fenghua;Dong, Jie;Jiang, Yanyao;Ding, Wenjiang;
6:2:7:3 The effects of texture and extension twinning on the low-cycle fatigue behavior of a rolled magnesium alloy, AZ31B
DOI:10.1016/j.msea.2010.07.047 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:53 AU: Wu, L.;Agnew, S. R.;Ren, Y.;Brown, D. W.;Clausen, B.;Stoica, G. M.;Wenk, H. R.;Liaw, P. K.;
6:2:7:4 Effect of strain amplitude on tension-compression fatigue behavior of extruded Mg6Al1ZnA magnesium alloy
DOI:10.1016/j.scriptamat.2010.01.052 JN:SCRIPTA MATERIALIA PY:2010 TC:35 AU: Li, Qizhen;Yu, Qin;Zhang, Jixi;Jiang, Yanyao;
6:2:7:5 Roles of deformation twinning and dislocation slip in the fatigue failure mechanism of AZ31 Mg alloys
DOI:10.1016/j.scriptamat.2010.03.021 JN:SCRIPTA MATERIALIA PY:2010 TC:41 AU: Koike, J.;Fujiyama, N.;Ando, D.;Sutou, Y.;
6:2:7:6 A constitutive model of twinning and detwinning for hexagonal close packed polycrystals
DOI:10.1016/j.msea.2012.06.038 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:47 AU: Wang, H.;Wu, P. D.;Tome, C. N.;Wang, J.;
6:2:7:7 Effect of anisotropy on the low-cycle fatigue behavior of rolled AZ31 magnesium alloy
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6:2:7:8 Twinning-detwinning behavior during fatigue-crack propagation in a wrought magnesium alloy AZ31B
DOI:10.1016/j.msea.2012.06.088 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:17 AU: Wu, Wei;Lee, Soo Yeol;Paradowska, Anna M.;Gao, Yanfei;Liaw, Peter K.;
6:2:7:9 The cyclic frequency sensitivity of low cycle fatigue (LCF) behavior of the AZ31B magnesium alloy
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6:2:7:10 Effect of twinning and detwinning on inelastic behavior during unloading in a magnesium alloy sheet
DOI:10.1016/j.msea.2013.06.070 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:10 AU: Hama, Takayuki;Kitamura, Naoya;Takuda, Hirohiko;
6:2:7:11 Role of initial {10-12} twin in the fatigue behavior of rolled Mg-3Al-1Zn alloy
DOI:10.1016/j.scriptamat.2010.01.021 JN:SCRIPTA MATERIALIA PY:2010 TC:19 AU: Park, Sung Hyuk;Hong, Seong-Gu;Lee, Chong Soo;
6:2:7:12 Crystal plasticity based constitutive model for uniaxial ratchetting of polycrystalline magnesium alloy
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6:2:7:13 Analyses of deformation twinning in the extruded magnesium alloy AZ31 after compressive and cyclic loading
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6:2:7:14 Work-hardening behaviors of magnesium alloy sheet during in-plane cyclic loading
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6:2:7:15 Study on cyclic deformation behavior of extruded Mg-3Al-1Zn alloy
DOI:10.1016/j.msea.2012.01.084 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:8 AU: Chen, Cheng;Liu, Tianmo;Lv, Chengling;Lu, Liwei;Luo, Dongzhi;
6:2:7:16 Crystal plasticity finite-element simulation of work-hardening behavior in a magnesium alloy sheet under biaxial tension
DOI:10.1016/j.commatsci.2011.07.026 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:16 AU: Hama, Takayuki;Takuda, Hirohiko;
6:2:7:17 Effect of pre-strain on work-hardening behavior of magnesium alloy sheets upon cyclic loading
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6:2:7:18 Uniaxial ratchetting of extruded AZ31 magnesium alloy: Effect of mean stress
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6:2:7:19 Effects of annealing treatment on the ratcheting behavior of extruded AZ31B magnesium alloy under asymmetrical uniaxial cyclic loading
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6:2:7:20 Multiaxial fatigue of extruded AZ31B magnesium alloy
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6:2:7:21 Low cycle fatigue behavior of the textured AZ31B magnesium alloy under the asymmetrical loading
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6:2:7:22 Effects of percent reduction and specimen orientation on the ratcheting behavior of hot-rolled AZ31B magnesium alloy
DOI:10.1016/j.msea.2013.03.074 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:5 AU: Zhang, H.;Dong, D. X.;Ma, S. J.;Gu, C. F.;Chen, S.;Zhang, X. P.;
6:2:7:23 Quasi-static and fatigue behavior of extruded ME21 and twin roll cast AZ31 magnesium sheet metals
DOI:10.1016/j.msea.2013.09.088 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:5 AU: Dallmeier, Johannes;Huber, Otto;Saage, Holger;Eigenfeld, Klaus;Hilbig, Andreas;
6:2:7:24 A study of fatigue damage development in extruded Mg-Gd-Y magnesium alloy
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6:2:7:25 Fatigue properties of the hot extruded magnesium alloy AZ31
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6:2:7:26 Role of twinning and slip in cyclic deformation of extruded Mg-3%Al-1%Zn alloys
DOI:10.1016/j.scriptamat.2010.08.008 JN:SCRIPTA MATERIALIA PY:2010 TC:15 AU: Wu, Yan Jun;Zhu, Rong;Wang, Jing Tao;Ji, Wen Qing;
6:2:7:27 Effects of extrusion ratio on the ratcheting behavior of extruded AZ31B magnesium alloy under asymmetrical uniaxial cyclic loading
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6:2:7:28 Anelastic behavior and phenomenological modeling of Mg ZEK100-O alloy sheet under cyclic tensile loading-unloading
DOI:10.1016/j.msea.2012.11.009 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:5 AU: Min, Junying;Lin, Jianping;
6:2:7:29 Effects of hysteresis energy and mean stress on low-cycle fatigue behaviors of an extruded magnesium alloy
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6:2:7:30 Springback Characteristics of Magnesium Alloy Sheet AZ31B in Draw-Bending
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6:2:7:31 The effect of pre-compressive strain on the fatigue life of the AZ31 magnesium alloy
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6:2:7:32 Material modeling of AZ31 Mg sheet considering variation of r-values and asymmetry of the yield locus
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6:2:7:33 Cyclic softening of ultrafine-grained AZ31 magnesium alloy processed by equal-channel angular pressing
DOI:10.1016/j.matlet.2011.07.111 JN:MATERIALS LETTERS PY:2011 TC:4 AU: Zhu, Rong;Wu, Yan Jun;Ji, Wen Qing;Wang, Jing Tao;
6:2:8:1 Towards the development of heat-treatable high-strength wrought Mg alloys
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6:2:8:2 Dynamic microstructural changes during hot extrusion and mechanical properties of a Mg-5.0 Zn-0.9 Y-0.16 Zr (wt.%) alloy
DOI:10.1016/j.msea.2011.01.103 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:38 AU: Xu, S. W.;Zheng, M. Y.;Kamado, S.;Wu, K.;Wang, G. J.;Lv, X. Y.;
6:2:8:3 Extruded Mg-Zn-Ca-Mn alloys with low yield anisotropy
DOI:10.1016/j.msea.2012.08.012 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:15 AU: Xu, S. W.;Oh-ishi, K.;Sunohara, H.;Kamado, S.;
6:2:8:4 Effect of Ca-addition on dynamic recrystallization of Mg-Zn alloy during hot deformation
DOI:10.1016/j.msea.2013.05.054 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:7 AU: Hradilova, Monika;Montheillet, Frank;Fraczkiewicz, Anna;Desrayaud, Christophe;Lejcek, Pavel;
6:2:8:5 Effect of initial texture on dynamic recrystallization and deformation mechanisms in AZ31 Mg alloy extruded at 573 K
DOI:10.1016/j.msea.2013.01.027 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:11 AU: Li, Nali;Huang, Guangjie;Xin, Renlong;Liu, Qing;
6:2:8:6 Twins, recrystallization and texture evolution of a Mg-5.99Zn-1.76Ca-0.35Mn (wt.%) alloy during indirect extrusion process
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6:2:8:7 High-strength extruded Mg-Al-Ca-Mn alloy
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6:2:8:8 The effect of double extrusion on the microstructure and mechanical properties of Mg-Zn-Ca alloy
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6:2:8:9 Effect of Zr addition on the mechanical properties of as-extruded Mg-Zn-Ca-Zr alloys
DOI:10.1016/j.msea.2009.12.024 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:37 AU: Homma, T.;Mendis, C. L.;Hono, K.;Kamado, S.;
6:2:8:10 Microstructures and mechanical properties of as-cast and as-extruded Mg-4.50Zn-1.13Ca (wt%) alloys
DOI:10.1016/j.msea.2013.03.034 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:6 AU: Du, Y. Z.;Zheng, M. Y.;Xu, C.;Qiao, X. G.;Wu, K.;Liu, X. D.;Wang, G. J.;Lv, X. Y.;
6:2:8:11 Enhanced mechanical properties in fine-grained Mg-1.0Zn-0.5Ca alloys prepared by extrusion at different temperatures
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6:2:8:12 Enhanced precipitation hardening of Mg-Ca alloy by Al addition
DOI:10.1016/j.scriptamat.2010.06.028 JN:SCRIPTA MATERIALIA PY:2010 TC:24 AU: Jayaraj, J.;Mendis, C. L.;Ohkubo, T.;Oh-ishi, K.;Hono, K.;
6:2:8:13 Enhanced age-hardening response of Mg-Zn alloys via Co additions
DOI:10.1016/j.scriptamat.2010.11.027 JN:SCRIPTA MATERIALIA PY:2011 TC:17 AU: Geng, J.;Gao, X.;Fang, X. Y.;Nie, J. F.;
6:2:8:14 Effects of different cooling rates during two casting processes on the microstructures and mechanical properties of extruded Mg-Al-Ca-Mn alloy
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6:2:8:15 Effects of calcium on texture and mechanical properties of hot-extruded Mg-Zn-Ca alloys
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6:2:8:16 A study on the combined effect of forging and aging in Mg-Y-RE alloy
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6:2:8:17 Improvement in creep property of a cast Mg-6Al-3Ca alloy by Mn addition
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6:2:8:18 Recrystallization mechanism and the relationship between grain size and Zener-Hollomon parameter of Mg-Al-Zn-Ca alloys during hot compression
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6:2:8:19 Unexpected influence of Mn addition on the creep properties of a cast Mg-2Al-2Ca (mass%) alloy
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6:2:8:20 Excellent mechanical properties of an ultrafine-grained quasicrystalline strengthened magnesium alloy with multi-modal microstructure
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6:2:8:21 Effects of lead addition on the microstructure and mechanical properties of as-cast Mg-4Zn alloys
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6:2:8:22 Effect of extrusion ratio on microstructure, texture and mechanical properties of indirectly extruded Mg-Zn-Ca alloy
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6:2:8:23 The interaction of precipitation and deformation in a binary Mg-Ca alloy at elevated temperatures
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6:2:8:24 Effect of Mn addition on microstructure, texture and mechanical properties of Mg-Zn-Ca alloy
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6:2:8:25 Effects of Pb/Sn additions on the age-hardening behaviour of Mg-4Zn alloys
DOI:10.1016/j.msea.2013.12.048 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Wei, Shanghai;Zhu, Tianping;Hou, Haibo;Kim, JaeHwang;Kobayashi, Equo;Sato, Tatsuo;Hodgson, Michael;Gao, Wei;
6:2:8:26 Characterization of Mg-rich clusters in the C36 phase of the Mg-5Al-3Ca-0.7Sr-0.2Mn alloy
DOI:10.1016/j.jallcom.2014.02.029 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:0 AU: Rzychon, Tomasz;
6:2:8:27 Effect of Ca Addition on Precipitation Behavior of Mg-6.0 mass % Zn-3.0 mass % Al Alloy
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6:2:8:28 Room and elevated temperature mechanical properties in the as-extruded Mg-Al-Ca-Mn alloys
DOI:10.1016/j.msea.2012.01.074 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:7 AU: Homma, T.;Hirawatari, S.;Sunohara, H.;Kamado, S.;
6:2:8:29 Improvement in impression creep property of as-cast AC515 Mg alloy by Mn addition
DOI:10.1016/j.msea.2013.08.068 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:0 AU: Samimi, Ghasem;Mirdamadi, Shamseddin;Razavi, Hossein;Boutorabi, Mohammad-Ali;
6:2:8:30 Nucleation mechanism of Mg17Al12-precipitates in binary Mg-7 wt.% Al alloy
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6:2:8:31 Microstructures and mechanical properties of extruded and heat treated Mg-6Zn-1Si-0.5Mn alloys
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6:2:8:32 Development of an extruded Mg-Zn-Ca-based alloy: new insight on the role of Mn addition in precipitation
DOI:10.1080/14786435.2011.652692 JN:PHILOSOPHICAL MAGAZINE PY:2012 TC:1 AU: Homma, T.;Hinata, J.;Kamado, S.;
6:2:8:33 Microstructure Evolution of Mg-4.3Zn-0.7Y-0.6Zr Alloy during Solution Heat Treatment
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6:2:8:34 The microstructure of Mg-4Zn-2Al-0.5Ca aged alloy
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6:2:9:1 Phase field modeling of defects and deformation
DOI:10.1016/j.actamat.2009.10.041 JN:ACTA MATERIALIA PY:2010 TC:105 AU: Wang, Yunzhi;Li, Ju;
6:2:9:2 Simulation study of precipitation in an Mg-Y-Nd alloy
DOI:10.1016/j.actamat.2012.05.013 JN:ACTA MATERIALIA PY:2012 TC:23 AU: Gao, Y.;Liu, H.;Shi, R.;Zhou, N.;Xu, Z.;Zhu, Y. M.;Nie, J. F.;Wang, Y.;
6:2:9:3 Predicting beta ' precipitate morphology and evolution in Mg-RE alloys using a combination of first-principles calculations and phase-field modeling
DOI:10.1016/j.actamat.2014.05.002 JN:ACTA MATERIALIA PY:2014 TC:3 AU: Ji, Y. Z.;Issa, A.;Heo, T. W.;Saal, J. E.;Wolverton, C.;Chen, L. -Q.;
6:2:9:4 P-phase precipitation and its effect on martensitic transformation in (Ni,Pt)Ti shape memory alloys
DOI:10.1016/j.actamat.2011.11.043 JN:ACTA MATERIALIA PY:2012 TC:14 AU: Gao, Y.;Zhou, N.;Yang, F.;Cui, Y.;Kovarik, L.;Hatcher, N.;Noebe, R.;Mills, M. J.;Wang, Y.;
6:2:9:5 Effect of Ni4Ti3 precipitation on martensitic transformation in Ti-Ni
DOI:10.1016/j.actamat.2010.08.033 JN:ACTA MATERIALIA PY:2010 TC:39 AU: Zhou, N.;Shen, C.;Wagner, M. F. -X.;Eggeler, G.;Mills, M. J.;Wang, Y.;
6:2:9:6 Predicting equilibrium shape of precipitates as function of coherency state
DOI:10.1016/j.actamat.2012.04.019 JN:ACTA MATERIALIA PY:2012 TC:28 AU: Shi, R.;Ma, N.;Wang, Y.;
6:2:9:7 A simulation study of the shape of beta ' precipitates in Mg-Y and Mg-Gd alloys
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6:2:9:8 The Structures of Precipitates in an Mg-0.5 at%Nd Age-Hardened Alloy Studied by HAADF-STEM Technique
DOI:10.2320/matertrans.M2011163 JN:MATERIALS TRANSACTIONS PY:2011 TC:19 AU: Saito, Kaichi;Hiraga, Kenji;
6:2:9:9 Modeling displacive-diffusional coupled dislocation shearing of gamma ' precipitates in Ni-base superalloys
DOI:10.1016/j.actamat.2011.02.022 JN:ACTA MATERIALIA PY:2011 TC:14 AU: Zhou, Ning;Shen, Chen;Mills, Michael J.;Li, Ju;Wang, Yunzhi;
6:2:9:10 Pattern formation during cubic to orthorhombic martensitic transformations in shape memory alloys
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6:2:9:11 A simulation study of beta(1) precipitation on dislocations in an Mg-rare earth alloy
DOI:10.1016/j.actamat.2014.04.054 JN:ACTA MATERIALIA PY:2014 TC:2 AU: Liu, H.;Gao, Y.;Zhu, Y. M.;Wang, Y.;Nie, J. F.;
6:2:9:12 Phase-field simulation of twin boundary fractions in fully lamellar TiAl alloys
DOI:10.1016/j.actamat.2012.08.016 JN:ACTA MATERIALIA PY:2012 TC:3 AU: Teng, C. Y.;Zhou, N.;Wang, Y.;Xu, D. S.;Du, A.;Wen, Y. H.;Yang, R.;
6:2:9:13 Precipitation of prismatic plates in Mg-0.3Ca alloys with In additions
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6:2:9:14 On the effect of superimposed external stresses on the nucleation and growth of Ni4Ti3 particles: A parametric phase field study
DOI:10.1016/j.actamat.2011.02.002 JN:ACTA MATERIALIA PY:2011 TC:16 AU: Guo, Wei;Steinbach, Ingo;Somsen, Christoph;Eggeler, Gunther;
6:2:9:15 Variant selection during alpha precipitation in Ti-6Al-4V under the influence of local stress - A simulation study
DOI:10.1016/j.actamat.2013.06.042 JN:ACTA MATERIALIA PY:2013 TC:10 AU: Shi, R.;Wang, Y.;
6:2:9:16 Shear transformation of coupled beta(1)/beta ' precipitates in Mg-RE alloys: A quantitative study by aberration corrected STEM
DOI:10.1016/j.actamat.2014.06.043 JN:ACTA MATERIALIA PY:2014 TC:0 AU: Xu, Z.;Weyland, M.;Nie, J. F.;
6:2:9:17 Equilibrium shape of isolated precipitates in the alpha-Mg phase
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6:2:9:18 Type n boundaries in n-component diffusion couples
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6:2:9:19 Nano-precipitates made of atomic pillars revealed by single atom detection in a Mg-Nd alloy
DOI:10.1063/1.3701272 JN:APPLIED PHYSICS LETTERS PY:2012 TC:6 AU: Lefebvre, W.;Kopp, V.;Pareige, C.;
6:2:9:20 Structural Changes of Precipitates by Aging of an Mg-4 at%Dy Solid Solution Studied by Atomic-Scaled Transmission Electron Microscopy
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6:2:9:21 Nano gamma '/gamma '' composite precipitates in Alloy 718
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6:2:9:22 Microstructural changes of Guinier-Preston zones in an Mg-1.5 at% Gd-1 at% Zn alloy studied by HAADF-STEM technique
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6:2:9:23 Morphological characterization and distribution of autocatalytic-grown Ni4Ti3 precipitates in a Ni-Ti single crystal
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6:2:9:24 Precipitation Sequence in the Mg-Gd-Y System Investigated by HRTEM and HAADF-STEM
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6:2:9:25 On the strain accommodation of beta(1) precipitates in magnesium alloy WE54
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6:2:9:26 Microstructure, martensitic transformation and superelasticity of T1(49) (6)N1(45 1)Cu(5)Cr(0 3) shape memory alloy
DOI:10.1016/j.matlet.2010.09.036 JN:MATERIALS LETTERS PY:2011 TC:7 AU: Wang, Q. Y.;Zheng, Y. F.;Liu, Y.;
6:2:9:27 Stabilization of Guinier-Preston Zones in Hexagonal Close-Packed Mg-Gd-Zn Alloys Studied by Transmission Electron Microscopy
DOI:10.2320/matertrans.M2010173 JN:MATERIALS TRANSACTIONS PY:2010 TC:3 AU: Saito, Kaichi;Nishijima, Masahiko;Hiraga, Kenji;
6:2:9:28 A phase field model for simulating the precipitation of multi-variant beta-Mg17Al12 in Mg-Al-based alloys
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6:2:9:29 Microstructural stability in multi-alloy systems: Nanostructured two-phase, dual alloy multilayers
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6:2:9:30 A simulation study of the shape of beta ' precipitates in Mg-Y and Mg-Gd alloys (vol 61, pg 453, 2013)
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6:2:9:31 Fundamentals of interdiffusion microstructure maps for dual-alloy systems
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6:2:9:32 TEM study of real precipitation behavior of an Mg-0.5at%Ce age-hardened alloy
DOI:10.1016/j.jallcom.2013.05.131 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:1 AU: Saito, Kaichi;Kaneki, Hiroshi;
6:2:9:33 Microstructure and damping characteristics of Ti50Ni24.9Cu25Y0.1 shape memory alloy
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6:2:9:34 Linear precipitate chains in Mg-2.4Gd-0.1Zr alloy after creep
DOI:10.1016/j.matlet.2014.09.050 JN:MATERIALS LETTERS PY:2014 TC:0 AU: Xu, W. F.;Zhang, Y.;Peng, L. M.;Ding, W. J.;Nie, J. F.;
6:2:9:35 Effect of Amount of Gd and Y Contents on Precipitation in Mg-Gd-Y Alloys Aged at 473 K
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6:2:10:1 Room-temperature equal channel angular extrusion of pure magnesium
DOI:10.1016/j.actamat.2010.01.051 JN:ACTA MATERIALIA PY:2010 TC:76 AU: Biswas, Somjeet;Dhinwal, Satyaveer Singh;Suwas, Satyam;
6:2:10:2 The contributions of grain size, dislocation density and twinning to the strength of a magnesium alloy processed by ECAP
DOI:10.1016/j.msea.2010.09.048 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:22 AU: Balogh, Levente;Figueiredo, Roberto B.;Ungar, Tamas;Langdon, Terence G.;
6:2:10:3 Twin nucleation at grain boundaries in Mg-3 wt.% Al-1 wt.% Zn alloy processed by equal channel angular pressing
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6:2:10:4 Characteristics of coincident site lattice grain boundaries developed during equal channel angular pressing of magnesium single crystals
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6:2:10:5 A texture and microstructure analysis of high speed rolling of AZ31 using split Hopkinson pressure bar results
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6:2:10:6 Microstructure, crystallographic texture, and plastic anisotropy evolution in an Mg alloy during equal channel angular extrusion processing
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6:2:10:7 Multi-temperature equal channel angular pressing of Mg-3wt%Al-1wt%Zn alloy
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6:2:10:8 Formation of grain boundaries in magnesium single crystal during equal channel angular pressing
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6:2:10:9 Controlling texture in magnesium alloy sheet by shear-based deformation processing
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6:2:10:10 Visco-plastic self-consistent modelling of a grain boundary misorientation distribution after equal-channel angular pressing in an AZ31 magnesium alloy
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6:2:10:11 Reduction in tension-compression asymmetry via grain refinement and texture design in Mg-3Al-1Zn sheets
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6:2:10:12 Significance of twinning in the anisotropic behavior of a magnesium alloy processed by equal-channel angular pressing
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6:2:10:13 Grain refinement vs. crystallographic texture: Mechanical anisotropy in a magnesium alloy
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6:2:10:14 Evolution of texture in a magnesium alloy processed by ECAP through dies with different angles
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6:2:10:15 Effect of grain size on prismatic slip in Mg-3Al-1Zn alloy
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6:2:10:16 The role of low-angle grain boundaries in multi-temperature equal channel angular pressing of Mg-3Al-1Zn alloy
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6:2:10:17 Texture evolution in oriented magnesium single crystals processed by equal channel angular pressing
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6:2:10:18 Fragmentation of large grains in AZ31 magnesium alloy during ECAE via route A
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6:2:10:19 Mechanics of large strain extrusion machining and application to deformation processing of magnesium alloys
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6:2:10:20 Deformation behavior of Mg single crystals during a single ECAP pass at room temperature
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6:2:10:21 Interaction of a moving {10(1)over-bar2} twin boundary with perfect dislocations and loops in a hcp metal
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6:2:10:22 Orientation dependencies of mechanical response, microstructure and texture evolution in hot compression of AZ31 magnesium alloy processed by equal channel angular extrusion
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6:2:11:1 The role of strain accommodation during the variant selection of primary twins in magnesium
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6:2:11:2 Variant selection during secondary twinning in Mg-3%Al
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6:2:11:3 Variant selection of primary, secondary and tertiary twins in a deformed Mg alloy
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6:2:11:4 Effect of c/a axial ratio on Schmid factors in hexagonal close-packed metals
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6:2:11:5 Twinning effects in a polycrystalline magnesium alloy under cyclic deformation
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6:2:11:6 Initiation and accommodation of primary twins in high-purity titanium
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6:2:11:7 Observation and Schmid factor analysis of multiple twins in a warm-rolled Mg-3Al-1Zn alloy
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6:2:11:8 Twinning and double twinning upon compression of prismatic textures in an AM30 magnesium alloy
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6:2:11:9 Variant selection during secondary and tertiary twinning in pure titanium
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6:2:11:10 Variant selection criterion for twin variants in titanium alloys deformed by rolling
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6:2:11:11 A New Variant Selection Criterion for Twin Variants in Titanium Alloys (Part 1)
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6:2:11:12 Primary twinning selection with respect to orientation of deformed grains in ultra-rapidly compressed AZ31 alloy
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6:2:11:13 Flow softening, twinning and dynamic recrystallization in AZ31 magnesium
DOI:10.1016/j.msea.2013.06.074 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:8 AU: Liu, X.;Jonas, J. J.;Li, L. X.;Zhu, B. W.;
6:2:11:14 Stress-strain response of textured AZ31B magnesium alloy under uniaxial tension at the different strain rates
DOI:10.1016/j.msea.2012.08.103 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:8 AU: Geng, C. J.;Wu, B. L.;Du, X. H.;Wang, Y. D.;Zhang, Y. D.;Wagner, F.;Esling, C.;
6:2:11:15 The quasi-static mechanical properties of extruded binary Mg-Er alloys
DOI:10.1016/j.msea.2013.02.048 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:2 AU: Wu, B. L.;Wan, G.;Du, X. H.;Zhang, Y. D.;Wagner, F.;Esling, C.;
6:2:11:16 Study of Plastic Deformation in Hexagonal Metals by Interrupted In-Situ EBSD Measurement
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6:2:11:17 Cluster type grain interaction model including twinning for texture prediction: Application to magnesium alloys
DOI:10.1016/j.actamat.2011.07.045 JN:ACTA MATERIALIA PY:2011 TC:8 AU: Mu, Sijia;Al-Samman, Talal;Mohles, Volker;Gottstein, Guenter;
6:2:11:18 Prediction of internal stresses during growth of first- and second-generation twins in Mg and Mg alloys
DOI:10.1016/j.actamat.2011.10.018 JN:ACTA MATERIALIA PY:2012 TC:7 AU: Juan, P. -A.;Berbenni, S.;Capolungo, L.;
6:2:11:19 A New Variant Selection Criterion for Twin Variants in Titanium Alloys (Part 2)
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6:2:11:20 Effect of initial texture on texture and microstructure evolution of ME20 Mg alloy subjected to hot rolling
DOI:10.1016/j.msea.2012.09.074 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: Li, X.;Qi, W.;
6:2:11:21 In-situ, ex-situ EBSD and (HR-)TEM analyses of primary, secondary and tertiary twin development in an Mg-4 wt%Li alloy
DOI:10.1016/j.msea.2014.05.025 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:5 AU: Lentz, M.;Coelho, R. S.;Camin, B.;Fahrenson, C.;Schaefer, N.;Selve, S.;Link, T.;Beyerlein, I. J.;Reimers, W.;
6:2:11:22 Implementation of Mechanical Twinning in a Grain Interaction Model: Application to Magnesium Alloys
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6:2:11:23 A Study of Twin Variant Selection and Twin Growth in Titanium
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6:2:11:24 A novel method for predicting variant selection during primary, secondary and tertiary twinning in titanium
DOI:10.1016/j.matlet.2014.06.080 JN:MATERIALS LETTERS PY:2014 TC:0 AU: Bao, Lei;Schuman, Christophe;Le, Qichi;Lecomte, Jean-Sebastien;Zhang, Zhiqiang;Philippe, Marie-Jeanne;Cui, Jianzhong;Esling, Claude;
6:2:11:25 Twinning-induced anomaly in the yield surface of highly textured Mg-3Al-1Zn plate
DOI:10.1016/j.scriptamat.2011.01.044 JN:SCRIPTA MATERIALIA PY:2011 TC:6 AU: Chun, Y. B.;Davies, C. H. J.;
6:2:11:26 A cluster-type grain interaction deformation texture model accounting for twinning-induced texture and strain-hardening evolution: Application to magnesium alloys
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6:2:11:27 Multiscale modeling of back-stress evolution in equal-channel angular pressing: from one pass to multiple passes
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6:2:12:1 The microstructure, tensile properties, and creep behavior of AZ91, AS52 and TAS652 alloy
DOI:10.1016/j.jallcom.2009.12.145 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:33 AU: Kim, Byeong Ho;Lee, Sang Won;Park, Yong Ho;Park, Ik Min;
6:2:12:2 Microstructures and tensile properties of Mg-4Al-4La-0.4Mn-xB (x=0, 0.01, 0.02, 0.03) alloy
DOI:10.1016/j.jallcom.2013.03.196 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:1 AU: Yang, Qiang;Zheng, Tian;Zhang, Deping;Liu, Xiaojuan;Fan, Jun;Qiu, Xin;Niu, Xiaodong;Meng, Jian;
6:2:12:3 Effect of Ce on microstructure, mechanical properties and corrosion behavior of high-pressure die-cast Mg-4Al-based alloy
DOI:10.1016/j.jallcom.2010.09.185 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:25 AU: Zhang, Jinghuai;Leng, Zhe;Zhang, Milin;Meng, Jian;Wu, Ruizhi;
6:2:12:4 Effect of intermetallic phases on the creep behavior of AZ91 magnesium alloy
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6:2:12:5 Effect of Ca on the microstructure and tensile properties of Mg-Zn-Si alloys at ambient and elevated temperature
DOI:10.1016/j.jallcom.2012.05.047 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:6 AU: Cong, Mengqi;Li, Ziquan;Liu, Jinsong;Yan, Mingyang;Chen, Ke;Sun, Yingdi;Huang, Min;Wang, Chan;Ding, Bupeng;Wang, Shenliang;
6:2:12:6 An investigation of formation of second phases in microalloyed, AZ31 Mg alloys with Ca, Sr and Ce
DOI:10.1016/j.jallcom.2009.11.159 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:20 AU: Shang, L.;Jung, I. H.;Yue, S.;Verma, R.;Essadiqi, E.;
6:2:12:7 Microstructure, tensile properties and creep behaviors of as-cast Mg-2Al-1Zn-xGd (x=1, 2, 3, and 4 wt.%) alloys
DOI:10.1016/j.jallcom.2012.01.084 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:9 AU: Wang, Xudong;Du, Wenbo;Liu, Ke;Wang, Zhaohui;Li, Shubo;
6:2:12:8 Structure stability and mechanical properties of Mg-Al-based alloy modified with Y-rich and Ce-rich misch metals
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6:2:12:9 Assessment of creep rupture life of heat resistant Mg-Al-Ca alloys
DOI:10.1016/j.jallcom.2010.05.108 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:6 AU: Terada, Yoshihiro;Sato, Tatsuo;
6:2:12:10 Microstructure, tensile properties and creep behavior of Mg-4Al-2Sn containing Ca alloy produced by different casting technologies
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6:2:12:11 Microstructure and Corrosion Properties of Mg-xSn-5Al-1Zn (x=0, 1, 5 and 9 mass%) Alloys
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6:2:12:12 The effects of alloying elements on microstructure and properties of gravity casting Mg-Sn-Al-Si alloy
DOI:10.1016/j.matchemphys.2011.02.054 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2011 TC:7 AU: Lee, Sang Gu;Jeon, Jong Jin;Park, Kyung Chul;Park, Yong Ho;Park, Ik Min;
6:2:12:13 Microstructures and mechanical properties of heat-resistant high-pressure die-cast Mg-4A1-xLa-0.3Mn (x=1, 2, 4, 6) alloys
DOI:10.1016/j.msea.2009.12.048 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:20 AU: Zhang, Jinghuai;Zhang, Milin;Meng, Jian;Wu, Ruizhi;Tang, Dingxiang;
6:2:12:14 Effect of Pd on microstructures and tensile properties of as-cast Mg-6Al-1Zn alloys
DOI:10.1016/j.matlet.2010.09.035 JN:MATERIALS LETTERS PY:2011 TC:7 AU: Kim, Byeongho;Park, Kyungchul;Park, Yongho;Park, Ikmin;
6:2:12:15 Effects of elemental additions (Si and Sb) on the ageing behavior of AZ91 magnesium alloy
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6:2:12:16 Investigations of the properties of Mg-4Al-2Sn-1Ca-xCe alloys
DOI:10.1016/j.msea.2010.06.055 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:9 AU: Kim, Byeong Ho;Park, Kyung Chul;Park, Yong Ho;Park, Ik Min;
6:2:12:17 Investigation on microstructure and creep properties of as-cast and aging-treated Mg-6Sn-5Al-2Si alloy
DOI:10.1016/j.msea.2011.03.080 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:6 AU: Lee, Sang Gu;Jeon, Jong Jin;Park, Kyung Chul;Park, Yong Ho;Park, Ik Min;
6:2:12:18 Microstructure and strengthening mechanism of a thermomechanically treated Mg-10Gd-3Y-1Sn-0.5Zr alloy
DOI:10.1016/j.msea.2012.12.051 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:8 AU: Zhang, L.;Gong, M.;Peng, L. M.;
6:2:12:19 Investigation on the Microstructure and Mechanical Properties of Mg-Al-Yb Alloys
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6:2:12:20 Effect of Sm on the microstructure, mechanical properties and creep behavior of Mg-0.5Zn-0.4Zr based alloys
DOI:10.1016/j.msea.2009.10.067 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:11 AU: Zheng, Jiang;Wang, Qudong;Jin, Zhengli;Peng, Tao;
6:2:12:21 Microstructures and mechanical properties of heat-resistant HPDC Mg-4Al-based alloys containing cheap misch metal
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6:2:12:22 Microstructures and creep properties of Mg-4Al-(1-4) La alloys produced by different casting techniques
DOI:10.1016/j.msea.2012.05.072 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:6 AU: Bai, Jing;Sun, Yangshan;Xue, Feng;Qiang, Jing;
6:2:12:23 Structure stability and mechanical properties of high-pressure die-cast Mg-Al-La-Y-based alloy
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6:2:12:24 Microstructure, microstructural stability and mechanical properties of sand-cast Mg-4Al-4RE alloy
DOI:10.1016/j.matchar.2013.06.001 JN:MATERIALS CHARACTERIZATION PY:2013 TC:4 AU: Rzychon, Tomasz;Kielbus, Andrzej;Litynska-Dobrzynska, Lidia;
6:2:12:25 Influence of Pd addition on the creep behavior of AZ61 magnesium alloy
DOI:10.1016/j.msea.2011.04.005 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:3 AU: Kim, Byeongho;Kang, Byoungsoo;Park, Yongho;Park, Ikmin;
6:2:12:26 Corrosion Properties and Microstructure of a Broad Range of Ce Additions on Mg-Zn Alloy
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6:2:12:27 Microstructures and creep behavior of as-cast and annealed heat-resistant Mg-4Al-2Sr-1Ca alloy
DOI:10.1016/j.msea.2011.10.045 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:6 AU: Bai, Jing;Sun, Yangshan;Xue, Feng;Zhou, Jian;
6:2:12:28 Calculation of Thermodynamic Properties of Cu-Ce Binary Alloy and Precipitation Behavior of Cu6Ce Phase
DOI:10.2320/matertrans.M2014319 JN:MATERIALS TRANSACTIONS PY:2014 TC:0 AU: Li, Haihong;Sun, Xueqin;Zhang, Shangzhou;
6:2:12:29 Effect of Impurity Fe Concentration on the Corrosion Behavior of Mg-14 mass%Li-1 mass%Al Alloy
DOI:10.2320/matertrans.MAW201405 JN:MATERIALS TRANSACTIONS PY:2014 TC:0 AU: Morishige, Taiki;Ueno, Kumiko;Okano, Masahiro;Goto, Takayuki;Nakamura, Eiji;Takenaka, Toshihide;
6:2:12:30 The Effect of Cerium on Microstructures and Mechanical Properties of Mg-4Al-2Sn-1Ca Alloy
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6:2:12:31 Microstructure and Damping Capacity of Mg2Si/Mg-Al-Si-(Bi) Composites
DOI:10.2320/matertrans.M2012255 JN:MATERIALS TRANSACTIONS PY:2012 TC:0 AU: Jun, Joong-Hwan;
6:2:12:32 Exfoliation Corrosion Behavior of Cold-Rolled Mg-14 mass% Li-1 mass% Al Alloy in NaCl Solution
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6:2:13:1 Effect of precipitate shape on slip and twinning in magnesium alloys
DOI:10.1016/j.actamat.2010.11.060 JN:ACTA MATERIALIA PY:2011 TC:63 AU: Robson, J. D.;Stanford, N.;Barnett, M. R.;
6:2:13:2 Reducing the tension-compression yield asymmetry in a Mg-8Al-0.5Zn alloy via precipitation
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6:2:13:3 Orientation dependent slip and twinning during compression and tension of strongly textured magnesium AZ31 alloy
DOI:10.1016/j.msea.2010.02.008 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:54 AU: Al-Samman, T.;Li, X.;Chowdhury, S. Ghosh;
6:2:13:4 Effect of plate-shaped particle distributions on the deformation behaviour of magnesium alloy AZ91 in tension and compression
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6:2:13:5 Effect of precipitation on strength and ductility in a Mg-Zn-Y alloy
DOI:10.1016/j.jallcom.2012.09.027 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:16 AU: Rosalie, Julian M.;Somekawa, Hidetoshi;Singh, Alok;Mukai, Toshiji;
6:2:13:6 Effect of particles in promoting twin nucleation in a Mg-5 wt.% Zn alloy
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6:2:13:7 In situ neutron diffraction and polycrystal plasticity modeling of a Mg-Y-Nd-Zr alloy: Effects of precipitation on individual deformation mechanisms
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6:2:13:8 Hot deformation behavior of as-cast Mg-Zn-Mn-Ce alloy in compression
DOI:10.1016/j.msea.2012.09.094 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:9 AU: Gao, Lei;Luo, Alan A.;
6:2:13:9 Influence of second-phase precipitates on the texture evolution of Mg-Al-Zn alloys during hot deformation
DOI:10.1016/j.scriptamat.2011.10.028 JN:SCRIPTA MATERIALIA PY:2012 TC:19 AU: Li, X.;Jiao, F.;Al-Samman, T.;Chowdhury, S. Ghosh;
6:2:13:10 Rate-dependent hardening due to twinning in an ultrafine-grained magnesium alloy
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6:2:13:11 Precipitate characteristics and their effect on the prismatic-slip-dominated deformation behaviour of an Mg-6 Zn alloy
DOI:10.1016/j.actamat.2013.03.033 JN:ACTA MATERIALIA PY:2013 TC:7 AU: Jain, J.;Cizek, P.;Poole, W. J.;Barnett, M. R.;
6:2:13:12 The precipitation behavior of a pretwinned Mg-6Al-1Zn alloy and the effect on subsequent deformation
DOI:10.1557/jmr.2014.248 JN:JOURNAL OF MATERIALS RESEARCH PY:2014 TC:0 AU: Zhang, Yin;Liu, Tianmo;Ding, Xuezheng;Xu, Shun;He, Jiejun;Chen, Hongbing;Pan, Fusheng;Lu, Liwei;
6:2:13:13 Evolution of neutral layer and microstructure of AZ31B magnesium alloy sheet during bending
DOI:10.1016/j.matlet.2013.02.055 JN:MATERIALS LETTERS PY:2013 TC:3 AU: Huang, Guangsheng;Wang, Lifei;Zhang, Hua;Wang, Yanxia;Shi, Zhaoyang;Pan, Fusheng;
6:2:13:14 The effect of size and distribution of rod-shaped beta '(1) precipitates on the strength and ductility of a Mg-Zn alloy
DOI:10.1016/j.msea.2012.01.087 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:10 AU: Rosalie, Julian M.;Somekawa, Hidetoshi;Singh, Alok;Mukai, Toshiji;
6:2:13:15 Form-free size distributions from complementary stereological TEM/SAXS on precipitates in a Mg-Zn alloy
DOI:10.1016/j.actamat.2013.11.029 JN:ACTA MATERIALIA PY:2014 TC:4 AU: Rosalie, J. M.;Pauw, B. R.;
6:2:13:16 Effect of Ag and Cu trace additions on the microstructural evolution and mechanical properties of Mg-5Sn alloy
DOI:10.1016/j.jallcom.2013.02.186 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:11 AU: Jayalakshmi, S.;Sankaranarayanan, S.;Koh, S. P. X.;Gupta, M.;
6:2:13:17 Study of beta-precipitates and their effect on the directional yield asymmetry of friction stir processed and aged AZ91C alloy
DOI:10.1016/j.msea.2012.09.095 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: Jain, V.;Mishra, R. S.;Gupta, A. K.;Gouthama;
6:2:13:18 Effect of cryogenic treatment on the microstructure and mechanical properties of Mg-1.5Zn-0.15Gd magnesium alloy
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6:2:13:19 {10(1)over-bar2} Twinning in magnesium-based lamellar microstructures
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6:2:13:20 Texture and mechanical behavior evolution of age-hardenable Mg-Nd-Zn extrusions during aging treatment
DOI:10.1016/j.msea.2011.09.011 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:5 AU: Ma, Lan;Mishra, Raja K.;Peng, Liming;Luo, Alan A.;Ding, Wenjiang;Sachdev, Anil K.;
6:2:13:21 Evolution of microstructures and textures in magnesium AZ31 alloys deformed by normal and cross-roll rolling
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6:2:13:22 Effect of cryogenic treatment on the microstructure and mechanical properties of Mg-1.5Zn-0.15Gd magnesium alloy (vol 588, pg 76, 2013)
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6:2:14:1 Influence of grain size and texture on Hall-Petch relationship for a magnesium alloy
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6:2:14:2 Effect of texture on the mechanical behavior of ultrafine grained magnesium alloy
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6:2:14:3 Effect of subsequent tension and annealing on microstructure evolution and strength enhancement of friction stir welded Mg alloys
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6:2:14:4 Grain size and texture effects on deformation behavior of AZ31 magnesium alloy
DOI:10.1016/j.msea.2012.08.080 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:26 AU: Yuan, W.;Mishra, R. S.;
6:2:14:5 Changes in texture and microstructure of friction stir welded Mg alloy during post-rolling and their effects on mechanical properties
DOI:10.1016/j.msea.2013.06.005 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:8 AU: Xin, Renlong;Liu, Dejia;Xu, Zeren;Li, Bo;Liu, Qing;
6:2:14:6 Effects of heat input on tensile properties and fracture behavior of friction stir welded Mg-3Al-1Zn alloy
DOI:10.1016/j.msea.2009.09.044 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:35 AU: Yang, J.;Xiao, B. L.;Wang, D.;Ma, Z. Y.;
6:2:14:7 Influence of thermo-mechanical parameters on texture and tensile behavior of friction stir processed Mg alloy
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6:2:14:8 Microstructure and mechanical properties of friction stir welded dissimilar Mg alloys of ZK60-AZ31
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6:2:14:9 Mechanisms of fracture and inhomogeneous deformation on transverse tensile test of friction-stir-processed AZ31 Mg alloy
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6:2:14:10 Effect of microstructure on the uniaxial tensile deformation behavior of Mg-4Y-3RE alloy
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6:2:14:13 Strain localization in friction stir welded magnesium alloy during tension and compression deformation
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6:2:14:15 Influence of texture on superplastic behavior of friction stir processed ZK60 magnesium alloy
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6:2:14:16 Fine grained Mg-3Al-1Zn alloy with randomized texture in the double-sided friction stir welded joints
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6:2:14:17 Microstructure and tensile behavior of a friction stir processed magnesium alloy
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6:2:14:18 Ultrasonic spot welded AZ31 magnesium alloy: Microstructure, texture, and lap shear strength
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6:2:14:19 Effect of grain size on the microstructure and mechanical properties of friction stir welded non-combustive magnesium alloys
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6:2:14:20 Effect of Friction Stir Processing on the Microstructural Evolution and Tensile Behaviors of an alpha/beta Dual-Phase Mg-Li-Al-Zn Alloy
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6:2:14:21 Friction stir welding of as-extruded Mg-Al-Zn alloy with higher Al content. Part II: Influence of precipitates
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6:2:14:22 Effects of Friction Stir Process and Stabilizing Heat Treatment on the Tensile and Punch-Shear Properties of Mg-9Li-2Al-1Zn Magnesium Alloy
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6:2:14:23 Embrittlement Mechanism on Tensile Fracture of 7075 Al Alloy with Friction Stir Process (FSP)
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6:2:15:4 Effects of initial microstructure on the microstructural evolution and stretch formability of warm rolled Mg-3Al-1Zn alloy sheets
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6:2:15:6 Optimization of annealing treatment parameters in a twin roll cast and warm rolled ZK60 alloy sheet
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6:2:15:8 Microstructural and textural evolution of AZ61 magnesium alloy sheet during bidirectional cyclic bending
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6:2:15:12 Texture Randomization of AZ31 Magnesium Alloy Sheets for Improving the Cold Formability by a Combination of Rolling and High-Temperature Annealing
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6:2:15:13 Effect of pass strain and temperature on recrystallisation in magnesium alloy AZ31 after interrupted cold deformation
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6:2:15:15 Enhancement of Room Temperature Stretch Formability of Mg-1.5 mass% Mn Alloy by Texture Control
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6:2:15:17 Elastic and Damping Properties of AZ31 Magnesium Alloy Sheet Processed by High-Temperature Rolling
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6:2:15:18 Static recrystallization and mechanical properties of Mg-4Y-3RE magnesium alloy sheet processed by differential speed rolling at 823 K
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6:2:15:19 Microstructure evolution and mechanical response of extruded AZ31B magnesium alloy sheet at large strains followed by annealing treatment
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6:2:15:20 Effect of grooved roll profiles on microstructure evolutions of AZ31 sheets in Periodical Straining Rolling process
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6:2:15:22 Characteristics of the Cold-Rolling Texture in a Multi-Layered Material Composed of SUS301 and SUS420J2 Steels
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6:2:16:1 Recrystallization and texture evolution of Mg-3%Al-1%Zn-(0.4-0.8)%Sr alloys during extrusion
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6:2:17:12 High-ductility magnesium-zinc-cerium extrusion alloys
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6:2:17:13 Effects of extrusion parameters on the microstructure and mechanical properties of Mg-Zn-(Mn)-Ce/Gd alloys
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6:2:17:14 Deformation and fracture behavior of hot extruded Mg alloys AZ31
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6:2:17:15 Effect of Ce addition on the microstructure and tensile properties of extruded Mg-Zn-Zr alloys
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6:2:17:16 Study of intermetallics and phase equilibria of Mg-Zn-La system in Mg-rich corner at 345 degrees C
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6:2:17:17 Precipitates effect on microstructure of as-deformed and as-annealed AZ41 magnesium alloys by adding Mn and Ca
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6:2:17:18 Improved mechanical properties of Mg-7.6Al-0.4Zn alloy through aging prior to extrusion
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6:2:17:19 Grain refinement due to complex twin formation in rapid hot forging of magnesium alloy
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6:2:17:20 Determination of flow stress under hot deformation conditions
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6:2:18:1 Low-temperature superplasticity of extruded Mg-Sn-Al-Zn alloy
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6:2:18:2 Role of icosahedral phase in enhancing the strength of Mg-Sn-Zn-Al alloy
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6:2:18:3 Strong strain hardening ability in an as-cast Mg-3Sn-1Zn alloy
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6:2:18:4 Effects of Sn addition on the microstructure and mechanical properties of as-cast, rolled and annealed Mg-4Zn alloys
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6:2:18:5 Effects of minor Ca addition on microstructure and mechanical properties of the Mg-4.5Zn-4.5Sn-2Al-based alloy system
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6:2:18:6 Microstructure and mechanical properties of an indirect-extruded Mg-8Sn-1Al-1Zn alloy
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6:2:18:7 Effects of Al and Zn additions on mechanical properties and precipitation behaviors of Mg-Sn alloy system
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6:2:18:8 Strength and ductility of novel Mg-8Sn-1Al-1Zn alloys extruded at different speeds
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6:2:18:9 Effect of extrusion conditions on microstructure and mechanical properties of microalloyed Mg-Sn-Al-Zn alloys
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6:2:18:10 The effect of precipitate state on the creep resistance of Mg-Sn alloys
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6:2:18:11 Significant enhancement of the age-hardening response in Mg-10Sn-3Al-1Zn alloy by Na microalloying
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6:2:18:12 Effect of double aging and microalloying on the age hardening behavior of a Mg-Sn-Zn alloy
DOI:10.1016/j.msea.2010.05.010 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:36 AU: Sasaki, T. T.;Oh-ishi, K.;Ohkubo, T.;Hono, K.;
6:2:18:13 Compositional optimization of Mg-Sn-Al alloys for higher age hardening response
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6:2:18:14 Effect of Zn on microstructure and mechanical property of Mg-3Sn-1Al alloys
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6:2:18:15 Microstructure and mechanical properties of Mg-5Sn alloy fabricated by a centrifugal casting method
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6:2:18:16 Thermodynamic modeling of the Mg-Sn-Zn ternary system
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6:2:18:17 Effects of Ag addition on microstructures and mechanical properties of Mg-6Zn-2Sn-0.4Mn-based alloy system
DOI:10.1016/j.matlet.2011.06.105 JN:MATERIALS LETTERS PY:2011 TC:12 AU: Son, Hyeon-Taek;Kim, Dae-Guen;Park, Joon Sik;
6:2:18:18 Study of the corrosion behavior and the corrosion films formed on the surfaces of Mg-xSn alloys in 3.5 wt.% NaCl solution
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6:2:18:19 Effects of Li addition on the microstructure and mechanical properties of Mg-3Zn-1Sn-0.4Mn based alloys
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6:2:18:20 Microstructure and mechanical properties of binary Mg-Sn alloys subjected to indirect extrusion
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6:2:18:21 Effects of artificial aging on microstructure and mechanical properties of the Mg-4.5Zn-4.5Sn-2Al alloy
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6:2:18:22 Optimization of composition and heat treatment design of Mg-Sn-Zn alloys via the CALPHAD method
DOI:10.1007/s10853-011-5660-z JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:2 AU: Avraham, S.;Katsman, A.;Bamberger, M.;
6:2:18:23 Microstructure and damage evolution during tensile loading in a wrought magnesium alloy
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6:2:18:24 Mechanism of the formation of stannate and cerium conversion coatings on AZ91D magnesium alloys
DOI:10.1016/j.apsusc.2013.03.136 JN:APPLIED SURFACE SCIENCE PY:2013 TC:9 AU: Lee, Y. L.;Chu, Y. R.;Chen, F. J.;Lin, C. S.;
6:2:18:25 Effects of minor Sr addition on microstructure and mechanical properties of the as-cast Mg-4.5Zn-4.5Sn-2Al-based alloy system
DOI:10.1016/j.jallcom.2013.05.036 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:4 AU: He, Xi;Chen, Jihua;Yan, Hongge;Su, Bin;Zhang, Guanghao;Miao, Chongming;
6:2:18:26 Experimental and thermodynamic study of the Mg-Sn-In-Zn quaternary system
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6:2:18:27 Effects of Sn content on the microstructure and mechanical properties of Mg-7Zn-5Al based alloys
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6:2:18:28 Grain refinement and improved tensile properties of Mg-3Al-1Zn alloy processed by low-temperature indirect extrusion
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6:2:18:29 Centrifugal casting for unpressurized fabrication of lotus-type porous copper
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6:2:18:30 Effect of ECAE on Microstructures and Mechanical Properties of Solution Heat Treated Mg-5(mass%) Sn Alloy
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6:2:18:31 Application research of ferrous matrix composites in roller ring used in high-speed wire/bar rolling mill
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6:2:19:1 Hierarchical magnesium nano-composites for enhanced mechanical response
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6:2:19:2 Effect of ceramic nanoparticle reinforcements on the quasistatic and dynamic mechanical properties of magnesium-based metal matrix composites
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6:2:19:3 Wettability of pure Ti by molten pure Mg droplets
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6:2:19:4 Properties of magnesium alloys reinforced with nanoparticles and carbon nanotubes: a review
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6:2:19:5 Enhancing overall tensile and compressive response of pure Mg using nano-TiB2 particulates
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6:2:19:6 Microstructural evolution and mechanical properties of Mg composites containing nano-B4C hybridized micro-Ti particulates
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6:2:19:7 Effect of addition of mutually soluble and insoluble metallic elements on the microstructure, tensile and compressive properties of pure magnesium
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6:2:19:8 Effect of ball milling the hybrid reinforcements on the microstructure and mechanical properties of Mg-(Ti plus n-Al2O3) composites
DOI:10.1016/j.jallcom.2011.04.083 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:13 AU: Sankaranarayanan, S.;Jayalakshmi, S.;Gupta, M.;
6:2:19:9 Effect of hybridizing micron-sized Ti with nano-sized SiC on the microstructural evolution and mechanical response of Mg-5.6Ti composite
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6:2:19:10 Microstructural and mechanical properties of titanium particulate reinforced magnesium composite materials
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6:2:19:11 Using integrated hybrid (Al plus CNT) reinforcement to simultaneously enhance strength and ductility of magnesium
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6:2:19:12 Microstructure and mechanical properties of magnesium composites prepared by spark plasma sintering technology
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6:2:19:13 Asymmetric and symmetric rolling of magnesium: Evolution of microstructure, texture and mechanical properties
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6:2:19:14 Differentiating the mechanical response of hybridized Mg nano-composites as a function of strain rate
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6:2:19:15 Low volume fraction nano-titanium particulates for improving the mechanical response of pure magnesium
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6:2:19:16 Microstructure and Mechanical Properties of Mg-5Nb Metal-Metal Composite Reinforced with Nano SiC Ceramic Particles
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6:2:19:17 Effect of niobium particulate addition on the microstructure and mechanical properties of pure magnesium
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6:2:19:18 Hybridizing boron carbide (B4C) particles with aluminum (Al) to enhance the mechanical response of magnesium based nano-composites
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6:2:19:19 Mechanical characteristics of pure Mg and a Mg/Y2O3 nanocomposite in the 25-250 A degrees C temperature range
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6:2:19:20 Improving properties of Mg with Al-Cu additions
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6:2:19:21 Enhancing tensile and compressive strength of magnesium using ball milled Al plus CNT reinforcement
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6:2:19:22 Mechanical property retention in remelted microparticle to nanoparticle AZ31/Al2O3 composites
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6:2:19:23 The microstructure, mechanical and corrosion properties of calcium polyphosphate reinforced ZK60A magnesium alloy composites
DOI:10.1016/j.jallcom.2010.06.013 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:16 AU: Feng, Ailing;Han, Yong;
6:2:19:24 Effect of nano-Al2O3 addition and heat treatment on the microstructure and mechanical properties of Mg-(5.6Ti+3Al) composite
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6:2:19:25 Influence of Micron-Ti and Nano-Cu Additions on the Microstructure and Mechanical Properties of Pure Magnesium
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6:2:19:26 Size-effects in textural strengthening of hierarchical magnesium nano-composites
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6:2:19:27 Deformation behaviour of Mg/Y2O3 nanocomposite at elevated temperatures
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6:2:19:28 Influence of SiC particles on compressive deformation of magnesium matrix composites
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6:2:19:29 Measurement of the evolution of internal strain and load partitioning in magnesium hybrid composites under compression load using in-situ synchrotron X-ray diffraction analysis
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6:2:19:30 Understanding the reaction mechanism of in-situ synthesized (TiC-TiB2)/AZ91 magnesium matrix composites
DOI:10.1016/j.matchemphys.2012.04.054 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:5 AU: Shamekh, Mohammed;Pugh, Martin;Medraj, Mamoun;
6:2:19:31 Damping capacities and tensile properties in Grp/AZ91 and SiCp/Grp/AZ91 magnesium matrix composites
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6:2:20:1 Cyclic deformation behavior of a super-vacuum die cast magnesium alloy
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6:2:20:2 Cyclic deformation and twinning in a semi-solid processed AZ91D magnesium alloy
DOI:10.1016/j.msea.2010.09.016 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:31 AU: Patel, H. A.;Chen, D. L.;Bhole, S. D.;Sadayappan, K.;
6:2:20:3 Tensile properties and strain-hardening behavior of double-sided arc welded and friction stir welded AZ31B magnesium alloy
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6:2:20:4 Influence of ultrasonic spot welding on microstructure in a magnesium alloy
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6:2:20:5 Effect of twinning, slip, and inclusions on the fatigue anisotropy of extrusion-textured AZ61 magnesium alloy
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6:2:20:6 Microstructure and tensile properties of thixomolded magnesium alloys
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6:2:20:7 Lap shear strength and fatigue life of friction stir spot welded AZ31 magnesium and 5754 aluminum alloys
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6:2:20:9 Tensile properties of a friction stir welded magnesium alloy: Effect of pin tool thread orientation and weld pitch
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6:2:20:10 The influence of adhesive on the Al alloy in laser weld bonding Mg-Al process
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6:2:20:11 Improvements of strength and ductility in aluminum alloy joints via rapid cooling during friction stir welding
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6:2:20:12 Microstructure and mechanical properties of weld-bonded and resistance spot welded magnesium-to-steel dissimilar joints
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6:2:20:13 Tensile and fatigue properties of weld-bonded and adhesive-bonded magnesium alloy joints
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6:2:20:14 Dynamic behavior of extruded AZ61 Mg alloy during hot compression
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6:2:20:15 Resistance spot weld fatigue behavior and dislocation substructures in two different heats of AZ31 magnesium alloy
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6:2:20:16 Structure-property relations of cyclic damage in a wrought magnesium alloy
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6:2:20:17 Microporosity effects on cyclic plasticity and fatigue of LENS (TM)-processed steel
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6:2:20:18 Microstructure-Based Fatigue Modeling of an Acrylonitrile Butadiene Styrene (ABS) Copolymer
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6:2:20:19 Influence of structural integrity on fatigue behavior of friction stir spot welded AZ31 Mg alloy
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6:2:21:1 Mechanical anisotropy and deep drawing behaviour of AZ31 and ZE10 magnesium alloy sheets
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6:2:21:3 A study of mechanical anisotropy of Mg-Zn-Rare earth alloy sheet
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6:2:21:4 Improved ductility of Mg-Zn-Ce alloy by hot pack-rolling
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6:2:21:5 Influence of initial texture on cold deep drawability of Mg-3Al-1Zn alloy sheets
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6:2:21:6 Influence of warm pre-stretching on microstructure and properties of AZ31 magnesium alloy
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6:2:21:7 Enhanced mechanical properties of AZ31 magnesium alloy sheets processed by three-directional rolling
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6:2:21:8 Mechanical characterization and constitutive modeling of Mg alloy sheets
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6:2:21:9 Deep drawability and drawing behaviour of AZ31 alloy sheets with different initial texture
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6:2:21:10 Comparison of annealing on microstructure and anisotropy of magnesium alloy AZ31 sheets processed by three different routes
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6:2:21:11 Improved ductility of magnesium alloys by a simple shear process followed by annealing
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6:2:21:12 Effect of differential speed rolling on the anisotropy of mechanical properties and texture evolution of AZ31 Mg alloys
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6:2:21:13 Asymmetry strain hardening behavior in Mg-3%Al-1%Zn and Mg-8%Gd-3%Y alloy tubes
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6:2:21:14 Mechanical properties and deep drawability of Mg-Gd-Y-Zr alloy rolling sheet at elevated temperatures
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6:2:21:15 Microstructure and mechanical properties of extruded Mg-8Gd-2Y-1Nd-0.3Zn-0.6Zr alloy
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6:2:21:16 Constitutive modeling of AZ31 sheet alloy with application to axial crushing
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6:2:21:17 Improved formability of Mg-3Al-1Zn alloy by pre-stretching and annealing
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6:2:21:18 Deep drawability and deformation behavior of AZ31 magnesium alloy sheets at 473 K
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6:2:21:19 Experimental and numerical investigation of Mg alloy sheet formability
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6:2:22:1 Microstructure and mechanical properties of AZ31 magnesium alloy processed by cyclic closed-die forging
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6:2:22:2 Microstructure and mechanical properties of NZ30K magnesium alloy processed by repetitive upsetting
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6:2:22:3 Enhanced microstructure homogeneity and mechanical properties of AZ31-Si composite by cyclic closed-die forging
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6:2:22:4 Mechanical properties and corrosion resistance of Mg-10Gd-2Y-0.5Zr alloy by hot extrusion solid-state recycling
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6:2:22:5 Effects of equal channel angular extrusion on the microstructure and high-temperature mechanical properties of ZA85 magnesium alloy
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6:2:22:6 Uniform fine microstructure and random texture of Mg-9.8Gd-2.7Y-0.4Zr magnesium alloy processed by repeated-upsetting deformation
DOI:10.1016/j.matlet.2012.05.129 JN:MATERIALS LETTERS PY:2012 TC:11 AU: Zhou, H.;Ye, B.;Wang, Q. D.;Guo, W.;
6:2:22:7 Enhanced microstructure homogeneity and mechanical properties of AZ31 magnesium alloy by repetitive upsetting
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6:2:22:8 Mechanical properties at room temperature of an Al-Zn-Mg-Cu alloy processed by equal channel angular pressing
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6:2:22:9 Microstructure evolution of AZ series magnesium alloys during cyclic extrusion compression
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6:2:22:10 A new metastable precipitate phase in Mg-Gd-Y-Zr alloy
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6:2:22:11 Microstructure and enhanced mechanical properties of an Mg-10Gd-2Y-0.5Zr alloy processed by cyclic extrusion and compression
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6:2:22:12 Mechanical properties of Al7075 alloy with nano-ceramic oxide dispersion synthesized by mechanical milling and consolidated by equal channel angular pressing
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6:2:22:13 In-Situ Study on Deformation Behavior of ZK60 Alloy Processed by Cyclic Extrusion and Compression
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6:2:22:14 Characterisation of precipitates in a Mg-7Gd-5Y-1Nd-0.5Zr alloy aged to peak-ageing plateau
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6:2:22:15 The effects of room temperature ECAP and subsequent aging on mechanical properties of 2024 Al alloy
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6:2:22:16 Microstructure of AZ31 magnesium alloy produced by continuous variable cross-section direct extrusion (CVCDE)
DOI:10.1016/j.matlet.2014.07.116 JN:MATERIALS LETTERS PY:2014 TC:2 AU: Li, F.;Zeng, X.;Bian, N.;
6:2:22:17 Effect of Temperature and Extrusion Pass on the Consolidation of Magnesium Powders Using Equal Channel Angular Extrusion
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6:2:22:18 Influence of Grain Refinement and Texture Evolution on the Yield Strength of Mg Alloy Processed by Cyclic Extrusion and Compression
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6:2:22:19 Microstructural refinement and homogenization of Mg-SiC nanocomposites by cyclic extrusion compression
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6:2:22:20 Dislocation Movement in WE43 Magnesium Alloy during Recovery and Recrystallisation
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6:2:23:1 Effect of manganese additions on the corrosion behavior of an extruded Mg-5Al based alloy
DOI:10.1016/j.jallcom.2012.07.083 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:6 AU: Nguyen Dang Nam;Mathesh, Motilal;Forsyth, Maria;Jo, Deok Su;
6:2:23:2 Corrosion behavior of Mg-5Al-xZn alloys in 3.5 wt.% NaCl solution
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6:2:23:3 Corrosion resistance of Mg-5Al-xSr alloys
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6:2:23:4 Effect of heat treatment on the microstructures and damping properties of biomedical Mg-Zr alloy
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6:2:23:5 Phase stability, mechanical property, and electronic structure of Mg-Li system
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6:2:23:6 Effect of Y on microstructure and mechanical properties of duplex Mg-7Li alloys
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6:2:23:7 A new approach to grain refinement of an Mg-Li-Al cast alloy
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6:2:23:8 Using Ab Initio Calculations in Designing bcc MgLi-X Alloys for Ultra-Lightweight Applications
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6:2:23:9 Grain refinement behavior of potassium fluozirconate (K2ZrF6) salts mixture introduced into Mg-10Gd-3Y magnesium alloy
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6:2:23:10 Corrosion of an extruded magnesium alloy ZK60 component-The role of microstructural features
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6:2:23:11 First-principles study of the properties of Li, Al and Cd doped Mg alloys
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6:2:23:12 Influence of Y and Nd on microstructure, texture and anisotropy of Mg-5Li-1A1 alloy
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6:2:23:13 Ab Initio Guided Design of bcc Ternary Mg-Li-X (X = Ca, Al, Si, Zn, Cu) Alloys for Ultra-Lightweight Applications
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6:2:23:14 Microstructure development in laser forming of zirconium coatings on AZ91D magnesium alloy substrates
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6:2:23:15 Grain refinement and mechanical properties of Mg-5Li-3Al alloy inoculated by Al-5Ti-1B master alloy
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6:2:23:16 Corrosion of Mg, AS31 and AZ91 alloys in nitrate solutions
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6:2:23:17 Microstructure and mechanical properties of Mg-6Zn-xCu-0.6Zr (wt.%) alloys
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6:2:23:18 Thermodynamic modeling and experimental investigation of the magnesium-zinc-samarium alloys
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6:2:23:19 The effect of rare earth additions on the electrochemical properties of Mg-5Al-based alloys
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6:2:23:20 Electrochemical deposition and characterization of Zn-Al layered double hydroxides (LDHs) films on magnesium alloy
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6:2:23:21 Cationic doping of MgO surfaces to build corrosion protection in Mg alloys
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6:2:23:22 Grain refinement behavior of potassium fluozirconate (K2ZrF6) salts mixture introduced into Mg-10Gd-3Y magnesium alloy (vol 494, pg 426, 2010)
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6:2:23:23 Nanomechanical properties of Mg-Al intermetallic compounds produced by packed powder diffusion coating (PPDC) on the surface of AZ91E
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6:2:23:24 Effect of zinc additions on the microstructure mechanical properties and creep behavior of as-cast Mg-3Sm-0.4Zr (wt.%) alloy
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6:2:24:1 On the recrystallization behavior of homogenized AZ81 magnesium alloy: The effect of mechanical twins and gamma precipitates
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6:2:24:2 Modification of the grain structure, gamma phase morphology and texture in AZ81 Mg alloy through accumulative back extrusion
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6:2:24:3 Processing of AZ31 magnesium alloy by a new noble severe plastic deformation method
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6:2:24:4 Deformation homogeneity in accumulative back extrusion processing of AZ31 magnesium alloy
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6:2:24:5 Shear banding phenomenon during severe plastic deformation of an AZ31 magnesium alloy
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6:2:24:6 Hardness and microstructure homogeneity of pure copper processed by accumulative back extrusion
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6:2:24:7 Shear deformation and grain refinement during accumulative back extrusion of AZ31 magnesium alloy
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6:2:24:8 Microstructure evolution and mechanical properties of back extruded 7075 aluminum alloy at elevated temperatures
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6:2:24:9 Microstructure and mechanical properties of commercially pure aluminum processed by accumulative back extrusion
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6:2:24:10 Flow localization during severe plastic deformation of AZ81 magnesium alloy: Micro-shear banding phenomenon
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6:2:24:11 Deformation band and texture of a cast Mg-RE alloy under uniaxial hot compression
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6:2:24:12 Characterization of ultrafine and nano grained magnesium alloy processed by severe plastic deformation
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6:2:24:13 The origin of microstructure inhomogeneity in Mg-3Al-1Zn processed by severe plastic deformation
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6:2:24:14 Multiple direct extrusion: A new technique in grain refinement
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6:2:24:15 Mechanisms of grain refinement in Mg-6Al-1Zn alloy during hot deformation
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6:2:24:16 Microstructure and mechanical property of dual-directional-extruded Mg alloy AZ31
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6:2:24:17 A new severe plastic deformation method by repetitive extrusion and upsetting
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6:2:25:1 Excellent room-temperature ductility and formability of rolled Mg-Gd-Zn alloy sheets
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6:2:25:2 Twins, shear bands and recrystallization of a Mg-2.0%Zn-0.8%Gd alloy during rolling
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6:2:25:3 Activation of {10(1)over-bar2} twinning and slip in high ductile Mg-2.0Zn-0.8Gd rolled sheet with non-basal texture during tensile deformation at room temperature
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6:2:25:4 Room-temperature ductility and anisotropy of two rolled Mg-Zn-Gd alloys
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6:2:25:5 Effect of twinning and dynamic recrystallization on the high strain rate rolling process
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6:2:25:6 Effects of Gd concentration on microstructure, texture and tensile properties of Mg-Zn-Gd alloys subjected to large strain hot rolling
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6:2:25:7 The effect of texture and strain conditions on formability of cross-roll rolled AZ31 alloy
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6:2:25:8 Feasibility of high strain-rate rolling of a magnesium alloy across a wide temperature range
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6:2:25:9 A comparative study of texture and ductility of Mg-1.2Zn-0.8Gd alloy fabricated by rolling and equal channel angular extrusion
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6:2:25:10 Texture Modification by Addition of Ca in Mg-Zn-Y Alloy
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6:2:25:11 Effect of Static Recrystallization on Texture Development and Formability in Mg-Al-Zn and Mg-Li-Zn Alloys
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6:2:25:12 Effects of texture on anisotropy of mechanical properties in annealed Mg-0.6%Zr-1.0%Cd sheets by unidirectional and cross rolling
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6:2:25:13 Precipitation of DO19 type metastable phase in Mg-Sn alloy
DOI:10.1016/j.matlet.2013.09.005 JN:MATERIALS LETTERS PY:2013 TC:1 AU: Kim, Y. K.;Kim, Do H.;Kim, W. T.;Kim, D. H.;
6:2:25:14 Serrated flow and tensile properties of a Mg-Gd-Zn alloy
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6:2:26:1 Current issues in magnesium sheet alloys: Where do we go from here?
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6:2:26:2 Comparison of static recrystallization behavior in hot rolled Mg-3Al-1Zn and Mg-3Zn-0.5Ca sheets
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6:2:26:3 {10(1)over-bar2} twins in the rolled Mg-Zn-Ca alloy with high formability
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6:2:26:4 Effects of Ca on Tensile Properties and Stretch Formability at Room Temperature in Mg-Zn and Mg-Al Alloys
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6:2:26:6 Microstructure and texture evolution of Mg alloys during twin-roll casting and subsequent hot rolling
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6:2:26:7 Microstructures and tensile properties of a twin roll cast and heat-treated Mg-2.4Zn-0.1Ag-0.1Ca-0.1Zr alloy
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6:2:26:8 Influence of Zn concentration on stretch formability at room temperature of Mg-Zn-Ce alloy
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6:2:26:9 Microstructure, Texture and Mechanical Properties of Mg-Zn-Ce Alloy Extruded at Different Temperatures
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6:2:26:10 High strength and formable Mg-6.2Zn-0.5Zr-0.2Ca alloy sheet processed by twin roll casting
DOI:10.1016/j.msea.2014.04.058 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:6 AU: Bhattacharjee, T.;Suh, B-C;Sasaki, T. T.;Ohkubo, T.;Kim, N. J.;Hono, K.;
6:2:26:11 Enhancement of Stretch Formability at Room Temperature by Addition of Ca in Mg-Zn Alloy
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6:2:26:12 Texture Formation and Room-Temperature Formability of Rolled Mg-Zn-Ce Alloys
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6:2:26:13 Twinning behavior of Mg-4Zn-1Gd alloy sheet during longitudinal tensile deformation
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6:2:26:14 Effect of Cold Forging and Static Recrystallization on Microstructure and Mechanical Property of Magnesium Alloy AZ31
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6:2:26:15 The effect of Ag and Ca additions on the age hardening response of Mg-Zn alloys
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6:2:26:16 Effect of Zr addition on the precipitation in Mg-Zn-based alloy
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6:2:26:17 Effect of microalloyed Zr on the extruded microstructure of Mg-6.2Zn-based alloys
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6:2:26:18 Forging induces changes in the formability and microstructure of extruded Mg96Zn2Y2 alloy with a long-period stacking order phase
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6:2:27:1 The Interdependence Theory: The relationship between grain formation and nucleant selection
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6:2:27:2 An analytical model for constitutional supercooling-driven grain formation and grain size prediction
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6:2:27:3 Effects of solute content on grain refinement in an isothermal melt
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6:2:27:4 Identifying close-packed planes in complex crystal structures
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6:2:27:5 Revisiting the role of peritectics in grain refinement of Al alloys
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6:2:27:6 The grain refining mechanism of cast zinc through silver inoculation
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6:2:27:7 A novel fading-resistant Al-3Ti-3B grain refiner for Al-Si alloys
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6:2:27:8 Grain refinement and tensile properties improvement of aluminum foundry alloys by inoculation with Al-B master alloy
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6:2:27:9 A quantitative study of solute diffusion field effects on heterogeneous nucleation and the grain size of alloys
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6:2:27:10 Mechanisms of enhanced heterogeneous nucleation during solidification in binary Al-Mg alloys
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6:2:27:11 Grain refinement mechanism of pure aluminum by inoculation with Al-B master alloys
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6:2:27:12 The Interdependence model of grain nucleation: A numerical analysis of the Nucleation-Free Zone
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6:2:27:13 The grain refinement mechanism of cast aluminium by zirconium
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6:2:27:14 Impurity effects on the nucleation and growth of primary Al-3(Sc,Zr) phase in Al alloys
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6:2:27:15 The influence of Sr, Mg and Cu addition on the microstructural properties of a secondary AlSi9Cu3(Fe) die casting alloy
DOI:10.1016/j.matchar.2013.08.012 JN:MATERIALS CHARACTERIZATION PY:2013 TC:8 AU: Fabrizi, Alberto;Ferraro, Stefano;Timelli, Giulio;
6:2:27:16 Grain refinement of Ca addition in a twin-roll-cast Mg-3Al-1Zn alloy
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6:2:27:17 Grain refining potency of Al-B master alloy on pure aluminum
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6:2:27:18 An extension of the Kampmann-Wagner numerical model towards as-cast grain size prediction of multicomponent aluminum alloys
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6:2:27:19 Ultrafine-Grain and Isotropic Cu/SAC305/Cu Solder Interconnects Fabricated by High-Intensity Ultrasound-Assisted Solidification
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6:2:27:20 The effect of addition of cerium on the grain refinement of Mg-3Al-1Zn cast alloy
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6:2:27:21 FIB serial milling and lifting out of fine inclusions in an intensively melt sheared aluminum alloy
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6:2:27:22 Grain Morphology of As-Cast Wrought Aluminium Alloys
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6:2:27:23 Determination of the growth restriction factor and grain size for aluminum alloys by a quasi-binary equivalent method
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6:2:27:24 Effect of rotating magnetic field on the fading effect of Al-5Ti-1B in commercial pure Al
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6:2:27:25 Response of A356 to warm rotary forming and subsequent T6 heat treatment
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6:2:27:26 Identifying close-packed planes in complex crystal structures (vol 58, pg 3091, 2010)
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6:2:27:27 Grain Refinement of Magnesium Alloys by Mg-Zr Master Alloys: The Role of Alloy Chemistry and Zr Particle Number Density
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6:2:27:28 Grain refinement in a AlZnMgCuTi alloy by intensive melt shearing: A multi-step nucleation mechanism
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6:2:27:29 Effect of TiAl3 particles size and distribution on their settling and dissolution behaviour in aluminium
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6:2:27:30 Multiscale creep characterization and modeling of a zirconia-rich fused-cast refractory
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6:2:27:31 The preferred facet orientation of GaAs pyramids for high-quality InAs and InxGa1-xAs quantum dot growth
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6:2:27:32 Discovery of plate-shaped athermal omega phase forming pairs with alpha ' martensite in a Ti-5.26 wt.% Cr Alloy
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6:2:28:1 The effect of rare earth elements on the kinetics of the isothermal coarsening of the globular solid phase in semisolid AZ91 alloy produced via SIMA process
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6:2:28:2 Correlation between solid fraction and tensile properties of semisolid RAP processed aluminum alloys
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6:2:28:3 Microstructural evolution during reheating and tensile mechanical properties of thixoforged AZ91D-RE magnesium alloy prepared by squeeze casting-solid extrusion
DOI:10.1016/j.msea.2012.01.002 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:27 AU: Chen, Qiang;Yuan, Baoguo;Zhao, Gaozhan;Shu, Dayu;Hu, Chuankai;Zhao, Zude;Zhao, Zhixiang;
6:2:28:4 Characteristics of thixoformed A356 aluminum thin plates with microchannels
DOI:10.1016/j.matchar.2013.05.008 JN:MATERIALS CHARACTERIZATION PY:2013 TC:3 AU: Bolouri, Amir;Kang, Chung Gil;
6:2:28:5 Recrystallization behavior of ECAPed A356 alloy at semi-solid reheating temperature
DOI:10.1016/j.msea.2010.03.021 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:18 AU: Moradi, M.;Nili-Ahmadabadi, M.;Poorganji, B.;Heidarian, B.;Parsa, M. H.;Furuhara, T.;
6:2:28:6 Microstructure development and thixoextrusion of magnesium alloy prepared by repetitive upsetting-extrusion
DOI:10.1016/j.jallcom.2011.04.113 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:31 AU: Chen, Qiang;Zhao, Zude;Zhao, Zhixiang;Hu, Chuankai;Shu, Dayu;
6:2:28:7 Microstructural evolution of A356.2 alloy prepared by the SIMA process
DOI:10.1016/j.matchar.2012.04.005 JN:MATERIALS CHARACTERIZATION PY:2012 TC:10 AU: Yan, Guanhai;Zhao, Shengdun;Ma, Shengqiang;Shou, Hongtao;
6:2:28:8 Severe plastic deformation of rheoforged aluminum alloy A356
DOI:10.1016/j.msea.2012.08.014 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:9 AU: Dodangeh, A.;Kazeminezhad, M.;Aashuri, H.;
6:2:28:9 Microstructural evolution and phase transformations during partial remelting of AZ91D magnesium alloy refined by SiC
DOI:10.1016/j.jallcom.2010.03.090 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:11 AU: Chen, T. J.;Jiang, X. D.;Ma, Y.;Li, Y. D.;Hao, Y.;
6:2:28:10 Influence of extrusion temperature on deformation behavior of C-sf/AZ91D composite during semi-solid extrusion
DOI:10.1016/j.jallcom.2010.09.086 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:2 AU: Su, L. Z.;Qi, L. H.;Zhou, J. M.;Li, H. J.;
6:2:28:11 Study on the effects of the compression ratio and mushy zone heating on the thixotropic microstructure of AA 7075 aluminum alloy via SIMA process
DOI:10.1016/j.jallcom.2010.09.042 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:17 AU: Bolouri, Amir;Shahmiri, Mohammad;Kang, C. G.;
6:2:28:12 Coarsening of equiaxed microstructure in the semisolid state of aluminum 7075 alloy through SIMA processing
DOI:10.1007/s10853-011-6200-6 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:12 AU: Bolouri, Amir;Shahmiri, Mohammad;Kang, Chung Gil;
6:2:28:13 Tensile properties and microstructural characteristics of indirect rheoformed A356 aluminum alloy
DOI:10.1016/j.msea.2012.10.099 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:5 AU: Bolouri, Amir;Bae, Jung Woon;Kang, Chung Gil;
6:2:28:14 An investigation on the microstructural evolution and mechanical properties of A380 aluminum alloy during SIMA process
DOI:10.1016/j.jallcom.2011.07.068 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:10 AU: Parshizfard, E.;Shabestari, S. G.;
6:2:28:15 Characterization of semi-solid processing of aluminium alloy 7075 with Sc and Zr additions
DOI:10.1016/j.msea.2013.04.078 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:5 AU: Rogal, L.;Dutkiewicz, J.;Atkinson, H. V.;Litynska-Dobrzynska, L.;Czeppe, T.;Modigell, M.;
6:2:28:16 Modeling of dislocation density and strength on rheoforged A356 alloy during multi-directional forging
DOI:10.1016/j.commatsci.2013.08.029 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:2 AU: Kavosi, J.;Saei, M.;Kazeminezhad, M.;Dodangeh, A.;
6:2:28:17 Microstructural evolution and tensile mechanical properties of AM60B magnesium alloy prepared by the SIMA route
DOI:10.1016/j.jallcom.2010.03.088 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:28 AU: Zhao, Zude;Chen, Qiang;Tang, Zejun;Hu, Chuankai;
6:2:28:18 Effect of plastic deformation and semisolid forming on iron-manganese rich intermetallics in Al-8Si-3Cu-4Fe-2Mn alloy
DOI:10.1016/j.jallcom.2010.08.043 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:8 AU: Shabestari, S. G.;Ghanbari, M.;
6:2:28:19 Effect of initial as-cast microstructure of AZ91D magnesium alloy on its semisolid microstructure
DOI:10.1016/j.jallcom.2010.06.106 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:9 AU: Chen, T. J.;Jiang, X. D.;Ma, Y.;Li, Y. D.;Hao, Y.;
6:2:28:20 Analysis of microstructure evolution and precise solid fraction evaluation of A356 aluminum alloy during partial re-melting by a color etching method
DOI:10.1007/s10853-012-6585-x JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:2 AU: Gao, Li;Harada, Yohei;Kumai, Shinji;
6:2:28:21 Effects of pre-deformation and heat treatment conditions in the SIMA process on properties of an Al-Zn-Mg-Cu alloy modified by Al-8B grain refiner
DOI:10.1016/j.msea.2011.02.026 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:10 AU: Alipour, M.;Emamy, M.;Ebrahimi, S. H. Seyed;Azarbarmas, M.;Karamouz, M.;Rassizadehghani, J.;
6:2:28:22 Effect of RE elements on the microstructural evolution of as cast and SIMA processed Mg-4Al alloy
DOI:10.1016/j.jallcom.2010.10.147 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:12 AU: Nayyeri, Mohammad Javad;Khomamizadeh, Farzad;
6:2:28:23 Effect of the strain-induced melt activation (SIMA) process on the tensile properties of a new developed super high strength aluminum alloy modified by Al-5Ti-1B grain refiner
DOI:10.1016/j.matchar.2012.05.015 JN:MATERIALS CHARACTERIZATION PY:2012 TC:4 AU: Haghparast, Amin;Nourimotlagh, Masoud;Alipour, Mohammad;
6:2:28:24 Influence of the processing route on the microstructure of aluminum alloy A356 for thixoforming
DOI:10.1016/j.matchar.2013.08.011 JN:MATERIALS CHARACTERIZATION PY:2013 TC:3 AU: Campo, Kaio Niitsu;Weishaupt Proni, Cecilia Tereza;Zoqui, Eugenio Jose;
6:2:28:25 Correlation between solid fraction and tensile properties of semisolid RAP processed aluminum alloys (vol 516, pg 192, 2012)
DOI:10.1016/j.jallcom.2012.03.062 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:0 AU: Bolouri, Amir;Kang, Chung Gil;
6:2:28:26 Fatigue properties of a modified 7075 aluminum alloy containing scandium
DOI:10.1007/s10853-010-4313-y JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:2 AU: Hyun, Chang-Young;Kim, Ho-Kyung;
6:2:28:27 Microstructural investigations of XW-42 and M2 tool steels in semi-solid zones via direct partial remelting route
DOI:10.1007/s10853-011-5749-4 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:9 AU: Omar, M. Z.;Alfan, A.;Syarif, J.;Atkinson, H. V.;
6:2:29:1 Microstructural evolution during the annealing of an extruded AZ31 magnesium alloy
DOI:10.1016/j.jallcom.2010.07.008 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:33 AU: Yi, Sangbong;Brokmeier, Heinz-Guenter;Letzig, Dietmar;
6:2:29:2 Preferential dynamic recrystallization at original grain boundaries in the hot-rolling process of AZ31 alloy
DOI:10.1016/j.jallcom.2012.07.116 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:5 AU: Zhang, Zhen;Wang, Ming-pu;Zhu, Shuo;Jiang, Nian;
6:2:29:3 Twinning, dynamic recovery and recrystallization in the hot rolling process of twin-roll cast AZ31B alloy
DOI:10.1016/j.jallcom.2011.02.040 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:17 AU: Zhang, Zhen;Wang, Ming-pu;Li, Zhou;Jiang, Nian;Hao, Shimeng;Gong, Jing;Hu, Hailong;
6:2:29:4 Analysis of texture evolution in pure magnesium and the magnesium alloy AM30 during rod and tube extrusion
DOI:10.1016/j.msea.2011.01.021 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:28 AU: Biswas, Somjeet;Suwas, Satyam;Sikand, R.;Gupta, Anil K.;
6:2:29:5 Twinning and its related work hardening during the ambient extrusion of a magnesium alloy
DOI:10.1016/j.msea.2013.03.078 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:3 AU: Zhang, Zhen;
6:2:29:6 Evolution of microstructure and texture during planar simple shear of magnesium alloy
DOI:10.1016/j.scriptamat.2012.01.040 JN:SCRIPTA MATERIALIA PY:2012 TC:15 AU: Kang, Jun-Yun;Bacroix, Brigitte;Brenner, Renald;
6:2:29:7 Effect of thermomechanical parameters on dynamically recrystallized grain size of AZ91 magnesium alloy
DOI:10.1016/j.jallcom.2010.11.134 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:18 AU: Ebrahimi, G. R.;Maldar, A. R.;Ebrahimi, R.;Davoodi, A.;
6:2:29:8 A critical test of twin-induced softening in a magnesium alloy extruded to a strain of 0.7 at room temperature
DOI:10.1016/j.scriptamat.2012.09.021 JN:SCRIPTA MATERIALIA PY:2012 TC:4 AU: Zhang, Zhen;Cizek, Pavel;Barnett, Matthew;
6:2:29:9 The formation of double peaks in the basal texture during ambient extrusion of an AZ31 magnesium alloy
DOI:10.1016/j.matlet.2013.10.090 JN:MATERIALS LETTERS PY:2014 TC:1 AU: Zhang, Zhen;
6:2:29:10 Orientation analyses for twinning behavior in small-strain hot-rolling process of twin-roll cast AZ31B sheet
DOI:10.1016/j.msea.2010.06.079 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:10 AU: Zhang, Zhen;Wang, Ming-pu;Jiang, Nian;Li, Shu-mei;
6:2:29:11 Tensile flow behavior of fine-grained AZ31B magnesium alloy thin sheet at elevated temperatures
DOI:10.1016/j.jallcom.2009.12.162 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:13 AU: Wu, Horng-yu;Hsu, Wei-chien;
6:2:29:12 Texture evolution and mechanical properties of AZ31B magnesium alloy sheets processed by repeated unidirectional bending
DOI:10.1016/j.jallcom.2009.09.090 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:21 AU: Song, Bo;Huang, Guangsheng;Li, Hongcheng;Zhang, Lei;Huang, Guangjie;Pan, Fusheng;
6:2:29:13 Twinning, grain orientation and texture variation of AZ31 Mg alloy during compression by EBSD tracing
DOI:10.1016/j.jallcom.2011.03.106 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:4 AU: Song, Guang-Sheng;Zhang, Shi-Hong;Zheng, Li;Ruan, Liqun;
6:2:29:14 Twinning related plastic mechanism of a magnesium alloy at a high strain stage of ambient sheath extrusion
DOI:10.1016/j.matlet.2013.12.098 JN:MATERIALS LETTERS PY:2014 TC:0 AU: Zhang, Zhen;
6:2:29:15 Formation of shearing bands in the hot-rolling process of AZ31 alloy
DOI:10.1016/j.jallcom.2011.09.021 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:10 AU: Zhang, Zhen;Wang, Ming-pu;Jiang, Nian;Zhu, Shuo;
6:2:29:16 Attaining high compressive strains in pure Mg at room temperature by encasing with pure Al
DOI:10.1016/j.scriptamat.2012.01.041 JN:SCRIPTA MATERIALIA PY:2012 TC:4 AU: Sankaran, A.;Madam, S. Vadakke;Nouri, A.;Barnett, M. R.;
6:2:29:17 Yield asymmetry design of magnesium alloys by integrated computational materials engineering
DOI:10.1016/j.commatsci.2013.06.045 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:3 AU: Li, Dongsheng;Joshi, Vineet;Lavender, Curt;Khaleel, Mohammad;Ahzi, Said;
6:2:30:1 Tensile and fatigue properties of electron beam welded dissimilar joints between Ti-6Al-4V and BT9 titanium alloys
DOI:10.1016/j.msea.2013.07.009 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:13 AU: Wang, S. Q.;Liu, J. H.;Chen, D. L.;
6:2:30:2 Cyclic deformation of dissimilar welded joints between Ti-6Al-4V and Ti17 alloys: Effect of strain ratio
DOI:10.1016/j.msea.2014.01.022 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Wang, S. Q.;Liu, J. H.;Lu, Z. X.;Chen, D. L.;
6:2:30:3 Microstructure and mechanical properties of laser welded dissimilar DP600/DP980 dual-phase steel joints
DOI:10.1016/j.jallcom.2010.08.158 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:42 AU: Farabi, N.;Chen, D. L.;Zhou, Y.;
6:2:30:4 Strain-controlled fatigue properties of linear friction welded dissimilar joints between Ti-6Al-4V and Ti-6.5Al-3.5Mo-1.5Zr-0.3Si alloys
DOI:10.1016/j.msea.2014.06.010 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Wen, G. D.;Ma, T. J.;Li, W. Y.;Wang, S. Q.;Guo, H. Z.;Chen, D. L.;
6:2:30:5 Cyclic deformation behavior of linear friction welded Ti6A14V joints
DOI:10.1016/j.msea.2014.01.006 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Wen, G. D.;Ma, T. J.;Li, W. Y.;Li, J. L.;Guo, H. Z.;Chen, D. L.;
6:2:30:6 Microstructure and mechanical properties of laser welded DP600 steel joints
DOI:10.1016/j.msea.2009.09.051 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:48 AU: Farabi, N.;Chen, D. L.;Li, J.;Zhou, Y.;Dong, S. J.;
6:2:30:7 Microstructure and fatigue performance of single and multiple linear fiber laser welded DP980 dual-phase steel
DOI:10.1016/j.msea.2012.05.091 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:21 AU: Xu, W.;Westerbaan, D.;Nayak, S. S.;Chen, D. L.;Goodwin, F.;Biro, E.;Zhou, Y.;
6:2:30:8 A comparative study of pulsed Nd:YAG laser welding and TIG welding of thin Ti6Al4V titanium alloy plate
DOI:10.1016/j.msea.2012.06.016 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:32 AU: Gao, Xiao-Long;Zhang, Lin-Jie;Liu, Jing;Zhang, Jian-Xun;
6:2:30:9 The role of microtexture on the faceted fracture morphology in Ti-6Al-4V subjected to high-cycle fatigue
DOI:10.1016/j.actamat.2010.03.036 JN:ACTA MATERIALIA PY:2010 TC:16 AU: Bantounas, Ioannis;Dye, David;Lindley, Trevor C.;
6:2:30:10 Dynamic strain aging in low cycle fatigue of duplex titanium alloys
DOI:10.1016/j.msea.2011.02.013 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:10 AU: Lin, Yi-Hsiang;Hu, Kan-Hung;Kao, Fang-Hsin;Wang, Shing-Hoa;Yang, Jer-Ren;Lin, Chih-Kuang;
6:2:30:11 Effect of texture on load partitioning in Ti-6Al-4V
DOI:10.1016/j.actamat.2012.03.039 JN:ACTA MATERIALIA PY:2012 TC:6 AU: Warwick, J. L. W.;Coakley, J.;Raghunathan, S. L.;Tailing, R. J.;Dye, D.;
6:2:30:12 Determination of mechanical properties of the weld line by combining micro-indentation with inverse modeling
DOI:10.1016/j.commatsci.2014.01.006 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:3 AU: Sun, Guangyong;Xu, Fengxiang;Li, Guangyao;Huang, Xiaodong;Li, Qing;
6:2:30:13 Microstructure and mechanical properties of friction- and electron-beam welded Ti-6Al-4V and Ti-6Al-2Sn-4Zr-6Mo
DOI:10.1016/j.msea.2012.05.087 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:6 AU: Pederson, R.;Niklasson, F.;Skystedt, F.;Warren, R.;
6:2:30:14 Study on microstructure and mechanical behavior of dissimilar Ti17 friction welds
DOI:10.1016/j.msea.2013.10.005 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Ji, Yingping;Wu, Sujun;
6:2:30:15 Mechanical length scales and their link to fatigue crack growth kinetics in beta-annealed Ti-6Al-4V
DOI:10.1016/j.scriptamat.2011.09.018 JN:SCRIPTA MATERIALIA PY:2012 TC:3 AU: Peralta, P.;Villarreal, T.;Atodaria, I.;Chattopadhyay, A.;
6:2:30:16 Experimental and computational studies of ultrasound wave propagation in hexagonal close-packed polycrystals for texture detection
DOI:10.1016/j.actamat.2013.10.012 JN:ACTA MATERIALIA PY:2014 TC:2 AU: Lan, B.;Lowe, M.;Dunne, F. P. E.;
6:2:30:17 FEM simulation of the linear friction welding of titanium alloys
DOI:10.1016/j.commatsci.2010.03.026 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2010 TC:19 AU: Sorina-Mueller, J.;Rettenmayr, M.;Schneefeld, D.;Roder, O.;Fried, W.;
6:2:30:18 Microstructure and mechanical properties of fiber laser welded joints of ultrahigh-strength steel 22MnB5 and dual-phase steels
DOI:10.1557/jmr.2014.273 JN:JOURNAL OF MATERIALS RESEARCH PY:2014 TC:1 AU: Jia, Jin;Yang, Shang-Lei;Ni, Wei-Yuan;Bai, Jian-Ying;
6:2:30:19 Metallurgical and mechanical characterization of electron beam welded DP600 steel joints
DOI:10.1007/s10853-011-5787-y JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:2 AU: Ferro, P.;Tiziani, A.;
6:2:30:20 Evaluation of macrozone dimensions by ultrasound and EBSD techniques
DOI:10.1016/j.matchar.2012.09.011 JN:MATERIALS CHARACTERIZATION PY:2013 TC:5 AU: Moreau, Andre;Toubal, Lotfi;Bocher, Philippe;Humbert, Michel;Uta, Elena;Gey, Nathalie;
6:2:30:21 A method for establishing the plastic constitutive relationship of the weld bead and heat-affected zone of welded tubes based on the rule of mixtures and a microhardness test
DOI:10.1016/j.msea.2010.01.009 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:17 AU: Zhan, Mei;Du, Hongfei;Liu, Jing;Ren, Ning;Yang, He;Jiang, Haomin;Diao, Keshan;Chen, Xinpin;
6:2:30:22 Strain controlled fatigue testing of the metastable beta-titanium alloy Ti-6.8Mo-4.5Fe-1.5Al (Timetal LCB)
DOI:10.1016/j.msea.2011.04.031 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:1 AU: Koch, Bernd;Skrotzki, Birgit;
6:2:31:1 Effect of submicron size SiC particulates on microstructure and mechanical properties of AZ91 magnesium matrix composites
DOI:10.1016/j.jallcom.2010.05.159 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:35 AU: Deng, K. K.;Wu, K.;Wu, Y. W.;Nie, K. B.;Zheng, M. Y.;
6:2:31:2 Effect of extrusion temperature on microstructures and damping capacities of Grp/AZ91 composite
DOI:10.1016/j.jallcom.2010.07.043 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:15 AU: Wu, Y. W.;Wu, K.;Deng, K. K.;Nie, K. B.;Wang, X. J.;Hu, X. S.;Zheng, M. Y.;
6:2:31:3 Microstructure evolution and mechanical properties of a particulate reinforced magnesium matrix composites forged at elevated temperatures
DOI:10.1016/j.msea.2009.10.053 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:31 AU: Deng, K. K.;Wu, K.;Wang, X. J.;Wu, Y. W.;Hu, X. S.;Zheng, M. Y.;Gan, W. M.;Brokmeier, H. G.;
6:2:31:4 Dynamic recrystallization behavior during hot deformation and mechanical properties of 0.2 mu m SiCp reinforced Mg matrix composite
DOI:10.1016/j.msea.2012.10.044 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:13 AU: Deng, K. K.;Wang, X. J.;Zheng, M. Y.;Wu, K.;
6:2:31:5 Microstructure stability of as-extruded bimodal size SiCp/AZ91 composite
DOI:10.1016/j.msea.2014.07.105 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Li, Jian-chao;Nie, Kai-bo;Deng, Kun-kun;Shang, Shuan-jun;Zhou, Shan-shan;Xu, Fang-jun;Fan, Jian-feng;
6:2:31:6 Isothermal forging of AZ91 reinforced with 10 vol.% silicon carbon particles
DOI:10.1016/j.msea.2010.10.091 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:20 AU: Deng, K. K.;Wang, X. J.;Gan, W. M.;Wu, Y. W.;Nie, K. B.;Wu, K.;Zheng, M. Y.;Brokmeier, H. G.;
6:2:31:7 Particle effects on recrystallization in magnesium-manganese alloys: Particle pinning
DOI:10.1016/j.msea.2011.02.030 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:30 AU: Robson, J. D.;Henry, D. T.;Davis, B.;
6:2:31:8 Effect of particle size on microstructure and mechanical properties of SiCp/AZ91 magnesium matrix composite
DOI:10.1016/j.msea.2012.02.064 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:22 AU: Deng, K. K.;Wang, X. J.;Wu, Y. W.;Hu, X. S.;Wu, K.;Gan, W. M.;
6:2:31:9 Microstructure and mechanical properties of SiCp/Mg-Al-Zn composites containing Mg17Al12 phases processed by low-speed extrusion
DOI:10.1016/j.msea.2014.05.062 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:4 AU: Shang, Shuan-jun;Deng, Kun-kun;Nie, Kai-bo;Li, Jian-chao;Zhou, Shan-shan;Xu, Fang-jun;Fan, Jian-feng;
6:2:31:10 Dynamic recrystallization and texture evolution of Mg-Y-Zn alloy during hot extrusion process
DOI:10.1016/j.matchar.2014.03.006 JN:MATERIALS CHARACTERIZATION PY:2014 TC:4 AU: Tong, L. B.;Li, X.;Zhang, D. P.;Cheng, L. R.;Zhang, H. J.;
6:2:31:11 Effect of extrusion temperatures on microstructure and mechanical properties of SiCp/Mg-Zn-Ca composite
DOI:10.1016/j.jallcom.2012.04.023 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:9 AU: Wang, X. J.;Nie, K. B.;Hu, X. S.;Wang, Y. Q.;Sa, X. J.;Wu, K.;
6:2:31:12 Influences of extrusion parameters on microstructure and mechanical properties of particulate reinforced magnesium matrix composites
DOI:10.1016/j.msea.2011.04.064 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:12 AU: Wang, X. J.;Xu, L.;Hu, X. S.;Nie, K. B.;Deng, K. K.;Wu, K.;Zheng, M. Y.;
6:2:31:13 Microstructure and mechanical properties of SiCp/Mg-Zn-Ca composites fabricated by stir casting
DOI:10.1016/j.msea.2011.11.040 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:7 AU: Wang, X. J.;Nie, K. B.;Sa, X. J.;Hu, X. S.;Wu, K.;Zheng, M. Y.;
6:2:31:14 Dynamic recrystallization behavior of particle reinforced Mg matrix composites fabricated by stir casting
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6:2:31:15 Effect of Al2O3 nano-particles on the microstructural stability of AZ31 Mg alloy after equal channel angular pressing
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6:2:32:15 Fatigue and ratcheting behaviors of CP-Ti at room temperature
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6:2:32:22 Damage evolution and modeling of sintered metals under multi-axial loading conditions
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6:2:32:23 Mechanical Properties of Sintered Ag as a New Material for Die Bonding: Influence of the Density
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6:2:32:26 Automation of LCF material model parameters' identification
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6:2:32:27 Viscoelasticity within the framework of isothermal two-mechanism models
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6:2:32:28 Stress- and strain-controlled cyclic deformation of polypropylene
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6:2:32:29 Experimental study and numerical modelling of VHB 4910 polymer
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6:2:32:31 Modeling the hyperviscoelastic behavior of a tire tread compound reinforced by silica and carbon black
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6:2:32:33 Relationship between Masing behavior and dislocation structure of AISI 1025 under different stress ratios in cyclic deformation
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6:2:34:22 Thermal stress relaxation in magnesium matrix composites controlled by dislocation breakaway
DOI:10.1016/j.compscitech.2009.10.001 JN:COMPOSITES SCIENCE AND TECHNOLOGY PY:2010 TC:4 AU: Chowdhury, A. S. M. F.;Mari, D.;Schaller, R.;
6:2:34:23 Near spherical alpha-Mg dendrite morphology and high damping of low-temperature casting Mg-1wt.%Ca alloy
DOI:10.1016/j.matchar.2010.10.005 JN:MATERIALS CHARACTERIZATION PY:2011 TC:2 AU: Wan Diqing;
6:2:34:24 Phase stability comparison by first principle calculation and experimental observation of microstructure evolution in a Mg-6Gd-2Zn(wt%) alloy
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6:2:34:25 Preparation and properties of Mg-Cu-Mn-Zn-Y damping magnesium alloy (vol 528, pg 6484, 2011)
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6:2:35:1 Physical factors controlling the observed high-strength precipitate morphology in Mg-rare earth alloys
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6:2:35:2 First-principles study of solute-vacancy binding in magnesium
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6:2:35:3 Solute-vacancy binding of the rare earths in magnesium from first principles
DOI:10.1016/j.actamat.2012.06.016 JN:ACTA MATERIALIA PY:2012 TC:13 AU: Saal, James E.;Wolverton, C.;
6:2:35:4 Thermodynamic stability of Mg-based ternary long-period stacking ordered structures
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6:2:35:5 Phase stability of magnesium-rare earth binary systems from first-principles calculations
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6:2:35:6 First-principles phase stability, magnetic properties and solubility in aluminum-rare-earth (Al-RE) alloys and compounds
DOI:10.1016/j.actamat.2011.02.040 JN:ACTA MATERIALIA PY:2011 TC:19 AU: Mao, Zugang;Seidman, David N.;Wolverton, C.;
6:2:35:7 First-principles density functional calculations for Mg alloys: A tool to aid in alloy development
DOI:10.1016/j.scriptamat.2009.12.032 JN:SCRIPTA MATERIALIA PY:2010 TC:18 AU: Shin, Dongwon;Wolverton, Christopher;
6:2:35:8 First-principles calculations of transition metal-solute interactions with point defects in tungsten
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6:2:35:9 Ab initio calculations of rare-earth diffusion in magnesium
DOI:10.1103/PhysRevB.85.144301 JN:PHYSICAL REVIEW B PY:2012 TC:8 AU: Huber, Liam;Elfimov, Ilya;Rottler, Joerg;Militzer, Matthias;
6:2:35:10 Study of the interaction of solutes with Sigma 5 (013) tilt grain boundaries in iron using density-functional theory
DOI:10.1063/1.4867400 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:4 AU: Jin, Hao;Elfimov, Ilya;Militzer, Matthias;
6:2:35:11 The effect of native point defect thermodynamics on off-stoichiometry in beta-Mg17Al12
DOI:10.1016/j.actamat.2012.06.010 JN:ACTA MATERIALIA PY:2012 TC:4 AU: Shin, Dongwon;Wolverton, Christopher;
6:2:35:12 Solid Solution Softening Mechanisms in Mg-Ca Alloy
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6:2:35:13 On the atomic interdiffusion in Mg-{Ce, Nd, Zn} and Zn-{Ce, Nd} binary systems
DOI:10.1557/jmr.2014.153 JN:JOURNAL OF MATERIALS RESEARCH PY:2014 TC:2 AU: Mostafa, Ahmad;Medraj, Mamoun;
6:2:35:14 The formation of randomly textured magnesium alloy sheet through rapid solidification
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6:2:35:15 Experimental Study on Phase Equilibria in the Vicinity of X, W and H Phases in the Mg-Zn-Y Ternary System
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6:2:36:1 Effect of pretreatment and annealing on microstructure and mechanical properties of Mg-1.5Zn-0.25Gd (at%) alloys reinforced with quasicrystal
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6:2:36:2 Ultra-fine grain size and isotropic very high strength by direct extrusion of chill-cast Mg-Zn-Y alloys containing quasicrystal phase
DOI:10.1016/j.scriptamat.2010.12.016 JN:SCRIPTA MATERIALIA PY:2011 TC:33 AU: Singh, Alok;Osawa, Yoshiaki;Somekawa, H.;Mukai, T.;
6:2:36:3 Microstructure, texture and mechanical properties of as-extruded Mg-Zn-Er alloys containing W-phase
DOI:10.1016/j.jallcom.2014.02.027 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:6 AU: Wang, Qingfeng;Liu, Ke;Wang, Zhaohui;Li, Shubo;Du, Wenbo;
6:2:36:4 Microstructure transformations in the heat-treated Mg-Zn-Y alloy
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6:2:36:5 The microstructural evolution and superplastic behavior at low temperatures of Mg-5.00Zn-0.92Y-0.16Zr (wt.%) alloys after hot extrusion and ECAP process
DOI:10.1016/j.msea.2012.03.116 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:13 AU: Xu, S. W.;Zheng, M. Y.;Kamado, S.;Wu, K.;
6:2:36:6 Growth mechanism of an icosahedral quasicrystal and solute partitioning in a Mg-rich Mg-Zn-Y alloy
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6:2:36:7 Microstructure, texture and mechanical properties of as-extruded Mg-Zn-Er alloys
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6:2:36:8 Formation mechanism of quasicrystals at the nanoscale during hot compression of Mg alloys
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6:2:36:9 Effects of minor Gd addition on microstructures and mechanical properties of the high strain-rate rolled Mg-Zn-Zr alloys
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6:2:36:10 High temperature processing of Mg-Zn-Y alloys containing quasicrystal phase for high strength
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6:2:36:11 The effect of nanoquasicrystals on mechanical properties of as-extruded Mg-Zn-Gd alloy
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6:2:36:12 Effects of Mg on microstructure and corrosion properties of Zn-Mg alloy
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6:2:36:13 Nanoscale icosahedral quasicrystal phase precipitation mechanism during annealing for Mg-Zn-Gd-based alloys
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6:2:36:14 Experimental and calculated phases in two as-cast and annealed Mg-Zn-Y alloys
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6:2:36:15 Microstructure and mechanical properties of double continuously extruded Mg-Zn-Gd-based magnesium alloys
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6:2:36:16 Effect of microstructure on strength and ductility of high strength quasicrystal phase dispersed Mg-Zn-Y alloys
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6:2:36:17 Textures and mechanical properties in rare-earth free quasicrystal reinforced Mg-Zn-Zr alloys prepared by extrusion
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6:2:36:18 Structural relationships among MgZn2 and Mg4Zn7 phases and transition structures in Mg-Zn-Y alloys
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6:2:36:19 Orientation relationships between icosahedral clusters in hexagonal MgZn2 and monoclinic Mg4Zn7 phases in Mg-Zn(-Y) alloys
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6:2:36:20 Microstructure and mechanical properties of a Mg-Zn4.3Y0.7 alloy powder reinforced by quasi-crystalline particles
DOI:10.1016/j.matlet.2012.02.074 JN:MATERIALS LETTERS PY:2012 TC:2 AU: Chae, Hong Jun;Kim, Bum-Sung;Do Kim, Young;Kim, Taek-Soo;
6:2:37:1 Effects of ultrasonic treatment on microstructure and tensile strength of AZ91 magnesium alloy
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6:2:37:2 Effect of high-intensity ultrasonic treatment on modification of primary Mg2Si in the hypereutectic Mg-Si alloys
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6:2:37:3 Ultrasound-induced equiaxial flower-like CuZn5/Al composite microstructure formation in Al/Zn-Al/Cu joint
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6:2:37:4 The effect of solute on ultrasonic grain refinement of magnesium alloys
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6:2:37:5 Combined effect of high-intensity ultrasonic treatment and Ca addition on modification of primary Mg2Si and wear resistance in hypereutectic Mg-Si alloys
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6:2:37:6 The crystallography of lath-shaped Mg2Sn precipitates in a Mg-Sn-Zn-Mn alloy
DOI:10.1016/j.jallcom.2013.01.109 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:4 AU: Shi, Z. -Z.;
6:2:37:7 Effect of ultrasonic vibration and solution heat treatment on microstructures and tensile properties of AZ91 alloy
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6:2:37:8 Development of SiCp/AZ91 magnesium matrix nanocomposites using ultrasonic vibration
DOI:10.1016/j.msea.2012.01.112 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:6 AU: Nie, K. B.;Wang, X. J.;Wu, K.;Hu, X. S.;Zheng, M. Y.;
6:2:37:9 Microstructural evolution in ultrasonicated AS41 magnesium alloy
DOI:10.1016/j.matlet.2011.08.113 JN:MATERIALS LETTERS PY:2012 TC:7 AU: Patel, Bantibhai;Chaudhari, G. P.;Bhingole, P. P.;
6:2:37:10 Synergy of nano carbon black inoculation and high intensity ultrasonic processing in cast magnesium alloys
DOI:10.1016/j.msea.2012.07.104 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:6 AU: Bhingole, P. P.;Chaudhari, G. P.;
6:2:37:11 Fabrication of SiC particles-reinforced magnesium matrix composite by ultrasonic vibration
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6:2:37:12 Microstrutcture and tensile properties of micro-SiC particles reinforced magnesium matrix composites produced by semisolid stirring assisted ultrasonic vibration
DOI:10.1016/j.msea.2011.08.035 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:10 AU: Nie, K. B.;Wang, X. J.;Wu, K.;Hu, X. S.;Zheng, M. Y.;Xu, L.;
6:2:37:13 Effect of SiC particles on microarc oxidation process of magnesium matrix composites
DOI:10.1016/j.apsusc.2013.07.041 JN:APPLIED SURFACE SCIENCE PY:2013 TC:5 AU: Wang, Y. Q.;Wang, X. J.;Gong, W. X.;Wu, K.;Wang, F. H.;
6:2:37:14 Heterogeneous nucleation of Mg2Si on Sr11Sb10 nucleus in Mg-x(3.5, 5 wt.%) Si-1Al alloys
DOI:10.1016/j.matchemphys.2012.04.058 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:4 AU: Wang, Hui-Yuan;Chen, Lei;Liu, Bo;Li, Xiao-Ran;Wang, Jin-Guo;Jiang, Qi-Chuan;
6:2:37:15 Effects of ultrasonic treatment on the tensile properties and microstructure of twin roll casting Mg-3%Al-1%Zn-0.8%Ce-0.3%Mn (wt%) alloy strips
DOI:10.1016/j.jallcom.2011.06.060 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:1 AU: Zhao, Jun;Yu, Kun;Xue, Xinying;Mao, Daheng;Li, Jianping;
6:2:37:16 The role of ultrasonic treatment in refining the as-cast grain structure during the solidification of an Al-2Cu alloy
DOI:10.1016/j.jcrysgro.2014.09.018 JN:JOURNAL OF CRYSTAL GROWTH PY:2014 TC:1 AU: Wang, Gui;Dargusch, M. S.;Qian, M.;Eskin, D. G.;StJohn, D. H.;
6:2:37:17 Correlation vs. Causation: The Effects of Ultrasonic Melt Treatment on Cast Metal Grain Size
DOI:10.3390/met4040477 JN:METALS PY:2014 TC:0 AU: Ferguson, J. B.;Schultz, Benjamin F.;Cho, Kyu;Rohatgi, Pradeep K.;
6:2:37:18 Creep behavior of AS41 alloy matrix nano-composites
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6:2:37:19 Newly observed prismatic Mg2Sn laths in a Mg-Sn-Zn-Mn alloy
DOI:10.1007/s10853-013-7570-8 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:1 AU: Shi, Z. -Z.;Zhang, W. -Z.;
6:2:37:20 Microstructure and mechanical properties of Mg-Al-Zn alloy under a low-voltage pulsed magnetic field
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6:2:37:21 Microstructural and mechanical characterisation of WE54-SiC composites
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6:2:37:22 Influence of indirect ultrasonic vibration on the microstructure and mechanical behavior of Al-Si-Cu alloy
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6:2:37:23 Effects of continuous and discontinuous ultrasonic treatments on mechanical properties and microstructural characteristics of cast Al413-SiCnp nanocomposite
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6:2:37:24 Effects of Ultrasonic Treatment during the Solidification Process on the Structure Formation of Low Carbon Steel
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6:2:38:1 On the strength and strain to failure in particle-reinforced magnesium metal-matrix nanocomposites (Mg MMNCs)
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6:2:38:2 Prediction models for the yield strength of particle-reinforced unimodal pure magnesium (Mg) metal matrix nanocomposites (MMNCs)
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6:2:38:3 Comparison between current models for the strength of particulate-reinforced metal matrix nanocomposites with emphasis on consideration of Hall-Petch effect
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6:2:38:4 Tailoring the tensile/compressive response of magnesium alloy ZK60A using Al2O3 nanoparticles
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6:2:38:5 Nano-TiB2 reinforced ultrafine-grained pure Al produced by flux-assisted synthesis and asymmetrical rolling
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6:2:38:6 Microstructure and hardness of Al2O3 nanoparticle reinforced Al-Mg composites fabricated by reactive wetting and stir mixing
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6:2:38:7 On the Estimation of True Hall-Petch Constants and Their Role on the Superposition Law Exponent in Al Alloys
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6:2:38:8 Tensile properties of reactive stir-mixed and squeeze cast Al/CuOnp-based metal matrix nanocomposites
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6:2:38:9 Microstructure and mechanical properties of friction stir processed Al-Mg-Si alloys dispersion-strengthened by nanosized TiB2 particles
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6:2:38:10 Reactive stir mixing of Al-Mg/Al2O3np metal matrix nanocomposites: effects of Mg and reinforcement concentration and method of reinforcement incorporation
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6:2:38:11 Development of TiB2 reinforced aluminum foundry alloy based in situ composites - Part II: Enhancing the practical aluminum foundry alloys using the improved Al-5 wt%TiB2 master composite upon dilution
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6:2:38:12 Extended twinning phenomena in Al-4%Mg alloys/B4C nanocomposite
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6:2:38:13 Mechanical properties of in-situ TiB2/A356 composites
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6:2:38:14 Effect of primary processing techniques on the microstructure and mechanical properties of nano-Y2O3 reinforced magnesium nanocomposites
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6:2:38:15 In situ Al2O3 particle-reinforced Al and Cu matrix composites synthesized by displacement reactions
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6:2:38:16 Effect of core-shelled nanoparticles of carbon-coated nickel on magnesium
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6:2:38:17 Effects of CeO2 additive on the microstructure and mechanical properties of in situ TiB2/Al composite
DOI:10.1016/j.jallcom.2010.10.152 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:10 AU: Xue, Jing;Wang, Jun;Han, Yanfeng;Li, Pan;Sun, Baode;
6:2:38:18 The effect of sintering time on synthesis of in situ submicron alpha-Al2O3 particles by the exothermic reactions of CuO particles in molten pure Al
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6:2:38:19 Effect of Zn content on the microstructures and mechanical properties of laser beam-welded ZK series magnesium alloys
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6:2:38:20 Comparison between current models for the strength of particulate-reinforced metal matrix nanocomposites with emphasis on consideration of Hall-Petch effect (vol 531, pg 112, 2012)
DOI:10.1016/j.msea.2012.04.039 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:0 AU: Sanaty-Zadeh, A.;Rohatgi, P. K.;
6:2:39:1 Effect of initial texture on dynamic recrystallization of AZ31 Mg alloy during hot rolling
DOI:10.1016/j.msea.2010.11.069 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:34 AU: Wang, Maoyin;Xin, Renlong;Wang, Bingshu;Liu, Qing;
6:2:39:2 Twinning-induced dynamic recrystallization in a magnesium alloy extruded at 450 degrees C
DOI:10.1016/j.scriptamat.2011.07.046 JN:SCRIPTA MATERIALIA PY:2011 TC:30 AU: Ma, Q.;Li, B.;Marin, E. B.;Horstemeyer, S. J.;
6:2:39:3 Softening and dynamic recrystallization in magnesium single crystals during c-axis compression
DOI:10.1016/j.actamat.2011.10.013 JN:ACTA MATERIALIA PY:2012 TC:25 AU: Al-Samman, Talal;Molodov, Konstantin D.;Molodov, Dmitri A.;Gottstein, Guenter;Suwas, Satyam;
6:2:39:4 Texture evolution during dynamic recrystallization in a magnesium alloy at 450 degrees C
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6:2:39:5 Effect of prior strain on continuous recrystallization in AZ31 magnesium alloy after hot deformation
DOI:10.1016/j.msea.2011.12.066 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:12 AU: Yang, Xuyue;Okabe, Yasumasa;Miura, Hiromi;Sakai, Taku;
6:2:39:6 Micromechanisms of grain refinement during extrusion of Mg-0.3 at.% Al at low homologous temperature
DOI:10.1016/j.matchar.2014.03.023 JN:MATERIALS CHARACTERIZATION PY:2014 TC:1 AU: Jaeger, A.;Gaertnerova, V.;Mukai, T.;
6:2:39:7 Mechanisms of exceptional ductility of magnesium single crystal during deformation at room temperature: Multiple twinning and dynamic recrystallization
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6:2:39:8 Deformation behavior of a statically recrystallized Mg-Zn-MM alloy sheet
DOI:10.1016/j.msea.2013.05.078 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:2 AU: Kang, H.;Bae, D. H.;
6:2:39:9 Strain rate dependence of twinning at 450 degrees C and its effect on microstructure of an extruded magnesium alloy
DOI:10.1016/j.msea.2012.08.104 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:6 AU: Ma, Q.;Li, B.;Oppedal, A. L.;Whittington, W. R.;Horstemeyer, S. J.;Marin, E. B.;Wang, P. T.;Horstemeyer, M. F.;
6:2:39:10 Low temperature plane strain compression of a magnesium single crystal with < c > axis constrained
DOI:10.1016/j.msea.2013.10.052 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:4 AU: Chapuis, A.;
6:2:39:11 Mechanical behavior and deformation mechanisms of AZ31 Mg alloy at liquid nitrogen temperature
DOI:10.1016/j.matlet.2013.07.029 JN:MATERIALS LETTERS PY:2013 TC:3 AU: Huo, Qinghuan;Yang, Xuyue;Wang, Jun;Sun, Huan;Guo, Juncheng;Jiang, Liping;
6:2:39:12 Fabrication of Mg-Al-Zn-Mn alloy sheets with homogeneous fine-grained structures using high strain-rate rolling in a wide temperature range
DOI:10.1016/j.msea.2012.09.022 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:9 AU: Zhu, S. Q.;Yan, H. G.;Chen, J. H.;Wu, Y. Z.;Du, Y. G.;Liao, X. Z.;
6:2:39:13 Enhancement of the microstructure and mechanical properties in as-forged Mg-8Al-0.5Zn alloy using T5 heat treatment
DOI:10.1016/j.msea.2013.08.031 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:3 AU: Yoon, Jonghun;Lee, Juseok;Lee, Junghwan;
6:2:39:14 Quantifying texture evolution during hot rolling of magnesium Twin Roll Cast strip
DOI:10.1016/j.msea.2014.02.057 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Gorelova, S.;Schaeben, H.;Kawalla, R.;
6:2:40:1 The relationship between microstructure and creep resistance in die-cast magnesium-rare earth alloys
DOI:10.1016/j.scriptamat.2010.02.005 JN:SCRIPTA MATERIALIA PY:2010 TC:43 AU: Zhu, S. M.;Gibson, M. A.;Easton, M. A.;Nie, J. F.;
6:2:40:2 Microstructural investigation and the creep behavior of Mg-Sr-Mn alloys
DOI:10.1016/j.msea.2012.03.117 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:8 AU: Celikin, M.;Kaya, A. A.;Pekguleryuz, M.;
6:2:40:3 Homogeneous and heterogeneous precipitation mechanisms in a binary Mg-Nd alloy
DOI:10.1007/s10853-014-8404-z JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:2 AU: Choudhuri, D.;Dendge, N.;Nag, S.;Meher, S.;Alam, T.;Gibson, M. A.;Banerjee, R.;
6:2:40:4 The role of crystallography and thermodynamics on phase selection in binary magnesium-rare earth (Ce or Nd) alloys
DOI:10.1016/j.actamat.2012.04.039 JN:ACTA MATERIALIA PY:2012 TC:11 AU: Easton, M. A.;Gibson, M. A.;Qiu, D.;Zhu, S. M.;Groebner, J.;Schmid-Fetzer, R.;Nie, J. F.;Zhang, M-X;
6:2:40:5 Effect of manganese on the creep behavior of magnesium and the role of alpha-Mn precipitation during creep
DOI:10.1016/j.msea.2011.11.050 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:13 AU: Celikin, M.;Kaya, A. A.;Pekguleryuz, M.;
6:2:40:6 Effects of manganese on the microstructure and dynamic precipitation in creep-resistant cast Mg-Ce-Mn alloys
DOI:10.1016/j.scriptamat.2012.01.043 JN:SCRIPTA MATERIALIA PY:2012 TC:9 AU: Celikin, M.;Kaya, A. A.;Gauvin, R.;Pekguleryuz, M.;
6:2:40:7 Role of applied uniaxial stress during creep testing on precipitation in Mg-Nd alloys
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6:2:40:8 Thermodynamic analysis of as-cast and heat-treated microstructures of Mg-Ce-Nd alloys
DOI:10.1016/j.actamat.2010.09.066 JN:ACTA MATERIALIA PY:2011 TC:17 AU: Groebner, Joachim;Kozlov, Artem;Schmid-Fetzer, Rainer;Easton, Mark A.;Zhu, Suming;Gibson, Mark A.;Nie, Jian-Feng;
6:2:40:9 The role of alpha-Mn precipitation on the creep mechanisms of Mg-Sr-Mn
DOI:10.1016/j.msea.2012.07.091 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:2 AU: Celikin, M.;Pekguleryuz, M.;
6:2:40:10 Thermodynamic description of the Mg-Nd-Zn ternary system
DOI:10.1016/j.jallcom.2010.07.056 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:12 AU: Qi, H. Y.;Huang, G. X.;Bo, H.;Xu, G. L.;Liu, L. B.;Jin, Z. P.;
6:2:40:11 Microstructure and property evaluation of high-pressure die-cast Mg-La-rare earth (Nd, Y or Gd) alloys
DOI:10.1016/j.jallcom.2014.01.204 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:2 AU: Gavras, Serge;Easton, Mark A.;Gibson, Mark A.;Zhu, Suming;Nie, Jian-Feng;
6:2:40:12 The effect of grain size on the tensile and creep properties of Mg-2.6Nd-0.35Zn-xZr alloys at 250 degrees C
DOI:10.1016/j.msea.2012.09.052 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:6 AU: Ning, Z. L.;Liu, H. H.;Cao, F. Y.;Wang, S. T.;Sun, J. F.;Qian, M.;
6:2:40:13 Grain-scale creep processes in Mg-Al-Ca base alloys: Implications for alloy design
DOI:10.1016/j.scriptamat.2010.03.055 JN:SCRIPTA MATERIALIA PY:2010 TC:10 AU: Saddock, N. D.;Suzuki, A.;Jones, J. W.;Pollock, T. M.;
6:2:40:14 Experimental determination of the phase equilibria of the Mg-Nd-Zn system at 320 degrees C
DOI:10.1016/j.jallcom.2014.02.131 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:1 AU: Xu, Honghui;Fan, Jingjing;Chen, Han-Lin;Schmid-Fetzer, Rainer;Zhang, Fan;Wang, Yangbin;Gao, Qiannan;Zhou, Tao;
6:2:40:15 A ternary linear compound T-2 and its phase equilibrium relationships in Mg-Zn-Nd system at 400 degrees C
DOI:10.1016/j.jallcom.2009.09.131 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:6 AU: Huang, M. L.;Li, H. X.;Ding, H.;Tang, Z. Y.;Mei, R. B.;Zhou, H. T.;Ren, R. P.;Hao, S. M.;
6:2:40:16 Influence of yttrium additions on the hot tearing susceptibility of magnesium-zinc alloys
DOI:10.1016/j.msea.2010.07.086 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:10 AU: Gunde, P.;Schiffl, A.;Uggowitzer, P. J.;
6:2:40:17 Analysis of the creep behaviour of die-cast Mg-3Al-1Si alloy
DOI:10.1016/j.msea.2013.04.100 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:3 AU: Zhu, S. M.;Easton, M. A.;Gibson, M. A.;Dargusch, M. S.;Nie, J. F.;
6:2:40:18 On the unexpected formation of rare earth hydrides in magnesium-rare earth casting alloys
DOI:10.1016/j.scriptamat.2014.01.007 JN:SCRIPTA MATERIALIA PY:2014 TC:2 AU: Zhu, S. M.;Nie, J. F.;Gibson, M. A.;Eastona, M. A.;
6:2:40:19 The microstructure, mechanical properties and creep behavior of Mg-3Sm-0.5Zn-0.4Zr (wt.%) alloy produced by different casting technologies
DOI:10.1016/j.jallcom.2010.01.149 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:3 AU: Zheng, Jiang;Wang, Qudong;Jin, Zhengli;Peng, Tao;
6:2:40:20 Effects of minor Zr and Sr on as-cast microstructure and mechanical properties of Mg-3Ce-1.2Mn-1Zn (wt%) magnesium alloy
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6:2:40:21 Transmission electron microscopic investigation of the beta(1)->beta phase transformation in a Mg-Dy-Nd alloy
DOI:10.1016/j.matchar.2010.03.003 JN:MATERIALS CHARACTERIZATION PY:2010 TC:1 AU: Li, Dehui;Dong, Jie;Zeng, Xiaoqin;Lu, Chen;
6:2:40:22 Role of Zn in enhancing the creep resistance of Mg-RE alloys
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6:2:41:1 Grain boundary relaxation in fine-grained magnesium solid solutions
DOI:10.1080/14786435.2011.603370 JN:PHILOSOPHICAL MAGAZINE PY:2011 TC:13 AU: Watanabe, Hiroyuki;Owashi, Akira;Uesugi, Tokuteru;Takigawa, Yorinobu;Higashi, Kenji;
6:2:41:2 Effect of solute atoms on grain boundary sliding in magnesium alloys
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6:2:41:3 Superplasticity in electrodeposited nanocrystalline nickel
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6:2:41:4 Molecular dynamics simulation of grain boundary plasticity in magnesium and solid-solution magnesium alloys
DOI:10.1016/j.commatsci.2013.04.043 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:1 AU: Somekawa, Hidetoshi;Mukai, Toshiji;
6:2:41:5 Texture and mechanical properties of superplastically deformed magnesium alloy rod
DOI:10.1016/j.msea.2010.06.053 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:10 AU: Watanabe, H.;Fukusumi, M.;Somekawa, H.;Mukai, T.;
6:2:41:6 Analysis of crystallographic slip and grain boundary sliding in a Ti-45Al-2Nb-2Mn (at%)-0.8 vol%TiB2 alloy by high temperature in situ mechanical testing
DOI:10.1016/j.msea.2014.03.078 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Munoz-Moreno, R.;Ruiz-Navas, E. M.;Boehlert, C. J.;Llorca, J.;Torralba, J. M.;Perez-Prado, M. T.;
6:2:41:7 Accommodation mechanisms for grain boundary sliding as inferred from texture evolution during superplastic deformation
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6:2:41:8 Extraordinary high strain rate superplasticity in electrodeposited nano-nickel and alloys
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6:2:41:9 Diffusion creep and superplasticity in aluminium alloys
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6:2:41:10 Effect of grain boundary structures on grain boundary sliding in magnesium
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6:2:41:11 Threshold stress for superplasticity in solid solution magnesium alloys
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6:2:41:12 Surface studies of Region II superplasticity of AA5083 in shear: Confirmation of diffusion creep, grain neighbour switching and absence of dislocation activity
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6:2:41:13 Microstructural stability and superplasticity in an electrodeposited nanocrystalline Ni-P alloy
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6:2:41:14 Atomic simulation of grain boundary sliding in Co/Cu two-phase bicrystals
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6:2:41:15 Isotropic superplastic flow in textured magnesium alloy
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6:2:41:16 Two-Dimensional Observation of Grain Boundary Sliding of ODS Ferritic Steel in High Temperature Tension
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6:2:41:17 On the exothermic peak during annealing of electrodeposited nanocrystalline nickel
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6:2:41:18 Stabilization of nanostructured materials using fine inert ceramic particles
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6:2:42:1 Microstructures and mechanical properties of AZ91 magnesium alloy processed by multidirectional forging under decreasing temperature conditions
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6:2:42:2 Grain refinement in an as-cast AZ61 magnesium alloy processed by multi-axial forging under the multitemperature processing procedure
DOI:10.1016/j.msea.2012.02.009 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:38 AU: Chen, Qiang;Shu, Dayu;Hu, Chuankai;Zhao, Zude;Yuan, Baoguo;
6:2:42:3 Microstructure and mechanical properties of multi-directionally forged Mg-Al-Zn alloy
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6:2:42:4 Effect of multidirectional forging on microstructures and tensile properties of a particulate reinforced magnesium matrix composite
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6:2:42:5 Fabrication of bimodal size SiCp reinforced AZ31B magnesium matrix composites
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6:2:42:6 Room temperature equal-channel angular pressing of a magnesium alloy
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6:2:42:7 Multidirectional forging of magnesium matrix composites: Effect on microstructures and tensile properties
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6:2:42:8 Comparisons of microstructure, thixoformability and mechanical properties of high performance wrought magnesium alloys reheated from the as-cast and extruded states
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6:2:42:9 Multi-directional forging of AZ61Mg alloy under decreasing temperature conditions and improvement of its mechanical properties
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6:2:42:10 Effects of forging processing on the texture and tensile properties of ECAEed AZ80 magnesium alloy
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6:2:42:11 Effect of ageing on microstructure and mechanical properties of a multi-directionally forged Mg-6Al-1Zn alloy
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6:2:42:12 Micromechanical modelling of the elastic-viscoplastic response of metallic alloys under rapid compression in the semi-solid state
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6:2:42:13 Microstructure Evolution of AZ80 Magnesium Alloy during Multi-Directional Forging Process
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6:2:42:14 Anisotropy in the mechanical properties of AZ31 magnesium alloy after being compressed at high temperatures (up to 823 K)
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6:2:42:15 Microstructure and mechanical properties of ZK21 magnesium alloy fabricated by multiple forging at different strain rates
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6:2:42:16 Hot deformation behavior and microstructure evolution of ZK21 magnesium alloy
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6:2:42:17 Predicting the flow stress of high pressure die cast magnesium alloys
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6:2:43:1 Mechanical properties and microscopic deformation mechanism of polycrystalline magnesium under high-strain-rate compressive loadings
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6:2:43:2 Compression behavior of magnesium/carbon nanotube composites
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6:2:43:3 Mechanical behavior of porous magnesium/alumina composites with high strength and low density
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6:2:43:4 Fatigue behavior and microstructure of 0001 and (1)over-bar014 magnesium single crystals under compression-compression cyclic loading
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6:2:43:5 Microstructure and deformation mechanism of 0001 magnesium single crystal subjected to quasistatic and high-strain-rate compressive loadings
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6:2:43:6 Work-hardening behaviour of Mg single crystals oriented for basal slip
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6:2:43:7 Microstructure and deformation mechanism of Mg6Al1ZnA alloy experienced tension-compression cyclic loading
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6:2:43:8 Dynamic mechanical response of magnesium single crystal under compression loading: Experiments, model, and simulations
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6:2:43:9 A phase-field model of twinning and detwinning coupled with dislocation-based crystal plasticity for HCP metals
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6:2:43:10 Effects of rare earth elements and Ca additions on high temperature mechanical properties of AZ31 magnesium alloy processed by ECAP
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6:2:43:11 Carbon nanotube reinforced porous magnesium composite: 3D nondestructive microstructure characterization using x-ray micro-computed tomography
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6:2:43:12 Synthesis of novel single-walled carbon nanotube-magnesium nanoparticle composites by a solution reduction method
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6:2:43:13 Mechanical properties and microstructure of pure polycrystalline magnesium rolled by different routes
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6:2:43:14 Compressive strength and hot deformation mechanisms in as-cast Mg-4Al-2Ba-2Ca (ABaX422) alloy
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6:2:43:15 Magnesium alloy micro-truss materials
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6:2:43:16 Fatigue behavior of hot-extruded Mg-10Gd-3Y magnesium alloy
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6:2:43:18 Determination of materials parameters under dynamic loading. Part I: Experiments and simulations
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6:2:44:1 Effect of hot extrusion on microstructures and mechanical properties of SiC nanoparticles reinforced magnesium matrix composite
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6:2:44:2 Fabrication of A356 composite reinforced with micro and nano Al2O3 particles by a developed compocasting method and study of its properties
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6:2:44:3 Enhancing compressive response of AZ31B using nano-Al2O3 and copper additions
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6:2:44:4 Microstructure and mechanical properties of SiC nanoparticles reinforced magnesium matrix composites fabricated by ultrasonic vibration
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6:2:44:5 Distribution and integrity of carbon nanotubes in carbon nanotube/magnesium composites
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6:2:44:6 A new technique for dispersion of carbon nanotube in a metal melt
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6:2:44:7 Microstructure and mechanical properties of Al-Al2O3 micro and nano composites fabricated by stir casting
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6:2:44:8 Processing, microstructure and mechanical properties of magnesium matrix nanocomposites fabricated by semisolid stirring assisted ultrasonic vibration
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6:2:44:9 Microstructure and Mechanical Properties of MWCNTs Reinforced A356 Aluminum Alloys Cast Nanocomposites Fabricated by Using a Combination of Rheocasting and Squeeze Casting Techniques
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6:2:44:10 Microstructure and strengthening mechanism of carbon nanotubes reinforced magnesium matrix composite
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6:2:44:11 Structural, mechanical and tribological properties of A356 aluminium alloy reinforced with Al2O3, SiC and SiC plus graphite particles
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6:2:44:12 Magneto-Acoustic Mixing Technology: A Novel Method of Processing Metal-Matrix Nanocomposites
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6:2:44:13 Influence of Al2O3 nano-dispersions on microstructure features and mechanical properties of cast and T6 heat-treated Al Si hypoeutectic Alloys
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6:2:44:14 Fabrication of A356 aluminum alloy matrix composite with CNTs/Al2O3 hybrid reinforcements
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6:2:44:15 An investigation of the tensile and compressive properties of Al6061 and its nanocomposites in as-cast state and in extruded condition
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6:2:44:16 Effect of sintering techniques on the microstructure and tensile properties of nano-yttria particulates reinforced magnesium nanocomposites
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6:2:44:17 Effects of carbon nanotubes on the microstructure and mechanical properties of the wrought Mg-2.0Zn alloy
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6:2:45:1 Texture and mechanical properties of ultrafine-grained Mg-3Al-1Zn alloy sheets prepared by high-ratio differential speed rolling
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6:2:45:2 Ultrafine-grained Mg-Zn-Zr alloy with high strength and high-strain-rate superplasticity
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6:2:45:3 Exceptionally high strength in Mg-3Al-1Zn alloy processed by high-ratio differential speed rolling
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6:2:45:4 Effect of speed-ratio on microstructure, and mechanical properties of Mg-3Al-1Zn alloy, in differential speed rolling
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6:2:45:5 Formation of a nanocomposite-like microstructure in Mg-6Al-1Zn alloy
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6:2:45:6 Microstructure and mechanical properties of severely deformed Mg-3%Al-1%Zn alloy via isothermal differential speed rolling at 453 K
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6:2:45:7 Two different types of deformation behaviors in ultrafine grained Mg alloys at high temperatures and development of the generalized constitutive equation for describing their deformation behavior
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6:2:45:8 Synthesis of high-strain-rate superplastic magnesium alloy sheets using a high-ratio differential speed rolling technique
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6:2:45:9 Enhancement of the strain hardening ability in ultrafine grained Mg alloys with high strength
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6:2:45:10 A strategy for creating ultrafine-grained microstructure in magnesium alloy sheets
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6:2:45:11 Dispersion of TiC particles in an in situ aluminum matrix composite by shear plastic flow during high-ratio differential speed rolling
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6:2:45:12 Enhanced superplasticity and diffusional creep in ultrafine-grained Mg-6Al-1Zn alloy with high thermal stability
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6:2:45:13 Ductility enhancement through texture control and strength restoration through subsequent age-hardening in Mg-Zn-Zr alloys
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6:2:46:1 Improvement of fatigue properties by shot peening for Mg-10Gd-3Y alloys under different conditions
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6:2:46:2 High cycle fatigue properties of cast Mg-xNd-0.2Zn-Zr alloys
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6:2:46:3 High cycle fatigue behavior of as-cast Mg96.34Gd2.5Zn1Zr0.16 alloy fabricated by semi-continuous casting
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6:2:46:4 Effect of chemical composition on the microstructure, tensile properties and fatigue behavior of sand-cast Mg-Gd-Y-Zr alloy
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6:2:46:5 Influence of heat treatment on fatigue behaviour of high-strength Mg-10Gd-3Y alloy
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6:2:46:6 Comparison of high cycle fatigue behaviors of Mg-3Nd-0.2Zn-Zr alloy prepared by different casting processes
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6:2:46:7 High cycle fatigue improvement by heat-treatment for semi-continuous casting Mg96.34Gd2.5Zn1Zr0.16 alloy
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6:2:46:8 Hydrogen-induced decomposition of Zr-rich cores in an Mg-6Zn-0.6Zr-0.5Cu alloy
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6:2:46:9 High cycle fatigue behavior of different regions in a low-pressure sand-cast GW103K magnesium alloy component
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6:2:46:10 Enhanced very high cycle fatigue performance of extruded Mg-12Gd-3Y-0.5Zr magnesium alloy
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6:2:46:11 Influence of solution temperature on fatigue behavior of AM-SC1 cast magnesium alloy
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6:2:46:12 Improved high cycle fatigue properties of a new magnesium alloy
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6:2:46:13 Effect of roller burnishing on fatigue properties of the hot-rolled Mg-12Gd-3Y magnesium alloy
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6:2:46:14 High cycle fatigue behaviors of low pressure cast Mg-3Nd-0.2Zn-2Zr alloys
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6:2:46:15 Mechanical properties and strengthening behavior of Mg-Zn-MM alloy
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6:2:46:16 The effect of alloy contents on electrical resistance accumulation of polycrystalline constantan under cycle loading
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6:2:47:1 Influence of fraction of high angle boundaries on the mechanical behavior of an ultrafine grained Al-Mg alloy
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6:2:47:2 Critical grain size for change in deformation behavior in ultrafine grained Al-Mg-Sc alloy
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6:2:47:3 Microstructure and mechanical behavior of friction stir processed ultrafine grained Al-Mg-Sc alloy
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6:2:47:4 Plastic deformation behavior of ultrafine-grained Al-Mg-Sc alloy
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6:2:47:5 Softening of Al during multi-axial forging in a channel die
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6:2:47:6 Serration behavior and shear band characteristics during tensile deformation of an ultrafine-grained 5024 Al alloy
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6:2:47:7 The effect of friction stir processing on the microstructure and mechanical properties of equal channel angular pressed 5052Al alloy sheet
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6:2:47:8 Transition of deformation behavior in an ultrafine grained magnesium alloy
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6:2:47:9 Stress corrosion cracking susceptibility of ultrafine grained Al-Mg-Sc alloy
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6:2:47:10 Friction-stir welding of an Al-Mg-Sc-Zr alloy in as-fabricated and work-hardened conditions
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6:2:47:11 Flow localization in an Al-2.5Mg alloy after severe plastic deformation
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6:2:47:12 Comparison of microstructures and strengths of an Al-2.5Mg alloy subjected to severe plastic deformation at room and liquid nitrogen temperatures
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6:2:47:13 Crystallographic Dependence on Deformation Characteristics of Friction Stir Processed Pure Aluminum
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6:2:48:1 Coupling phase field and viscoplasticity to study rafting in Ni-based superalloys
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6:2:48:2 Large-scale three-dimensional phase field simulation of gamma '-rafting and creep deformation
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6:2:48:3 Computer simulation of phase transformation and plastic deformation in IN718 superalloy: Microstructural evolution during precipitation
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6:2:48:4 Formation mechanism of the hierarchic structure in the lath martensite phase in steels
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6:2:48:5 Creep deformation and rafting in nickel-based superalloys simulated by the phase-field method using classical flow and creep theories
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6:2:48:6 Phase Field Simulation of the Sub-Block Microstructure in Lath Martensitic Steels
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6:2:48:7 Prediction of the Maximum Dislocation Density in Lath Martensitic Steel by Elasto-Plastic Phase-Field Method
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6:2:48:8 Three-dimensional model of martensitic transformations with elasto-plastic effects
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6:2:48:9 Mathematical concepts for the micromechanical modelling of dislocation dynamics with a phase-field approach
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6:2:48:10 Phase-field modeling of the gamma '-coarsening behavior in Ni-based superalloys
DOI:10.1016/j.actamat.2012.03.023 JN:ACTA MATERIALIA PY:2012 TC:9 AU: Kundin, J.;Mushongera, L.;Goehler, T.;Emmerich, H.;
6:2:48:11 Elasto-plastic phase-field simulation of martensitic transformation in lath martensite steels
DOI:10.1080/14786435.2012.754111 JN:PHILOSOPHICAL MAGAZINE PY:2013 TC:2 AU: Cong, Zhenhua;Murata, Yoshinori;Tsukada, Yuhki;Koyama, Toshiyuki;
6:2:48:12 Origin of the morphological change from rafted structure to irregular shape of the gamma ' phase in single crystal nickel-based superalloys
DOI:10.1016/j.commatsci.2014.05.055 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:0 AU: Tanimoto, T.;Moniruzzaman, Md;Murata, Y.;Miura, N.;Kondo, Y.;Tsukada, Y.;Koyama, T.;
6:2:48:13 Evaluation of microstructure-based transformation plasticity models from experiments on 100C6 steel
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6:2:48:14 Estimation of gamma/gamma ' diffusion mobility and three-dimensional phase-field simulation of rafting in a commercial nickel-based superalloy
DOI:10.1016/j.commatsci.2013.11.028 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:2 AU: Tsukada, Yuhki;Koyama, Toshiyuki;Murata, Yoshinori;Miura, Nobuhiro;Kondo, Yoshihiro;
6:2:48:15 Experiment-based analyses of martensitic transformation plasticity predictions from different models in cases of pre-hardening and gradually varying loads
DOI:10.1016/j.commatsci.2012.04.019 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:0 AU: Tahimi, A.;Barbe, F.;Taleb, L.;Meftah, S.;
6:2:48:16 Phase field modelling of grain boundary motion driven by curvature and stored energy gradients. Part I: theory and numerical implementation
DOI:10.1080/14786435.2012.713135 JN:PHILOSOPHICAL MAGAZINE PY:2012 TC:9 AU: Abrivard, G.;Busso, E. P.;Forest, S.;Appolaire, B.;
6:2:49:1 Superplasticity in a two-phase Mg-8Li-2Zn alloy processed by two-pass extrusion
DOI:10.1016/j.msea.2011.04.073 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:12 AU: Liu, Xuhe;Zhan, Haibo;Gu, Shihai;Qu, Zhikun;Wu, Ruizhi;Zhang, Milin;
6:2:49:2 Microstructure evolution and texture development in thermomechanically processed Mg-Li-Al based alloys
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6:2:49:3 A novel superplastic mechanism-based constitutive equation and its application in an ultralight two-phase hypereutectic Mg-8.42Li alloy
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6:2:49:4 Deformation and microstructure evolution of a high strain rate superplastic Mg-Li-Zn alloy
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6:2:49:5 Microstructure and mechanical properties of Mg-xLi-3Al-1Sn-0.4Mn alloys (x=5, 8 and 11 wt%)
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6:2:49:6 Superplasticity at Elevated Temperature of a Coarse-Grained Mg-Li Alloy
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6:2:49:7 Superplasticity at elevated temperature of an Mg-8%Li-2%Zn alloy
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6:2:49:8 Superplasticity, dynamic grain growth and deformation mechanism in ultra-light two-phase magnesium-lithium alloys
DOI:10.1016/j.msea.2009.12.029 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:16 AU: Cao, F. R.;Ding, H.;Li, Y. L.;Zhou, G.;Cui, J. Z.;
6:2:49:9 Influence of yttrium on microstructure and mechanical properties of as-cast Mg-5Li-3Al-2Zn alloy
DOI:10.1016/j.jallcom.2011.04.030 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:12 AU: Cui, Chongliang;Wu, Libin;Wu, Ruizhi;Zhang, Jinghuai;Zhang, Milin;
6:2:49:10 The superplastic property of the as-extruded Mg-8Li alloy
DOI:10.1016/j.msea.2010.01.082 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:8 AU: Qu, Zhikun;Liu, Xuhe;Wu, Ruizhi;Zhang, Milin;
6:2:49:11 The solution and room temperature aging behavior of Mg-9Li-xAl(x=3, 6) alloys
DOI:10.1016/j.jallcom.2012.05.021 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:8 AU: Qu, Zhikun;Wu, Ruizhi;Zhan, Haibo;Zhang, Milin;
6:2:49:12 Superplasticity and microstructural stability in a Mg alloy processed by hot rolling and friction stir processing
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6:2:49:13 Hot deformation behavior of hot-rolled AZ31 and AZ61 magnesium alloys
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6:2:49:14 Production of Very Fine Grained Mg-3% Al-1% Zn Alloy by Continuous Extrusion Forming (CONFORM)
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6:2:49:15 Effects of cold rolling and solid solution treatments on mechanical properties of beta-phase Mg-14.3Li-0.8Zn alloy
DOI:10.1016/j.msea.2012.04.118 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:1 AU: Wu, S. K.;Wang, J. Y.;Lin, K. C.;Bor, H. Y.;
6:2:50:1 Effect of rolling speed on microstructure and mechanical properties of AZ31 Mg alloys rolled with a wide thickness reduction range
DOI:10.1016/j.msea.2014.09.024 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Guo, Fei;Zhang, Dingfei;Yang, Xusheng;Jiang, Luyao;Chai, Sensen;Pan, Fusheng;
6:2:50:2 Influence of rolling speed on microstructure and mechanical properties of AZ31 Mg alloy rolled by large strain hot rolling
DOI:10.1016/j.msea.2014.04.024 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:7 AU: Guo, Fei;Zhang, Dingfei;Yang, Xusheng;Jiang, Luyao;Chai, Sensen;Pan, Fusheng;
6:2:50:3 Effect of rolling reduction on microstructure, texture, mechanical properties and mechanical anisotropy of AZ31 magnesium alloys
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6:2:50:4 Effects of hot rolling processing on microstructures and mechanical properties of Mg-3%Al-1%Zn alloy sheet
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6:2:50:5 Effect of plane strain on microstructures and texture, through the reduction ratio of AZ31 Mg alloy
DOI:10.1016/j.jallcom.2011.05.048 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:4 AU: Kim, Dae-Guen;Son, Hyeon-Taek;Lee, Jae-Seol;Park, Joon-Sik;
6:2:50:6 Effect of rolling temperature and reduction in thickness on microstructure and mechanical properties of ZM21 magnesium alloy and its subsequent annealing treatment
DOI:10.1016/j.msea.2011.07.047 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:5 AU: Thirumurugan, M.;Kumaran, S.;Suwas, Satyam;Rao, T. Srinivasa;
6:2:50:7 Effect of temperature and strain rate on the deformation behavior and microstructure of a homogenized AZ31 magnesium alloy
DOI:10.1016/j.msea.2013.04.088 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:9 AU: Bajargan, Govind;Singh, Gaurav;Sivakumar, D.;Ramamurty, U.;
6:2:50:8 Effects of hot rolling and inter-stage annealing on the microstructure and texture evolution in a partially homogenized AZ91 magnesium alloy
DOI:10.1016/j.msea.2014.03.104 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:4 AU: Ferdowsi, Mahmoud Reza Ghandehari;Mazinani, Mohammad;Ebrahimi, Gholam Reza;
6:2:50:9 Texture evolution during annealing of AZ31 Mg alloy rolled sheet and its effect on ductility
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6:2:50:10 Microstructures and Texture Development of the Cross-Roll Rolled AZ31 Alloy Sheet at High Temperature
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6:2:51:1 Dislocation evolution in 316L stainless steel subjected to uniaxial ratchetting deformation
DOI:10.1016/j.msea.2010.06.020 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:16 AU: Kang, Guozheng;Dong, Yawei;Wang, Hong;Liu, Yujie;Cheng, Xiaojuan;
6:2:51:2 Cyclic polycrystalline visco-plastic model for ratchetting of 316L stainless steel
DOI:10.1016/j.commatsci.2010.11.021 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:14 AU: Kang, Guozheng;Bruhns, Otto T.;Sai, Kacem;
6:2:51:3 Uniaxial ratchetting of 20 carbon steel: Macroscopic and microscopic experimental observations
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6:2:51:4 Multiaxial ratcheting of 20 carbon steel: Macroscopic experiments and microscopic observations
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6:2:51:5 Dislocation evolution in 316 L stainless steel during multiaxial ratchetting deformation
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6:2:51:6 Macroscopic and microscopic investigations on uniaxial ratchetting of two-phase Ti-6A1-4V alloy
DOI:10.1016/j.matchar.2014.02.014 JN:MATERIALS CHARACTERIZATION PY:2014 TC:1 AU: Kang, Guozheng;Dong, Yawei;Liu, Yujie;Jiang, Han;
6:2:51:7 A dislocation-based cyclic polycrystalline visco-plastic constitutive model for ratchetting of metals with face-centered cubic crystal structure
DOI:10.1016/j.commatsci.2014.04.030 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:0 AU: Dong, Yawei;Kang, Guozheng;Yu, Chao;
6:2:51:8 Ratchetting behavior of advanced 9-12% chromium ferrite steel under creep-fatigue loadings: Fracture modes and dislocation patterns
DOI:10.1016/j.msea.2012.01.098 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:6 AU: Zhao, Peng;Xuan, Fu-Zhen;
6:2:51:9 Ratcheting strain in interstitial free steel
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6:2:51:10 Influence of the crystalline orientations on microcrack initiation in low-cycle fatigue
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6:2:51:11 Constitutive model for uniaxial time-dependent ratcheting of 6061-T6 aluminum alloy
DOI:10.1016/j.commatsci.2011.06.015 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:5 AU: Ding, Jun;Kang, Guozheng;Kan, Qianhua;Liu, Yujie;
6:2:51:12 Micromechanical constitutive model considering plasticity for super-elastic NiTi shape memory alloy
DOI:10.1016/j.commatsci.2011.12.032 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:12 AU: Yu, Chao;Kang, Guozheng;Song, Di;Kan, Qianhua;
6:2:51:13 Uniaxial, load-controlled cyclic deformation of recrystallized molybdenum sheet
DOI:10.1016/j.msea.2012.01.124 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:2 AU: Yu, X. J.;Kumar, K. S.;
6:2:51:14 Analysis of the cyclic behavior and fatigue damage of extruded AA2017 aluminum alloy
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6:2:51:15 Numerical simulation of the anisotropic behavior of 2017 aluminum alloy
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6:2:51:16 Whole-life transformation ratchetting and fatigue of super-elastic NiTi Alloy under uniaxial stress-controlled cyclic loading
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6:2:52:1 Evolutions of grain size and nucleating particles in carbon-inoculated Mg-3% Al alloy
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6:2:52:2 Grain refinement of AM60B magnesium alloy by SiC particles
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6:2:52:3 Grain refinement of Mg-Al cast alloy by the addition of manganese carbonate
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6:2:52:4 Mechanism of grain refinement of Mg-Al alloys by SiC inoculation
DOI:10.1016/j.scriptamat.2011.01.005 JN:SCRIPTA MATERIALIA PY:2011 TC:15 AU: Huang, Yuanding;Kainer, Karl Ulrich;Hort, Norbert;
6:2:52:5 Grain refining mechanisms in Mg-Al alloys with Al4C3 microparticles
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6:2:52:6 Role of manganese on the grain refining efficiency of AZ91D magnesium alloy refined by Al4C3
DOI:10.1016/j.jallcom.2009.10.161 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:18 AU: Liu, Shengfa;Zhang, Yuan;Han, Hui;
6:2:52:7 The effect of charcoal addition on the grain refinement and ageing response of magnesium alloy AZ91
DOI:10.1016/j.msea.2011.08.004 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:5 AU: Suresh, M.;Srinivasan, A.;Pillai, U. T. S.;Pai, B. C.;
6:2:52:8 Effect of magnesium carbonate on microstructure and rolling behaviors of AZ31 alloy
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6:2:52:9 Improvement in rollability of AZ91 magnesium alloy by carbon addition
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6:2:52:10 Effect of hafnium carbide on the grain refinement of Mg-3 wt.% Al alloy
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6:2:52:11 Effects of mould temperature and grain refiner amount on microstructure and tensile properties of thixoforged AZ63 magnesium alloy
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6:2:52:12 Grain refining efficiency of a new Al-1B-0.6C master alloy on AZ63 magnesium alloy
DOI:10.1016/j.jallcom.2009.10.221 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:10 AU: Ma, Guolong;Han, Guang;Liu, Xiangfa;
6:2:52:13 Effects of Fe addition and addition sequence on carbon inoculation of Mg-3%Al alloy
DOI:10.1016/j.jallcom.2010.04.156 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:6 AU: Du, Jun;Wang, Minghua;Li, Wenfang;
6:2:52:14 Microstructural refinement and tensile properties enhancement of Mg-3Al alloy using charcoal additions
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6:2:53:1 Tribological behavior of pure Mg and AZ31 magnesium alloy strengthened by Al2O3 nano-particles
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6:2:53:2 Wear behaviour of a Mg alloy subjected to friction stir processing
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6:2:53:3 Correlation between friction-induced microstructural evolution, strain hardening in subsurface and tribological properties of AZ31 magnesium alloy
DOI:10.1016/j.wear.2014.02.001 JN:WEAR PY:2014 TC:2 AU: Liang, C.;Li, C.;Lv, X. X.;An, J.;
6:2:53:4 Microstructural evolution during dry wear test in magnesium and Mg-Y alloy
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6:2:53:5 Corrosive wear resistance of Mg-Al-Zn alloys with alloyed yttrium
DOI:10.1016/j.wear.2013.01.013 JN:WEAR PY:2013 TC:1 AU: Sun, Xiaoguang;Nouri, Meisam;Wang, You;Li, D. Y.;
6:2:53:6 Wear and Friction Properties of Mg-Zn-Y Alloy with Dispersion of Quasi-Crystalline Phase
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6:2:53:7 Microstructural evolution during high temperature sliding wear of Mg-3% Al-1% Zn (AZ31) alloy
DOI:10.1016/j.wear.2009.07.001 JN:WEAR PY:2010 TC:17 AU: Das, S.;Morales, A. T.;Alpas, A. T.;
6:2:53:8 Dry sliding wear behaviour of ZE41A magnesium alloy
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6:2:53:9 Tribological behavior of AZ91D magnesium alloy at elevated temperatures
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6:2:53:10 Dry sliding wear behavior of hot extruded ZE41A magnesium alloy
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6:2:53:11 Relationship of wear properties to basal-plane texture of worn surface of Mg alloys
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6:2:53:12 Effect of rare earth elements addition on the tribological behavior of AZ91D magnesium alloy at elevated temperatures
DOI:10.1016/j.wear.2013.02.016 JN:WEAR PY:2013 TC:10 AU: Zafari, A.;Ghasemi, H. M.;Mahmudi, R.;
6:2:53:13 Microstructure development, mechanical properties and formability of Mg-Zn-Y-Zr magnesium alloy
DOI:10.1016/j.msea.2012.06.025 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:29 AU: Chen, Qiang;Lin, Jun;Shu, Dayu;Hu, Chuankai;Zhao, Zude;Kang, Feng;Huang, Shuhai;Yuan, Baoguo;
6:2:53:14 A comparative study of the wear behavior of as-cast and hot extruded ZE41A magnesium alloy
DOI:10.1016/j.jallcom.2010.04.205 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:5 AU: Selvan, S. Anbu;Ramanathan, S.;
6:2:54:1 Formation and evolution of the hardening precipitates in a Mg-Y-Nd alloy
DOI:10.1016/j.actamat.2011.03.038 JN:ACTA MATERIALIA PY:2011 TC:22 AU: Barucca, G.;Ferragut, R.;Fiori, F.;Lussana, D.;Mengucci, P.;Moia, F.;Riontino, G.;
6:2:54:2 Effect of cooling rate on the microstructure and mechanical properties of sand-casting Mg-10Gd-3Y-0.5Zr magnesium alloy
DOI:10.1016/j.msea.2012.11.016 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: Pang, Song;Wu, Guohua;Liu, Wencai;Sun, Ming;Zhang, Yang;Liu, Zhijie;Ding, Wenjiang;
6:2:54:3 The elevated-temperature mechanical behavior of peak-aged Mg-10Gd-3Y-0.4Zr Alloy
DOI:10.1016/j.msea.2010.12.089 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:18 AU: Janik, V.;Yin, D. D.;Wang, Q. D.;He, S. M.;Chen, C. J.;Chen, Z.;Boehlert, C. J.;
6:2:54:4 Effects of heat treatments on microstructures and mechanical properties of Mg-4Y-2.5Nd-0.7Zr alloy
DOI:10.1016/j.msea.2012.06.085 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:9 AU: Xu, Lu;Liu, Chuming;Wan, Yingchun;Wang, Xiao;Xiao, Hongchao;
6:2:54:5 Effect of isothermal aging on the microstructure and properties of as-cast Mg-Gd-Y-Zr alloy
DOI:10.1016/j.msea.2010.10.082 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:9 AU: Liang, Shuquan;Guan, Dikai;Tan, Xiaoping;Chen, Liang;Tang, Yan;
6:2:54:6 Creep and fracture behavior of as-cast Mg-11Y-5Gd-2Zn-0.5Zr (wt%)
DOI:10.1007/s10853-012-6546-4 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:2 AU: Yin, D. D.;Wang, Q. D.;Boehlert, C. J.;Ding, W. J.;
6:2:54:7 Microstructures and mechanical properties of as-cast Mg-5Y-3Nd-Zr-xGd (x=0, 2 and 4 wt.%) alloys
DOI:10.1016/j.msea.2009.11.026 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:11 AU: Wang, Lidong;Xing, Chengyao;Hou, Xiuli;Wu, Yaoming;Sun, Jianfei;Wang, Limin;
6:2:54:8 Small-angle X-ray scattering study of the early stages of precipitation in a Mg-Nd-Gd (EV31) alloy
DOI:10.1016/j.jallcom.2009.10.111 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:8 AU: Ferragut, Rafael;Moia, Fabio;Fiori, Fabrizio;Lussana, Danilo;Riontino, Giuseppe;
6:2:54:9 Structural characteristics and elevated temperature mechanical properties of AJ62 Mg alloy
DOI:10.1016/j.matchar.2013.09.018 JN:MATERIALS CHARACTERIZATION PY:2013 TC:2 AU: Kubasek, J.;Vojtech, D.;Martinek, M.;
6:2:54:10 Experimental investigation and thermodynamic description of the Mg-Y-Zr system
DOI:10.1007/s10853-014-8420-z JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:0 AU: Cheng, Kaiming;Zhou, Hua;Du, Yong;Liu, Shuhong;Xu, Honghui;
6:2:54:11 Effect of Gd content on microstructure and mechanical properties of Mg-Gd-Y-Zr alloys under peak-aged condition
DOI:10.1016/j.msea.2014.07.056 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Nodooshan, H. R. Jafari;Liu, Wencai;Wu, Guohua;Rao, You;Zhou, Chenxu;He, Shipeng;Ding, Wenjiang;Mahmudi, R.;
6:2:55:1 On the correlation between deformation twinning and Luders-like deformation in an extruded Mg alloy: In situ neutron diffraction and EPSC.4 modelling
DOI:10.1016/j.msea.2009.10.018 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:33 AU: Muransky, O.;Barnett, M. R.;Luzin, V.;Vogel, S.;
6:2:55:2 Deformation behavior of solid-solution-strengthened Mg-9 wt.% Al alloy: In situ neutron diffraction and elastic-viscoplastic self-consistent modeling
DOI:10.1016/j.actamat.2014.03.038 JN:ACTA MATERIALIA PY:2014 TC:10 AU: Lee, S. Y.;Wang, H.;Gharghouri, M. A.;Nayyeri, G.;Woo, W.;Shin, E.;Wu, P. D.;Poole, W. J.;Wu, W.;An, K.;
6:2:55:3 Internal strain and texture development during twinning: Comparing neutron diffraction measurements with crystal plasticity finite-element approaches
DOI:10.1016/j.actamat.2012.01.016 JN:ACTA MATERIALIA PY:2012 TC:17 AU: Abdolvand, Hamidreza;Daymond, Mark R.;
6:2:55:4 Tensile twin nucleation events coupled to neighboring slip observed in three dimensions
DOI:10.1016/j.actamat.2014.04.050 JN:ACTA MATERIALIA PY:2014 TC:6 AU: Lind, J.;Li, S. F.;Pokharel, R.;Lienert, U.;Rollett, A. D.;Suter, R. M.;
6:2:55:5 Studying the effect of stress relaxation and creep on lattice strain evolution of stainless steel under tension
DOI:10.1016/j.actamat.2012.10.027 JN:ACTA MATERIALIA PY:2013 TC:17 AU: Wang, H.;Clausen, B.;Tome, C. N.;Wu, P. D.;
6:2:55:6 Time and spatial resolution of slip and twinning in a grain embedded within a magnesium polycrystal
DOI:10.1016/j.actamat.2014.06.030 JN:ACTA MATERIALIA PY:2014 TC:2 AU: Lynch, P. A.;Kunz, M.;Tamura, N.;Barnett, M. R.;
6:2:55:7 Study of internal strain evolution in Zircaloy-2 using polycrystalline models: Comparison between a rate-dependent and a rate-independent formulation
DOI:10.1016/j.actamat.2010.02.005 JN:ACTA MATERIALIA PY:2010 TC:14 AU: Mareau, C.;Daymond, M. R.;
6:2:55:8 Spatially resolved in situ strain measurements from an interior twinned grain in bulk polycrystalline AZ31 alloy
DOI:10.1016/j.actamat.2013.02.048 JN:ACTA MATERIALIA PY:2013 TC:10 AU: Balogh, L.;Niezgoda, S. R.;Kanjarla, A. K.;Brown, D. W.;Clausen, B.;Liu, W.;Tome, C. N.;
6:2:55:9 Parametric study of stress state development during twinning using 3D finite element modeling
DOI:10.1016/j.msea.2010.12.062 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:7 AU: Zhang, Richard Y.;Daymond, Mark R.;Holt, Richard A.;
6:2:55:10 Comparison of experimentally determined texture development in Zircaloy-2 with predictions from a rate-dependent polycrystalline model
DOI:10.1016/j.msea.2011.08.040 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:5 AU: Mareau, Charles;Daymond, Mark R.;
6:2:55:11 Mechanical twinning and detwinning in pure Ti during loading and unloading - An in situ high-energy X-ray diffraction microscopy study
DOI:10.1016/j.scriptamat.2014.08.008 JN:SCRIPTA MATERIALIA PY:2014 TC:0 AU: Wang, L.;Lind, J.;Phukan, H.;Kenesei, P.;Park, J. -S.;Suter, R. M.;Beaudoin, A. J.;Bider, T. R.;
6:2:55:12 In situ assessment of lattice strain in an Al-Li alloy
DOI:10.1016/j.actamat.2013.02.037 JN:ACTA MATERIALIA PY:2013 TC:5 AU: Beaudoin, A. J.;Obstalecki, M.;Tayon, W.;Hemquist, M.;Mudrock, R.;Kenesei, P.;Lienert, U.;
6:2:56:1 Grain growth kinetics of a fine-grained AZ31 magnesium alloy produced by hot rolling
DOI:10.1016/j.jallcom.2009.12.049 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:31 AU: Miao, Qing;Hu, Lianxi;Wang, Xin;Wang, Erde;
6:2:56:2 High temperature deformation and microstructural instability in AZ31 magnesium alloy
DOI:10.1016/j.msea.2013.01.060 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:10 AU: Spigarelli, S.;Ruano, O. A.;El Mehtedi, M.;del Valle, J. A.;
6:2:56:3 Creep as an extension of hot working: A unified approach to high temperature deformation of AZ31 alloy
DOI:10.1016/j.msea.2010.05.034 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:14 AU: Spigarelli, S.;El Mehtedi, M.;
6:2:56:4 Effect of grain size on high temperature deformation of AZ31 alloy
DOI:10.1016/j.msea.2011.05.032 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:8 AU: Spigarelli, S.;El Mehtedi, M.;Ciccarelli, D.;Regev, M.;
6:2:56:5 Analysis of the effect of friction stir welding on the minimum creep rate of an Mg-3% Al-1% Zn alloy
DOI:10.1016/j.scriptamat.2011.06.042 JN:SCRIPTA MATERIALIA PY:2011 TC:3 AU: Spigarelli, S.;Regev, M.;El Mehtedi, M.;Quercetti, G.;Cabibbo, M.;
6:2:56:6 Creep behavior of Mg-9Gd-1Y-0.5Zr (wt.%) alloy piston by squeeze casting
DOI:10.1016/j.matchar.2013.01.012 JN:MATERIALS CHARACTERIZATION PY:2013 TC:1 AU: Yuan, Jie;Wang, Qudong;Yin, Dongdi;Wang, Huan;Chen, Changjiang;Ye, Bing;
6:2:56:7 Fundamental studies on the thermal stability and mechanical characteristics of AZ31 alloy
DOI:10.1016/j.msea.2011.12.054 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:3 AU: Alsagabi, S.;Charit, I.;
6:2:56:8 Anisotropic and tensile flow behaviors of Mg alloy AZ31B thin sheet in H24 condition at elevated temperatures
DOI:10.1016/j.msea.2010.11.082 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:6 AU: Wu, Horng-yu;Sun, Pin-hou;Lin, Feng-zheng;
6:2:56:9 High temperature processing of brass: Constitutive analysis of hot working of Cu-Zn alloys
DOI:10.1016/j.msea.2014.07.091 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Spigarelli, S.;El Mehtedi, M.;Cabibbo, M.;Gabrielli, F.;Ciccarelli, D.;
6:2:56:10 Influence of grain size on high temperature fracture in a Mg AZ31 alloy
DOI:10.1016/j.msea.2010.12.076 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:3 AU: Panicker, M. R. R.;Chokshi, A. H.;
6:2:57:1 Influence of ECAP routes on microstructure and mechanical properties of Mg-Zn-Ca alloy
DOI:10.1016/j.msea.2010.03.062 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:28 AU: Tong, L. B.;Zheng, M. Y.;Hu, X. S.;Wu, K.;Xu, S. W.;Kamado, S.;Kojima, Y.;
6:2:57:2 Enhanced ductility of the ZA85 magnesium alloy fabricated by equal-channel angular pressing
DOI:10.1016/j.jallcom.2012.12.090 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:5 AU: Lin, Che-Yi;Bor, Hui-Yum;Chao, Chuen-Guang;Liu, Tzeng-Feng;
6:2:57:3 Structural and mechanical characteristics of Mg-4Zn and Mg-4Zn-0.4Ca alloys after different thermal and mechanical processing routes
DOI:10.1016/j.msea.2013.08.008 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:3 AU: Hradilova, Monika;Vojtech, Dalibor;Kubasek, Jiri;Capek, Jaroslav;Vlach, Martin;
6:2:57:4 Effect of heat treatment on internal friction in ECAP processed commercial pure Mg
DOI:10.1016/j.jallcom.2012.09.040 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:8 AU: Fan, G. D.;Zheng, M. Y.;Hu, X. S.;Xu, C.;Wu, K.;Golovin, I. S.;
6:2:57:5 Improved mechanical property and internal friction of pure Mg processed by ECAP
DOI:10.1016/j.msea.2012.07.031 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:10 AU: Fan, G. D.;Zheng, M. Y.;Hu, X. S.;Xu, C.;Wu, K.;Golovin, I. S.;
6:2:57:6 Compressive deformation behavior of Mg-Zn-Ca alloy at elevated temperature
DOI:10.1016/j.msea.2013.08.024 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:0 AU: Tong, L. B.;Zheng, M. Y.;Zhang, D. P.;Gan, W. M.;Brokmeier, H. G.;Meng, J.;Zhang, H. J.;
6:2:57:7 ECAP effect on the micro-structure and mechanical properties of AM30 magnesium alloy
DOI:10.1016/j.msea.2013.11.042 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:11 AU: Jahadi, Ramin;Sedighi, Mohammad;Jahed, Hamid;
6:2:57:8 Role of the beta-phase in grain boundary and dislocation anelasticity in binary Al-Mg alloys
DOI:10.1016/j.jallcom.2013.06.138 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:5 AU: Golovin, I. S.;Mikhaylovskaya, A. V.;Sinning, H. -R.;
6:2:57:9 Room-temperature compressive deformation behavior of Mg-Zn-Ca alloy processed by equal channel angular pressing
DOI:10.1016/j.msea.2010.09.041 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:5 AU: Tong, L. B.;Zheng, M. Y.;Xu, S. W.;Hu, X. S.;Wu, K.;Kamado, S.;Wang, G. J.;Lv, X. Y.;
6:2:57:10 Microstructure and mechanical properties of ZA62 Mg alloy by equal-channel angular pressing
DOI:10.1016/j.msea.2010.09.096 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:5 AU: Yan, Kai;Sun, Yang-Shan;Bai, Jing;Xue, Feng;
6:2:57:11 A dilatometric and high-temperature X-ray diffraction study of cold deformation effect on the interaction between precipitation, recovery and recrystallization reactions in Al-12 wt.% Mg alloy
DOI:10.1016/j.msea.2010.08.011 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:7 AU: Hayoune, A.;Hamana, D.;
6:2:58:1 The effect of segregated sp-impurities on grain-boundary and surface structure, magnetism and embrittlement in nickel
DOI:10.1016/j.pmatsci.2011.01.008 JN:PROGRESS IN MATERIALS SCIENCE PY:2011 TC:21 AU: Vsianska, M.;Sob, M.;
6:2:58:2 Bond mobility mechanism in grain boundary embrittlement: First-principles tensile tests of Fe with a P-segregated Sigma 3 grain boundary
DOI:10.1103/PhysRevB.82.094108 JN:PHYSICAL REVIEW B PY:2010 TC:17 AU: Yuasa, Motohiro;Mabuchi, Mamoru;
6:2:58:3 An analysis of segregation-induced changes in grain boundary cohesion in bcc iron
DOI:10.1007/s10853-013-7943-z JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:2 AU: Lejcek, Pavel;Sob, Mojmir;
6:2:58:4 First-Principles Study on Enhanced Grain Boundary Embrittlement of Iron by Phosphorus Segregation
DOI:10.2320/matertrans.MBW201022 JN:MATERIALS TRANSACTIONS PY:2011 TC:4 AU: Yuasa, Motohiro;Mabuchi, Mamoru;
6:2:58:5 Why calculated energies of grain boundary segregation are unreliable when segregant solubility is low
DOI:10.1016/j.scriptamat.2012.11.019 JN:SCRIPTA MATERIALIA PY:2013 TC:7 AU: Lejcek, Pavel;Sob, Mojmir;Paidar, Vaclav;Vitek, Vaclav;
6:2:58:6 Ab initio local stress and its application to Al (111) surfaces
DOI:10.1103/PhysRevB.81.075441 JN:PHYSICAL REVIEW B PY:2010 TC:8 AU: Shiihara, Yoshinori;Kohyama, Masanori;Ishibashi, Shoji;
6:2:58:7 Origin of surface stress on late transition metal surfaces: Ab initio local stress and tight-binding model
DOI:10.1103/PhysRevB.87.125430 JN:PHYSICAL REVIEW B PY:2013 TC:1 AU: Shiihara, Yoshinori;Kohyama, Masanori;Ishibashi, Shoji;
6:2:58:8 First-principles study of intergranular embrittlement induced by Te in the Ni Sigma 5 grain boundary
DOI:10.1016/j.commatsci.2014.02.038 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:3 AU: Liu, Wenguan;Han, Han;Ren, Cuilan;He, Xiujie;Jia, Yanyan;Wang, Song;Zhang, Wei;Li, Zhijun;Zhou, Xingtai;Zou, Yang;Huai, Ping;Xu, Hongjie;
6:2:58:9 Effect of solute interaction on interfacial segregation and grain boundary embrittlement in binary alloys
DOI:10.1007/s10853-012-7048-0 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:4 AU: Lejcek, Pavel;
6:2:58:10 Segregation of Alkali and Alkaline Earth Metals at Sigma 11(113)[110] Grain Boundary in Aluminum from First-Principles Calculations
DOI:10.2320/matertrans.M2012108 JN:MATERIALS TRANSACTIONS PY:2012 TC:3 AU: Uesugi, Tokuteru;Higashi, Kenji;
6:2:58:11 First-Principles Tensile Tests of Tilt and Twist Grain Boundaries in Al
DOI:10.2320/matertrans.MD201130 JN:MATERIALS TRANSACTIONS PY:2012 TC:3 AU: Wang, Ru-Zhi;Tanaka, Shingo;Kohyama, Masanori;
6:2:58:12 First-principles study in Fe grain boundary with Al segregation: variation in electronic structures with straining
DOI:10.1080/14786435.2012.726749 JN:PHILOSOPHICAL MAGAZINE PY:2013 TC:2 AU: Yuasa, Motohiro;Mabuchi, Mamoru;
6:2:58:13 Enhanced grain boundary embrittlement of an Fe grain boundary segregated by hydrogen (H)
DOI:10.1557/jmr.2012.111 JN:JOURNAL OF MATERIALS RESEARCH PY:2012 TC:4 AU: Yuasa, Motohiro;Amemiya, Takashi;Mabuchi, Mamoru;
6:2:58:14 Effect of ternary solute interaction on interfacial segregation and grain boundary embrittlement
DOI:10.1007/s10853-013-7280-2 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:3 AU: Lejcek, Pavel;
6:2:58:15 Electronic Structure and Solid Solution Softening in Iron Alloys
DOI:10.2320/matertrans.M2010411 JN:MATERIALS TRANSACTIONS PY:2011 TC:2 AU: Chino, Yasumasa;Ueda, Takamichi;Kado, Motohisa;Mabuchi, Mamoru;
6:2:58:16 Fundamental studies on stress-corrosion cracking in iron and underlying mechanisms
DOI:10.1016/j.actamat.2010.05.050 JN:ACTA MATERIALIA PY:2010 TC:3 AU: Pham, Hieu H.;Cagin, Tahir;
6:2:58:17 The effect of vanadium impurity on Nickel Sigma 5(012) grain boundary
DOI:10.1016/j.msea.2013.04.047 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:3 AU: Bentria, El Tayeb;Lefkaier, Ibn Khaldoun;Bentria, Bachir;
6:2:59:1 Deformation twinning in a nanocrystalline hcp Mg alloy
DOI:10.1016/j.scriptamat.2010.10.024 JN:SCRIPTA MATERIALIA PY:2011 TC:33 AU: Wu, X. L.;Youssef, K. M.;Koch, C. C.;Mathaudhu, S. N.;Kecskes, L. J.;Zhu, Y. T.;
6:2:59:2 Enhanced compressive strength of an extruded nanostructured Mg-10Al alloy
DOI:10.1016/j.msea.2013.11.056 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Pozuelo, M.;Chang, Y. W.;Yang, J. -M.;
6:2:59:3 High strength, nano-structured Mg-Al-Zn alloy
DOI:10.1016/j.msea.2010.11.073 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:18 AU: Zheng, Baolong;Ertorer, Osman;Li, Ying;Zhou, Yizhang;Mathaudhu, Suveen N.;Tsao, Chi Y. A.;Lavernia, Enrique J.;
6:2:59:4 Nanotwins induced by grain boundary deformation processes in nanomaterials
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6:2:59:5 Cryomilling and spark plasma sintering of nanocrystalline magnesium-based alloy
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6:2:59:6 Deformation-twin-induced grain boundary failure
DOI:10.1016/j.scriptamat.2011.10.021 JN:SCRIPTA MATERIALIA PY:2012 TC:11 AU: Zhang, Yongfeng;Millett, Paul C.;Tonks, Michael;Biner, Bulent;
6:2:59:7 The effect of cryomilling on the morphology and particle size distribution of the NiCoCrAlYSi powders with and without nano-sized alumina
DOI:10.1016/j.powtec.2013.04.010 JN:POWDER TECHNOLOGY PY:2013 TC:2 AU: Khodsiani, Zahra;Mansuri, Hojatoallah;Mirian, Traneh;
6:2:60:1 Optimization of rolling temperature for ZK61 alloy sheets via microstructure uniformity analysis
DOI:10.1016/j.msea.2013.03.057 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:6 AU: Chen, W. Z.;Yu, Y.;Wang, X.;Wang, E. D.;Liu, Z. Y.;
6:2:60:2 Texture dependence of uniform elongation for a magnesium alloy
DOI:10.1016/j.scriptamat.2012.08.009 JN:SCRIPTA MATERIALIA PY:2012 TC:7 AU: Chen, W. Z.;Wang, X.;Wang, E. D.;Liu, Z. Y.;Hu, L. X.;
6:2:60:3 Effect of recrystallization and grain growth on the mechanical properties of an extruded AZ21 Mg alloy
DOI:10.1016/j.msea.2009.09.008 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:12 AU: Azeem, M. A.;Tewari, A.;Ramamurty, U.;
6:2:60:4 Yield strength behavior for rolled magnesium alloy sheets with texture variation
DOI:10.1016/j.msea.2013.04.120 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:7 AU: Chen, W. Z.;Wang, X.;Kyalo, M. N.;Wang, E. D.;Liu, Z. Y.;
6:2:60:5 Mechanical anisotropy improvement in ultrafine-grained ZK61 magnesium alloy rods fabricated by cyclic extrusion and compression
DOI:10.1016/j.msea.2014.02.031 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Zhang, W. C.;Yu, Y.;Zhang, X. N.;Chen, W. Z.;Wang, E. D.;
6:2:60:6 Effect of grain size distribution and texture on the cold extrusion behavior and mechanical properties of AZ31 Mg alloy
DOI:10.1016/j.msea.2011.01.020 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:14 AU: Chao, H. Y.;Yang, Y.;Wang, X.;Wang, E. D.;
6:2:60:7 Effect of energy input on formability, microstructure and mechanical properties of selective laser melted AZ91D magnesium alloy
DOI:10.1016/j.msea.2014.05.092 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Wei, Kaiwen;Gao, Ming;Wang, Zemin;Zeng, Xiaoyan;
6:2:60:8 Orientation dependence of the indentation impression morphology in a Mg alloy
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6:2:61:1 The importance of secondary and ternary twinning in compressed Ti
DOI:10.1016/j.scriptamat.2011.01.012 JN:SCRIPTA MATERIALIA PY:2011 TC:21 AU: Tirry, W.;Nixon, M.;Cazacu, O.;Coghe, F.;Rabet, L.;
6:2:61:2 Micromechanical modelling of monotonic loading of CP alpha-Ti: Correlation between macroscopic and microscopic behaviour
DOI:10.1016/j.msea.2013.02.022 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:6 AU: Benmhenni, N.;Bouvier, S.;Brenner, R.;Chauveau, T.;Bacroix, B.;
6:2:61:3 Twinning in pure Ti subjected to monotonic simple shear deformation
DOI:10.1016/j.matchar.2012.07.001 JN:MATERIALS CHARACTERIZATION PY:2012 TC:7 AU: Tirry, W.;Bouvier, S.;Benmhenni, N.;Hammami, W.;Habraken, A. M.;Coghe, F.;Schryvers, D.;Rabet, L.;
6:2:61:4 Importance of twinning in static and dynamic compression of a Ti-6Al-4V titanium alloy with an equiaxed microstructure
DOI:10.1016/j.msea.2011.12.047 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:15 AU: Coghe, F.;Tirry, W.;Rabet, L.;Schryvers, D.;Van Houtte, P.;
6:2:61:5 {1 1 (2)over-bar 4} deformation twinning in pure Ti during dynamic plastic deformation
DOI:10.1016/j.msea.2012.02.021 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:8 AU: Xu, Feng;Zhang, Xiyan;Ni, Haitao;Liu, Qing;
6:2:61:6 A multi-scale characterization of deformation twins in Ti6Al4V sheet material deformed by simple shear
DOI:10.1016/j.msea.2010.03.039 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:9 AU: Tirry, W.;Coghe, F.;Bouvier, S.;Gasperini, M.;Rabet, L.;Schryvers, D.;
6:2:61:7 Analysis of twinning behavior of pure Ti compressed at different strain rates by Schmid factor
DOI:10.1016/j.msea.2013.03.031 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:1 AU: Deng, X. G.;Hui, S. X.;Ye, W. J.;Song, X. Y.;
6:2:61:8 Hardening in relation with microstructure evolution of high purity a-titanium deformed under monotonic and cyclic simple shear loadings at room temperature
DOI:10.1016/j.msea.2011.12.033 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:8 AU: Bouvier, S.;Benmhenni, N.;Tirry, W.;Gregory, F.;Nixon, M. E.;Cazacu, O.;Rabet, L.;
6:2:61:9 A phenomenological anisotropic description for dislocation storage and recovery processes in fcc crystals
DOI:10.1016/j.commatsci.2011.10.020 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:6 AU: Bacroix, B.;Brenner, R.;
6:2:61:10 Analytical criterion for porous solids containing cylindrical voids in an incompressible matrix exhibiting tension compression asymmetry
DOI:10.1080/14786435.2012.746792 JN:PHILOSOPHICAL MAGAZINE PY:2013 TC:2 AU: Cazacu, Oana;Stewart, Joel B.;
6:2:61:11 Microstructure characterization of laser welded Ti-6Al-4V fusion zones
DOI:10.1016/j.matchar.2013.11.005 JN:MATERIALS CHARACTERIZATION PY:2014 TC:1 AU: Xu, Pei-quan;Li, Leijun;Zhang, Chunbo (Sam);
6:2:61:12 Observation and analysis of plastic instability in commercial pure Ti under dynamic simple shear
DOI:10.1016/j.msea.2014.01.035 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Deng, X. G.;Hui, S. X.;Ye, W. J.;Song, X. Y.;
6:2:62:1 Solid solution strengthening in polycrystals of Mg-Sn binary alloys
DOI:10.1016/j.jallcom.2010.12.065 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:15 AU: Shi, B. Q.;Chen, R. S.;Ke, W.;
6:2:62:2 Effects of strontium on microstructure and mechanical properties of as-cast Mg-5 wt.%Sn alloy
DOI:10.1016/j.jallcom.2010.05.156 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:26 AU: Liu, Hongmei;Chen, Yungui;Zhao, Haofeng;Wei, Shanghai;Gao, Wei;
6:2:62:3 Influence of alloying elements on phase stability and elastic properties of aluminum and magnesium studied by first principles
DOI:10.1016/j.commatsci.2013.03.023 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:1 AU: Dai, J. H.;Wu, X.;Song, Y.;
6:2:62:4 The effect of tin addition on the microstructure and mechanical properties of squeeze cast AM60 alloy
DOI:10.1016/j.jallcom.2010.07.185 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:17 AU: Sevik, Huseyin;Acikgoz, Sehzat;Kurnaz, S. Can;
6:2:62:5 Understanding the factors influencing yield strength on Mg alloys
DOI:10.1016/j.actamat.2014.04.064 JN:ACTA MATERIALIA PY:2014 TC:6 AU: Toda-Caraballo, Isaac;Galindo-Nava, Enrique I.;Rivera-Diaz-del-Castillo, Pedro E. J.;
6:2:62:6 Thermodynamic modeling of the Mg-Ge-Si, Mg-Ge-Sn, Mg-Pb-Si and Mg-Pb-Sn systems
DOI:10.1016/j.jallcom.2010.01.045 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:12 AU: Jung, In-Ho;Kim, Jina;
6:2:62:7 Formation of the solidified microstructure in Mg-Sn binary alloy
DOI:10.1016/j.jcrysgro.2011.03.026 JN:JOURNAL OF CRYSTAL GROWTH PY:2011 TC:11 AU: Fu, J. W.;Yang, Y. S.;
6:2:62:8 Microstructure and mechanical properties of conventional cast and rheocast Mg-Sn based alloys
DOI:10.1016/j.msea.2012.07.088 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:6 AU: Poddar, Palash;Sahoo, K. L.;
6:2:62:9 Influence of silver addition on the microstructure and mechanical properties of squeeze cast Mg-6Al-1Sn-0.3Mn-0.3Ti
DOI:10.1016/j.jallcom.2011.04.112 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:2 AU: Acikgoz, Sehzat;Sevik, Huseyin;Kurnaz, S. Can;
6:2:62:10 A CALPHAD study on the thermodynamic stability of calcium-, zinc-, and yttrium-doped magnesium in aqueous environments
DOI:10.1016/j.mseb.2011.04.016 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2011 TC:2 AU: Wu, Kaisheng;Dogan, Omer N.;Velikokhatnyi, Oleg I.;Kumta, Prashant N.;
6:2:62:11 Influence of Addition of Ge on the Microstructure and Corrosion Properties of Magnesium
DOI:10.2320/matertrans.M2011240 JN:MATERIALS TRANSACTIONS PY:2012 TC:1 AU: Kim, Byeongho;Park, Kyungchul;Kimura, Hisamichi;Park, Yongho;Park, Ikmin;
6:2:63:1 Lattice correspondence during twinning in hexagonal close-packed crystals
DOI:10.1016/j.actamat.2010.06.059 JN:ACTA MATERIALIA PY:2010 TC:23 AU: Niewczas, M.;
6:2:63:2 New crystal plasticity constitutive model for large strain deformation in single crystals of magnesium
DOI:10.1016/j.commatsci.2011.02.030 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:17 AU: Izadbakhsh, Adel;Inal, Kaan;Mishra, Raja K.;Niewczas, Marek;
6:2:63:3 Simulation of stress concentration in Mg alloys using the crystal plasticity finite element method
DOI:10.1016/j.actamat.2009.09.010 JN:ACTA MATERIALIA PY:2010 TC:34 AU: Choi, S. -H.;Kim, D. H.;Park, S. S.;You, B. S.;
6:2:63:4 A theoretical prediction of twin variants in extruded AZ31 Mg alloys using the microstructure based crystal plasticity finite element method
DOI:10.1016/j.msea.2012.01.028 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:7 AU: Shin, E. J.;Jung, A.;Choi, S. -H.;Rollett, A. D.;Park, S. S.;
6:2:63:5 Numerical formability assessment in single crystals of magnesium
DOI:10.1016/j.commatsci.2010.09.020 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2010 TC:9 AU: Izadbakhsh, Adel;Inal, Kaan;Mishra, Raja K.;
6:2:63:6 Anisotropic deformation induced by spherical indentation of pure Mg single crystals
DOI:10.1016/j.actamat.2014.06.039 JN:ACTA MATERIALIA PY:2014 TC:3 AU: Kitahara, Hiromoto;Mayama, Tsuyoshi;Okumura, Keita;Tadano, Yuichi;Tsushida, Masayuki;Ando, Shinji;
6:2:63:7 Simulation of texture evolution and macroscopic properties in Mg alloys using the crystal plasticity finite element method
DOI:10.1016/j.msea.2009.09.055 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:15 AU: Choi, S. -H.;Kim, D. H.;Lee, H. W.;Shin, E. J.;
6:2:63:8 A study on the annealing behavior of Cu-added bake-hardenable steel using an in situ EBSD technique
DOI:10.1016/j.actamat.2014.01.005 JN:ACTA MATERIALIA PY:2014 TC:3 AU: Kim, D. -I.;Kim, J. S.;Kim, J. H.;Choi, S. -H.;
6:2:63:9 Microstructure characterization based on the type of deformed grains in cold-rolled, Cu-added, bake-hardenable steel
DOI:10.1016/j.matchar.2014.03.009 JN:MATERIALS CHARACTERIZATION PY:2014 TC:1 AU: Kim, J. S.;Kim, S. I.;Choi, S. -H.;
6:2:64:1 Effects of rare element and pressure on the microstructure and mechanical property of AZ91D alloy
DOI:10.1016/j.jallcom.2013.12.019 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:3 AU: Yu, H.;Chen, S. N.;Yang, W.;Zhang, Y. L.;Chen, S. H.;
6:2:64:2 Effects of microstructure modification and pressurized solidification on mechanical property of AZ91 alloy
DOI:10.1016/j.jallcom.2014.05.033 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:3 AU: Chen, S. N.;Yang, W.;Yu, H.;Zhang, Y. L.;
6:2:64:3 Influence of applied pressure on microstructure and tensile properties of squeeze cast magnesium Mg-Al-Ca alloy
DOI:10.1016/j.msea.2011.01.032 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:18 AU: Masoumi, Mohsen;Hu, Henry;
6:2:64:4 Effects of rheo-squeeze casting parameters on microstructure and mechanical properties of AlCuMnTi alloy
DOI:10.1016/j.msea.2012.01.051 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:16 AU: Dai, Wei;Wu, Shusen;Lu, Shulin;Lin, Chong;
6:2:64:5 Effects of processing parameters and Ca content on microstructure and mechanical properties of squeeze casting AZ91-Ca alloys
DOI:10.1016/j.msea.2013.12.014 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:6 AU: Zhang, Yang;Wu, Guohua;Liu, Wencai;Zhang, Liang;Pang, Song;Wang, Yingdong;Ding, Wenjiang;
6:2:64:6 Effects of the casting temperature on microstructure and mechanical properties of the squeeze-cast Al-Zn-Mg-Cu alloy
DOI:10.1016/j.jallcom.2010.06.012 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:13 AU: Fan, C. H.;Chen, Z. H.;He, W. Q.;Chen, J. H.;Chen, D.;
6:2:64:7 Influence of titanium and chromium addition on the microstructure and mechanical properties of squeeze cast Mg-6Al alloy
DOI:10.1016/j.jallcom.2010.12.055 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:8 AU: Kurnaz, S. Can;Sevik, Huseyin;Acikgoz, Sehzat;Ozel, Ahmet;
6:2:64:8 Effect of Antigravity-Suction-Casting Parameters on Microstructure and Mechanical Properties of Mg-10Al-0.2Mn-1Ca Cast Alloy
DOI:10.2320/matertrans.MC201401 JN:MATERIALS TRANSACTIONS PY:2014 TC:0 AU: Ito, Tomomi;Noda, Masafumi;Mori, Hisashi;Gonda, Yoshio;Fukuda, Yuta;Yanagihara, Satoshi;
6:2:64:9 Effect of Cu, Zn, and Mg Concentration on Heat Treating Behavior of Squeeze Cast Al-(10 to 12)Zn-(3.0 to 3.4)Mg-(0.8 to 1)Cu
DOI:10.3390/met4030314 JN:METALS PY:2014 TC:0 AU: Ferguson, J. B.;Schultz, Benjamin F.;Mantas, John C.;Shokouhi, Hassan;Rohatgi, Pradeep K.;
6:2:64:10 Wear Behaviour of Squeeze-Cast Al 2014 Alloy and In-Situ 5 vol% TiB2/2014 Composite
DOI:10.2320/matertrans.M2012179 JN:MATERIALS TRANSACTIONS PY:2012 TC:0 AU: Xue, J.;Wang, J.;Han, Y. F.;Sun, B. D.;
6:2:64:11 Effect of process parameters on microstructure and mechanical properties in AlSi9Mg connecting-rod fabricated by semi-solid squeeze casting
DOI:10.1016/j.msea.2012.07.084 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:5 AU: Vanluu Dao;Zhao, Shengdun;Lin, Wenjie;Zhang, Chenyang;
6:2:64:12 Optimization of Squeeze Casting Parameters for 2017 A Wrought Al Alloy Using Taguchi Method
DOI:10.3390/met4020141 JN:METALS PY:2014 TC:3 AU: Souissi, Najib;Souissi, Slim;Le Niniven, Christophe;Ben Amar, Mohamed;Bradai, Chedly;Elhalouani, Foued;
6:2:65:1 Hot workability analysis with processing map and texture characteristics of as-cast TX32 magnesium alloy
DOI:10.1007/s10853-013-7314-9 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:4 AU: Dharmendra, C.;Rao, K. P.;Prasad, Y. V. R. K.;Hort, N.;Kainer, K. U.;
6:2:65:2 Hot working behavior of AZ31 and ME21 magnesium alloys
DOI:10.1007/s10853-012-6761-z JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:14 AU: Gall, S.;Huppmann, M.;Mayer, H. M.;Mueller, S.;Reimers, W.;
6:2:65:3 Effect of aluminum on microstructural evolution during hot deformation of TX32 magnesium alloy
DOI:10.1007/s10853-014-8300-6 JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:1 AU: Dharmendra, C.;Rao, K. P.;Zhao, F.;Prasad, Y. V. R. K.;Hort, N.;Kainer, K. U.;
6:2:65:4 The activation of aOE (c) c plus a > non-basal slip in Magnesium alloys
DOI:10.1007/s10853-012-6344-z JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:13 AU: Kang, Feng;Li, Zheng;Wang, Jing Tao;Cheng, Ping;Wu, Hai Ying;
6:2:65:5 Stress corrosion cracking susceptibility of ultrafine grained AZ31
DOI:10.1007/s10853-012-6625-6 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:4 AU: Argade, G. R.;Yuan, W.;Kandasamy, K.;Mishra, R. S.;
6:2:65:6 Effect of equivalent strain and redundant shear strain on microstructure and texture evolution during hot rolling in Mg-3Al-1Zn alloys
DOI:10.1007/s10853-012-6522-z JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:2 AU: Guo, Lili;Fujita, Fumio;
6:2:65:7 Microstructure evolution of Mg-3%Al-1%Zn alloy tube during warm bending
DOI:10.1007/s10853-011-6234-9 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:6 AU: Jin, Li;Dong, Jie;Luo, Alan A.;Mishra, Raj K.;Sachdev, Anil K.;Wu, Wenyun;
6:2:65:8 Hot working behavior of a WE54 magnesium alloy
DOI:10.1007/s10853-013-7790-y JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:1 AU: Lentz, M.;Gall, S.;Schmack, F.;Mayer, H. M.;Reimers, W.;
6:2:65:9 High Temperature Deformation and Microstructural Features of TXA321 Magnesium Alloy: Correlations with Processing Map
DOI:10.1002/adem.201200379 JN:ADVANCED ENGINEERING MATERIALS PY:2013 TC:3 AU: Dharmendra, Chalasani;Rao, Kamineni Pitcheswara;Prasad, Yellapregada Venkata Rama Krishna;Hort, Norbert;Kainer, Karl Ulrich;
6:2:66:1 Grain size effects on deformation twinning in an extruded magnesium alloy tested in compression
DOI:10.1016/j.scriptamat.2011.05.027 JN:SCRIPTA MATERIALIA PY:2011 TC:36 AU: Dobron, Patrik;Chmelik, Frantisek;Yi, Sangbong;Parfenenko, Kseniya;Letzig, Dietmar;Bohlen, Jan;
6:2:66:2 Study of the loading mode dependence of the twinning in random textured cast magnesium by acoustic emission and neutron diffraction methods
DOI:10.1016/j.msea.2014.02.051 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:13 AU: Capek, Jan;Mathis, Kristian;Clausen, Bjorn;Straska, Jitka;Beran, Premysl;Lukas, Petr;
6:2:66:3 Acoustic emission study of Mg-Al-Sr alloy reinforced with short Saffil((R)) fibers deformed in compression
DOI:10.1016/j.msea.2013.03.045 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:6 AU: Mathis, Kristian;Farkas, Gergely;Janecek, Milos;Choe, Heeman;
6:2:66:4 Investigation of tension-compression asymmetry of magnesium by use of the acoustic emission technique
DOI:10.1016/j.msea.2011.03.114 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:15 AU: Mathis, Kristian;Capek, Jan;Zdrazilova, Zuzana;Trojanova, Zuzanka;
6:2:66:5 Statistical analyses of deformation twinning in magnesium (vol 90, pg 2161, 2010)
DOI:10.1080/14786435.2010.517966 JN:PHILOSOPHICAL MAGAZINE PY:2010 TC:4 AU: Beyerlein, I. J.;Capolungo, L.;Marshall, P. E.;McCabe, R. J.;Tome, C. N.;
6:2:66:6 Verification of Optimum Temperature on Tensile Ductility Improvement of Friction Stir Processed AZ31 at Warm Temperature Range up to 300 degrees C
DOI:10.2320/matertrans.M2011020 JN:MATERIALS TRANSACTIONS PY:2011 TC:3 AU: Lee, Hsin-Wei;Lui, Truan-Sheng;Chen, Li-Hui;
6:2:66:7 Effect of 100 degrees C Heating on Further Ductility Improvement of Friction Stir Processed AZ31 Magnesium Alloy
DOI:10.2320/matertrans.M2012081 JN:MATERIALS TRANSACTIONS PY:2012 TC:0 AU: Lee, Hsin-Wei;Lui, Truan-Sheng;Chen, Li-Hui;
6:2:66:8 Acoustic emission from deformed Mg-Y-Nd alloy and this alloy reinforced with SiC particles
DOI:10.1016/j.jallcom.2010.05.138 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:4 AU: Trojanova, Z.;Szaraz, Z.;Chmelik, F.;Lukac, P.;
6:2:66:9 Effects of particle plasticity characteristics on local interface stress in particle reinforced composite during uniaxial tension
DOI:10.1007/s10853-011-5579-4 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:2 AU: Xu, H. M.;Wu, G. Q.;Sha, W.;
6:2:66:10 Clarification of the Fracture Location in Friction Stir Processed AZ31 Mg Alloy through Examination of Globe and Miniature Specimens
DOI:10.2320/matertrans.M2012050 JN:MATERIALS TRANSACTIONS PY:2012 TC:0 AU: Lee, Hsin-Wei;Lui, Truan-Sheng;Chen, Li-Hui;
6:2:66:11 Acoustic emission from deformed magnesium alloy based composites
DOI:10.1016/j.msea.2010.11.058 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:7 AU: Trojanova, Z.;Szaraz, Z.;Chmelik, F.;Lukac, P.;
6:2:67:1:1 Porosity, hydrogen and bifilm content in Al alloy castings
DOI:10.1016/j.msea.2011.01.084 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:13 AU: Dispinar, D.;Campbell, J.;
6:2:67:1:2 The effect of melt quality and filtering on the Weibull distributions of tensile properties in Al-7%Si-Mg alloy castings
DOI:10.1016/j.msea.2013.05.014 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:1 AU: Eisaabadi, G. B.;Davami, P.;Kim, S. K.;Tiryakioglu, M.;
6:2:67:1:3 The behaviour of double oxide film defects in liquid Al alloys under atmospheric and reduced pressures
DOI:10.1016/j.jallcom.2009.10.271 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:9 AU: Raiszadeh, R.;Griffiths, W. D.;
6:2:67:1:4 Variability in the impact properties of A356 aluminum alloy on microporosity variation
DOI:10.1016/j.msea.2012.12.029 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:1 AU: Lee, Choong Do;
6:2:67:1:5 Degassing, hydrogen and porosity phenomena in A356
DOI:10.1016/j.msea.2010.01.088 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:15 AU: Dispinar, D.;Akhtar, S.;Nordmark, A.;Di Sabatino, M.;Arnberg, L.;
6:2:67:1:6 Effects of hydrogen and oxides on tensile properties of Al-Si-Mg cast alloys
DOI:10.1016/j.msea.2012.04.111 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:2 AU: Eisaabadi B, G.;Davami, P.;Kim, S. K.;Varahram, N.;
6:2:67:1:7 Effect of Microstructure and Hydrogen Pores on the Mechanical Behavior of an Al7%Si0.3%Mg Alloy Studied by a Combined Phase-Field and Micromechanical Approach
DOI:10.1002/adem.201100188 JN:ADVANCED ENGINEERING MATERIALS PY:2012 TC:2 AU: Lasko, Galina;Apel, Markus;Carre, Antoine;Weber, Ulrich;Schmauder, Siegfried;
6:2:67:1:8 Probability characterization of tensile strength of an aluminum casting
DOI:10.1016/j.msea.2010.03.033 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:4 AU: Teng, X.;Mae, H.;Bai, Y.;
6:2:67:2:1 Healing of double oxide film defects in A356 aluminium melt
DOI:10.1007/s10853-010-4308-8 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:20 AU: Aryafar, Majid;Raiszadeh, Ramin;Shalbafzadeh, Alireza;
6:2:67:2:2 Effect of oxide films, inclusions and Fe on reproducibility of tensile properties in cast Al-Si-Mg alloys: Statistical and image analysis
DOI:10.1016/j.msea.2012.07.101 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:1 AU: Eisaabadi, G. B.;Davami, P.;Kim, S. K.;Varahram, N.;Yoon, Y. O.;Yeom, G. Y.;
6:2:67:2:3 Effect of oxide bifilms on the mechanical properties of cast Al-7Si-0.3Mg alloy and the roll of runner height after filter on their formation
DOI:10.1016/j.msea.2012.03.097 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:1 AU: Bozchaloei, Ghasem Eisaabadi;Varahram, Naser;Davami, Parviz;Kim, Shae Kwang;
6:2:67:2:4 On the effect of hydrogen and Fe on reproducibility of tensile properties in cast Al-Si-Mg alloys
DOI:10.1016/j.msea.2012.12.022 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:1 AU: Eisaabadi B, G.;Davami, P.;Varahram, N.;Kim, S. K.;
6:2:67:2:5 The behaviour of double oxide film defects in Al-4.5 wt% Mg melt
DOI:10.1007/s10853-010-4916-3 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:1 AU: Bakhtiarani, Fatemeh Najafzadeh;Raiszadeh, Ramin;
6:2:67:3:1 Improvements engineered in UTS and elongation of aluminum alloy high pressure die castings through the alteration of runner geometry and plunger velocity
DOI:10.1016/j.msea.2012.08.098 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: Gunasegaram, D. R.;Givord, M.;O'Donnell, R. G.;Finnin, B. R.;
6:2:67:3:2 Effect of holding pressure on the microstructure of vacuum counter-pressure casting aluminum alloy
DOI:10.1016/j.jallcom.2010.04.103 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:12 AU: Yan, QingSong;Yu, Huan;Xu, ZhiFeng;Xiong, BoWen;Cai, ChangChun;
6:2:67:3:3 Microstructures and mechanical properties of vacuum counter-pressure casting A357 alloys solidified under grade-pressurising: effects of melt temperature
DOI:10.1016/j.msea.2014.05.035 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Xiong, Bowen;Lin, Xin;Wang, Zhenjun;Yan, Qingsong;Yu, Huan;
6:2:68:1 Effects of titanium addition on mechanical and corrosion behaviours of AZ91 magnesium alloy
DOI:10.1016/j.jallcom.2010.10.100 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:31 AU: Candan, S.;Unal, M.;Koc, E.;Turen, Y.;Candan, E.;
6:2:68:2 Effects of minor Ti addition on as-cast microstructure and mechanical properties of Mg-3Sn-2Sr (wt.%) magnesium alloy
DOI:10.1016/j.jallcom.2013.05.064 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:6 AU: Yang, Mingbo;Li, Hongliang;Duan, Chengyu;Zhang, Jia;
6:2:68:3 An investigation into the capability of unconventional amount of aluminum and nano-alumina to alter the mechanical response of magnesium
DOI:10.1007/s10853-011-5790-3 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:0 AU: Nguyen, Q. B.;Fan, Yi;Tun, K. S.;Chan, J.;Kwok, R.;Kuma, J. V. M.;Gupta, M.;
6:2:68:4 The significant effect of adding trace amounts of Ti on the high-temperature deformation behavior of fine-grained Mg-6Al-1Zn magnesium alloys
DOI:10.1016/j.jallcom.2014.07.213 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:3 AU: Lee, T. J.;Kim, W. I.;
6:2:68:5 Effects of Gd addition on as-cast microstructure and mechanical properties of Mg-3Sn-2Ca magnesium alloy
DOI:10.1016/j.msea.2010.11.007 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:9 AU: Yang, Mingbo;Zhu, Yi;Liang, Xiaofeng;Pan, Fusheng;
6:2:68:6 Significant effects of adding trace amounts of Ti on the microstructure and corrosion properties of Mg-6Al-1Zn magnesium alloy
DOI:10.1016/j.jallcom.2014.06.052 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:3 AU: Choi, J. Y.;Kim, W. J.;
6:2:68:7 Influence of Low Level Ag Additions on Mg-Alloy AZ91
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6:2:69:1 Microstructure and mechanical properties of rapidly solidified/powder metallurgy Mg-6Zn and Mg-6Zn-5Ca at room and elevated temperatures
DOI:10.1016/j.jallcom.2013.01.066 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:4 AU: Zhou, Tao;Yang, Mingbo;Zhou, Zhiming;Hu, Jianjun;Chen, Zhenhua;
6:2:69:2 Improving mechanical properties and corrosion resistance of Mg-6Zn-Mn magnesium alloy by rapid solidification
DOI:10.1016/j.matlet.2012.10.051 JN:MATERIALS LETTERS PY:2013 TC:13 AU: Zhang, H. J.;Zhang, D. F.;Ma, C. H.;Guo, S. F.;
6:2:69:3 Microstructure and mechanical properties of Mg-Zn-Ca-Ce alloy processed by semi-continuous casting
DOI:10.1016/j.msea.2013.06.027 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:5 AU: Du, Y. Z.;Zheng, M. Y.;Qiao, X. G.;Wu, K.;Liu, X. D.;Wang, G. J.;Lv, X. Y.;
6:2:69:4 The effect of Ca addition on microstructures and mechanical properties of Mg-RE based alloys
DOI:10.1016/j.jallcom.2012.11.094 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:6 AU: Zhang, Jin-shan;Sun, Yan;Cheng, Wei-li;Que, Zhong-ping;Li, Yong-mei;Liushan, Liangzi;
6:2:69:5 Effects of antimony addition on the microstructures of ZA84 magnesium alloy
DOI:10.1016/j.jallcom.2010.07.191 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:6 AU: Wang, Jianqiang;Ding, Zhanlai;Qi, Fangjuan;Zhu, Hao;Fan, Yunchang;
6:2:69:6 Investigation on microstructure characterizations and phase compositions of rapidly solidification/powder metallurgy Mg-6 wt.% Zn-5 wt.% Ce-1.5 wt.% Ca alloy
DOI:10.1016/j.jallcom.2010.12.133 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:7 AU: Zhou, Tao;Xia, Hua;Yang, Mingbo;Zhou, Zhiming;Chen, Kang;Hu, Jianjun;Chen, Zhenhua;
6:2:69:7 Crystal structure of the ternary Mg-Zn-Ce phase in rapidly solidified Mg-6Zn-1Y-1Ce alloy
DOI:10.1016/j.jallcom.2011.12.144 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:4 AU: Yang, W. P.;Guo, X. F.;Lu, Z. X.;
6:2:69:8 Investigation on microstructure characterization and property of rapidly solidified Mg-Zn-Ca-Ce-La alloys
DOI:10.1016/j.matchar.2011.10.004 JN:MATERIALS CHARACTERIZATION PY:2012 TC:6 AU: Zhou, Tao;Chen, Zhenhua;Yang, Mingbo;Hu, Jianjun;Xia, Hua;
6:2:69:9 Microstructure and mechanical properties of an Mg-10Al alloy fabricated by Sb-alloying and ECAP processing
DOI:10.1016/j.msea.2012.10.036 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:2 AU: Wang, Hongxia;Zhou, Kangkang;Xie, Guoyin;Liang, Xingzhong;Liang, Wei;Zhao, Yuantao;
6:2:70:1 Using polycrystal plasticity modeling to determine the effects of grain size and solid solution additions on individual deformation mechanisms in cast Mg alloys
DOI:10.1016/j.scriptamat.2010.03.054 JN:SCRIPTA MATERIALIA PY:2010 TC:25 AU: Raeisinia, Babak;Agnew, Sean R.;
6:2:70:2 Microyielding and damping capacity in magnesium
DOI:10.1016/j.scriptamat.2014.06.004 JN:SCRIPTA MATERIALIA PY:2014 TC:2 AU: Watanabe, Hiroyuki;Sawada, Tadaaki;Sasakura, Yasuyoshi;Ikeo, Naoko;Mukai, Toshiji;
6:2:70:3 Internal friction and microplastic deformation behavior of pure magnesium processed by equal channel angular pressing
DOI:10.1016/j.msea.2012.10.083 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:2 AU: Fan, G. D.;Zheng, M. Y.;Hu, X. S.;Wu, K.;Gan, W. M.;Brokmeier, H. G.;
6:2:70:4 Pseudoelastic behavior of magnesium alloy during twinning-dominated cyclic deformation
DOI:10.1016/j.msea.2013.02.021 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:5 AU: Lee, S. Y.;Gharghouri, M. A.;
6:2:70:5 In-Situ Evaluation of Detwinning Behavior in Extruded AZ31 Mg Alloy by AE
DOI:10.2320/matertrans.MAW201218 JN:MATERIALS TRANSACTIONS PY:2012 TC:7 AU: Yasutomi, Takashi;Enoki, Manabu;
6:2:70:6 Twinning behavior of pure magnesium quantitatively investigated by acoustic emission
DOI:10.1016/j.msea.2011.10.010 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:10 AU: Li, Yunping;Enoki, Manabu;
6:2:70:7 Effects of Cu on microstructure, mechanical properties and damping capacity of high damping Mg-1%Mn based alloy
DOI:10.1016/j.msea.2012.04.098 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:6 AU: Chen, Shuqun;Dong, Xuanpu;Ma, Rong;Zhang, Lei;Wang, Huan;Fan, Zitian;
6:2:70:8 Anelastic recovery of pure magnesium quantitatively evaluated by acoustic emission
DOI:10.1557/jmr.2011.369 JN:JOURNAL OF MATERIALS RESEARCH PY:2011 TC:6 AU: Li, Yunping;Enoki, Manabu;
6:2:71:1 Enhanced mechanical response of hybrid alloy AZ31/AZ91 based on the addition of Si3N4 nanoparticles
DOI:10.1016/j.msea.2011.05.003 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:15 AU: Paramsothy, M.;Chan, J.;Kwok, R.;Gupta, M.;
6:2:71:2 Grain size effect on the strengthening behavior of aluminum-based composites containing multi-walled carbon nanotubes
DOI:10.1016/j.compscitech.2011.07.013 JN:COMPOSITES SCIENCE AND TECHNOLOGY PY:2011 TC:25 AU: Choi, H. J.;Shin, J. H.;Bae, D. H.;
6:2:71:3 Nanoscale Electro Negative Interface Density (NENID) in magnesium alloy nanocomposites: Effect on mechanical properties
DOI:10.1007/s11051-012-0872-y JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2012 TC:2 AU: Paramsothy, M.;Chan, J.;Kwok, R.;Gupta, M.;
6:2:71:4 Mechanical properties improvement of cast AZ80 Mg alloy/nano-particles composite via thermomechanical processing
DOI:10.1016/j.msea.2013.12.029 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:5 AU: Khosroshahi, H. Khoshzaban;Saniee, F. Fereshteh;Abedi, H. R.;
6:2:71:5 Al2O3 nanoparticle addition to concentrated magnesium alloy AZ81: Enhanced ductility
DOI:10.1016/j.jallcom.2012.08.020 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:7 AU: Paramsothy, M.;Tan, X. H.;Chan, J.;Kwok, R.;Gupta, M.;
6:2:71:6 The opposing nanoscale and macroscale effects of selected nanoparticle addition to AZ91/ZK60A hybrid magnesium alloy
DOI:10.1007/s11051-013-1938-1 JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2013 TC:0 AU: Paramsothy, Muralidharan;Gupta, Manoj;
6:2:71:7 In-situ rod-shaped nanoparticles in Mg-Zn magnesium alloy: Towards high strength and ductility
DOI:10.1016/j.jallcom.2013.07.162 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:2 AU: Paramsothy, M.;Gupta, M.;
6:2:71:8 Adding TiC Nanoparticles to Magnesium Alloy ZK60A for Strength/Ductility Enhancement
DOI:10.1155/2011/642980 JN:JOURNAL OF NANOMATERIALS PY:2011 TC:3 AU: Paramsothy, Muralidharan;Chan, Jimmy;Kwok, Richard;Gupta, Manoj;
6:2:71:9 Nanoparticle interactions with the magnesium alloy matrix during physical deformation: Tougher nanocomposites
DOI:10.1016/j.matchemphys.2012.09.036 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:1 AU: Paramsothy, M.;Chan, J.;Kwok, R.;Gupta, M.;
6:2:71:10 The effective reinforcement of magnesium alloy ZK60A using Al2O3 nanoparticles
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6:2:71:11 Mechanical properties of MWNT/Ni bulk composites: Influence of the microstructural refinement on the hardness
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6:2:71:12 Thermomechanical Behavior of Bulk Ni/MWNT Composites Produced via Powder Metallurgy
DOI:10.1002/adem.201200100 JN:ADVANCED ENGINEERING MATERIALS PY:2012 TC:5 AU: Suarez, Sebastian;Soldera, Flavio;Gonzalez Oliver, Carlos;Acevedo, Diego;Muecklich, Frank;
6:2:71:13 Efficient absorption of H2S by aluminum doped zinc oxide nanoparticles
DOI:10.1016/j.matlet.2012.03.039 JN:MATERIALS LETTERS PY:2012 TC:4 AU: Parhoodeh, Saeed;Shoushtari, Morteza Zargar;Farbod, Mansoor;
6:2:72:1 Influence of Er addition and extrusion temperature on the microstructure and mechanical properties of a Mg-Zn-Zr magnesium alloy
DOI:10.1016/j.msea.2011.03.010 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:12 AU: Zhang, Jing;Li, Weiguo;Zhang, Baoxiang;Dou, Yuchen;
6:2:72:2 Mechanical properties and ageing response of the Mg-6Zn-1Er alloy produced by a new method of RPW process
DOI:10.1016/j.msea.2012.07.028 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:1 AU: Liu, Ke;Du, Wenbo;Wang, Qingfeng;Wang, Zhaohui;Li, Shubo;Fu, Zhaolong;
6:2:72:3 Microstructure and mechanical properties of Mg-1.8%Mn alloy modified by single Er and composite Er/Al microalloying
DOI:10.1016/j.msea.2013.03.086 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:2 AU: Zhang, Jing;Yuan, Fuqing;Liu, Min;Pan, Fusheng;
6:2:72:4 Partition of Er among the constituent phases and the yield phenomenon in a semi-continuously cast Mg-Zn-Zr alloy
DOI:10.1016/j.scriptamat.2010.04.015 JN:SCRIPTA MATERIALIA PY:2010 TC:24 AU: Zhang, Jing;Zhang, Xufeng;Li, Weiguo;Pan, Fusheng;Guo, Zhengxiao;
6:2:72:5 Effect of hot rolling on the microstructure and mechanical properties of Mg-5Al-0.3Mn-2Nd alloy
DOI:10.1016/j.jallcom.2010.07.149 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:11 AU: Wang, Jianli;Dong, Hanwu;Wang, Lidong;Wu, Yaoming;Wang, Limin;
6:2:72:6 Elevated-temperature plasticity and mechanical properties of a rare earth-modified Mg-Zn-Al alloy
DOI:10.1016/j.matlet.2011.01.001 JN:MATERIALS LETTERS PY:2011 TC:6 AU: Zhang, Jing;Dou, Yuchen;Zhang, Baoxiang;Luo, Xiaodong;
6:2:73:1 Resistance spot welding of AZ series magnesium alloys: Effects of aluminum content on microstructure and mechanical properties
DOI:10.1016/j.msea.2014.08.013 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Niknejad, Seyedtirdad;Liu, Lei;Lee, Mok-Young;Esmaeili, Shahrzad;Zhou, Norman Y.;
6:2:73:2 Phase constitution in the interfacial region of laser penetration brazed magnesium-steel joints
DOI:10.1016/j.matchar.2014.03.019 JN:MATERIALS CHARACTERIZATION PY:2014 TC:3 AU: Miao, Yugang;Han, Duanfeng;Xu, Xiangfang;Wu, Bintao;
6:2:73:3 Bonding of immiscible Mg and Fe via a nanoscale Fe2Al5 transition layer
DOI:10.1016/j.scriptamat.2011.08.026 JN:SCRIPTA MATERIALIA PY:2011 TC:15 AU: Liu, L.;Xiao, L.;Feng, J.;Li, L.;Esmaeili, S.;Zhou, Y.;
6:2:73:4 Abnormal distribution of microhardness in tungsten inert gas arc butt-welded AZ61 magnesium alloy plates
DOI:10.1016/j.matchar.2010.04.003 JN:MATERIALS CHARACTERIZATION PY:2010 TC:15 AU: Xu, Nan;Shen, Jun;Xie, Weidong;Wang, Linzhi;Wang, Dan;Min, Dong;
6:2:73:5 In situ fracture observation and fracture toughness analysis of squeeze cast AZ51-xSn magnesium alloys
DOI:10.1016/j.msea.2010.07.016 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:17 AU: Kim, Byeongho;Do, Jeonghyeon;Lee, Sunghak;Park, Ikmin;
6:2:73:6 Microstructural characteristics of lap joint between magnesium alloy and mild steel with and without the addition of Sn element
DOI:10.1016/j.matlet.2009.10.023 JN:MATERIALS LETTERS PY:2010 TC:20 AU: Liu, Liming;Qi, Xiaodong;Wu, Zhonghui;
6:2:73:7 Joining of aluminum and magnesium via pre-roll-assisted A-TIG welding with Zn interlayer
DOI:10.1016/j.matlet.2014.02.008 JN:MATERIALS LETTERS PY:2014 TC:4 AU: Zhang, H. T.;Dai, X. Y.;Feng, J. C.;
6:2:73:8 Comparative study on characteristics of hybrid laser-TIG welded AZ61/Q235 lap joints with and without interlayers
DOI:10.1007/s10853-010-4451-2 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:6 AU: Qi, Xiao-dong;Liu, Li-ming;
6:2:73:9 Characterization of AZ31B wrought magnesium alloy joints welded by high power fiber laser
DOI:10.1016/j.matchar.2011.07.002 JN:MATERIALS CHARACTERIZATION PY:2011 TC:11 AU: Wang, Zemin;Gao, Ming;Tang, Haiguo;Zeng, Xiaoyan;
6:2:73:10 Microstructure evolution of Al/Mg butt joints welded by gas tungsten arc with Zn filler metal
DOI:10.1016/j.matchar.2012.04.012 JN:MATERIALS CHARACTERIZATION PY:2012 TC:8 AU: Liu, Fei;Zhang, Zhaodong;Liu, Liming;
6:2:73:11 EBSD analysis of magnesium addition on inclusion formation in SS400 structural steel
DOI:10.1016/j.matchar.2013.05.013 JN:MATERIALS CHARACTERIZATION PY:2013 TC:4 AU: Luo, Sin-Jie;Su, Yen-Hao Frank;Lu, Muh-Jung;Kuo, Jui-Chao;
6:2:73:12 Alligatoring phenomenon occurring during hot rolling of free-machining steel wire rods
DOI:10.1016/j.msea.2013.01.018 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:2 AU: Kim, Hyunmin;Kang, Minju;Shin, Sang Yong;Lee, Sunghak;
6:2:74:1 Mechanisms of grain refinement by intensive shearing of AZ91 alloy melt
DOI:10.1016/j.actamat.2010.08.016 JN:ACTA MATERIALIA PY:2010 TC:30 AU: Men, H.;Jiang, B.;Fan, Z.;
6:2:74:2 Weibull statistical analysis of the effect of melt conditioning on the mechanical properties of AM60 alloy
DOI:10.1016/j.msea.2012.12.079 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:3 AU: Ji, S.;Yang, W.;Jiang, B.;Patel, J. B.;Fan, Z.;
6:2:74:3 Effect of SiC reinforcement particles on the grain density in a magnesium-based metal-matrix composite: Modelling and experiment
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6:2:74:4 Tensile elongation of unidirectional or laminated composites combining a brittle reinforcement with a ductile strain and strain-rate hardening matrix
DOI:10.1016/j.actamat.2014.02.043 JN:ACTA MATERIALIA PY:2014 TC:0 AU: Cohades, Amael;Mortensen, Andreas;
6:2:74:5 The influence of Cr content on the microstructure and mechanical properties of AlSi9Cu3(Fe) die-casting alloys
DOI:10.1016/j.msea.2010.08.079 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:16 AU: Timelli, Giulio;Bonollo, Franco;
6:2:74:6 Recycling of high grade die casting AM series magnesium scrap with the melt conditioned high pressure die casting (MC-HPDC) process
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6:2:74:7 Microstructural refinement of AZ91D die-cast alloy by intensive shearing
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6:2:74:8 The role of Cr additions and Fe-rich compounds on microstructural features and impact toughness of AlSi9Cu3(Fe) diecasting alloys
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6:2:74:9 Refining grain structure and porosity of an aluminium alloy with intensive melt shearing
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6:2:74:10 Impact mechanical behaviour of Al-7Si-Mg (A357) cast aluminum alloy. The effect of artificial aging
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6:2:74:11 Microstructure and mechanical properties of SiC particle reinforced magnesium composites processed by injection molding
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6:2:74:12 Microstructure and mechanical properties of thin-wall and high-rib parts of AM60B Mg alloy formed by double control forming and die casting under the optimal conditions
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6:2:75:1 Molecular dynamics simulation of the effect of surface roughness and pore on linear friction welding between Ni and Al
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6:2:75:2 Linear friction welding of Ti-6Al-4V: Modelling and validation
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6:2:75:3 Numerical simulation of transient temperature and axial deformation during linear friction welding between TC11 and TC17 titanium alloys
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6:2:75:4 Microstructural evolution of a TC11 titanium alloy during linear friction welding
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6:2:75:5 Linear friction welding of AISI 316L stainless steel
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6:2:75:6 Abnormal microstructure in the weld zone of linear friction welded Ti-6.5Al-3.5Mo-1.5Zr-0.3Si titanium alloy joint and its influence on joint properties
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6:2:75:7 Microstructure and microhardness of Ti6246 linear friction weld
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6:2:75:8 Molecular dynamics simulation of linear friction welding between dissimilar Ti-based alloys
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6:2:75:9 Influence of Parent Metal Microstructure and Post-Weld Heat Treatment on Microstructure and Mechanical Properties of Linear Friction Welded Ti-6Al-4V Joint
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6:2:75:10 Effects of pores on shear bands in metallic glasses: A molecular dynamics study
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6:2:75:11 Numerical analysis of the effect of pore on local stresses in spot welds
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6:2:75:12 Formation mechanism of linear friction welded Ti-6Al-4V alloy joint based on microstructure observation
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6:2:76:1 Grain growth kinetics of bulk AZ31 magnesium alloy by hot pressing
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6:2:76:2 The synergistic ability of Al2O3 nanoparticles to enhance mechanical response of hybrid alloy AZ31/AZ91
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6:2:76:3 Dynamic tensile response of magnesium nanocomposites and the effect of nanoparticles
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6:2:76:4 Development of new magnesium based alloys and their nanocomposites
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6:2:76:5 Influence of Nickel Particle Reinforcement on Cyclic Fatigue and Final Fracture Behavior of a Magnesium Alloy Composite
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6:2:76:6 Enhancing mechanical response of AZ31B using Cu + nano-Al2O3 addition
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6:2:76:7 Enhancing strength and hardness of AZ31B through simultaneous addition of nickel and nano-Al2O3 particulates
DOI:10.1016/j.msea.2010.10.021 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:6 AU: Nguyen, Q. B.;Tun, K. S.;Chan, J.;Kwok, R.;Kuma, J. V. M.;Gupta, M.;
6:2:76:8 Microstructure and thermal stability of amorphous SiBCNAl powders fabricated by mechanical alloying
DOI:10.1016/j.jallcom.2010.06.176 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:3 AU: Ye, Dan;Jia, De-Chang;Yang, Zhi-Hua;Sun, Zhen-Lin;Zhang, Peng-Fei;
6:2:76:9 Structural and microstructural characterization of SiB0.5C1.5N0.8Al0.3 powders prepared by mechanical alloying using aluminum nitride as aluminum source
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6:2:76:10 Improving microstructural and mechanical response of new AZ41 and AZ51 magnesium alloys through simultaneous addition of nano-sized Al2O3 particulates and Ca
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6:2:77:1 Effects of Ce-rich RE additions and heat treatment on the microstructure and tensile properties of Mg-Li-Al-Zn-based alloy
DOI:10.1016/j.msea.2010.11.063 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:27 AU: Wu, Libin;Cui, Chongliang;Wu, Ruizhi;Li, Jiqing;Zhan, Haibo;Zhang, Milin;
6:2:77:2 The twin mechanism of Portevin Le Chatelier in Mg-5Li-3Al-1.5Zn-2RE alloy
DOI:10.1016/j.jallcom.2011.04.099 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:6 AU: Li, T. Q.;Liu, Y. B.;Cao, Z. Y.;Wu, R. Z.;Zhang, M. L.;Cheng, L. R.;Jiang, D. M.;
6:2:77:3 Microstructure, mechanical properties and aging behaviors of as-extruded Mg-5Li-3Al-2Zn-1.5Cu alloy
DOI:10.1016/j.msea.2011.01.025 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:9 AU: Li, Jiqing;Qu, Zhikun;Wu, Ruizhi;Zhang, Milin;Zhang, Jinghuai;
6:2:77:4 Effects of Cu addition on the microstructure and hardness of Mg-5Li-3Al-2Zn alloy
DOI:10.1016/j.msea.2010.01.021 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:18 AU: Li, Jiqing;Qu, Zhikun;Wu, Ruizhi;Zhang, Milin;
6:2:77:5 Low-frequency damping properties of as-extruded Mg-11.2Li-0.95Al-0.43Zn magnesium alloy
DOI:10.1016/j.msea.2011.04.047 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:7 AU: Wu, S. K.;Chang, S. H.;Tsia, W. L.;Bor, H. Y.;
6:2:77:6 Isothermal section of the Al-Dy-Ge ternary system at 673 K
DOI:10.1016/j.jallcom.2011.01.080 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:4 AU: Qin, Pingli;Xu, Zhongping;Qin, Zhongli;Li, Duanyong;Zeng, Lingmin;He, Wei;
6:2:77:7 Effects of solution heat treatment on the microstructure and hardness of Mg-5Li-3Al-2Zn-2Cu alloy
DOI:10.1016/j.msea.2010.07.072 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:8 AU: Li, Jiqing;An, Jiangmin;Qu, Zhikun;Wu, Ruizhi;Zhang, Jinghuai;Zhang, Milin;
6:2:77:8 The Portevin-Le Chatelier effect in beta-phase Mg-14.3Li-0.8Zn alloy
DOI:10.1016/j.msea.2014.03.026 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Wu, S. K.;Chien, C.;Yang, C. S.;Bor, H. Y.;
6:2:77:9 X-ray diffraction studies on cold-rolled/solid-solution treated alpha plus beta Mg-10.2Li-1.2Al-0.4Zn alloy
DOI:10.1016/j.jallcom.2013.02.073 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:2 AU: Wu, S. K.;Li, Y. H.;Chien, K. T.;Chien, C.;Yang, C. S.;
6:2:77:10 Crystal structure of new ternary compounds Al2R11Ge8 (R = Y, Gd, Tb, Dy, Ho, Er) and thermal properties of Al2Er11Ge8
DOI:10.1016/j.jallcom.2012.02.171 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:1 AU: Zeng, Lingmin;He, Wei;Shen, Wenjun;Lu, Meiwen;
6:2:77:11 The tensile properties and high cyclic fatigue characteristics of Mg-5Li-3Al-1.5Zn-2RE alloy
DOI:10.1016/j.msea.2010.08.094 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:2 AU: Li, Tingqu;Liu, Yongbing;Cao, Zhanyi;Jiang, Dongmei;Cheng, Liren;
6:2:78:1 Acoustic emission study of fatigue crack propagation in extruded AZ31 magnesium alloy
DOI:10.1016/j.msea.2013.12.083 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Han, Zhiyuan;Luo, Hongyun;Sun, Chuankai;Li, Junrong;Papaelias, Mayorkinos;Davis, Claire;
6:2:78:2 Phase-field analysis of fracture-induced twinning in single crystals
DOI:10.1016/j.actamat.2013.05.023 JN:ACTA MATERIALIA PY:2013 TC:10 AU: Clayton, J. D.;Knap, J.;
6:2:78:3 Influence of strain rate on mechanical properties and deformation texture of hot-pressed and rolled beryllium
DOI:10.1016/j.msea.2010.04.035 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:17 AU: Sisneros, T. A.;Brown, D. W.;Clausen, B.;Donati, D. C.;Kabra, S.;Blumenthal, W. R.;Vogel, S. C.;
6:2:78:4 Deformation mechanism near crack-tip by finite element analysis and microstructure observation in magnesium alloys
DOI:10.1016/j.msea.2009.11.006 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:11 AU: Somekawa, Hidetoshi;Inoue, Tadanobu;Mukai, Toshiji;
6:2:78:5 Acoustic emission during fatigue crack propagation in a micro-alloyed steel and welds
DOI:10.1016/j.msea.2011.06.065 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:13 AU: Han, Zhiyuan;Luo, Hongyun;Cao, Jingwei;Wang, Hongwei;
6:2:78:6 Effects of micro-structure on fatigue crack propagation and acoustic emission behaviors in a micro-alloyed steel
DOI:10.1016/j.msea.2012.08.138 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:6 AU: Han, Zhiyuan;Luo, Hongyun;Zhang, Yubo;Cao, Jingwei;
6:2:78:7 Monitoring of the deformation and fracture process of dual phase steels employing acoustic emission techniques
DOI:10.1016/j.msea.2012.03.104 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:8 AU: Fallahi, A.;Khamedi, R.;Minak, G.;Zucchelli, A.;
6:2:78:8 Filtering of Acoustic Emission Signals for the Accurate Identification of Fracture Mechanisms in Bending Tests
DOI:10.2320/matertrans.M2013089 JN:MATERIALS TRANSACTIONS PY:2013 TC:1 AU: Martinez-Gonzalez, Eva;Picas, Ingrid;Romeu, Jordi;Casellas, Daniel;
6:2:78:9 A phase field model for the formation and evolution of martensitic laminate microstructure at finite strains
DOI:10.1080/14786435.2012.705039 JN:PHILOSOPHICAL MAGAZINE PY:2012 TC:6 AU: Hildebrand, F. E.;Miehe, C.;
6:2:79:1 Precipitation evolution and kinetics in a magnesium-neodymium-zinc alloy
DOI:10.1016/j.jallcom.2013.08.198 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:1 AU: Sanaty-Zadeh, A.;Xia, X.;Luo, A. A.;Stone, D. S.;
6:2:79:2 Effect of Ca and Sr additions on high temperature and corrosion properties of Mg-4Al-2Sn based alloys
DOI:10.1016/j.msea.2010.10.038 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:21 AU: Kim, Byeong Ho;Park, Kyung Chul;Park, Yong Ho;Park, Ik Min;
6:2:79:3 Protective Properties of SF6 under Various Carrier Gases for the Protection of Molten Mg
DOI:10.2320/matertrans.M2012057 JN:MATERIALS TRANSACTIONS PY:2013 TC:0 AU: Lee, Byeong Deok;Beak, Ui Hyeon;Lee, Ki Woo;Han, Gil Soo;Han, Jeong Whan;
6:2:79:4 Effect of Ca addition on the microstructure and tensile properties of Mg-4.0Zn-2.0Gd alloys
DOI:10.1016/j.msea.2014.04.093 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Wen, Qi;Deng, Kun-kun;Shi, Ju-yan;Zhang, Bao-ping;Liang, Wei;
6:2:79:5 Evolution of precipitation during non-isothermal ageing of an Mg-Ca-Zn alloy with high Ca content
DOI:10.1016/j.msea.2012.01.038 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:7 AU: Langelier, Brian;Wang, Xiang;Esmaeili, Shahrzad;
6:2:79:6 Effects of Gd addition on as-cast microstructure, tensile and creep properties of Mg-3.8 Zn-2.2Ca (wt%) magnesium alloy
DOI:10.1016/j.msea.2013.08.064 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: Yang, Mingbo;Guo, Tingzhang;Li, Hongliang;
6:2:79:7 Effect of Ca and Sr on microstructure and compressive creep property of Mg-4Al-RE alloys
DOI:10.1016/j.msea.2014.05.055 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Zhang, Yaocheng;Yang, Li;Dai, Jun;Guo, Guolin;Liu, Zhong;
6:2:79:8 Effects of Zn on the microstructure, mechanical property and bio-corrosion property of Mg-3Ca alloys for biomedical application
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6:2:79:9 Effect of Zn on the microstructure evolution of extruded Mg-3Nd (-Zn)-Zr (wt.%) alloys
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6:2:79:10 Effect of melt temperature on the oxidation behavior of AZ91D magnesium alloy in 1,1,1,2-tetrafluoroethane/air atmospheres
DOI:10.1016/j.matchar.2010.05.012 JN:MATERIALS CHARACTERIZATION PY:2010 TC:3 AU: Chen, Hukui;
6:2:79:11 Microstructure and Mechanical Properties of Hot-Extruded Mg-3Zn-2Sn-0.4Ag-xNd (x=0, 1 and 3 mass%) Alloys
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6:2:79:12 Effects of heat treatments on laser welded Mg-rare earth alloy NZ30K
DOI:10.1016/j.msea.2011.09.052 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:3 AU: Dai, Jun;Huang, Jian;Li, Min;Li, Zhuguo;Dong, Jie;Wu, Yixiong;
6:2:79:13 Compression-creep response of magnesium alloy DieMag422 containing barium compared with the commercial creep-resistant alloys AE42 and MRI230D
DOI:10.1016/j.msea.2013.07.041 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:8 AU: Dieringa, Hajo;Huang, Yuanding;Wittke, Philipp;Klein, Martin;Walther, Frank;Dikovits, Martina;Poletti, Cecilia;
6:2:80:1 Effects of grain size and heat treatment on the tensile properties of Mg-3Nd-0.2Zn (wt%) magnesium alloys
DOI:10.1016/j.msea.2012.12.008 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:12 AU: Li, Z. M.;Luo, A. A.;Wang, Q. G.;Peng, L. M.;Fu, P. H.;Wu, G. H.;
6:2:80:2 Size effects in aluminium alloy castings
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6:2:80:3 The effect of initial grain size and temperature on the tensile properties of magnesium alloy AZ31 sheet
DOI:10.1016/j.msea.2012.03.107 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:14 AU: Atwell, D. L.;Barnett, M. R.;Hutchinson, W. B.;
6:2:80:4 Large deformation of magnesium sheet at room temperature by preform annealing part I: Uniaxial tension
DOI:10.1016/j.msea.2014.09.045 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Habibnejad-korayem, Mandi;Jain, Mukesh K.;Mishra, Raja K.;
6:2:80:5 Hot deformation mechanisms, microstructure and texture evolution in extruded AZ31-nano-alumina composite
DOI:10.1016/j.msea.2013.09.062 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:6 AU: Zhong, T.;Rao, K. P.;Prasad, Y. V. R. K.;Zhao, F.;Gupta, M.;
6:2:80:6 A mechanism-dependent material model for the effects of grain growth and anisotropy on plastic deformation of magnesium alloy AZ31 sheet at 450 degrees C
DOI:10.1016/j.actamat.2014.01.043 JN:ACTA MATERIALIA PY:2014 TC:4 AU: Carpenter, Alexander J.;Antoniswamy, Aravindha R.;Carter, Jon T.;Hector, Louis G., Jr.;Taleff, Eric M.;
6:2:80:7 Effect of grain size on twinning behavior in Ti-2Al-2.5Zr alloy fatigued at 77 K
DOI:10.1016/j.msea.2012.01.106 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:1 AU: Wang, H.;Sun, Q. Y.;Xiao, L.;Sun, J.;
6:2:80:8 Effect of calcium addition on the hot working behavior of as-cast AZ31 a magnesium alloy
DOI:10.1016/j.msea.2013.09.031 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:3 AU: Suresh, K.;Rao, K. P.;Prasad, Y. V. R. K.;Hort, N.;Kainer, K. U.;
6:2:80:9 Physical, mechanical and dry sliding wear properties of an Al-Si-Mg-Ni-Cu alloy under different processing conditions
DOI:10.1016/j.jallcom.2013.08.016 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:2 AU: Ashiri, R.;Niroumand, B.;Karimzadeh, F.;
6:2:81:1 AlB3 master alloy to grain refine AlSi10Mg and AlSi12Cu aluminium foundry alloys
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6:2:81:2 Influence of trace boron on the morphology of titanium carbide in an Al-Ti-C-B master alloy
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6:2:81:3 Effects of trace C addition on the microstructure and refining efficiency of Al-Ti-B master alloy
DOI:10.1016/j.jallcom.2010.04.251 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:8 AU: Li, P. T.;Ma, X. G.;Li, Y. G.;Nie, J. F.;Liu, X. F.;
6:2:81:4 Influence of nitrogen on the synthesis and nucleation ability of TiCx in Al-Ti-C master alloy
DOI:10.1016/j.jallcom.2014.02.158 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:0 AU: Zhang, Ping;Nie, Jinfeng;Gao, Tong;Wang, Tao;Liu, Xiangfa;
6:2:81:5 Influence of carbon source on the microstructure of Al-Ti-C master alloy and its grain refining efficiency
DOI:10.1016/j.matchar.2013.06.002 JN:MATERIALS CHARACTERIZATION PY:2013 TC:6 AU: Wang, Tao;Gao, Tong;Nie, Jinfeng;Li, Pengting;Liu, Xiangfa;
6:2:81:6 Effect of B/C ratio on the microstructure and grain refining efficiency of Al-Ti-C-B master alloy
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6:2:81:7 Transformation from Al3BC phase to doped TiB2 or TiC particles in Al-Ti melts
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6:2:81:8 Aluminothermic reduction of boron oxide for the manufacture of Al-B alloys
DOI:10.1016/j.matchemphys.2012.08.030 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:3 AU: Birol, Yucel;
6:2:81:9 The influences of B dopant on the crystal structure and nucleation ability of TiCx in the Al melt
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6:2:81:10 Impact of grain size on mechanical properties of AlSi7Mg0.3 alloy
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6:2:82:1 Hot workability of nanocrystalline AZ91 magnesium alloy
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6:2:82:2 Preparation of high-strength Mg-3Al-Zn alloy with ultrafine-grained microstructure by powder metallurgy
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6:2:82:3 The microstructural evolution of a pre-alloyed AZ91 magnesium alloy powder through high-energy milling and subsequent isothermal annealing
DOI:10.1016/j.matlet.2013.02.052 JN:MATERIALS LETTERS PY:2013 TC:4 AU: Taleghani, M. A. Jabbari;Torralba, J. M.;
6:2:82:4 Plastic flow behavior of a high-strength magnesium alloy NZ30K
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6:2:82:5 Synthesis of Mg-Al2O3 nanocomposites by mechanical alloying
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6:2:82:6 High-strength ultrafine grain Mg-7.4%Al alloy synthesized by consolidation of mechanically alloyed powders
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6:2:82:7 Effect of oxygen content on impact toughness of a fine-grained magnesium alloy
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6:2:82:8 Elevated-temperature impact toughness of Mg-(Gd, Y)-Zr alloy
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6:2:82:9 Re-determination of gamma/(gamma plus alpha-Mg) phase boundary and experimental evidence of R intermetallic compound existing at lower temperatures in the Mg-Al binary system
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6:2:82:10 Improved corrosion resistance of a high-strength Mg-Al-Mn-Ca magnesium alloy made by rapid solidification powder metallurgy
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6:2:83:1 Statistic derivation of Taylor factors for polycrystalline metals with application to pure magnesium
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6:2:83:2 Effect of silicon content on hot working, processing maps, and microstructural evolution of cast TX32-0.4Al Magnesium alloy
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6:2:83:3 Effect of minor addition of vanadium on mechanical properties and microstructures of as-extruded near eutectic Al-Si-Mg alloy
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6:2:83:4 Effects of lattice parameter changes on critical resolved shear stress and mechanical properties of magnesium binary single crystals
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6:2:83:5 Hot working mechanisms and texture development in Mg-3Sn-2Ca-0.4Al alloy
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6:2:83:6 Analysis of creep rupture life of Mg-Al-Mn alloy produced by die-casting
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6:2:83:7 Influence of Crystal Orientations on the Bendability of an Al-Mg-Si Alloy
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6:2:83:8 Influence of Texture on Bendability of Cu-Ni-Si Alloys
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6:2:84:1 Effects of grain size, texture and twinning on mechanical properties and work-hardening behavior of AZ31 magnesium alloys
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6:2:84:2 Characterization of highly corrosion-resistant nanocrystalline Ni coating electrodeposited on Mg-Nd-Zn-Zr alloy from a eutectic-based ionic liquid
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6:2:84:3 Tailoring nickel coatings via electrodeposition from a eutectic-based ionic liquid doped with nicotinic acid
DOI:10.1016/j.apsusc.2011.05.106 JN:APPLIED SURFACE SCIENCE PY:2011 TC:22 AU: Yang, Haiyan;Guo, Xingwu;Birbilis, Nick;Wu, Guohua;Ding, Wenjiang;
6:2:84:4 Electrodeposition mechanism and characterization of Ni-Cu alloy coatings from a eutectic-based ionic liquid
DOI:10.1016/j.apsusc.2013.10.065 JN:APPLIED SURFACE SCIENCE PY:2014 TC:13 AU: Wang, Shaohua;Guo, Xingwu;Yang, Haiyan;Dai, JiChun;Zhu, Rongyu;Gong, Jia;Peng, Liming;Ding, Wenjiang;
6:2:84:5 Electroplated Fe films prepared from a deep eutectic solvent
DOI:10.1063/1.4870319 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:2 AU: Yanai, T.;Shiraishi, K.;Shimokawa, T.;Watanabe, Y.;Ohgai, T.;Nakano, M.;Suzuki, K.;Fukunaga, H.;
6:2:84:6 Strengthening mechanisms in solution treated Mg-yNd-zZn-xZr alloy
DOI:10.1007/s10853-013-7436-0 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:3 AU: Li, Zhenming;Fu, Penghuai;Peng, Liming;Wang, Yingxin;Jiang, Haiyan;
6:2:84:7 Electrodeposition of Ni-Co-Sn alloy from choline chloride-based deep eutectic solvent and characterization as cathode for hydrogen evolution in alkaline solution
DOI:10.1016/j.ijhydene.2013.06.068 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2013 TC:15 AU: Vijayakumar, J.;Mohan, S.;Kumar, S. Anand;Suseendiran, S. R.;Pavithra, S.;
6:2:84:8 Structure, composition and corrosion resistance studies of Co-Cr alloy electrodeposited from deep eutectic solvent (DES)
DOI:10.1016/j.jallcom.2012.01.140 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:16 AU: Saravanan, Gengan;Mohan, Subramanian;
6:2:84:9 Using deep eutectic solvents to electrodeposit CoSm films and nanowires
DOI:10.1016/j.matlet.2011.08.003 JN:MATERIALS LETTERS PY:2011 TC:21 AU: Cojocaru, P.;Magagnin, L.;Gomez, E.;Valles, E.;
6:2:84:10 Texture and temperature dependence on the mechanical characteristics of copper electrodeposits
DOI:10.1016/j.msea.2012.09.006 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:0 AU: Song, Jenn-Ming;Wang, Ding-Siang;Yeh, Chung-Hsien;Lu, Wei-Chih;Tsou, Yung-Sheng;Lin, Shi-Ching;
6:2:85:1 The effect of Ca and RE elements on the precipitation kinetics of Mg17Al12 phase during artificial aging of magnesium alloy AZ91
DOI:10.1016/j.msea.2011.03.022 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:13 AU: Esgandari, B. Amir;Mehrjoo, H.;Nami, B.;Miresmaeili, S. M.;
6:2:85:2 Improvement of high temperature fatigue lifetime in AZ91 magnesium alloy by heat treatment
DOI:10.1016/j.msea.2013.09.067 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: Mokhtarishirazabad, Mehdi;Azadi, Mohammad;Farrahi, Gholam Hossein;Winter, Gerhard;Eichlseder, Wilfred;
6:2:85:3 Effect of rare earth elements on high cycle fatigue behavior of AZ91 alloy
DOI:10.1016/j.msea.2013.08.075 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:5 AU: Mokhtarishirazabad, M.;Boutorabi, S. M. A.;Azadi, M.;Nikravan, M.;
6:2:85:4 The effect of different rare earth elements content on microstructure, mechanical and wear behavior of Mg-Al-Zn alloy
DOI:10.1016/j.msea.2009.11.061 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:14 AU: Asl, Kaveh Meshinchi;Masoudi, Afshin;Khomamizadeh, Farzad;
6:2:85:5 Effect of Ca, RE elements and semi-solid processing on the microstructure and creep properties of AZ91 alloy
DOI:10.1016/j.msea.2010.10.004 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:15 AU: Nami, B.;Shabestari, S. G.;Razavi, H.;Mirdamadi, Sh.;Miresmaeili, S. M.;
6:2:85:6 Impression creep properties of a semi-solid processed magnesium-aluminum alloy containing calcium and rare earth elements
DOI:10.1016/j.scriptamat.2011.04.011 JN:SCRIPTA MATERIALIA PY:2011 TC:6 AU: Nami, B.;Razavi, H.;Miresmaeili, S. M.;Mirdamadi, Sh.;Shabestari, S. G.;
6:2:85:7 Dry sliding wear behaviour of Mg-Si alloys
DOI:10.1016/j.wear.2013.02.020 JN:WEAR PY:2013 TC:7 AU: Kumar, K. K. Ajith;Pillai, U. T. S.;Pai, B. C.;Chakraborty, M.;
6:2:85:8 Growth kinetics of cellular precipitation in a Mg-8.5Al-0.5Zn-0.2Mn (wt.%) alloy
DOI:10.1016/j.msea.2010.08.052 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:4 AU: Contreras-Piedras, Edgar;Esquivel-Gonzalez, Ramon;Lopez-Hirata, Victor M.;Saucedo-Munoz, M. L.;Paniagua-Mercado, Ana M.;Dorantes-Rosales, Hector J.;
6:2:85:9 Effect of Zn on the microstructure and mechanical properties of Mg-Si alloy
DOI:10.1016/j.msea.2010.01.074 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:7 AU: Zhang, Erlin;Wei, Xushu;Yang, Lei;Xu, Jianwei;Song, Chunmei;
6:2:86:1 On the importance of a connected hard-phase skeleton for the creep resistance of Mg alloys
DOI:10.1016/j.actamat.2012.01.017 JN:ACTA MATERIALIA PY:2012 TC:15 AU: Amberger, Dorothea;Eisenlohr, Philip;Goeken, Mathias;
6:2:86:2 Deformation Behavior of the Percolating Intermetallic Microstructure of High Pressure Die Cast AZ91 Alloy
DOI:10.1002/adem.201300138 JN:ADVANCED ENGINEERING MATERIALS PY:2013 TC:5 AU: Zhang, Bao;Nagasekhar, Anumalasetty V.;Sivarupan, Tharmalingam;Caceres, Carlos H.;
6:2:86:3 The skin effect and the yielding behavior of cold chamber high pressure die cast Mg-Al alloys
DOI:10.1016/j.msea.2012.02.029 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:10 AU: Yang, K. Vanna;Caceres, C. H.;Nagasekhar, A. V.;Easton, M. A.;
6:2:86:4 A microplasticity-based definition of the skin in HPDC Mg-Al alloys
DOI:10.1016/j.msea.2013.05.018 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:2 AU: Yang, K. Vanna;Caceres, C. H.;Easton, M. A.;
6:2:86:5 Transmission electron microscopy and thermodynamic studies of CaO-added AZ31 Mg alloys
DOI:10.1016/j.actamat.2013.02.015 JN:ACTA MATERIALIA PY:2013 TC:2 AU: Jeong, Jiwon;Im, Jiseong;Song, Kyung;Kwon, Minhyeok;Kim, Shae Kwang;Kang, Youn-Bae;Oh, Sang Ho;
6:2:86:6 Thermo-dynamic analysis on solid-state reduction of CaO particles dispersed in Mg-Al alloy
DOI:10.1016/j.matchemphys.2011.05.017 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2011 TC:5 AU: Kondoh, Katsuyoshi;Fujita, Junji;Umeda, Junko;Imai, Hisashi;Enami, Keitaro;Ohara, Masaki;Igarashi, Takanori;
6:2:86:7 The Effect of Solidification Dynamics on the Formation of the Skin in Die Cast Mg-Al and Mg-RE Alloys
DOI:10.1002/adem.201200188 JN:ADVANCED ENGINEERING MATERIALS PY:2013 TC:4 AU: Yang, Kun Vanna;Easton, Mark A.;Caceres, Carlos H.;
6:2:86:8 Mechanical properties as a function of microstructure in the new Mg-Al-Ca-La alloy solidified under different conditions
DOI:10.1016/j.msea.2010.03.041 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:5 AU: Ferri, Thiago V.;Figueiredo, Arlan P.;Ferreira, Carlos R. F.;Hormaza, Wilson;Santos, Carlos A.;Spim, Jaime A.;
6:2:86:9 Interrupted creep behaviour of Mg alloys developed for powertrain applications
DOI:10.1016/j.msea.2009.12.010 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:8 AU: Mondal, A. K.;Fechner, D.;Kumar, S.;Dieringa, H.;Maier, P.;Kainer, K. U.;
6:2:86:10 The development of the skin in HPDC Mg-Al alloys
DOI:10.1016/j.msea.2013.05.017 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:2 AU: Yang, K. Vanna;Easton, M. A.;Caceres, C. H.;
6:2:86:11 Strengthening by the percolating intergranular eutectic in an HPDC Mg-Ce alloy
DOI:10.1016/j.msea.2014.01.074 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:6 AU: Zhang, Bao;Nagasekhar, Anumalasetty V.;Tao, Xiaoma;Ouyang, Yifang;Caceres, Carlos H.;Easton, Mark;
6:2:86:12 Improved bending fatigue and corrosion properties of a Mg-Al-Mn alloy by super vacuum die casting
DOI:10.1016/j.scriptamat.2012.08.010 JN:SCRIPTA MATERIALIA PY:2012 TC:7 AU: Wen, Wei;Luo, Alan A.;Zhai, Tongguang;Jin, Yan;Cheng, Yang-Tse;Hoffmann, Ilona;
6:2:87:1 Effect of temperature and strain rate on the tensile properties related to hot cracking of C-sf/AZ91D composites
DOI:10.1016/j.msea.2013.12.056 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Liu, Jian;Qi, Lehua;Liu, Peng;Guan, Juntao;Zhou, Jiming;
6:2:87:2 Tensile properties and damage behaviors of C-sf/Mg composite at elevated temperature and containing a small fraction of liquid
DOI:10.1016/j.compscitech.2012.07.014 JN:COMPOSITES SCIENCE AND TECHNOLOGY PY:2012 TC:8 AU: Qi, Lehua;Liu, Jian;Guan, Juntao;Zhou, Jiming;Li, Hejun;
6:2:87:3 Mechanical properties and microstructure of as-extruded AZ31 Mg alloy at high temperatures
DOI:10.1016/j.msea.2011.09.036 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:6 AU: Jiang, Bin;Liu, Wenjun;Chen, Siqiang;Yang, Qingshan;Pan, Fusheng;
6:2:87:4 Compressive behavior of C-sf/AZ91D composites by liquid-solid extrusion directly following vacuum infiltration technique
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6:2:87:5 Compressive deformation behavior of Mg and Mg/(Y2O3 + Ni) nanocomposites
DOI:10.1016/j.msea.2010.05.025 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:7 AU: Tun, K. S.;Gupta, M.;
6:2:87:6 Constitutive behavior of C-sf/AZ91D composites compressed at elevated temperature and containing a small fraction of liquid
DOI:10.1016/j.compscitech.2011.02.011 JN:COMPOSITES SCIENCE AND TECHNOLOGY PY:2011 TC:5 AU: Qi, Lehua;Wang, Zhenjun;Zhou, Jiming;Su, Lizheng;Li, Hejun;
6:2:87:7 Microstructure evolution and mechanical properties of Al2O3sf/AZ91D magnesium matrix composites fabricated by squeeze casting
DOI:10.1007/s10853-010-4367-x JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:16 AU: Zhao, Zude;Chen, Qiang;Tang, Zejun;Wang, Yanbin;Ning, Haiqing;
6:2:87:8 Study of hot tearing of A206 aluminum alloy using Instrumented Constrained T-shaped Casting method
DOI:10.1016/j.matchar.2009.12.015 JN:MATERIALS CHARACTERIZATION PY:2010 TC:8 AU: Esfahani, M. R. Nasr;Niroumand, B.;
6:2:87:9 Hot tearing of aluminum-copper B206 alloys with iron and silicon additions
DOI:10.1016/j.msea.2010.08.025 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:11 AU: Kamga, H. Kamguo;Larouche, D.;Bournane, M.;Rahem, A.;
6:2:87:10 The influence of Ti on the microstructure and tensile properties of cast Al-4.5Cu-0.3Mg alloy
DOI:10.1016/j.msea.2013.10.032 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Kamali, H.;Emamy, M.;Razaghian, A.;
6:2:87:11 Comparative property study on extruded Mg-HAP and ZM61-HAP composites
DOI:10.1016/j.msea.2010.06.031 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:8 AU: Khanra, Asit Kumar;Jung, Hwa Chul;Hong, Kug Sun;Shin, Kwang Seon;
6:2:88:1 Texture in ultra-strength Ti-25Ta-25Nb alloy strips
DOI:10.1016/j.jallcom.2013.04.125 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:3 AU: Cojocaru, V. D.;Raducanu, D.;Gordin, D. M.;Cinca, I.;
6:2:88:2 An experimental study on the mechanism of texture evolution during hot-rolling process in a beta titanium alloy
DOI:10.1016/j.jallcom.2014.03.070 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:4 AU: Kou, Hongchao;Chen, Yi;Tang, Bin;Cui, Yuwen;Sun, Feng;Li, Jinshan;Xue, Xiangyi;
6:2:88:3 Effect of extrusion temperature on texture evolution and recrystallization in extruded Mg-1% Mn and Mg-1% Mn-1.6% Sr alloys
DOI:10.1016/j.jallcom.2012.12.078 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:13 AU: Borkar, Hemant;Gauvin, Raynald;Pekguleryuz, Mihriban;
6:2:88:4 Texture evolution during ARB (Accumulative Roll Bonding) processing of Ti-10Zr-5Nb-5Ta alloy
DOI:10.1016/j.jallcom.2012.08.103 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:10 AU: Cojocaru, Vasile-Danut;Raducanu, Doina;Gordin, Doina Margareta;Cinca, Ion;
6:2:88:5 Grain boundary character distribution and texture evolution in cold-drawn Ti-45Nb wires
DOI:10.1016/j.matlet.2013.02.043 JN:MATERIALS LETTERS PY:2013 TC:5 AU: Chen, Yi;Li, Jinshan;Tang, Bin;Kou, Hongchao;Zhang, Fengshou;Chang, Hui;Zhou, Lian;
6:2:88:6 Texture and anisotropy of a hot rolled Ti-16Nb alloy
DOI:10.1016/j.jallcom.2010.04.022 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:12 AU: Banumathy, S.;Mandal, R. K.;Singh, A. K.;
6:2:89:1 Phase selection during calcium silicide formation for layered and powder growth
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6:2:89:2 Phase formation in Mg-Sn-Si and Mg-Sn-Si-Ca alloys
DOI:10.1016/j.jallcom.2010.12.052 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:16 AU: Kozlov, A.;Groebner, J.;Schmid-Fetzer, R.;
6:2:89:3 Thermodynamic Database for Mg Alloys-Progress in Multicomponent Modeling
DOI:10.3390/met2030377 JN:METALS PY:2012 TC:2 AU: Schmid-Fetzer, Rainer;Groebner, Joachim;
6:2:89:4 Thermodynamic modeling of the Mg-Ce-Gd-Y system
DOI:10.1016/j.scriptamat.2010.01.035 JN:SCRIPTA MATERIALIA PY:2010 TC:10 AU: Groebner, Joachim;Schmid-Fetzer, Rainer;
6:2:89:5 Thermodynamic optimization of La-Zn and La-Mg-Zn systems
DOI:10.1016/j.jallcom.2010.03.062 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:12 AU: Qi, H. Y.;Huang, G. X.;Liu, R. D.;Zhang, K.;Liu, L. B.;Jin, Z. P.;
6:2:89:6 The role of Ca on the microstructure and corrosion behavior of Mg-8Sn-1Al-1Zn-Ca alloys
DOI:10.1016/j.jallcom.2013.12.077 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:2 AU: Liu, Qiang;Cheng, Weili;Zhang, Hui;Xu, Chunxiang;Zhang, Jinshan;
6:2:89:7 Experimental study and phase diagram calculation in Al-Zn-Mg-Si quaternary system
DOI:10.1016/j.jallcom.2010.04.089 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:7 AU: Li, Qian;Zhao, Yang-Zi;Luo, Qun;Chen, Shuang-Lin;Zhang, Jie-Yu;Chou, Kuo-Chih;
6:2:89:8 Thermodynamic description of the Cr-Sn-Ti system
DOI:10.1016/j.jallcom.2010.03.140 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:1 AU: Gao, Yongliang;Guo, Cuiping;Li, Changrong;Du, Zhenmin;
6:2:89:9 Thermodynamic assessment of La-Si and Mg-La-Si systems
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6:2:89:10 Solidifying incongruently melting intermetallic phases as bulk single phases using the example of Al2Cu and Q-phase in the Al-Mg-Cu-Si system
DOI:10.1016/j.jallcom.2011.11.119 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:1 AU: Loeffler, Andrea;Groebner, Joachim;Hampl, Milan;Engelhardt, Hannes;Schmid-Fetzer, Rainer;Rettenmayr, Markus;
6:2:89:11 A new quaternary phase observed in a laser treated Zn-Al-Mg-Si coating
DOI:10.1016/j.jallcom.2013.11.216 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:2 AU: Chen, Z.;Peng, C. -T.;Liu, Q.;Smith, R.;Nolan, D.;
6:2:90:1 Sodium-induced embrittlement of an aluminum grain boundary
DOI:10.1103/PhysRevB.82.224107 JN:PHYSICAL REVIEW B PY:2010 TC:10 AU: Zhang, Shengjun;Kontsevoi, Oleg Y.;Freeman, Arthur J.;Olson, Gregory B.;
6:2:90:2 First-principles determination of the effect of boron on aluminum grain boundary cohesion
DOI:10.1103/PhysRevB.84.134104 JN:PHYSICAL REVIEW B PY:2011 TC:5 AU: Zhang, Shengjun;Kontsevoi, Oleg Y.;Freeman, Arthur J.;Olson, Gregory B.;
6:2:90:3 Aluminum grain boundary decohesion by dense sodium segregation
DOI:10.1103/PhysRevB.85.214109 JN:PHYSICAL REVIEW B PY:2012 TC:2 AU: Zhang, Shengjun;Kontsevoi, Oleg Y.;Freeman, Arthur J.;Olson, Gregory B.;
6:2:90:4 First principles investigation of zinc-induced embrittlement in an aluminum grain boundary
DOI:10.1016/j.actamat.2011.06.028 JN:ACTA MATERIALIA PY:2011 TC:16 AU: Zhang, Shengjun;Kontsevoi, Oleg Y.;Freeman, Arthur J.;Olson, Gregory B.;
6:2:90:5 First-principles study of the effect of phosphorus on nickel grain boundary
DOI:10.1063/1.4863181 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:2 AU: Liu, Wenguan;Ren, Cuilan;Han, Han;Tan, Jie;Zou, Yang;Zhou, Xingtai;Huai, Ping;Xu, Hongjie;
6:2:90:6 Cohesion enhancing effect of magnesium in aluminum grain boundary: A first-principles determination
DOI:10.1063/1.4725512 JN:APPLIED PHYSICS LETTERS PY:2012 TC:4 AU: Zhang, Shengjun;Kontsevoi, Oleg Y.;Freeman, Arthur J.;Olson, Gregory B.;
6:2:91:1 Ductility enhancement of extruded magnesium via yttrium addition
DOI:10.1016/j.msea.2010.03.054 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:26 AU: Wu, B. L.;Zhao, Y. H.;Du, X. H.;Zhang, Y. D.;Wagner, F.;Esling, C.;
6:2:91:2 Microstructure development and texture evolution of ME20 sheets processed by accumulative roll bonding
DOI:10.1016/j.matlet.2011.03.104 JN:MATERIALS LETTERS PY:2011 TC:9 AU: Li, X.;Al-Samman, T.;Gottstein, G.;
6:2:91:3 Experimental and numerical analysis of hot tearing susceptibility for Mg-Y alloys
DOI:10.1007/s10853-013-7712-z JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:3 AU: Wang, Zhi;Huang, Yuanding;Srinivasan, Amirthalingam;Liu, Zheng;Beckmann, Felix;Kainer, Karl Ulrich;Hort, Norbert;
6:2:91:4 A macro- and micromechanics investigation of hot cracking in duplex steels
DOI:10.1016/j.actamat.2012.03.040 JN:ACTA MATERIALIA PY:2012 TC:11 AU: Martin, Guilhem;Yerra, Sampath Kumar;Brechet, Yves;Veron, Muriel;Mithieux, Jean-Denis;Chehab, Bechir;Delannay, Laurent;Pardoen, Thomas;
6:2:91:5 Influence of additions of Zr, Ti-B, Sr, and Si as well as of mold temperature on the hot-tearing susceptibility of an experimental Al-2% Cu-1% Si alloy
DOI:10.1007/s10853-012-6269-6 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:10 AU: Nabawy, A. M.;Samuel, A. M.;Samuel, F. H.;Doty, H. W.;
6:2:91:6 An investigation on hot-cracking mechanism of Sr addition into Mg-6Al-0.5Mn alloy
DOI:10.1007/s10853-011-5997-3 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:3 AU: Li, Shuang-Shou;Tang, Bin;Jin, Xin-Yan;Zeng, Da-Ben;
6:2:91:7 Finite element simulation of accumulative roll-bonding process
DOI:10.1016/j.matlet.2013.04.093 JN:MATERIALS LETTERS PY:2013 TC:1 AU: Inoue, Tadanobu;Yanagida, Akira;Yanagimoto, Jun;
6:2:92:1 Preparation and characterization of Al11Cr4 phase by diffusion of Al/Cr composite film
DOI:10.1016/j.jallcom.2014.05.022 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:3 AU: Wu, Hang;Zhang, Min;Xu, Bajin;Ling, Guoping;
6:2:92:2 Study on the intermetallic phases in the Mg-Ce system Part II. Diffusion couple investigation
DOI:10.1016/j.jallcom.2010.04.107 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:12 AU: Zhang, X.;Kevorkov, D.;Pekguleryuz, M. O.;
6:2:92:3 Amorphous Al-Mn coating on NdFeB magnets: Electrodeposition from AlCl3-EMIC-MnCl2 ionic liquid and its corrosion behavior
DOI:10.1016/j.matchemphys.2012.03.114 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:10 AU: Chen, Jing;Xu, Bajin;Ling, Guoping;
6:2:92:4 Solid state reaction studies in Fe3O4-TiO2 system by diffusion couple method
DOI:10.1016/j.jallcom.2013.05.114 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:4 AU: Ren, Zhongshan;Hu, Xiaojun;Xue, Xiangxin;Chou, Kuochih;
6:2:92:5 Anomalous triple point effects in the spin-density-wave Cr1-xAlx alloy system
DOI:10.1016/j.jallcom.2014.01.129 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:1 AU: Sheppard, C. J.;Prinsloo, A. R. E.;Alberts, H. L.;Muchono, B.;Strydom, A. M.;
6:2:92:6 Electrical transport and specific heat of a Cr+2.2 at% Al single crystal
DOI:10.1016/j.jmmm.2009.11.035 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2010 TC:2 AU: Alberts, H. L.;Prinsloo, A. R. E.;Strydom, A. M.;
6:2:92:7 Al-Mn coating electrodeposited from ionic liquid on NdFeB magnet with high hardness and corrosion resistance
DOI:10.1016/j.apsusc.2014.03.067 JN:APPLIED SURFACE SCIENCE PY:2014 TC:4 AU: Ding, Jingjing;Xu, Bajin;Ling, Guoping;
6:2:92:8 Electronic structure of Cr-Al alloy: Theory and experiment
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6:2:92:9 Experimental study of the Cu-Ni-Y system at 700 degrees C using diffusion couples and key alloys
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6:2:92:10 Phase equilibria of the Mg-La-Nd system at 500 degrees C
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6:2:92:11 Spin-density-wave effects in the (Cr98.4Al1.6)(100-y)Mo-y alloy system
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6:2:93:1 Effect of 6.25 at% Al addition on structural stability of magnesium under high pressure: A first-principles study
DOI:10.1016/j.jallcom.2010.08.142 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:0 AU: Liu, Qiuxiang;Zhang, Ruijun;
6:2:93:2 The structural, elastic, phonon, thermal and electronic properties of MnX (X=Ni, Pd and Pt) alloys: First-principles calculations
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6:2:93:3 Microstructure evolution of AM60 magnesium alloy semisolid slurry prepared by new SIMA
DOI:10.1016/j.jallcom.2010.02.099 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:16 AU: Jiang Jufu;Wang Ying;Qu Jianjun;Du Zhiming;Sun Yi;Luo Shoujing;
6:2:93:4 Generalized gradient calculations of structural, electronic and optical properties of MgxCd1-xO oxides
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6:2:93:5 Microstructural characterization of the Mg-Al alloy AM50 produced by a newly developed rheo-casting process
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6:2:93:6 Structural, electronic and optical properties of CaxCd1-xO and its conversion from semimetal to wide bandgap semiconductor
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6:2:93:7 First-principles investigation of the structural and mechanical properties of beta '' phase in Mg-Gd alloy system
DOI:10.1016/j.jallcom.2009.11.127 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:4 AU: Tang, Bi-Yu;Chen, Ping;Li, Dong-Lin;Yi, Jian-Xiong;Wen, Li;Peng, Li-Ming;Ding, Wen-Jiang;
6:2:93:8 The electronic, elastic and structural properties of Pd-Zr intermetallic
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6:2:93:9 Effects of Ca content on the microstructure of semisolid Mg-13Al alloy produced via isothermal heat treatment
DOI:10.1016/j.jallcom.2012.04.076 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:2 AU: Zhang, Liang;Wu, Guohua;Cao, Zhanyi;Ding, Wenjiang;
6:2:94:1 Die-casting effect on surface characteristics of thin-walled AZ91D magnesium components
DOI:10.1016/j.apsusc.2012.08.116 JN:APPLIED SURFACE SCIENCE PY:2012 TC:3 AU: Hu, Lifang;Chen, Shaoping;Miao, Yang;Meng, Qingsen;
6:2:94:2 Microstructural characterization of high pressure die cast Mg-Zn-Al-RE alloys
DOI:10.1016/j.matchar.2012.01.001 JN:MATERIALS CHARACTERIZATION PY:2012 TC:9 AU: Xiao, Wenlong;Zhu, Suming;Easton, Mark A.;Dargusch, Matthew S.;Gibson, Mark A.;Nie, Jian-feng;
6:2:94:3 Casting Defects and Mechanical Properties of High Pressure Die Cast Mg-Zn-Al-RE Alloys
DOI:10.1002/adem.201100149 JN:ADVANCED ENGINEERING MATERIALS PY:2012 TC:8 AU: Xiao, Wenlong;Easton, Mark A.;Zhu, Suming;Dargusch, Matthew S.;Gibson, Mark A.;Jia, Shusheng;Nie, Jianfeng;
6:2:94:4 The influence of Zn additions on the microstructure and creep resistance of high pressure die cast magnesium alloy AE44
DOI:10.1016/j.msea.2012.01.077 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:6 AU: Xiao, Wenlong;Easton, Mark A.;Dargusch, Matthew S.;Zhu, Suming;Gibson, Mark A.;
6:2:94:5 Microstructure of die cast and thixocast ZAEX10430 (Mg-10Zn-4Al-3Ce-0.3Ca) alloy
DOI:10.1016/j.matchar.2012.12.004 JN:MATERIALS CHARACTERIZATION PY:2013 TC:1 AU: Amira, S.;Dube, D.;Tremblay, R.;Ghali, E.;
6:2:94:6 Influence of cerium on the microstructure and mechanical properties of ZA104 and ZA104+0.3Ca magnesium alloys
DOI:10.1016/j.msea.2010.08.082 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:3 AU: Tardif, S.;Tremblay, R.;Dube, D.;
6:2:95:1:1 Intrinsic Nonlinear Scale Governs Oscillations in Rapid Fracture
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6:2:95:1:2 Brittle-Quasibrittle Transition in Dynamic Fracture: An Energetic Signature
DOI:10.1103/PhysRevLett.104.045501 JN:PHYSICAL REVIEW LETTERS PY:2010 TC:21 AU: Scheibert, J.;Guerra, C.;Celarie, F.;Dalmas, D.;Bonamy, D.;
6:2:95:1:3 Dynamic Stability of Crack Fronts: Out-Of-Plane Corrugations
DOI:10.1103/PhysRevLett.110.014302 JN:PHYSICAL REVIEW LETTERS PY:2013 TC:2 AU: Adda-Bedia, Mokhtar;Arias, Rodrigo E.;Bouchbinder, Eran;Katzav, Eytan;
6:2:95:2:1 Phase field modeling of crack propagation
DOI:10.1080/14786431003773015 JN:PHILOSOPHICAL MAGAZINE PY:2011 TC:20 AU: Spatschek, Robert;Brener, Efim;Karma, Alain;
6:2:95:2:2 Phase-Field Modeling of Diffusion Coupled Crack Propagation Processes
DOI:10.1002/adem.201300073 JN:ADVANCED ENGINEERING MATERIALS PY:2014 TC:1 AU: Schneider, Daniel;Selzer, Michael;Bette, Johannes;Rementeria, Idoia;Vondrous, Alexander;Hoffmann, Michael J.;Nestler, Britta;
6:2:95:2:3 Comment on "Simulation of damage evolution in composites: A phase-field model"
DOI:10.1016/j.scriptamat.2011.09.040 JN:SCRIPTA MATERIALIA PY:2012 TC:1 AU: Emmerich, H.;Pilipenko, D.;
6:2:95:3:1 Acquisition of Inertia by a Moving Crack
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6:2:95:3:2 Chaos Driven by Interfering Memory
DOI:10.1103/PhysRevLett.113.104101 JN:PHYSICAL REVIEW LETTERS PY:2014 TC:0 AU: Perrard, S.;Labousse, M.;Fort, E.;Couder, Y.;
6:2:95:3:3 Comment on "Lattice Resistance to Dislocation Motion at the Nanoscale'' Reply
DOI:10.1103/PhysRevLett.105.099602 JN:PHYSICAL REVIEW LETTERS PY:2010 TC:1 AU: Dutta, A.;Bhattacharya, M.;Barat, P.;Mukherjee, P.;Gayathri, N.;Das, G. C.;
6:2:95:3:4 Level Splitting at Macroscopic Scale
DOI:10.1103/PhysRevLett.108.264503 JN:PHYSICAL REVIEW LETTERS PY:2012 TC:16 AU: Eddi, A.;Moukhtar, J.;Perrard, S.;Fort, E.;Couder, Y.;
6:2:95:4:1 Multi-field modelling of hydride forming metals. Part I: Model formulation and validation
DOI:10.1016/j.commatsci.2013.11.034 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:1 AU: Jernkvist, L. O.;Massih, A. R.;
6:2:95:4:2 Multi-field modelling of hydride forming metals Part II: Application to fracture
DOI:10.1016/j.commatsci.2013.11.035 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:1 AU: Jernkvist, L. O.;
6:2:96:1 Thermal and electrical conductivity of binary magnesium alloys
DOI:10.1007/s10853-013-8012-3 JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:5 AU: Pan, Hucheng;Pan, Fusheng;Yang, Rumin;Peng, Jian;Zhao, Chaoyong;She, Jia;Gao, Zhengyuan;Tang, Aitao;
6:2:96:2 Improved age-hardening behavior of Mg-Sn-Mn alloy by addition of Ag and Zn
DOI:10.1016/j.msea.2012.05.033 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:17 AU: Huang, X. -F.;Zhang, W. -Z.;
6:2:96:3 Effect of impurity reduction on rollability of AZ31 magnesium alloy
DOI:10.1007/s10853-011-5828-6 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:4 AU: Chen, Xianhua;Pan, Fusheng;Mao, Jianjun;Huang, Jiansheng;
6:2:96:4 Characterization and interpretation on the new crystallographic features of a twin-related epsilon'-Mg54Ag17 precipitates in an Mg-Sn-Mn-Ag-Zn alloy
DOI:10.1016/j.jallcom.2013.08.112 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:1 AU: Huang, Xuefei;Zhang, Wenzheng;
6:2:96:5 Characterization and interpretation of the morphology of a Mg2Sn precipitate with irrational facets in a Mg-Sn-Mn alloy
DOI:10.1080/14786435.2011.640294 JN:PHILOSOPHICAL MAGAZINE PY:2012 TC:7 AU: Shi, Z. -Z.;Zhang, W. -Z.;Gu, X. -F.;
6:2:96:6 Thermal characteristics of Mg-Zn-Mn alloys with high specific strength and high thermal conductivity
DOI:10.1016/j.jallcom.2013.03.184 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:7 AU: Yuan, Jiawei;Zhang, Kui;Zhang, Xuhu;Li, Xinggang;Li, Ting;Li, Yongjun;Ma, Minglong;Shi, Guoliang;
6:2:96:7 Thermal conductivity of as-cast and as-extruded binary Mg-Al alloys
DOI:10.1016/j.jallcom.2014.04.107 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:2 AU: Ying, T.;Zheng, M. Y.;Li, Z. T.;Qiao, X. G.;
6:2:96:8 A transmission electron microscopy investigation of crystallography of tau-Mg-32(Al, Zn)(49) precipitates in a Mg-Zn-Al alloy
DOI:10.1016/j.scriptamat.2010.09.044 JN:SCRIPTA MATERIALIA PY:2011 TC:6 AU: Shi, Z-Z;Zhang, W-Z;
6:2:97:1 Influence of post-weld hot rolling on the microstructure and mechanical properties of AZ31 magnesium alloy sheet
DOI:10.1016/j.msea.2013.09.020 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:3 AU: Chai, Sensen;Zhang, Dingfei;Pan, Fusheng;Dong, Jingren;Guo, Fei;Dong, Yufeng;
6:2:97:2 Anisotropy of flow during isothermal forging of rolled AZ31B magnesium alloy rolled plate in three orthogonal directions: Correlation with processing maps
DOI:10.1016/j.msea.2012.07.040 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:4 AU: Rao, K. P.;Prasad, Y. V. R. K.;Suresh, K.;
6:2:97:3 Fabrication of excellent mechanical properties AZ31 magnesium alloy sheets by conventional rolling and subsequent annealing
DOI:10.1016/j.msea.2011.05.023 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:14 AU: Miao Qing;Hu Lianxi;Wang Guojun;Wang Erde;
6:2:97:4 Texture evolution in Nd:YAG-laser welds of AZ31 magnesium alloy hot rolled sheets and its influence on mechanical properties
DOI:10.1016/j.msea.2010.11.061 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:4 AU: Commin, Lorelei;Dumont, Myriam;Rotinat, Rene;Pierron, Fabrice;Masse, Jean-Eric;Barrallier, Laurent;
6:2:97:5 Influence of the microstructural changes and induced residual stresses on tensile properties of wrought magnesium alloy friction stir welds
DOI:10.1016/j.msea.2012.05.021 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:6 AU: Commin, Lorelei;Dumont, Myriam;Rotinat, Rene;Pierron, Fabrice;Masse, Jean-Eric;Barrallier, Laurent;
6:2:97:6 Direct strip casting and hot rolling of an AZ31 magnesium alloy
DOI:10.1016/j.msea.2010.09.052 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:7 AU: Zi, Aikaterini;Palkowski, Heinz;
6:2:97:7 Effect of Grain Refiners and Casting Thickness on the Microstructure Development and Mechanical Properties of DSC-Cast AZ31B Magnesium Strips
DOI:10.1002/adem.201300092 JN:ADVANCED ENGINEERING MATERIALS PY:2014 TC:0 AU: Palkowski, Heinz;Akdesir, Mithat;
6:2:97:8 Effects of TiO2 coating on the microstructures and mechanical properties of tungsten inert gas welded AZ31 magnesium alloy joints
DOI:10.1016/j.msea.2011.06.014 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:11 AU: Wang, Linzhi;Shen, Jun;Xu, Nan;
6:2:98:1 An ab initio study on the electronic structures of the solid/liquid interface between TiB2 (0001) surface and Al melts
DOI:10.1016/j.jallcom.2014.07.053 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:1 AU: Zhang, H. L.;Han, Y. F.;Dai, Y. B.;Lu, S. S.;Wang, J.;Zhang, J.;Shu, D.;Sun, B. D.;
6:2:98:2 In situ observation of the orientation relationship at the interface plane between substrate and nucleus using X-ray scattering techniques
DOI:10.1016/j.scriptamat.2014.01.023 JN:SCRIPTA MATERIALIA PY:2014 TC:2 AU: Brown, A. J.;Dong, H. B.;Howes, P. B.;Nicklin, C. L.;
6:2:98:3 An ab initio study of the elastic behavior of single crystal group (IV) diborides at elevated temperatures
DOI:10.1063/1.3514238 JN:APPLIED PHYSICS LETTERS PY:2010 TC:2 AU: Gonzales, Manny;Chessa, Jack;Ramana, C. V.;
6:2:98:4 An ab initio molecular dynamics study on the structural and electronic properties of AlB2, TiB2 and (Al-x, Ti(1-x))B-2 in Al-Ti-B master alloys
DOI:10.1016/j.jallcom.2013.09.179 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:3 AU: Zhang, H. L.;Han, Y. F.;Wang, J.;Dai, Y. B.;Sun, B. D.;
6:2:98:5 Shape rheocasting of unmodified Al-Si binary eutectic
DOI:10.1016/j.matlet.2011.02.040 JN:MATERIALS LETTERS PY:2011 TC:4 AU: Curle, U. A.;Moeller, H.;Wilkins, J. D.;
6:2:98:6 Shape rheocasting of high purity aluminium
DOI:10.1016/j.scriptamat.2010.11.010 JN:SCRIPTA MATERIALIA PY:2011 TC:7 AU: Curle, U. A.;Moeller, H.;Wilkins, J. D.;
6:2:98:7 A quantitative model for describing crystal nucleation in pressurized solidification during squeeze casting
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6:2:98:8 A computational analysis of a ZrO2-SiO2 scale for a ZrB2-ZrC-Zr ultrahigh temperature ceramic composite system
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6:2:99:1 The solidification behavior of the AZ61 magnesium alloy during electromagnetic vibration processing
DOI:10.1016/j.jallcom.2010.01.025 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:16 AU: Li, Mingjun;Tamura, Takuya;Omura, Naoki;Miwa, Kenji;
6:2:99:2 Consolidation behavior of Mg-10Gd-2Y-0.5Zr chips during solid-state recycling
DOI:10.1016/j.jallcom.2010.05.011 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:5 AU: Peng, T.;Wang, Q. D.;Han, Y. K.;Zheng, J.;Guo, W.;
6:2:99:3 Refining microstructure of AZ91 magnesium alloy by introducing limited angular oscillation during initial stage of solidification
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6:2:99:4 Microstructure and high tensile strength of Mg-10Gd-2Y-0.5Zr alloy by solid-state recycling
DOI:10.1016/j.msea.2010.09.070 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:4 AU: Peng, Tao;Wang, Qudong;Han, York;Zheng, Jiang;Guo, Wei;
6:2:99:5 Microstructural evolution and microhardness change of Al-7wt%Si-0.3wt%Mg alloy granules/powder particles during high energy ball milling
DOI:10.1016/j.msea.2013.10.050 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Liang, J. M.;Jiab, M. T.;Guo, X. Q.;Zhang, D. L.;
6:2:99:6 Fabrication and characterization of nanostructured Ti6Al4V powder from machining scraps
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6:2:99:7 Refinement of intermetallic compounds and aluminum matrix in 3xxx aluminum alloys solidified by an electromagnetic vibration technique
DOI:10.1016/j.jallcom.2014.05.044 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:0 AU: Li, Mingjun;Tamura, Takuya;Omura, Naoki;Murakami, Yuichiro;Tada, Shuji;Miwa, Kenji;Takahashi, Koichi;
6:2:100:1 Tensile properties and strain-hardening behaviour of friction stir welded SiCp/AA2009 composite joints
DOI:10.1016/j.msea.2014.04.060 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:8 AU: Ni, D. R.;Chen, D. L.;Wang, D.;Xiao, B. L.;Ma, Z. Y.;
6:2:100:2 Effect of welding parameters on microstructure and mechanical properties of friction stir welded 2219Al-T6 joints
DOI:10.1007/s10853-012-6261-1 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:13 AU: Zhang, Z.;Xiao, B. L.;Ma, Z. Y.;
6:2:100:3 Effect of welding parameters on microstructure and mechanical properties of friction stir welded Al-Mg-Er alloy
DOI:10.1016/j.msea.2012.09.041 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:15 AU: Hao, H. L.;Ni, D. R.;Huang, H.;Wang, D.;Xiao, B. L.;Nie, Z. R.;Ma, Z. Y.;
6:2:100:4 Microstructure evolution and elemental diffusion of SiCp/Al-Cu-Mg composites prepared from elemental powder during hot pressing
DOI:10.1007/s10853-011-5636-z JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:6 AU: Zhang, Q.;Xiao, B. L.;Liu, Z. Y.;Ma, Z. Y.;
6:2:100:5 Effect of solution temperature on aging behavior and properties of SiCp/Al-Cu-Mg composites
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6:2:101:1 Effect of alloying and extrusion temperature on the microstructure and mechanical properties of Mg-Zn and Mg-Zn-RE alloys
DOI:10.1016/j.msea.2014.09.085 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Ross, N. G.;Barnett, M. R.;Beer, A. G.;
6:2:101:2 Microstructures and mechanical properties of quasicrystal reinforced AZ31 matrix composites
DOI:10.1016/j.msea.2011.09.110 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:6 AU: Wang, Xudong;Du, Wenbo;Wang, Zhaohui;Liu, Ke;Li, Shubo;
6:2:101:3 Fatigue design factors for ECAPed materials
DOI:10.1016/j.msea.2010.09.080 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:8 AU: Djavanroodi, F.;Ebrahimi, M.;Rajabifar, B.;Akramizadeh, S.;
6:2:101:4 Effect of ECAP on microstructure and mechanical properties of ZE41 magnesium alloy
DOI:10.1016/j.msea.2010.02.030 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:10 AU: Ding, Rengen;Chung, Chuanwei;Chiu, Yulung;Lyon, Paul;
6:2:101:5 Tensile and creep behaviors of Mg-5Zn-2.5Er alloy improved by icosahedral quasicrystal
DOI:10.1016/j.msea.2009.10.006 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:10 AU: Li, Jianhui;Du, Wenbo;Li, Shubo;Wang, Zhaohui;
6:2:101:6 Crystallographic relationship of orthorhombic phi-Al5Mg11Zn4 phase to icosahedral quasicrystalline phase
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6:2:101:7 Effects of chemical composition on the microstructure and mechanical properties of gravity cast Mg-xZn-yRE-Zr alloy
DOI:10.1016/j.msea.2013.11.040 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:5 AU: Wang, Yingdong;Wu, Guohua;Liu, Wencai;Pang, Song;Zhang, Yang;Ding, Wenjiang;
6:2:102:1 Heat treatment, microstructure and mechanical properties of a Mg-Gd-Y alloy grain-refined by Al additions
DOI:10.1016/j.msea.2013.04.016 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:7 AU: Dai, Jichun;Zhu, Suming;Easton, Mark A.;Zhang, Mingxing;Qiu, Dong;Wu, Guohua;Liu, Wencai;Ding, Wenjiang;
6:2:102:2 Precipitation process in a Mg-Gd-Y alloy grain-refined by Al addition
DOI:10.1016/j.matchar.2013.10.010 JN:MATERIALS CHARACTERIZATION PY:2014 TC:3 AU: Dai, Jichun;Zhu, Suming;Easton, Mark A.;Xu, Wenfan;Wu, Guohua;Ding, Wenjiang;
6:2:102:3 Effect of microstructures and texture development on tensile properties of Mg-10Gd-3Y alloy
DOI:10.1016/j.msea.2010.12.009 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:18 AU: Liu, W. C.;Dong, J.;Song, X.;Belnoue, J. P.;Hofmann, F.;Ding, W. J.;Korsunsky, A. M.;
6:2:102:4 Tensile fracture behaviour of Cu- and Ni/Cu-coated Mg alloy (AZ61)
DOI:10.1016/j.msea.2012.07.098 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:1 AU: Huang, Ching An;Yeh, Yu Hu;Liu, De Min;
6:2:102:5 Grain refinement of Mg-10Gd alloy by Al additions
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6:2:102:6 The nucleation crystallography and wettability of Mg grains on active Al2Y inoculants in an Mg-10 wt% Y Alloy
DOI:10.1016/j.jallcom.2013.10.042 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:3 AU: Qiu, Dong;Zhang, Ming-Xing;
6:2:103:1 An investigation into the hot ductility behavior of AZ81 magnesium alloy
DOI:10.1016/j.msea.2012.03.112 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:13 AU: Sabokpa, O.;Zarei-Hanzaki, A.;Abedi, H. R.;
6:2:103:2 Hot ductility behavior of a low carbon advanced high strength steel (AHSS) microalloyed with boron
DOI:10.1016/j.msea.2011.02.040 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:13 AU: Mejia, I.;Bedolla-Jacuinde, A.;Maldonado, C.;Cabrera, J. M.;
6:2:103:3 Characteristics of 30MnB5 boron steel at elevated temperatures
DOI:10.1016/j.msea.2013.04.116 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:5 AU: Guler, Hande;Ertan, Rukiye;Ozcan, Resat;
6:2:103:4 The relationship between the Uniaxial Creep Test and the Small Punch Creep Test of the AZ31 magnesium alloy
DOI:10.1016/j.msea.2014.07.053 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Lorenzo, M.;Cuesta, I. I.;Alegre, J. M.;
6:2:103:5 Investigation of the hot ductility of a high-strength boron steel
DOI:10.1016/j.msea.2014.04.053 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:6 AU: Guler, Hande;Ertan, Rukiye;Ozcan, Rest;
6:2:103:6 Optimization of chemical compositions in low-carbon Al-killed enamel steel produced by ultra-fast continuous annealing
DOI:10.1016/j.matchar.2013.07.006 JN:MATERIALS CHARACTERIZATION PY:2013 TC:1 AU: Dong, Futao;Du, Linxiu;Liu, Xianghua;Xue, Fei;
6:2:103:7 Influence of boron on strain hardening behaviour and ductility of low carbon hot rolled steel
DOI:10.1016/j.msea.2011.06.030 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:8 AU: Deva, Anjana;Jha, B. K.;Mishra, N. S.;
6:2:103:8 Effect of niobium and titanium addition on the hot ductility of boron containing steel
DOI:10.1016/j.msea.2011.01.097 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:13 AU: Cho, Kyung Chul;Mun, Dong Jun;Koo, Yang Mo;Lee, Jae Sang;
6:2:104:1 Interaction between prismatic slip and a Mg17Al12 precipitate in magnesium
DOI:10.1016/j.commatsci.2013.07.016 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:1 AU: Liao, M.;Li, B.;Horstemeyer, M. F.;
6:2:104:2 Coupled thermo-mechanical model based comparison of friction stir welding processes of AA2024-T3 in different thicknesses
DOI:10.1007/s10853-011-5537-1 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:14 AU: Zhang, Z.;Chen, J. T.;Zhang, Z. W.;Zhang, H. W.;
6:2:104:3 Friction stir welding of as-extruded Mg-Al-Zn alloy with higher Al content. Part I: Formation of banded and line structures
DOI:10.1016/j.matchar.2014.08.002 JN:MATERIALS CHARACTERIZATION PY:2014 TC:2 AU: Yang, J.;Ni, D. R.;Wang, D.;Xiao, B. L.;Ma, Z. Y.;
6:2:104:4 High-temperature deformation of the gamma-Mg17Al12 complex metallic alloy
DOI:10.1016/j.scriptamat.2011.04.022 JN:SCRIPTA MATERIALIA PY:2011 TC:9 AU: Ragani, J.;Donnadieu, P.;Tassin, C.;Blandin, J. J.;
6:2:104:5 Simulation and experimental investigation of FSP of AZ91 magnesium alloy
DOI:10.1016/j.msea.2011.05.035 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:19 AU: Asadi, P.;Mandavinejad, R. A.;Tutunchilar, S.;
6:2:104:6 Effect of hot-deformation on microstructure and mechanical properties of AZ80 magnesium alloy
DOI:10.1016/j.msea.2013.06.018 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: Wang, Zitian;Yang, Yaqin;Li, Baocheng;Zhang, Yanhui;Zhang, Zhimin;
6:2:105:1 Ab initio study of < 111 > {110} superdislocation properties in B2-MgRE (RE = La-Er) intermetallics
DOI:10.1016/j.commatsci.2012.11.064 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:1 AU: Ma, Li;Pan, Rong-Kai;Fan, Tou-Wen;Tang, Bi-Yu;Peng, Li-Ming;Ding, Wen-Jiang;
6:2:105:2 Mechanical properties and determination of slip systems of the B2 YZn intermetallic compound
DOI:10.1016/j.actamat.2010.04.024 JN:ACTA MATERIALIA PY:2010 TC:7 AU: Cao, G. H.;Becker, A. T.;Wu, D.;Chumbley, L. S.;Lograsso, T. A.;Russell, A. M.;Gschneidner, K. A., Jr.;
6:2:105:3 Why is the slip direction different in different B2 alloys?
DOI:10.1016/j.actamat.2011.10.055 JN:ACTA MATERIALIA PY:2012 TC:8 AU: Lin, Yi-Shen;Cak, M.;Paidar, V.;Vitek, V.;
6:2:105:4 Stacking faults in B2-structured magnesium alloys from first principles calculations
DOI:10.1016/j.commatsci.2011.06.001 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:4 AU: Tang, Ping-Ying;Wen, Li;Tong, Zhang-Fa;Tang, Bi-Yu;Peng, Li-Ming;Ding, Wen-Jiang;
6:2:105:5 Mechanical properties of the B2 NdAg intermetallic compound
DOI:10.1016/j.scriptamat.2011.03.041 JN:SCRIPTA MATERIALIA PY:2011 TC:0 AU: Cao, G. H.;Tian, H. N.;Liu, N.;Li, X.;Ren, Z. M.;
6:2:105:6 Ab initio investigations of phonons and thermodynamic properties of ScZn and YZn in the B2 structure
DOI:10.1016/j.commatsci.2013.03.041 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:1 AU: Soyalp, F.;Yavuz, M.;Yalcin, Z.;
6:2:105:7 Magnetic hyperfine field at Nd sites in NdAg studied by perturbed angular correlation spectroscopy and ab-initio calculations
DOI:10.1016/j.jmmm.2009.07.060 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2010 TC:3 AU: Cavalcante, F. H. M.;Pereira, L. F. D.;Carbonari, A. W.;Mestnik-Filho, J.;Saxena, R. N.;
6:2:105:8 Transmission electron microscopy study of the microstructure of a YCu ductile intermetallic compound, the influence of the start metal purity
DOI:10.1016/j.scriptamat.2011.01.007 JN:SCRIPTA MATERIALIA PY:2011 TC:2 AU: Cao, G. H.;Russell, A. M.;Gschneidner, K. A., Jr.;
6:2:106:1 Theoretical investigation on structural and thermodynamic properties of the intermetallic compound in Mg-Zn-Ag alloy under high pressure and high temperature
DOI:10.1016/j.jallcom.2012.10.165 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:3 AU: Lu Zhi-Wen;Zhou Da-Wei;Bai Jian-Ping;Lu Cheng;Zhong Zhi-Guo;Li Gen-Quan;
6:2:106:2 Effect of compression deformation on the microstructure and corrosion behavior of magnesium alloys
DOI:10.1016/j.jallcom.2012.03.010 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:9 AU: Snir, Y.;Ben-Hamu, G.;Eliezer, D.;Abramov, E.;
6:2:106:3 Modeling the tensile failure of cast magnesium alloys
DOI:10.1016/j.jallcom.2012.05.090 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:7 AU: Weiler, J. P.;Wood, J. T.;
6:2:106:4 Effect of geometric array of eutectic silicon particles and microscopic voids on the tensile behaviour of a cast aluminium alloy
DOI:10.1016/j.msea.2014.01.063 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Lee, Choong Do;So, Tae Il;Shin, Kwang Seon;
6:2:106:5 Effect of T6 heat treatment on the defect susceptibility of fatigue properties to microporosity variations in a low-pressure die-cast A356 alloy
DOI:10.1016/j.msea.2012.08.131 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:2 AU: Lee, Choong Do;
6:2:106:6 Constitutive prediction of the defect susceptibility of tensile properties to microporosity variation in A356 aluminum alloy
DOI:10.1016/j.msea.2014.01.091 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Do Lee, Choong;Shin, Kwang Seon;
6:2:107:1 Influence of deformation twinning on static annealing of AZ31 Mg alloy
DOI:10.1016/j.actamat.2013.06.037 JN:ACTA MATERIALIA PY:2013 TC:11 AU: Levinson, Amanda;Mishra, Raja K.;Doherty, Roger D.;Kalidindi, Surya R.;
6:2:107:2 Nano grained AZ31 alloy achieved by equal channel angular rolling process
DOI:10.1016/j.msea.2011.05.024 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:11 AU: Hassani, F. Z.;Ketabchi, M.;
6:2:107:3 Large deformation of magnesium sheet at room temperature by preform annealing, part II: "Bending"
DOI:10.1016/j.msea.2014.09.096 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Habibnejad-korayem, Mandi;Jain, Mukesh K.;Mishra, Raja K.;
6:2:107:4 Fast in-situ annealing stage coupled with EBSD: A suitable tool to observe quick recrystallization mechanisms
DOI:10.1016/j.matchar.2012.04.020 JN:MATERIALS CHARACTERIZATION PY:2012 TC:12 AU: Bozzolo, N.;Jacomet, S.;Loge, R. E.;
6:2:107:5 Time-lapse misorientation maps for the analysis of electron backscatter diffraction data from evolving microstructures
DOI:10.1016/j.scriptamat.2011.06.035 JN:SCRIPTA MATERIALIA PY:2011 TC:4 AU: Wheeler, J.;Cross, A.;Drury, M.;Hough, R. M.;Mariani, E.;Piazolo, S.;Prior, D. J.;
6:2:107:6 Nano grained AZ31 alloy achieved by equal channel angular rolling process (vol 528, pg 6426, 2011)
DOI:10.1016/j.msea.2011.12.001 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:0 AU: Hassani, F. Z.;Ketabchi, M.;
6:2:108:1 High ductile as-cast Mg-RE based alloys at room temperature
DOI:10.1016/j.matlet.2011.08.009 JN:MATERIALS LETTERS PY:2012 TC:3 AU: Peng, Qiuming;Huang, Yuanding;Kainer, Karl Ulrich;Hort, Norbert;
6:2:108:2 Development of High Performance Single-Phase Solid Solution Magnesium Alloy at Low Temperature
DOI:10.1002/adem.201100176 JN:ADVANCED ENGINEERING MATERIALS PY:2012 TC:4 AU: Peng, Qiuming;Huang, Yuanding;Kainer, Karl Ulrich;Hort, Norbert;
6:2:108:3 Effect of yttrium addition on lattice parameter, Young's modulus and vacancy of magnesium
DOI:10.1016/j.msea.2010.11.042 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:8 AU: Peng, Qiuming;Meng, Jian;Li, Yangde;Huang, Yuangding;Hort, Norbert;
6:2:108:4 Effects of intermediate frequency magnetic field on the solution treatment of Mg-Gd alloy
DOI:10.1016/j.matlet.2014.02.104 JN:MATERIALS LETTERS PY:2014 TC:0 AU: Hu, Xiaoyu;Peng, Liming;Qian, Shengqian;Fu, Penghuai;Ding, Wenjiang;
6:2:108:5 CALPHAD simulation of the Mg-(Mn, Zr)-Fe system and experimental comparison with as-cast alloy microstructures as relevant to impurity driven corrosion of Mg-alloys
DOI:10.1016/j.matchemphys.2013.11.008 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:8 AU: Gandel, D. S.;Easton, M. A.;Gibson, M. A.;Birbilis, N.;
6:2:109:1 Relation of n-Value to Critical Current for Local Sections and Overall Sample in a SmBCO Coated Conductor Pulled in Tension
DOI:10.2320/matertrans.MBW201301 JN:MATERIALS TRANSACTIONS PY:2014 TC:3 AU: Ochiai, Shojiro;Okuda, Hiroshi;Nagano, Shinji;Sugano, Michinaka;Oh, Sang-Song;Ha, Hong-Soo;Osamura, Kozo;
6:2:109:2 Influences of cracking of coated superconducting layer on voltage-current curve, critical current, and n-value in DyBCO-coated conductor pulled in tension
DOI:10.1063/1.3488014 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:15 AU: Ochiai, S.;Arai, T.;Toda, A.;Okuda, H.;Sugano, M.;Osamura, K.;Prusseit, W.;
6:2:109:3 Relation of Shunting Current at Cracked Part to Critical Current and n-Value in Multifilamentary Bi2223 Composite Tape
DOI:10.2320/matertrans.MAW201201 JN:MATERIALS TRANSACTIONS PY:2012 TC:4 AU: Ochiai, Shojiro;Okuda, Hiroshi;Sugano, Michinaka;Osarnura, Kozo;Otto, Alex;Malozemoff, Alex P.;
6:2:109:4 Tape Length-Dependence of Critical Current and n-Value in Coated Conductor with a Local Crack
DOI:10.2320/matertrans.MAW201401 JN:MATERIALS TRANSACTIONS PY:2014 TC:2 AU: Ochiai, Shojiro;Okuda, Hiroshi;Fujii, Noriyuki;
6:2:109:5 Influence of Copper Volume Fraction on Tensile Strain/Stress Tolerances of Critical Current in a Copper-Plated DyBCO-Coated Conductor
DOI:10.2320/matertrans.MBW201201 JN:MATERIALS TRANSACTIONS PY:2013 TC:3 AU: Ochiai, Shojiro;Okuda, Hiroshi;Arai, Takahiro;Sugano, Michinaka;Osamura, Kozo;Prusseit, Werner;
6:2:109:6 Applicability of Weibull Distribution to Description of Distributed Normalized Critical Current of Bent-Damaged Bi2223 Composite Tape
DOI:10.2320/matertrans.MAW201001 JN:MATERIALS TRANSACTIONS PY:2010 TC:6 AU: Ochiai, Shojiro;Okuda, Hiroshi;Sugano, Michinaka;Hojo, Masaki;Osamura, Kozo;Kuroda, Tsuneo;Kumakura, Hiroaki;Kitaguchi, Hitoshi;Itoh, Kikuo;Wada, Hitoshi;
6:2:109:7 Prediction of variation in critical current with applied tensile/bending strain of Bi2223 composite tape from tensile stress-strain curve
DOI:10.1063/1.3380828 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:6 AU: Ochiai, S.;Okuda, H.;Sugano, M.;Hojo, M.;Osamura, K.;
6:2:110:1 Importance of diffusional creep in fine grained Mg-3Al-1Zn alloys
DOI:10.1016/j.msea.2013.04.061 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:6 AU: Lee, T. J.;Park, Y. B.;Kim, W. J.;
6:2:110:2 High-strength Mg-Al-Ca alloy with ultrafine grain size sensitive to strain rate
DOI:10.1016/j.msea.2010.11.037 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:8 AU: Kim, W. J.;Lee, Y. G.;
6:2:110:3 The influences of extrusion and equal channel angular pressing (ECAP) processes on the fatigue behavior of AM60 magnesium alloy
DOI:10.1016/j.msea.2012.12.062 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:7 AU: Akbaripanah, F.;Fereshteh-Saniee, F.;Mahmudi, R.;Kim, H. K.;
6:2:110:4 Fabrication of ultrafine-grained Mg-3Al-1Zn magnesium alloy sheets using a continuous high-ratio differential speed rolling technique
DOI:10.1016/j.msea.2013.11.066 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:7 AU: Kim, W. Y.;Kim, W. J.;
6:2:110:5 Fatigue Crack Propagation Behavior of Textured Polycrystalline Magnesium Alloys
DOI:10.2320/matertrans.MAW201003 JN:MATERIALS TRANSACTIONS PY:2010 TC:3 AU: Morita, Shigeki;Ohno, Nobuyoshi;Tamai, Fujio;Kawakami, Yuji;
6:2:110:6 Factors influencing tensile ductility of ultrafine-grained Mg-3Al-1Zn alloy sheet at elevated temperatures
DOI:10.1016/j.msea.2010.05.090 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:4 AU: Kim, W. J.;Lee, B. H.;
6:2:111:1 Microstructural characteristics and mechanical properties in laser beam welds of Ti6Al4V alloy
DOI:10.1007/s10853-011-5931-8 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:14 AU: Liu, H.;Nakata, K.;Yamamoto, N.;Liao, J.;
6:2:111:2 Effect of the overlapping factor on the microstructure and mechanical properties of pulsed Nd:YAG laser welded Ti6Al4V sheets
DOI:10.1016/j.matchar.2014.04.005 JN:MATERIALS CHARACTERIZATION PY:2014 TC:1 AU: Gao, Xiao-Long;Liu, Jing;Zhang, Lin-Jie;Zhang, Jian-Xun;
6:2:111:3 A comparative study of laser beam welding and laser-MIG hybrid welding of Ti-Al-Zr-Fe titanium alloy
DOI:10.1016/j.msea.2010.09.084 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:18 AU: Li, Ruifeng;Li, Zhuguo;Zhu, Yanyan;Rong, Lei;
6:2:111:4 Microstructural and microtextural analysis of InterPulse GTCAW welds in Cp-Ti and Ti-6Al-4V
DOI:10.1016/j.msea.2010.08.036 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:7 AU: Leary, Rowan K.;Merson, Eleanor;Birmingham, Keith;Harvey, David;Brydson, Rik;
6:2:111:5 Microstructural factors determining mechanical properties of laser-welded Ti-4.5Al-2.5Cr-1.2Fe-0.1C alloy for use in next-generation aircraft
DOI:10.1016/j.msea.2012.04.022 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:5 AU: Nakai, Masaaki;Niinomi, Mitsuo;Akahori, Toshikazu;Hayashi, Kazuhiro;Itsumi, Yoshio;Murakami, Shogo;Oyama, Hideto;Abe, Wataru;
6:2:111:6 Magnetic properties assessment of laser welded ultra-thin Fe-Co-V foils
DOI:10.1016/j.jallcom.2014.06.141 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:0 AU: Mostaan, H.;Shamanian, M.;Monirvaghefi, S. M.;Behjati, P.;Szpunar, J. A.;
6:2:111:7 Microstructural evolution of fusion zone in laser beam welds of pure titanium
DOI:10.1016/j.matchar.2011.12.010 JN:MATERIALS CHARACTERIZATION PY:2012 TC:6 AU: Liu, H.;Nakata, K.;Zhang, J. X.;Yamamoto, N.;Liao, J.;
6:2:111:8 Formation of One Pass Fully-Penetrated Weld Bead of Titanium Plate by Fiber Laser and MIG Arc Hybrid Welding
DOI:10.2320/matertrans.M2012044 JN:MATERIALS TRANSACTIONS PY:2012 TC:2 AU: Murakami, Takahiro;Nakata, Kazuhiro;Yamamoto, Naotsugu;Liao, Jinsun;
6:2:111:9 Tensile and Fatigue Properties of Carbon-Solute-Strengthened (alpha+beta)-Type Titanium Alloy
DOI:10.2320/matertrans.MC201203 JN:MATERIALS TRANSACTIONS PY:2013 TC:1 AU: Nakai, Masaaki;Niinomi, Mitsuo;Hieda, Junko;Cho, Ken;Akahori, Toshikazu;Hayashi, Kazuhiro;Itsumi, Yoshio;Murakami, Shogo;Oyama, Hideto;
6:2:112:1:1 Estimation of plastic anisotropy in Ni-5% Al coatings via spherical indentation
DOI:10.1016/j.actamat.2011.10.049 JN:ACTA MATERIALIA PY:2012 TC:3 AU: Kalkhoran, Salmon M.;Choi, W. Brian;Gouldstone, Andrew;
6:2:112:1:2 A simple method to evaluate anisotropic plastic properties based on dimensionless function of single spherical indentation - Application to SiC whisker-reinforced aluminum alloy
DOI:10.1016/j.msea.2010.08.014 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:12 AU: Yonezu, Akio;Yoneda, Keishi;Hirakata, Hiroyuki;Sakihara, Masayuki;Minoshima, Kohji;
6:2:112:1:3 Probing out-of-plane anisotropic plasticity using spherical indentation: A numerical approach
DOI:10.1016/j.commatsci.2013.05.020 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:1 AU: Yonezu, Akio;Tanaka, Masanori;Kusano, Ryota;Chen, Xi;
6:2:112:1:4 Estimation of plastic anisotropy in Ni-5% Al coatings via spherical indentation (vol 60, pg 803, 2012)
DOI:10.1016/j.actamat.2012.07.008 JN:ACTA MATERIALIA PY:2012 TC:0 AU: Kalkhoran, Salmon M.;Choi, W. Brian;Gouldstone, Andrew;
6:2:112:1:5 Influence of sample thickness and experimental device configuration on the spherical indentation of AISI 1095 steel
DOI:10.1557/jmr.2011.247 JN:JOURNAL OF MATERIALS RESEARCH PY:2012 TC:0 AU: Brammer, Philippe;Mauvoisin, Gerard;Bartier, Olivier;Hernot, Xavier;Sablin, Simon-Serge;
6:2:112:2:1 Evaluation of threshold stress intensity factor of hydrogen embrittlement cracking by indentation testing
DOI:10.1016/j.msea.2011.10.049 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:6 AU: Yonezu, Akio;Hara, Takuma;Kondo, Toshiyuki;Hirakata, Hiroyuki;Minoshima, Kohji;
6:2:112:2:2 Unveiling the nature of hydrogen embrittlement in bearing steels employing a new technique
DOI:10.1016/j.scriptamat.2012.11.018 JN:SCRIPTA MATERIALIA PY:2013 TC:6 AU: Szost, B. A.;Rivera-Diaz-del-Castillo, P. E. J.;
6:2:112:2:3 Contact fracture mechanism of electroplated Ni-P coating upon stainless steel substrate
DOI:10.1016/j.msea.2012.11.054 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:2 AU: Yonezu, Akio;Niwa, Michihiro;Ye, Jiping;Chen, Xi;
6:2:112:2:4 An experimental methodology for characterizing fracture of hard thin films under cyclic contact loading
DOI:10.1016/j.tsf.2009.07.199 JN:THIN SOLID FILMS PY:2010 TC:6 AU: Yonezu, Akio;Xu, Baoxing;Chen, Xi;
6:2:112:2:5 Serial sectioning investigation of butterfly and white etching crack (WEC) formation in wind turbine gearbox bearings
DOI:10.1016/j.wear.2012.12.031 JN:WEAR PY:2013 TC:14 AU: Evans, M. -H.;Richardson, A. D.;Wang, L.;Wood, R. J. K.;
6:2:113:1 Effect of cooling conditions during casting on fraction of beta-Mg17Al12 in Mg-9Al-1Zn cast alloy
DOI:10.1016/j.jallcom.2010.04.090 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:9 AU: Zhu, Tianping;Chen, Zhan W.;Gao, Wei;
6:2:113:2 Influences of alloying elements and oxygen on the stability and elastic properties of Mg17Al12
DOI:10.1016/j.jallcom.2014.01.171 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:1 AU: Dai, Jianhong;Song, Yan;Yang, Rui;
6:2:113:3 The effect of aluminium content on the eutectic morphology of high pressure die cast magnesium-aluminium alloys
DOI:10.1016/j.jallcom.2009.11.199 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:7 AU: Dargusch, M. S.;Nave, M.;McDonald, S. D.;StJohn, D. H.;
6:2:113:4 Gas-tungsten arc welding of AZ91 magnesium alloy
DOI:10.1016/j.jallcom.2011.07.105 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:4 AU: Braszczynska-Malik, K. N.;Mroz, M.;
6:2:113:5 Microstructure investigation and first-principle analysis of die-cast AZ91 alloy with calcium addition
DOI:10.1016/j.msea.2011.03.084 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:5 AU: Lin, L.;Wang, F.;Yang, L.;Chen, L. J.;Liu, Z.;Wang, Y. M.;
6:2:114:1 Atomic Group Rotation Mechanism for {1012} Twinning of HCP Crystal Materials
DOI:10.2320/matertrans.M2013472 JN:MATERIALS TRANSACTIONS PY:2014 TC:1 AU: Jiang, Shan;
6:2:114:2 Atomic motion in Mg-3Al-1Zn during twinning deformation
DOI:10.1016/j.scriptamat.2009.12.038 JN:SCRIPTA MATERIALIA PY:2010 TC:16 AU: Jiang, Shan;Liu, Tianmo;Lu, Liwei;Zeng, Wen;Wang, Zhongchang;
6:2:114:3 Twinning analyses in a magnesium alloy with tilting series scanning method using a TEM based orientation mapping system
DOI:10.1016/j.matlet.2013.08.072 JN:MATERIALS LETTERS PY:2013 TC:3 AU: Zhang, Zhen;Rauch, Edgar F.;Veron, Muriel;
6:2:114:4 Law of Atomic Motion during {10(1)over-bar1} Twinning in Magnesium Alloys
DOI:10.2320/matertrans.MC201022 JN:MATERIALS TRANSACTIONS PY:2011 TC:3 AU: Jiang, Shan;Liu, Tianmo;Chen, Cheng;Jiang, Xianquan;
6:2:114:5 A method based on Euler space for twinning analyses in magnesium alloy
DOI:10.1016/j.matchar.2011.03.009 JN:MATERIALS CHARACTERIZATION PY:2011 TC:1 AU: Zhen Zhang;Wang Ming-pu;Shuo Zhu;Nian Jiang;
6:2:115:1 Structural characterization and electrochemical hydrogen storage properties of Ti2-xZrxNi (x=0, 0.1, 0.2) alloys prepared by mechanical alloying
DOI:10.1016/j.ijhydene.2013.03.098 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2013 TC:4 AU: Li, X. D.;Elkedim, O.;Nowak, M.;Jurczyk, M.;Chassagnon, R.;
6:2:115:2 Effect of microalloying on the formation and stability of the Ti-Zr-Ni icosahedral quasicrystal
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6:2:115:3 Phase transformation and mechanical properties of as-cast Ti41.5Zr41.5Ni17 quasicrystalline composites
DOI:10.1016/j.jnoncryso1.2014.03.024 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2014 TC:0 AU: Park, G. H.;Hong, S. H.;Kim, J. T.;Park, H. J.;Seo, Y.;Suh, J. Y.;Hong, S.;Park, J. M.;Kim, K. B.;
6:2:115:4 Phase diagram studies of Ti-Zr-Ni alloys containing less than 40 at.% Ni and estimated critical cooling rate for icosahedral quasicrystal formation from the liquid
DOI:10.1016/j.actamat.2011.04.045 JN:ACTA MATERIALIA PY:2011 TC:9 AU: Lee, G. W.;Gangopadhyay, A. K.;Kelton, K. F.;
6:2:115:5 Structure and electrochemical hydrogen storage properties of A(2)B-type Ti-Zr-Ni alloys
DOI:10.1016/j.ijhydene.2011.12.010 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2012 TC:7 AU: Zhao, Xiangyu;Zhou, Junfeng;Shen, Xiaodong;Yang, Meng;Ma, Liqun;
6:2:115:6 Importance of solute-solute interactions on glass formability
DOI:10.1080/14786435.2011.552451 JN:PHILOSOPHICAL MAGAZINE PY:2011 TC:4 AU: Gangopadhyay, A. K.;Sahoo, K. L.;Kelton, K. F.;
6:2:116:1 Enhancement of toughness by grain boundary control in magnesium binary alloys
DOI:10.1016/j.msea.2014.06.001 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Somekawa, Hidetoshi;Singh, Alok;Inoue, Tadanobu;
6:2:116:2 Strengthening Mg-Al-Zn alloy by repetitive oblique shear strain with caliber roll
DOI:10.1016/j.scriptamat.2009.09.005 JN:SCRIPTA MATERIALIA PY:2010 TC:13 AU: Mukai, Toshiji;Somekawa, Hidetoshi;Inoue, Tadanobu;Singh, Alok;
6:2:116:3 Enhancing Fracture Toughness of Magnesium Alloy by Formation of Low-Angle Grain Boundary Structure
DOI:10.1002/adem.201000050 JN:ADVANCED ENGINEERING MATERIALS PY:2010 TC:3 AU: Somekawa, Hidetoshi;Singh, Alok;Inoue, Tadanobu;Mukai, Toshiji;
6:2:117:1 Effects of yttrium and zinc addition on the microstructure and mechanical properties of Mg-Y-Zn alloys
DOI:10.1007/s10853-010-4223-z JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:18 AU: Chen, Bin;Lin, Dongliang;Zeng, Xiaoqin;Lu, Chen;
6:2:117:2 High hardness in a nanocrystalline Mg97Y2Zn1 alloy
DOI:10.1016/j.msea.2011.06.017 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:8 AU: Youssef, K. M.;Wang, Y. B.;Liao, X. Z.;Mathaudhu, S. N.;Kecskes, L. J.;Zhu, Y. T.;Koch, C. C.;
6:2:117:3 Effects of minor Ca addition on as-cast microstructure and mechanical properties of Mg-4Y-1.2Mn-1Zn (wt.%) magnesium alloy
DOI:10.1016/j.jallcom.2013.04.069 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:3 AU: Yang, Mingbo;Duan, Chengyu;Li, Hongliang;Guo, Tingzhang;Zhang, Jia;
6:2:117:4 Comparison about as-cast microstructures and mechanical properties of Mg-4Y-1.2Mn-0.9Sc and Mg-4Y-1.2Mn-1Zn (wt%) magnesium alloys
DOI:10.1007/s10853-010-5188-7 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:2 AU: Yang, Mingbo;Pan, Fusheng;Shen, Jia;Zhu, Yi;Qin, Caiyuan;
6:2:117:5 Synthesis and Characterization of NanocrystallineMg-7.4%Al Powders Produced by Mechanical Alloying
DOI:10.3390/met3010058 JN:METALS PY:2013 TC:0 AU: Chaubey, Anil Kumar;Scudino, Sergio;Khoshkhoo, Mohsen Samadi;Prashanth, Konda G.;Mukhopadhyay, Nilay Krishna;Mishra, Barada Kanta;Eckert, Juergen;
6:2:118:1 Quasi-static deformation and final fracture behaviour of aluminium alloy 5083: influence of cryomilling
DOI:10.1080/14786435.2012.735774 JN:PHILOSOPHICAL MAGAZINE PY:2013 TC:2 AU: Topping, Troy D.;Hu, Tao;Manigandan, K.;Srivatsan, T. S.;Lavernia, E. J.;
6:2:118:2 The role of aluminum oxide particulate reinforcements on cyclic fatigue and final fracture behavior of a novel magnesium alloy
DOI:10.1016/j.msea.2011.10.081 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:2 AU: Srivatsan, T. S.;Godbole, C.;Paramsothy, M.;Gupta, M.;
6:2:118:3 Fatigue and monotonic loading crack nucleation and propagation in bimodal grain size aluminum alloy
DOI:10.1016/j.actamat.2011.02.029 JN:ACTA MATERIALIA PY:2011 TC:7 AU: Nelson, Steven;Ladani, Leila;Topping, Troy;Lavernia, Enrique;
6:2:118:4 A study at understanding the mechanisms governing the high cycle fatigue and final fracture behavior of the titanium alloy: Ti-4Al-2.5V
DOI:10.1016/j.msea.2009.09.012 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:4 AU: Srivatsan, T. S.;Kuruvilla, Mithun;Park, Lisa;
6:2:118:5 Experimental investigation on HCF strength affected by predamage from LCF of a near alpha titanium alloy
DOI:10.1557/jmr.2014.309 JN:JOURNAL OF MATERIALS RESEARCH PY:2014 TC:0 AU: Huang Jia;Luo Yinyin;Shi Duoqi;Yang Xiaoguang;Yu Huichen;Zhao Pengtao;
6:2:118:6 Influence of silicon carbide particulates on tensile fracture behavior of an aluminum alloy
DOI:10.1016/j.msea.2011.11.081 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:7 AU: Manigandan, K.;Srivatsan, T. S.;Quick, T.;
6:2:119:1 An analytical model of steady-state continuous drive friction welding
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6:2:119:2 Hot deformation of an Al-Cu-Mg powder metallurgy alloy
DOI:10.1016/j.msea.2011.03.081 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:17 AU: Mann, R. E. D.;Hexemer, R. L., Jr.;Donaldson, I. W.;Bishop, D. P.;
6:2:119:3 Friction welding of titanium-tungsten pseudoalloy joints
DOI:10.1016/j.jallcom.2010.07.062 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:4 AU: Ambroziak, Andrzej;
6:2:119:4 Microstructure and strength of friction-welded Fe-28Al and 316 L stainless steel
DOI:10.1016/j.msea.2011.08.021 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:6 AU: Celikyurek, I.;Torun, O.;Baksan, B.;
6:2:119:5 Modeling of continuous drive friction welding of mild steel
DOI:10.1016/j.msea.2011.04.001 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:8 AU: Li, Wenya;Wang, Feifan;
6:2:120:1 Aqueous colloidal processing of carriers for delivering silica nanoparticles in iron matrix nanocomposites
DOI:10.1016/j.materresbull.2013.02.010 JN:MATERIALS RESEARCH BULLETIN PY:2013 TC:3 AU: Lussoli, Rosineide J.;Neto, Joao B. Rodrigues;Klein, Aloisio N.;Hotza, Dachamir;Moreno, Rodrigo;
6:2:120:2 Colloidal processing of highly concentrated aqueous copper suspensions
DOI:10.1016/j.powtec.2014.01.059 JN:POWDER TECHNOLOGY PY:2014 TC:0 AU: Vieira, Luiz E., Jr.;Rodrigues Neto, Joao B.;Klein, Aloisio N.;Hotza, Dachamir;Moreno, Rodrigo;
6:2:120:3 A comparative study of copper-cermet anode material synthesized by different technique
DOI:10.1016/j.ijhydene.2012.01.085 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2012 TC:3 AU: Shaikh, S. P. S.;Moharil, S. V.;Nagrare, B. S.;
6:2:120:4 Structural and Electrical Characterization of Ce1-xCuxO2-delta(x=0.05-0.5) Prepared by Combustion Technique
DOI:10.1080/10584587.2010.490696 JN:INTEGRATED FERROELECTRICS PY:2010 TC:1 AU: Shaikh, S. S.;Bhoga, S. S.;
6:2:120:5 Production of A356-1 wt% SiC nanocomposite by the modified stir casting method
DOI:10.1016/j.msea.2012.07.093 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:5 AU: Hamedan, A. Dehghan;Shahmiri, M.;
6:2:120:6 Rheological and Structural Characterization of Ni-SiO2 Nanocomposites Produced by Aqueous Colloidal Processing
DOI:10.1111/j.1551-2916.2011.04754.x JN:JOURNAL OF THE AMERICAN CERAMIC SOCIETY PY:2011 TC:4 AU: Vieira Junior, Luiz E.;Rodrigues Neto, Joao B.;Klein, Aloisio N.;Moreno, Rodrigo;Hotza, Dachamir;
6:2:121:1 Porosity reduction and mechanical properties improvement in die cast engine blocks
DOI:10.1016/j.msea.2011.12.049 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:8 AU: Irfan, M. A.;Schwam, D.;Karve, A.;Ryder, R.;
6:2:121:2 Residual stresses in flux cored arc welding process in bead-on-plate specimens
DOI:10.1016/j.msea.2011.10.107 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:14 AU: Aloraier, Abdulkareem S.;Joshi, Suraj;
6:2:121:3 Effect of hyperbaric gas composition on mechanical properties of the weld metal
DOI:10.1016/j.msea.2012.07.013 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:1 AU: Azar, Amin S.;Lange, Hans I.;Ostby, Erling;Akselsen, Odd M.;
6:2:121:4 Characterization of material properties and heat source parameters in welding simulation of two overlapping beads on a substrate plate
DOI:10.1016/j.commatsci.2012.11.029 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:8 AU: Joshi, Suraj;Hildebrand, Joerg;Aloraier, Abdulkareem S.;Rabczuk, Timon;
6:2:121:5 Residual stresses in flux cored arc welding process in bead-on-plate specimens (vol 534, pg 13, 2012)
DOI:10.1016/j.msea.2012.03.001 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:0 AU: Aloraier, Abdulkareem S.;Joshi, Suraj;
6:2:122:1 Grain refining efficiency and microstructure of Al-Ti-C-RE master alloy
DOI:10.1016/j.jallcom.2010.08.047 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:14 AU: Zhao, Hongliang;Song, Yong;Li, Miao;Guan, Shaokang;
6:2:122:2 The microstructure and formation mechanism of core-shell-like TiAl3/Ti2Al20Ce in melt-spun Al-Ti-B-Re grain refiner
DOI:10.1016/j.matlet.2012.06.072 JN:MATERIALS LETTERS PY:2012 TC:7 AU: Wang, Kui;Cui, Chunxiang;Wang, Qian;Liu, Shuangjin;Gu, Cunshuai;
6:2:122:3 Effects of rheocasting and heat treatment on microstructure and mechanical properties of A356 alloy
DOI:10.1016/j.msea.2010.09.059 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:8 AU: Liao BoChao;YoungKoo, Park;Ding HongSheng;
6:2:122:4 Microstructural characterization and artificial aging of compo-casted hybrid A356/SiCp/Gr(p) composites with graphite macroparticles
DOI:10.1016/j.msea.2014.06.028 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Bobic, Ilija;Ruzic, Jovana;Bobic, Biljana;Babic, Miroslav;Vencl, Aleksandar;Mitrovic, Slobodan;
6:2:123:1 Twinning and dynamic precipitation upon hot compression of a Mg-Gd-Y-Nd-Zr alloy
DOI:10.1016/j.jallcom.2012.02.081 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:12 AU: Hou, Xiuli;Cao, Zhanyi;Sun, Xu;Wang, Lidong;Wang, Limin;
6:2:123:2 Microstructure refinement and its effect on specific strength and bio-corrosion resistance in ultralight Mg-4Li-1Ca (LC41) alloy by hot rolling
DOI:10.1016/j.jallcom.2014.06.151 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:2 AU: Nene, S. S.;Kashyap, B. P.;Prabhu, N.;Estrin, Y.;Al-Samman, T.;
6:2:124:1 Microstructural study of strain localization in hot compressed Mg-3Al-1Zn alloy
DOI:10.1016/j.msea.2010.07.046 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:6 AU: Sun, D. K.;Chang, C. P.;Kao, P. W.;
6:2:124:2 Microstructural study of strain localization in a compressed Mg-3Al-1Zn alloy
DOI:10.1016/j.msea.2014.02.072 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Sun, D. K.;Chang, C. P.;
6:2:124:3 Effect of inhomogeneous deformation on anisotropy of AZ31 magnesium sheet
DOI:10.1016/j.msea.2012.08.117 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:7 AU: Kang, Jidong;Wilkinson, David S.;Mishra, Raja K.;Yuan, Wei;Mishra, Rajiv S.;
6:2:125:1 Determination of the Cyclic-Tension Fatigue of Extruded Pure Magnesium Using Multiple Ultrasonic Waves
DOI:10.2320/matertrans.M2009432 JN:MATERIALS TRANSACTIONS PY:2010 TC:8 AU: Yamagishi, Hideki;Fukuhara, Mikio;Chiba, Akihiko;
6:2:125:2 Degradation behavior of moduli in extruded pure magnesium during low- to giga-scale cyclic tension fatigue
DOI:10.1016/j.actamat.2012.05.027 JN:ACTA MATERIALIA PY:2012 TC:0 AU: Yamagishi, Hideki;Fukuhara, Mikio;
6:2:125:3 Determination of the Mechanical Properties of Extruded Pure Magnesium During Tension-Tension Low-Cycle Fatigue Using Ultrasonic Testing
DOI:10.2320/matertrans.M2010188 JN:MATERIALS TRANSACTIONS PY:2010 TC:4 AU: Yamagishi, Hideki;Fukuhara, Mikio;Chiba, Akihiko;
6:2:125:4 Residual Stress Behavior of Rolled Aluminum Alloy A2024T3 in a Thin Plate During Cyclic-Tension Fatigue Studied Using Ultrasonic Horizontally Polarized Shear Waves
DOI:10.2320/matertrans.M2009356 JN:MATERIALS TRANSACTIONS PY:2010 TC:3 AU: Yamagishi, Hideki;Fukuhara, Mikio;Chiba, Akihiko;
6:2:126:1 Direct measurement of local magnetic moments at grain boundaries in iron
DOI:10.1016/j.scriptamat.2012.10.028 JN:SCRIPTA MATERIALIA PY:2013 TC:3 AU: Ii, Seiichiro;Hirayama, Kyosuke;Matsunaga, Kyohei;Fujii, Hiromichi;Tsurekawa, Sadahiro;
6:2:126:2 Comment on: "Direct measurement of local magnetic moments at grain boundaries in iron"
DOI:10.1016/j.scriptamat.2013.05.045 JN:SCRIPTA MATERIALIA PY:2013 TC:2 AU: Stoeger-Pollach, M.;
6:2:126:3 Reply to Comment on "Direct measurement of local magnetic moments at grain boundaries in iron" by Stoger-Pollach
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6:2:127:1 Effect of the crystallographic orientation and twinning on the corrosion resistance of an as-extruded Mg-3Al-1Zn (wt.%) bar
DOI:10.1016/j.scriptamat.2014.06.015 JN:SCRIPTA MATERIALIA PY:2014 TC:2 AU: Wang, B. J.;Xu, D. K.;Dong, J. H.;Ke, W.;
6:2:127:2 Effect of quasicrystalline phase on improving the corrosion resistance of a duplex structured Mg-Li alloy
DOI:10.1016/j.scriptamat.2013.09.025 JN:SCRIPTA MATERIALIA PY:2014 TC:3 AU: Xu, D. K.;Han, E. H.;
6:2:128:1 Numerical simulation for microstructure evolution in AM50 Mg alloy during hot rolling
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6:2:128:2 Microstructure characteristics during the multi-pass hot rolling and their effect on the mechanical properties of AM50 magnesium alloy sheet
DOI:10.1016/j.msea.2010.02.068 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:8 AU: Ding, Hanlin;Hirai, Kazuki;Kamado, Shigeharu;
6:2:128:3 Numerical Simulation for Processing Windows of TiAl Alloys During Hot Forging
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6:2:129:1 Direct-chill casting of wrought Al alloy under electromagnetic and ultrasonic combined fields
DOI:10.1016/j.matlet.2013.04.015 JN:MATERIALS LETTERS PY:2013 TC:5 AU: Haghayeghi, R.;Kapranos, P.;
6:2:129:2 The effect of processing parameters on ultrasonic degassing efficiency
DOI:10.1016/j.matlet.2013.11.068 JN:MATERIALS LETTERS PY:2014 TC:0 AU: Haghayeghi, R.;Kapranos, P.;
6:2:129:3 Effect of ultrasonic argon degassing on dissolved hydrogen in aluminium alloy
DOI:10.1016/j.matlet.2012.05.112 JN:MATERIALS LETTERS PY:2012 TC:3 AU: Haghayeghi, R.;Bahai, H.;Kapranos, P.;
6:2:130:1 High-cycle fatigue characteristics of non-heat-treated steels developed for bolt applications
DOI:10.1016/j.msea.2012.04.043 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:2 AU: Park, Sung Hyuk;Hong, Seong-Gu;Chun, Young Soo;Lee, You-Hwan;Lee, Chong Soo;
6:2:130:2 Micromechanical modeling of ferrite-pearlite steels
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6:2:131:1 The shape of early persistent slip markings in fatigued 316L steel
DOI:10.1016/j.msea.2012.11.086 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:5 AU: Polak, J.;Kubena, I.;Man, J.;
6:2:131:2 Mechanisms of extrusion and intrusion formation in fatigued crystalline materials
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6:3:1:1 The elastic properties, elastic models and elastic perspectives of metallic glasses
DOI:10.1016/j.pmatsci.2011.07.001 JN:PROGRESS IN MATERIALS SCIENCE PY:2012 TC:248 AU: Wang, Wei Hua;
6:3:1:2 Elastic Heterogeneity in Metallic Glasses
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6:3:1:3 Relating activation of shear transformation zones to beta relaxations in metallic glasses
DOI:10.1103/PhysRevB.81.220201 JN:PHYSICAL REVIEW B PY:2010 TC:71 AU: Yu, H. B.;Wang, W. H.;Bai, H. Y.;Wu, Y.;Chen, M. W.;
6:3:1:4 Correlation between relaxations and plastic deformation, and elastic model of flow in metallic glasses and glass-forming liquids
DOI:10.1063/1.3632972 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:64 AU: Wang, Wei Hua;
6:3:1:5 Stress-Temperature Scaling for Steady-State Flow in Metallic Glasses
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6:3:1:6 Characterization of Nanoscale Mechanical Heterogeneity in a Metallic Glass by Dynamic Force Microscopy
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6:3:1:7 Tensile Plasticity in Metallic Glasses with Pronounced beta Relaxations
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6:3:1:8 Atomic level stresses
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6:3:1:9 Properties inheritance in metallic glasses
DOI:10.1063/1.4730441 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:15 AU: Wang, Wei Hua;
6:3:1:10 Signature of viscous flow units in apparent elastic regime of metallic glasses
DOI:10.1063/1.4753813 JN:APPLIED PHYSICS LETTERS PY:2012 TC:30 AU: Wang, Z.;Wen, P.;Huo, L. S.;Bai, H. Y.;Wang, W. H.;
6:3:1:11 Dynamic mechanical analysis in La-based bulk metallic glasses: Secondary (beta) and main (alpha) relaxations
DOI:10.1063/1.4759284 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:21 AU: Qiao, J. C.;Pelletier, J. M.;
6:3:1:12 Mechanical properties of structural amorphous steels: Intrinsic correlations, conflicts, and optimizing strategies
DOI:10.1063/1.4858380 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:8 AU: Liu, Z. Q.;Zhang, Z. F.;
6:3:1:13 Elastic Moduli Inheritance and the Weakest Link in Bulk Metallic Glasses
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6:3:1:14 The dependence of shear modulus on dynamic relaxation and evolution of local structural heterogeneity in a metallic glass
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6:3:1:15 Understanding the correlations between Poisson's ratio and plasticity based on microscopic flow units in metallic glasses
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6:3:1:16 Structural Signature of Plastic Deformation in Metallic Glasses
DOI:10.1103/PhysRevLett.106.135503 JN:PHYSICAL REVIEW LETTERS PY:2011 TC:36 AU: Peng, H. L.;Li, M. Z.;Wang, W. H.;
6:3:1:17 Impact of the structural state on the mechanical properties in a Zr-Co-Al bulk metallic glass
DOI:10.1016/j.jallcom.2014.04.008 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:3 AU: Qiao, J. C.;Pelletier, J. M.;Esnouf, C.;Liu, Y.;Kato, H.;
6:3:1:18 Mechanical relaxation in a Zr-based bulk metallic glass: Analysis based on physical models
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6:3:1:19 Homogeneous deformation of metallic glass at room temperature reveals large dilatation
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6:3:2:79 Local order and dynamic properties of liquid and undercooled Cu55Hf45 and Cu62Hf38 alloys by ab initio molecular dynamics
DOI:10.1063/1.4817426 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:2 AU: Jakse, N.;Nguyen, T. L. T.;Pasturel, A.;
6:3:2:80 Thermal behaviors of liquid La-based bulk metallic glasses
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6:3:2:81 Short-range and medium-range order in rapidly quenched Al50Mg50 alloy
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6:3:2:82 Quantitative analysis of the local atomic structure in disordered carbon*
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6:3:2:83 Anomalously slow crystal growth of the glass-forming alloy CuZr
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6:3:2:84 Comment on "Rapid chemical and topological ordering in supercooled liquid Cu46Zr54"
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6:3:2:85 Atomic modeling to design favored compositions for the ternary Ni-Nb-Zr metallic glass formation
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6:3:2:86 Comment on "Thermal expansion measurements by X-ray scattering and breakdown of Ehrenfest's relation in alloy liquids" [Appl. Phys. Lett. 104, 191907 (2014)]
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6:3:2:87 Effect of hydrogenation on the mechanical property of amorphous Ni90Al10 membranes
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6:3:2:88 Structure of Cu64.5Zr35.5 metallic glass by reverse Monte Carlo simulations
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6:3:2:89 The shoulder in the second peak of the pair correlation function of superheated liquid Fe80B20 alloy
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6:3:2:90 Multiple Ordering Transitions in a Liquid Stabilized by Low Symmetry Structures
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6:3:2:91 Computer simulation of the structure of MZr2 liquid and amorphous alloys
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6:3:2:92 Different icosahedra in metallic glasses: Stability and response to shear transformation
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6:3:2:93 Rapid chemical and topological ordering in supercooled liquid Cu46Zr54 (vol 83, 094116, 2011)
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6:3:2:94 Comment on "Homogeneity of Zr(64.13)Cu(15.75)Ni(10.12)Al(10) bulk metallic glass," by L-Y. Chen, Y-W. Zeng, Q-P. Cao, B-J. Park, Y-M. Chen, K. Hono, U. Vainio, Z-L. Zhang, U. Kaiser, X-D. Wang, and J-Z. Jiang [J. Mater. Res. 24, 3116 (2009)]
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6:3:2:96 Molecular dynamics simulation studies of structural and dynamical properties of rapidly quenched Al
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6:3:2:97 Local dynamical properties of crystalline germanium and their effects in extended x-ray absorption fine structure
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6:3:2:98 Structural and dynamical properties of liquid Cu80Si20 alloy studied experimentally and by ab initio molecular dynamics simulations
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6:3:2:99 Impact of medium-range order on the glass transition in liquid Ni-Si alloys
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6:3:2:100 Measurement and simulation of specific heat for metastable liquid Ni80Fe10Cu10 alloy
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6:3:2:101 Sintering mechanisms of Yttria with different additives
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6:3:2:102 Constrained deformation of an Al based amorphous alloy by cold rolling
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6:3:2:103 In situ studies of temperature-dependent behaviour and crystallisation of Ni36.5Pd36.5P27 metallic glass
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6:3:2:104 Metastable primary precipitation phases in multicomponent glass forming Fe-base alloys with metalloids
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6:3:2:105 Fluctuation between icosahedral and body-centered-cube short-range orders in undercooled Zr liquid
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6:3:2:106 Correlation between local structure of melts and glass forming ability for Fe70EM10B20 (EM = early transition metal) alloys
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6:3:3:1 Propagation dynamics of individual shear bands during inhomogeneous flow in a Zr-based bulk metallic glass
DOI:10.1016/j.actamat.2011.01.060 JN:ACTA MATERIALIA PY:2011 TC:50 AU: Maass, R.;Klaumuenzer, D.;Loeffler, J. F.;
6:3:3:2 Plasticity of Ductile Metallic Glasses: A Self-Organized Critical State
DOI:10.1103/PhysRevLett.105.035501 JN:PHYSICAL REVIEW LETTERS PY:2010 TC:55 AU: Sun, B. A.;Yu, H. B.;Jiao, W.;Bai, H. Y.;Zhao, D. Q.;Wang, W. H.;
6:3:3:3 Probing Shear-Band Initiation in Metallic Glasses
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6:3:3:4 Stick-slip dynamics and recent insights into shear banding in metallic glasses
DOI:10.1557/jmr.2011.178 JN:JOURNAL OF MATERIALS RESEARCH PY:2011 TC:31 AU: Klaumuenzer, David;Maass, Robert;Loeffler, Joerg F.;
6:3:3:5 Temperature-dependent shear band dynamics in a Zr-based bulk metallic glass
DOI:10.1063/1.3309686 JN:APPLIED PHYSICS LETTERS PY:2010 TC:32 AU: Klaumuenzer, David;Maass, Robert;Dalla Torre, Florian H.;Loeffler, Joerg F.;
6:3:3:6 Serrated flow and stick-slip deformation dynamics in the presence of shear-band interactions for a Zr-based metallic glass
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6:3:3:7 Capturing shear band propagation in a Zr-based metallic glass using a high-speed camera
DOI:10.1016/j.scriptamat.2010.02.017 JN:SCRIPTA MATERIALIA PY:2010 TC:38 AU: Song, S. X.;Wang, X. -L.;Nieh, T. G.;
6:3:3:8 Shear-band arrest and stress overshoots during inhomogeneous flow in a metallic glass
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6:3:3:9 Size effect on stability of shear-band propagation in bulk metallic glasses: an overview
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6:3:3:10 Examining the initial stages of shear localization in amorphous metals
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6:3:3:11 Stick-slip behavior of serrated flow during inhomogeneous deformation of bulk metallic glasses
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6:3:3:12 Effect of size and base-element on the jerky flow dynamics in metallic glass
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6:3:3:13 Quasi phase transition model of shear bands in metallic glasses
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6:3:3:14 Yielding and shear banding of metallic glasses
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6:3:3:15 Room Temperature Homogeneous Ductility of Micrometer-Sized Metallic Glass
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6:3:3:16 Characteristic length scales governing plasticity/brittleness of bulk metallic glasses at ambient temperature
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6:3:3:17 Fractal nature of multiple shear bands in severely deformed metallic glass
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6:3:3:18 Ideal elasto-plastic behavior in torsional deformation of Zr44Ti11Cu10Ni10Be25 bulk metallic glass
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6:3:3:19 Predicting burst sizes in amorphous alloys during plastic flows
DOI:10.1016/j.msea.2014.05.009 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Qiao, J. W.;Wang, Z.;Jiao, Z. M.;Yang, H. J.;Ma, S. G.;Wang, Z. H.;Xu, B. S.;
6:3:3:20 Plastic dynamics transition between chaotic and self-organized critical states in a glassy metal via a multifractal intermediate
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6:3:3:21 High-speed imaging of a bulk metallic glass during uniaxial compression
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6:3:3:22 Ambient temperature embrittlement of a Zr-based bulk metallic glass
DOI:10.1016/j.msea.2012.03.109 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:5 AU: Jiang, F.;Wang, H. F.;Jiang, M. Q.;Li, G.;Zhao, Y. L.;He, L.;Sun, J.;
6:3:3:23 Correlation between elastic structural behavior and yield strength of metallic glasses
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6:3:3:24 Single shear-band plasticity in a bulk metallic glass at cryogenic temperatures
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6:3:3:25 Hidden order in serrated flow of metallic glasses
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6:3:3:26 Statistical analysis of acoustic emission events in torsional deformation of a Vitreloy bulk metallic glass
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6:3:3:27 Compositional dependence of shear-band dynamics in the Zr-Cu-Al bulk metallic glass system
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6:3:3:28 Temperature dependent dynamics transition of intermittent plastic flow in a metallic glass. I. Experimental investigations
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6:3:3:29 Various sizes of sliding event bursts in the plastic flow of metallic glasses based on a spatiotemporal dynamic model
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6:3:3:30 Origin of Intermittent Plastic Flow and Instability of Shear Band Sliding in Bulk Metallic Glasses
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6:3:3:31 Shear avalanches in metallic glasses under nanoindentation: Deformation units and rate dependent strain burst cut-off
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6:3:3:32 Temperature dependent dynamics transition of intermittent plastic flow in a metallic glass. II. Dynamics analysis
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6:3:3:33 Effect of Ti substitution on glass-forming ability and mechanical properties of a brittle Cu-Zr-Al bulk metallic glass
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6:3:3:34 On shear band velocity and the detectability of acoustic emission in metallic glasses
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6:3:3:35 Exponential decay of shearing stress during jerky flows in a Zr-based bulk metallic glass
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6:3:3:36 Temperature-induced anomalous brittle-to-ductile transition of bulk metallic glasses
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6:3:3:37 Size-affected shear-band speed in bulk metallic glasses
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6:3:3:38 Multi-step shear banding for bulk metallic glasses at ambient and cryogenic temperatures
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6:3:3:39 Enhanced strength and transformation-induced plasticity in rapidly solidified Zr-Co-(Al) alloys
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6:3:3:40 Shear-band toughness of bulk metallic glasses
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6:3:3:41 Dynamics of serrated flow in a bulk metallic glass
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6:3:3:42 Correlation between internal states and plasticity in bulk metallic glass
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6:3:3:43 Origin of yielding in metallic glass: Stress-induced flow
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6:3:3:44 Bulk Metallic Glasses Deform via Slip Avalanches
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6:3:3:45 Fatigue deformation of microsized metallic glasses
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6:3:3:46 A single shear band in a metallic glass: Local core and wide soft zone
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6:3:3:47 Effect of Fe addition on glass forming ability and mechanical properties in Zr-Co-Al-(Fe) bulk metallic glasses
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6:3:3:48 Composition design of plastic Cu-Zr-Ti-Ni bulk metallic glass: A liquidus perspective
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6:3:3:49 Stages in room temperature torsional deformation of a Vitreloy bulk metallic glass
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6:3:3:50 Stable fracture of a malleable Zr-based bulk metallic glass
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6:3:3:51 Strain avalanches in plasticity
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6:3:3:52 Low-temperature shear banding for a Cu-based bulk-metallic glass
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6:3:3:53 Localized and homogeneous plastic flow in bulk glassy Pd40Cu30Ni10P20: An acoustic emission study
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6:3:3:54 Viscosity, Shear Waves, and Atomic-Level Stress-Stress Correlations
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6:3:3:55 Serrated flow behaviors of a Zr-based bulk metallic glass by nanoindentation
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6:3:3:56 Shear bands in metallic glasses are not necessarily hot
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6:3:3:60 Nonlocal dielectric relaxation in glycerol
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6:3:4:11 Micro-and Nanoscale Metallic Glassy Fibers
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6:3:4:15 Functionalization of Metallic Glasses through Hierarchical Patterning
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6:3:4:20 Atomically smooth surfaces through thermoplastic forming of metallic glass
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6:3:4:23 Bulk Metallic Glass Micro Fuel Cell
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6:3:4:25 Finite size effects in the crystallization of a bulk metallic glass
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6:3:4:28 Tunable Hierarchical Metallic-Glass Nanostructures
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6:3:4:30 Micro mold filling kinetics of metallic glasses in supercooled liquid state
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6:3:4:31 Wettability of nanotextured metallic glass surfaces
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6:3:4:32 Joining of bulk metallic glasses in air
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6:3:4:33 Piezoresistance effect of metallic glassy fibers
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6:3:4:34 Large size metallic glass gratings by embossing
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6:3:4:35 Metallic glass mold insert for hot embossing of polymers
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6:3:4:36 High quality factor metallic glass cantilevers with tunable mechanical properties
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6:3:4:37 High-temperature deformation and crystallization behavior of a Cu36Zr48Al8Ag8 bulk metallic glass
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6:3:4:38 A new CoFe-based bulk metallic glasses with high thermoplastic forming ability
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6:3:4:39 Constitutive model for high temperature deformation behavior of Ti-Zr-Ni-Be bulk metallic glass in supercooled liquid region
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6:3:4:40 Bulk-metallic glasses joining in a supercooled-liquid region
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6:3:4:42 Size dependent plasticity of a Zr-based bulk metallic glass during room temperature compression
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6:3:4:44 Shear punching of a Ti-based bulk metallic glass
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6:3:4:48 Surface-activated supercooled liquid brazing
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6:3:4:49 Role of aluminum as an oxygen-scavenger in zirconium based bulk metallic glasses
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6:3:4:50 The study of loading rate effect of a Cu-based bulk metallic glass during nanoindentation
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6:3:4:52 Assessment of rheological and thermodynamic properties of the Pd40Ni40P20 bulk metallic glass around glass transition using an indentation creep technique
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6:3:4:53 Micropatterning of Fe-based bulk metallic glass surfaces by pulsed electrochemical micromachining
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6:3:4:54 An investigation on the fracturing behavior of bulk metallic glass with large plasticity
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6:3:4:55 Investigation of joining Al-C-Ti cermets and Ti6Al4V by combustion synthesis
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6:3:5:1 Bulk Metallic Glass Composites with Transformation-Mediated Work-Hardening and Ductility
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6:3:5:2 Formation of Cu-Zr-Al bulk metallic glass composites with improved tensile properties
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6:3:5:3 Tensile deformation micromechanisms for bulk metallic glass matrix composites: From work-hardening to softening
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6:3:5:4 Microstructural tailoring and improvement of mechanical properties in CuZr-based bulk metallic glass composites
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6:3:5:5 Strategy for pinpointing the formation of B2 CuZr in metastable CuZr-based shape memory alloys
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6:3:5:6 Strain rate dependence of mechanical behavior in a CuZr-based bulk metallic glass composite containing B2-CuZr phase
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6:3:5:7 Correlation between glass-forming ability, thermal stability, and crystallization kinetics of Cu-Zr-Ag metallic glasses
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6:3:5:8 Plastically deformable Cu-Zr intermetallics
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6:3:5:10 Triple yielding and deformation mechanisms in metastable Cu47.5Zr47.5Al5 composites
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6:3:5:11 Solidification processes in Cu-Zr-Ag amorphisable alloy system
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6:3:5:12 Ductilizing Bulk Metallic Glass Composite by Tailoring Stacking Fault Energy
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6:3:5:13 Ti-Cu-Ni shape memory bulk metallic glass composites
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6:3:5:14 Correlation between the microstructures and the deformation mechanisms of CuZr-based bulk metallic glass composites
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6:3:5:15 Strong work-hardening behavior in a Ti-based bulk metallic glass composite
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6:3:5:16 Thermal stability and mechanical properties of Cu46Zr46Ag8 bulk metallic glass and its composites
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6:3:5:17 Understanding the deformation mechanism of individual phases of a ZrTi-based bulk metallic glass matrix composite using in situ diffraction and imaging methods
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6:3:5:18 Formation of CuZr-based bulk metallic glass composites containing nanometer-scale B2-CuZr phase through sub-T-g annealing
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6:3:5:19 Phase formation and mechanical properties of Ti-Cu-Ni-Zr bulk metallic glass composites
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6:3:5:20 In situ high-energy X-ray diffraction studies of deformation-induced phase transformation in Ti-based amorphous alloy composites containing ductile dendrites
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6:3:6:8 Effect of structural relaxation on plastic flow in a Ni-Nb metallic glassy film
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6:3:6:19 Effect of temperature and strain rate on deformation behavior in metallic glassy films
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6:3:9:2 Volume and enthalpy relaxation in Zr55Cu30Ni5Al10 bulk metallic glass
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6:3:9:3 Softening and dilatation in a single shear band
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6:3:9:4 Kinetics of volume and enthalpy relaxation in Pt60Ni15P25 bulk metallic glass
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6:3:9:6 Shear band evolution and hardness change in cold-rolled bulk metallic glasses
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6:3:9:8 Evidence for a liquid liquid phase transition in metallic fluids observed by electrostatic levitation
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6:3:9:9 Characterization of free volume in cold-rolled Zr55Cu30Ni5Al10 bulk metallic glasses
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6:3:9:10 Indication of liquid-liquid phase transition in CuZr-based melts
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6:3:9:11 High temperature melt viscosity and fragile to strong transition in Zr-Cu-Ni-Al-Nb(Ti) and Cu47Ti34Zr11Ni8 bulk metallic glasses
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6:3:9:12 Evolution of shear bands, free volume and hardness during cold rolling of a Zr-based bulk metallic glass
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6:3:9:13 Enthalpy recovery and free volume relaxation in a Zr44Ti11Ni10Cu10Be25 bulk metallic glass
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6:3:9:14 Equilibrium viscosity of Zr-Cu-Ni-Al-Nb bulk metallic glasses
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6:3:9:15 Effect of relaxation state on nucleation and grain growth of nanoscale quasicrystal in Zr-based bulk metallic glasses prepared under various cooling rates
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6:3:9:16 Measurements of volume, thermal expansion, and specific heat in Zr57Cu15.4Ni12.6Al10Nb5 and Zr58.5Cu15.6Ni12.8Al10.3Nb2.8 liquids and glasses
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6:3:9:18 Direct measurement of the kinetics of volume and enthalpy relaxation of an Au-based bulk metallic glass
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6:3:9:19 Thermodynamic and dynamic fragility in metallic glass-formers
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6:3:9:20 Recovery of less relaxed state in Zr-Al-Ni- Cu bulk metallic glass annealed above glass transition temperature
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6:3:9:21 On the kinetic and thermodynamic fragility of the Pt60Cu16Co2P22 and Pt57.3Cu14.6Ni5.3P22.8 bulk metallic glasses
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6:3:9:23 In situ high-energy x-ray diffraction observation of structural evolution in a Ti-based bulk metallic glass upon heating
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6:3:9:24 Densification and Strain Hardening of a Metallic Glass under Tension at Room Temperature
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6:3:9:25 Volume and Enthalpy Relaxation in Pd42.5Cu30Ni7.5P20 Bulk Metallic Glass
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6:3:9:26 Nanocrystallization in driven amorphous materials
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6:3:10:1 Thin film metallic glasses: Unique properties and potential applications
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6:3:10:3 Effect of residual stresses on the hardness of bulk metallic glasses
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6:3:10:4 Bendable bulk metallic glass: Effects of a thin, adhesive, strong, and ductile coating
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6:3:10:7 Mechanical and thermal behaviors of nitrogen-doped Zr-Cu-Al-Ag-Ta-An alternative class of thin film metallic glass
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6:3:10:9 Encapsulated Zr-based bulk metallic glass with large plasticity
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6:3:10:10 Hardness, yield strength, and plastic flow in thin film metallic-glass
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6:3:10:12 Deformation localization in constrained layers of metallic glasses: A parametric modeling analysis
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6:3:10:13 Annealing-induced shape recovery in thin film metallic glass
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6:3:10:14 Al-Ni-Y-X (X = Cu, Ta, Zr) metallic glass composite thin films for broad-band uniform reflectivity
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6:3:10:16 Optical reflectivity improvement by upgrading metallic glass film quality
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6:3:10:20 Antimicrobial properties of Zr-Cu-Al-Ag thin film metallic glass
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6:3:10:23 Oxygen impurity and its alloying effect in sputter-coatings of Zr-based metallic glass alloy for a brazing filler metal
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6:3:10:25 Compositional-induced structural change in ZrxNi100-x thin film metallic glasses
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6:3:10:26 Thermal stability and mechanical properties of amorphous coatings in the Ti-B-Si-Al-N system grown by cathodic arc evaporation from TiB2, Ti33Al67, and Ti85Si15 cathodes
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6:3:10:27 Effect of Sputtering Power on the Nucleation and Growth of Cu Films Deposited by Magnetron Sputtering
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6:3:11:1 On the microstructure of the Cu65Zr35 and Cu35Zr65 metallic glasses
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6:3:11:2 Statistical composition-structure-property correlation and glass-forming ability based on the full icosahedra in Cu-Zr metallic glasses
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6:3:11:3 A transition from localized shear banding to homogeneous superplastic flow in nanoglass
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6:3:11:5 Roles of alloying additions on local structure and glass-forming ability of Cu-Zr metallic glasses
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6:3:11:6 On the notch sensitivity of CuZr metallic glasses
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6:3:11:7 Deformation behavior of bulk and nanostructured metallic glasses studied via molecular dynamics simulations
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6:3:11:8 Structural properties of ZrxCu90-xAl10 metallic glasses investigated by molecular dynamics simulations
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6:3:11:9 On the notch sensitivity of CuZr nanoglass
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6:3:11:10 The mechanical properties of a nanoglass/metallic glass/nanoglass sandwich structure
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6:3:11:11 Is Stress Concentration Relevant for Nanocrystalline Metals?
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6:3:11:12 Structure, stability and mechanical properties of internal interfaces in Cu64Zr36 nanoglasses studied by MD simulations
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6:3:11:13 Understanding the relationship between atomic structures and transport properties in (Cu0.5Zr0.5)(100-x)Al-x (<= 10) glass forming liquids: Molecular dynamics simulations
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6:3:11:14 The fundamental structural factor in determining the glass-forming ability and mechanical behavior in the Cu-Zr metallic glasses
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6:3:11:15 Molecular dynamics studies of short to medium range order in Cu64Zr36 metallic glass
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6:3:11:16 Molecular dynamic simulation of binary ZrxCu100-x metallic glass thin film growth
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6:3:11:17 Local atomic structure of Zr-Cu and Zr-Cu-Al amorphous alloys investigated by EXAFS method
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6:3:11:18 Clustering, microalloying and mechanical properties in Cu/Zr-based glassy models by molecular dynamics simulations and ab-initio computations
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6:3:11:19 Molecular dynamic simulation study of the structural anisotropy in Cu50Zr50 and Cu64.5Zr35.5 metallic glasses induced by static uniaxial loading within the elastic regime
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6:3:11:20 Modifications of CuxZr12-xY Icosahedra upon (0 < x < 12, Y = Be, Mg, Al, Si, P, Nb, Ag) substitutions by density functional theory computations
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6:3:11:21 Cu-Zr and Cu-Zr-Al clusters: Bonding characteristics and mechanical properties
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6:3:11:22 Predicting the eutectic compositions of four multicomponent alloy systems by a simple approach
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6:3:11:23 Thermophysical properties of Zr-Cu-Al metallic glasses during crystallization
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6:3:11:24 Superplastic nanocrystalline ceramics at room temperature and high strain rates
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6:3:12:1 Role of Nb in glass formation of Fe-Cr-Mo-C-B-Nb BMGs
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6:3:12:2 Fe-based bulk metallic glass matrix composite with large plasticity
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6:3:12:3 Ternary Fe-P-C bulk metallic glass with good soft-magnetic and mechanical properties
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6:3:12:4 Enhanced mechanical properties due to structural changes induced by devitrification in Fe-Co-B-Si-Nb bulk metallic glass
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6:3:12:5 Fe-based bulk metallic glasses: Brittle or ductile?
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6:3:12:6 Quaternary magnetic FeNiPC bulk metallic glasses with large plasticity
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6:3:12:7 New (Fe0.9Ni0.1)(77)Mo5P9C7.5B1.5 glassy alloys with enhanced glass-forming ability and large compressive strain
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6:3:12:8 Preparation and properties of Fe80-xNixP14B6 bulk metallic glasses
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6:3:12:9 The effect of Mo on the glass forming ability, mechanical and magnetic properties of FePC ternary bulk metallic glasses
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6:3:12:10 Fe-based bulk metallic glass composites without any metalloid elements
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6:3:12:11 Notch toughness of Fe-based bulk metallic glass and composites
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6:3:12:12 Microstructure and tribological behavior of amorphous and crystalline composite coatings using laser melting
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6:3:12:13 Enhancement of plasticity of Fe-based bulk metallic glass by Ni substitution for Fe
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6:3:12:14 Effect of Cu addition on nanocrystallization behaviors and magnetic properties of the Fe76.5-xC6.0Si3.3B5.5P8.7Cux (x=0-3 at.%) bulk metallic glass
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6:3:12:15 Glass forming ability, thermal stability, crystallization and magnetic properties of [(Fe,Co,Ni)(0.75)Si0.05B0.20](95)Nb4Zr1 metallic glasses
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6:3:12:16 Plasticity improvement of an Fe-based bulk metallic glass by geometric confinement
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6:3:12:17 The effect of liquid phase separation on the Vickers microindentation shear bands evolution in a Fe-based bulk metallic glass
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6:3:12:18 Electrical and magnetic properties of Fe-based bulk metallic glass with minor Co and Ni addition
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6:3:12:19 Ferromagnetic Fe-based bulk metallic glasses with high thermoplastic formability
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6:3:12:20 Effects of nanocrystal formation on the soft magnetic properties of Fe-based bulk metallic glasses
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6:3:12:21 In vitro biocompatibility response of Ti-Zr-Si thin film metallic glasses
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6:3:12:22 Effects of minor Cu addition on glass-forming ability and magnetic properties of FePCBCu alloys with high saturation magnetization
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6:3:12:23 FeNiPBNb bulk glassy alloys with good soft-magnetic properties
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6:3:12:24 Plasticity enhancement of a Zr-based bulk metallic glass by an electroplated Cu/Ni bilayered coating
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6:3:12:25 A four-step approach to the multicomponent bulk-metallic glass formation
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6:3:12:26 Effect of P addition on the structure and magnetic properties of melt-spun Fe-Pt-B alloy
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6:3:12:27 Nano-crystallization of Fe36Cr12Mo10 phase in Fe55-xCr18Mo7B16C4Nbx (X=0, 3, 4) amorphous alloys
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6:3:12:28 Effect of spraying condition on property of Zr-based metallic glass coating by gas tunnel type plasma spraying
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6:3:12:29 Detailed study of ultra-soft magnetic properties of Fe74Cu0.8Nb2.7Si15.5B7
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6:3:13:1 Phase separation in metallic glasses
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6:3:13:2 Synthesis of metallic glass composites using phase separation phenomena
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6:3:13:3 Stable miscibility gap in liquid Cu-Zr-Ag ternary alloy
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6:3:13:4 Liquid phase separation and microstructure characterization in a designed Al-based amorphous matrix composite with spherical crystalline particles
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6:3:13:5 Phase separation and plastic deformation in an Mg-based bulk metallic glass
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6:3:13:6 Effect of Y and Ni addition on liquid immiscibility in Cu-Zr-Ag ternary alloys
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6:3:13:7 Liquid phase separation in immiscible Ag-Ni-Nb alloy and formation of crystalline/amorphous composite
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6:3:13:8 A bridge from monotectic alloys to liquid-phase-separated bulk metallic glasses: Design, microstructure and phase evolution
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6:3:13:9 Multi-scale crystalline Cu globule dispersed Fe-based metallic glass formation by multi-step liquid phase separation
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6:3:13:10 Formation of macroscopically phase separated Cu-colored melt-spun ribbon in (Fe0 5Cu0 5)(100-x)B-x (x=0, 5, 10, and 20) alloys
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6:3:13:11 Rapid solidification of silver-rich Ag-Cu-Zr alloys
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6:3:13:12 Cold rolling of amorphous/crystalline Ag73.2Cu17.1Zr9.7 composite
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6:3:13:13 Role of crystalline precipitates on the mechanical properties of (Cu0.50Zr0.50)(100-x)Al-x (x=4, 5, 7) bulk metallic glasses
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6:3:13:14 Phase separation and microstructure evolution of rapidly quenched Gd-Hf-Co-Al alloys
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6:3:13:15 Rapid solidification of silver-rich Ag-Cu-Zr-Al alloys
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6:3:13:16 Liquid separation in Cu-Zr-Ag ternary alloys
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6:3:13:17 Formation of melt-extracted wire of Fe-Cu-Si-B alloy with core-wire/surface-cover-layer structure by arc-melt-type melt-extraction method
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6:3:13:18 Glass transition and crystallization of Al-Ni-La based metallic glasses studied by temperature modulated DSC
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6:3:13:19 Formation of Cu-rich crystalline/NiNb-rich amorphous composite induced by liquid phase separation
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6:3:13:20 In situ TEM observation of the glass-to-liquid transition of metallic glass in Fe-Zr-B-Cu alloy
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6:3:13:21 Formation of macroscopic phase-separated dual-layer melt-spun ribbon from Co-Si-B-Cu alloy
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6:3:13:22 The effect of microalloying on mechanical properties in CuZrAl bulk metallic glass
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6:3:13:23 Improvement of glass-forming ability and phase separation in Cu-Ti-rich Cu-Ti-Zr-Ni-Si bulk metallic glasses
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6:3:13:24 Liquid phase separation of Cu-Cr alloys during the vacuum breakdown
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6:3:14:1 Selective laser melting of an Al86Ni6Y4.5Co2La1.5 metallic glass: Processing, microstructure evolution and mechanical properties
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6:3:14:4 Developing aluminum-based bulk metallic glasses
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6:3:14:8 Structure and mechanical properties of Al-Ni-Ti amorphous powder consolidated by pressure-less, pressure-assisted and spark plasma sintering
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6:3:14:10 Influence of mechanically milled powder and high pressure on spark plasma sintering of Mg-Cu-Gd metallic glasses
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6:3:14:13 Formation of anomalously large Al single crystals at triple points during pulsed electric current sintering (PECS) of Al86Ni6Y4.5Co2La1.5 metallic glass
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6:3:14:14 Effects of B upon glass forming ability of Al87Y8Ni5 amorphous alloy
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6:3:14:16 Effect of pulsed DC current on neck growth between tungsten wires and tungsten plates during the initial stage of sintering by the spark plasma sintering method
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6:3:14:19 Fe76Si9.6B8.4P6 glassy powder soft-magnetic cores with low core loss prepared by spark-plasma sintering
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6:3:14:21 Micrometer-sized quasicrystals in the Al85Ni5Y6Co2Fe2 metallic glass: A TEM study and a brief discussion on the formability of quasicrystals in bulk and marginal glass-forming alloys
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6:3:14:24 Role of rare-earth elements in glass formation of Al-Ca-Ni amorphous alloys
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6:3:14:25 Microstructure and properties of Al-based metal matrix composites reinforced by Al60Cu20Ti15Zr5 glassy particles by high pressure hot pressing consolidation
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6:3:15:2 Tensile necking and enhanced plasticity of cold rolled beta-Ti dendrite reinforced Ti-based bulk metallic glass matrix composite
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6:3:15:3 Effect of pre-existing shear bands on the tensile mechanical properties of a bulk metallic glass
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6:3:15:4 Enhancement of plastic deformability in Fe-Ni-Nb-B bulk glassy alloys by controlling the Ni-to-Fe concentration ratio
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6:3:15:5 Effect of cold-rolling on the crystallization behavior of a CuZr-based bulk metallic glass
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6:3:15:6 Effect of prior compression treatment on the deformation behavior of Zr based bulk metallic glass
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6:3:15:7 FeCoSiBNbCu bulk metallic glass with large compressive deformability studied by time-resolved synchrotron X-ray diffraction
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6:3:15:9 Enhanced plastic deformation of Zr41.2Ti13.8Cu12.5Ni10Be22.5 bulk metallic glass by the optimization of frictional boundary restraints
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6:3:15:10 Internal structural evolution and enhanced tensile plasticity of Ti-based bulk metallic glass and composite via cold rollingle
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6:3:15:11 Plasticity enhancement in Zr based bulk metallic glass by sand blasting
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6:3:15:14 Effect of cold rolling on compressive and tensile mechanical properties of Zr52.5Ti5Cu18Ni14.5Al10 bulk metallic glass
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6:3:15:15 W-f/Zr41.2Ti13.8Cu12.5Ni10Be22.5 bulk metallic glass composites prepared by a new melt infiltrating method
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6:3:15:16 Effect of ceramic rolling on the mechanical properties of Zr54Cu38Al8 bulk metallic glass
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6:3:15:17 Study on microstructure and fracture behavior of tungsten wire reinforced Cu-based and Zr-based bulk metallic glass matrix composites
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6:3:15:18 Evaluation of the relationship between the effective strain and the springback behavior during the deformation of metallic glass ribbons
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6:3:15:19 Fabrication and mechanical properties of a tungsten wire reinforced Cu-Zr-Al bulk metallic glass composite
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6:3:16:2 Atomic Structure and Structural Stability of Sc75Fe25 Nanoglasses
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6:3:16:3 Formation and properties of Au-based nanograined metallic glasses
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6:3:16:7 Ultrastable Metallic Glass
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6:3:16:8 Structural investigations of interfaces in Fe90Sc10 nanoglasses using high-energy x-ray diffraction
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6:3:16:9 Evidence for enhanced ferromagnetism in an iron-based nanoglass
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6:3:16:10 The ultrastable kinetic behavior of an Au-based nanoglass
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6:3:17:9 Tensile fracture criterion of metallic glass
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6:3:17:10 Compressive fracture morphology and mechanism of metallic glass
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6:3:17:11 On the stress-state dependent plasticity of brittle metallic glasses: Experiment, theory and simulation
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6:3:17:12 Comparison of compressive deformation and fracture behaviors of Zr- and Ti-based metallic glasses with notches
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6:3:17:14 Deformation of titanium alloy Ti-6Al-4V under dynamic compression
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6:3:17:15 Design induced plastic deformation in Zr-based bulk metallic glass
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6:3:17:16 Effect of isothermal annealing on the compressive strength of a ZrAlNiCuNb metallic glass
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6:3:17:17 The evolution of local mechanical properties of bulk metallic glasses caused by structural inhomogeneity
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6:3:17:18 Effect of strain rate on the yielding mechanism of amorphous metal foam
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6:3:18:1 Nanoscale strength distribution in amorphous versus crystalline metals
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6:3:18:2 Effect of residual stresses on the onset of yielding in a Zr-based metallic glass
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6:3:18:6 Effect of hydrogen on the yielding behavior and shear transformation zone volume in metallic glass ribbons
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6:3:18:7 Onset of yielding and shear band nucleation in an Au-based bulk metallic glass
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6:3:18:8 Indentation size effect in bulk metallic glass
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6:3:18:9 Estimation of the shear transformation zone size fin a bulk metallic glass through statistical a analysis of the first pop-in stresses during spherical nanoindentation
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6:3:18:10 Indentation size effect in metallic glasses: Mean pressure at the initiation of plastic flow
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6:3:18:11 On the nanomechanical characteristics of thermally-treated alloy 690: Grain boundaries versus grain interior
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6:3:18:12 Estimation of the Hall-Petch strengthening coefficient of steels through nanoindentation
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6:3:18:13 Stress-dependent hardening-to-softening transition of hydrogen effects in nanoindentation of a linepipe steel
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6:3:18:14 Experimental Analysis of the Elastic-Plastic Transition During Nanoindentation of Single Crystal Alpha-Silicon Nitride
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6:3:18:15 Hydrogen-induced toughness drop in weld coarse-grained heat-affected zones of linepipe steel
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6:3:18:16 Atomistic mechanisms of cyclic hardening in metallic glass
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6:3:18:17 Hydrogen-induced hardening and softening of Ni-Nb-Zr amorphous alloys: Dependence on the Zr content
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6:3:18:18 Strengthening behavior due to cyclic elastic loading in Pd-based metallic glass
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6:3:19:1 Influence of the irradiation temperature on the surface structure and physical/chemical properties of Ar ion-irradiated bulk metallic glasses
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6:3:19:2 Effect of ion irradiation on tensile ductility, strength and fictive temperature in metallic glass nanowires
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6:3:19:3 Ion irradiation enhances the mechanical performance of metallic glasses
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6:3:19:4 Nanometallic Glasses: Size Reduction Brings Ductility, Surface State Drives Its Extent
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6:3:19:5 Suppression of shear banding in amorphous ZrCuAl nanopillars by irradiation
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6:3:19:6 Size-independent shear band formation in amorphous nanowires made from simulated casting
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6:3:19:7 Intrinsic ductility of glassy solids
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6:3:19:8 Effects of Helium Implantation on the Tensile Properties and Microstructure of Ni73P27 Metallic Glass Nanostructures
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6:3:19:9 Unusual brittle behavior of Pd-based bulk metallic glass
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6:3:19:10 Effects of shot peening on the nanoindentation response of Cu47.5Zr47.5Al5 metallic glass
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6:3:19:11 Molecular dynamics simulation of amorphous silica under uniaxial tension: From bulk to nanowire
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6:3:19:12 Nanoindentation response of an ion irradiated Zr-based bulk metallic glass
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6:3:19:13 An experimental and modeling study on the role of damage cascade formation in nanocrystalization of ion-irradiated Ni52.5Nb10Zr15Ti15Pt7.5 metallic glass
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6:3:19:14 Effect of Ar+ ion irradiation on the microstructure and properties of Zr-Cu-Fe-Al bulk metallic glass
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6:3:19:15 Nanometer-scale tunnel formation in metallic glass by helium ion irradiation
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6:3:19:16 Smoothing metallic glasses without introducing crystallization by gas cluster ion beam
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6:3:19:17 Phase transition, segregation and nanopore formation in high-energy heavy-ion-irradiated metallic glass
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6:3:19:18 Effects of irradiation on the electrochemical behavior of the alloy Ti60Ni40
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6:3:20:1 Recent development and application products of bulk glassy alloys
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6:3:20:2 A Ti36.2Zr30.3Cu8.3Fe4Be21.2 bulk metallic glass with exceptional glass forming ability and remarkable compressive plasticity
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6:3:20:3 Scattering mechanical performances for brittle bulk metallic glasses
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6:3:20:5 Elastic and anelastic properties close to the Curie temperature of Fe-based bulk metallic glass
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6:3:20:6 Atomic packing and short to medium range order in a U-Fe metallic glass
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6:3:20:7 Steady-state tensile viscous flow forming of bulk metallic glass
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6:3:20:8 Effects of Mo addition on thermal stability and magnetic properties of a ferromagnetic Fe75P10C10B5 metallic glass
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6:3:20:9 Study on continuous casting of bulk metallic glass
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6:3:20:10 Zr-based metallic glass thin film coating for fatigue-properties improvement of 7075-T6 aluminum alloy
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6:3:20:11 Investigation of transparent magnetic material formed by selective oxidation of a metallic glass
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6:3:20:12 Fatigue properties improvement of high-strength aluminum alloy by using a ZrCu-based metallic glass thin film coating
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6:3:20:13 Effect of Ni-addition on the crystallization behavior and the oxidation resistance of Zr-based metallic glasses below the crystallization temperature
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6:3:21:1 Mechanical and magnetic properties of (Fe72Mo4B24)(100-x)Tb-x (x=4, 5, 6, 7 at.%) bulk glassy alloys
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6:3:21:2 Synthesis, structural and magnetic properties of the nanocomposite Fe63B23Nd7Y3Nb3Cr1 magnets
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6:3:21:3 The magnetic, structure and mechanical properties of rapidly solidified (Nd7Y2.5)-(Fe64.5Nb3)-B-23 nanocomposite permanent magnet
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6:3:21:4 Magnetic property enhancement of directly quenched Nd-Fe-B bulk magnets with Ti substitution
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6:3:21:5 Synthesis, thermal stability and properties of [(Fe1-xCox)(72)Mo4B24](94)Dy-6 bulk metallic glasses
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6:3:21:6 Glass forming ability, magnetic and mechanical properties of (Fe72MO4B24)(100-x)Dy-x (x=4-7) bulk metallic glasses
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6:3:21:7 Rapidly solidified Nd7Fe67B22Mo3Zr1 nanocomposite permanent magnets
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6:3:21:8 Fe64B22.8Nd6.6Y3.9Nb2.7 bulk nanocomposite magnets with improved size and magnetic properties
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6:3:21:9 Effects of C and Cr contents on the magnetic properties and microstructure of directly quenched NdFeTiZrCrBC bulk magnets
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6:3:21:10 Fe65B22Nd9Mo4 bulk nanocomposite permanent magnets produced by crystallizing amorphous precursors
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6:3:21:12 Effect of Tb addition on the thermal stability, glass-forming ability and magnetic properties of Fe-B-Si-Nb bulk metallic glass
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6:3:21:13 Fe69B20.2Nd4.2Nb3.3Y2.5Zr0.8 magnets produced by injection casting
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6:3:21:18 Effect of Co addition on the microstructure and magnetic properties of Nd9.5Febal center dot CoxNb2.5Zr0.5B15 (x=0, 10, 20) bulk magnets
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6:3:21:19 Study of microstructure and correlative magnetic property in bulk Fe(61)Nd(10)B(2)sNb(4) permanent magnet
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6:3:21:20 Magnetic properties, microstructure and corrosion behavior of Nd10Y1Fe85-xNb3.5Ti0.5Bx (x=14-22) and Nd10Y1Fe69Nb3.5M0.5B16 (M = Ti, Zr, Cr, Mo) bulk nanocrystalline magnets
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6:3:21:21 Comparison on the magnetic properties, phase evolution and microstructure of directly quenched Pr-Fe-Ti-B-based ribbons and rods
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6:3:21:22 Influence of mechanical alloying conditions on amorphous phase formation in Fe67B33
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6:3:21:23 Magnetic properties, phase and microstructure of direct cast Nd9.5Febal.Co10MB15 rod magnets
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6:3:22:1 Introducing a strain-hardening capability to improve the ductility of bulk metallic glasses via severe plastic deformation
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6:3:22:6 Localization of plastic deformation along shear bands in Vitreloy bulk metallic glass during high pressure torsion
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6:3:22:7 On the deformation mechanism of ultrafine-grained titanium with multilayered hierarchical structure
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6:3:22:9 Shear bands in a bulk metallic glass after large plastic deformation
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6:3:22:10 Pronounced Structural Rejuvenation in Zr50Cu40Al10 Metallic Glass Strained by Torsional Straining at Elevated Temperature
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6:3:22:12 Residual elastic strain induced by equal channel angular pressing on bulk metallic glasses
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6:3:22:13 Structural changes in amorphous metals from high-strain plastic deformation
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6:3:23:2 Ni- and Cu-free Zr-Al-Co-Ag bulk metallic glasses with superior glass-forming ability
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6:3:23:3 Corrosion behavior and in vitro biocompatibility of Zr-Al-Co-Ag bulk metallic glasses: An experimental case study
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6:3:23:5 A Ni-free high-zirconium-based bulk metallic glass with enhanced plasticity and biocompatibility
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6:3:23:6 High-zirconium-based bulk metallic glasses with large plasticity
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6:3:23:7 Isochronal and isothermal crystallization kinetics of Zr-Al-Fe glassy alloys: Effect of high-Zr content
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6:3:23:8 Novel low Cu content and Ni-free Zr-based bulk metallic glasses for biomedical applications
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6:3:23:9 Enhancement of glass-forming ability and bio-corrosion resistance of Zr-Co-Al bulk metallic glasses by the addition of Ag
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6:3:23:10 Enhancement of glass-forming ability and corrosion resistance of Zr-based Zr-Ni-Al bulk metallic glasses with minor addition of Nb
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6:3:23:15 Influence of free volume and medium-range order on the deformation response of rapidly solidified and bulk Zr-based (Zr52Ti6Al10Cu18Ni14) metallic glass
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6:3:23:16 Formation and mechanical properties of Ni-free Zr-based bulk metallic glasses
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6:3:23:17 Mechanical properties and corrosion resistance of a new Zr56Ni20Al15Nb4Cu5 bulk metallic glass with a diameter up to 25 mm
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6:3:23:18 Preparation and characterization of Zr-based bulk metallic glasses in form of plate
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6:3:23:19 Achieving superior glass forming ability of Zr-Cu-Al-Ni-Ti/Ag bulk metallic glasses by element substitution
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6:3:23:20 Effects of Ni addition on the glass-forming ability, mechanical properties and corrosion resistance of Zr-Cu-Al bulk metallic glasses
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6:3:23:21 New nickel-based bulk metallic glasses with extremely high nickel content
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6:3:24:2 Effect of tension on corrosive and thermal properties of Cu60Zr30Ti10 metallic glass
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6:3:24:3 Effect of mechanical tension on corrosive and thermal properties of Cu50Zr40Ti10 metallic glass
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6:3:24:4 Tensile effect on corrosive and thermal properties of Cu55Zr35Ti10 metallic glass
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6:3:24:5 Structural and thermal sensitivity of Cu-Zr-Ti amorphous alloys to pressure
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6:3:24:6 Effects of severe plastic deformation on the structure and thermo-mechanical properties of Zr55Cu30Al10Ni5 bulk metallic glass
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6:3:24:9 Phase separation in Cu46Zr47-xAl7Gdx metallic glasses
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6:3:24:10 Effect of shot-peening on the corrosion resistance of a Zr-based bulk metallic glass
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6:3:24:12 Effects of Re microalloying on glass formation and mechanical properties of Zr-Cu-Al alloys
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6:3:24:13 Corrosion behavior of Cu55Zr35Ti10 metallic glass in the chloride media
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6:3:24:14 Corrosion and corrosion fatigue of Vitreloy glasses containing low fractions of late transition metals
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6:3:24:16 Thermally-activated atomic rearrangements in elastically deformed metallic glasses
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6:3:24:17 Kinetic study of crystallisation of sol-gel derived calcia-alumina binary compounds
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6:3:25:1 Compressive plasticity and toughness of a Ti-based bulk metallic glass
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6:3:25:3 Correlation between fracture surface morphology and toughness in Zr-based bulk metallic glasses
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6:3:25:4 Mg-based bulk metallic glasses: Elastic properties and their correlations with toughness and glass transition temperature
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6:3:25:6 Understanding the correlation of plastic zone size with characteristic dimple pattern length scale on the fracture surface of a bulk metallic glass
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6:3:25:7 Size-dependent fracture toughness of bulk metallic glasses
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6:3:25:8 Optimization for toughness in metalloid-free Ni-based bulk metallic glasses
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6:3:25:9 The relation of mechanical properties and local structures in bulk Mg-54(Cu1-xAgx)(35)Y-11 metallic glasses: Ab initio molecular dynamics simulations
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6:3:25:10 Damage-tolerant Zr-Cu-Al-based bulk metallic glasses with record-breaking fracture toughness
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6:3:25:11 Fatigue crack growth behavior of a Zr58.5Cu15.6Ni12.8Al10.3Nb2.8 bulk metallic glass-forming alloy
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6:3:25:12 A damage-tolerant glass
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6:3:25:13 Size-dependent fracture toughness of bulk metallic glasses (vol 70, pg 198, 2014)
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6:3:28:17 Wear behavior of Fe-based bulk metallic glass composites
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6:3:29:1 Origin of Pressure-Induced Polyamorphism in Ce75Al25 Metallic Glass
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6:3:29:14 Thermal stability and fragility of Pd-Si binary bulk metallic glasses
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6:3:29:15 Shock-induced phase transitions of alpha-Ce3Al
DOI:10.1063/1.4793282 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:1 AU: Fang, Yuankan;Meng, Chuanmin;Zhu, Wenjun;He, Duanwei;Du, Gaohui;Jiang, Jianzhong;
6:3:30:1 Melting, thermal expansion, and the Lindemann rule for elemental substances
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6:3:30:2 On the nature of enthalpy relaxation below and above the glass transition of metallic glasses
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6:3:30:3 Interrelationship between the shear modulus of a metallic glass, concentration of frozen-in defects, and shear modulus of the parent crystal
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6:3:30:4 Alternative understanding for the enthalpy vs volume change upon structural relaxation of metallic glasses
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6:3:30:5 Relaxation of the shear modulus of a metallic glass near the glass transition
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6:3:30:6 On the nature of heat effects and shear modulus softening in metallic glasses: A generalized approach
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6:3:30:7 Determination of the activation energy spectrum of structural relaxation in metallic glasses using calorimetric and shear modulus relaxation data
DOI:10.1063/1.4896491 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:2 AU: Tsyplakov, A. N.;Mitrofanov, Yu. P.;Makarov, A. S.;Afonin, G. V.;Khonik, V. A.;
6:3:30:8 Relaxation of a metallic glass to the metastable equilibrium: Evidence for the existence of the Kauzmann pseudocritical temperature
DOI:10.1063/1.4705407 JN:APPLIED PHYSICS LETTERS PY:2012 TC:8 AU: Mitrofanov, Yu P.;Khonik, V. A.;Granato, A. V.;Joncich, D. M.;Khonik, S. V.;Khoviv, A. M.;
6:3:30:9 A derivation of the Vogel-Fulcher-Tammann relation for supercooled liquids
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6:3:30:10 Determination of the susceptibility of the shear modulus to the defect concentration in a metallic glass
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6:3:30:11 Specific volume study of a bulk metallic glass far below its calorimetrically determined glass transition temperature
DOI:10.1103/PhysRevB.89.174113 JN:PHYSICAL REVIEW B PY:2014 TC:0 AU: Luckabauer, M.;Kuehn, U.;Eckert, J.;Sprengel, W.;
6:3:30:12 Unexpectedly large relaxation time determined by in situ high-frequency shear modulus measurements near the glass transition of bulk glassy Pd40Cu30Ni10P20
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6:3:30:13 Determination of the thermal properties of AlB2-type WB2
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6:3:30:14 Melting of crystalline silicon thin films
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6:3:30:15 Atomic mechanism of glass-to-liquid transition in simple monatomic glasses
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6:3:31:1 ac impedance analysis of a Ni-Nb-Zr-H glassy alloy with femtofarad capacitance tunnels
DOI:10.1063/1.3294294 JN:APPLIED PHYSICS LETTERS PY:2010 TC:23 AU: Fukuhara, M.;Seto, M.;Inoue, A.;
6:3:31:2 Structures of the icosahedral clusters in Ni-Nb-Zr-H glassy alloys determined by first-principles molecular dynamics calculation and XAFS measurements
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6:3:31:3 Electronic transport behaviors of Ni-Nb-Zr-H glassy alloys
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6:3:31:4 Local structures and structural phase change in Ni-Zr-Nb glassy alloys composed of Ni5Zr5Nb3 icosahedral clusters
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6:3:31:5 The effect of degree of amorphousness on electronic transport behaviors in the Ni-Nb-Zr-H glassy alloys with subnanometer-sized clusters
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6:3:31:6 Vacancy analysis in a Ni-Nb-Zr-H glassy alloy by positron annihilation spectroscopy
DOI:10.1063/1.3688303 JN:APPLIED PHYSICS LETTERS PY:2012 TC:2 AU: Fukuhara, Mikio;
6:3:31:7 Proton nuclear magnetic resonance studies of hydrogen diffusion and electron tunneling in Ni-Nb-Zr-H glassy alloys
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6:3:31:8 Distorted icosahedral Ni5Nb3Zr5 clusters in the as-quenched and hydrogenated amorphous (Ni0.6Nb0.4)(0.65)Zr-0.35 alloys
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6:3:31:9 Effect of current on Coulomb oscillation in a Ni-Nb-Zr-H glassy alloy with multiple junctions
DOI:10.1063/1.3527084 JN:APPLIED PHYSICS LETTERS PY:2010 TC:6 AU: Fukuhara, Mikio;Inoue, Akihisa;
6:3:31:10 Pressure-induced positive electrical resistivity coefficient in Ni-Nb-Zr-H glassy alloy
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6:3:31:11 Rotating speed effect on electronic transport behaviors of Ni-Nb-Zr-H glassy alloys
DOI:10.1016/j.jallcom.2011.11.014 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:1 AU: Fukuhara, Mikio;
6:3:31:12 AC charging/discharging of de-alloyed Si-Al-V alloy ribbons
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6:3:31:13 Acoustic analysis of the amorphous phase of annealed Zr55Cu30Ni5Al10 glassy alloy, using diffracted SH ultrasonic waves
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6:3:31:14 Capacitive tunnels in single-walled carbon nanotube networks on flexible substrate
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6:3:31:15 Realizing a supercapacitor in an electrical circuit
DOI:10.1063/1.4902410 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Fukuhara, Mikio;Kuroda, Tomoyuki;Hasegawa, Fumihiko;
6:3:31:16 Effect of Hydrogen Absorption on Electrical Transport Properties for Ni36Nb24Zr40 Amorphous Alloy Ribbons
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6:3:32:1 Tracer Measurements of Atomic Diffusion inside Shear Bands of a Bulk Metallic Glass
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6:3:32:2 Change in atomic coordination in a heavily deformed metallic glass
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6:3:32:3 Nanocrystallization in a shear band: An in situ investigation
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6:3:32:4 Thermal annealing of shear bands in deformed metallic glasses: Recovery mechanisms in Cu64Zr36 studied by molecular dynamics simulations
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6:3:32:5 Low Temperature Heat Capacity of a Severely Deformed Metallic Glass
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6:3:32:6 Evolution of crystallite size, lattice parameter and internal strain in Al precipitates during high energy ball milling of partly amorphous Al87Ni8La5 alloy
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6:3:32:7 Impact of Plastic Deformation and Shear Band Formation on the Boson Heat Capacity Peak of a Bulk Metallic Glass
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6:3:32:8 Controlled softening of Cu64Zr36 metallic glass by ion irradiation
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6:3:32:9 Deformation-induced crystallization in amorphous Al85Ni10La5 alloy
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6:3:32:10 Plastic deformation of Al85Ni10La5 by equal channel angular pressing
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6:3:32:11 Devitrification of glassy Al85Ni10La5 powder by thermal treatment and ball-milling
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6:3:32:12 Quasi-localized vibrations and phonon damping in glasses
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6:3:32:13 Tracer Measurements of Atomic Diffusion inside Shear Bands of a Bulk Metallic Glass (vol 107, 235503, 2011)
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6:3:32:14 Plasticity-induced nanocrystallization in a Zr65Cu35 thin film metallic glass
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6:3:33:1 Co-based ternary bulk metallic glasses with ultrahigh strength and plasticity
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6:3:33:2 Compressibility and hardness of Co-based bulk metallic glass: A combined experimental and density functional theory study
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6:3:33:3 The influence of Ag substitution for Cu on glass-forming ability and thermal properties of Mg-based bulk metallic glasses
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6:3:33:4 Coring micron- and milli-scale holes in metallic glasses
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6:3:33:5 Enhancement of plasticity in Co-Nb-B ternary bulk metallic glasses with ultrahigh strength
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6:3:33:6 Glass formation, magnetic properties and magnetocaloric effect of ternary Ho-Al-Co bulk metallic glass
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6:3:33:7 Glass-forming ability, fragility parameter, and mechanical properties of Co-Ir-Ta-B amorphous alloys
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6:3:33:8 Effects of boron content on the glass-forming ability and mechanical properties of Co-B-Ta glassy alloys
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6:3:33:9 Room-temperature creep resistance of Co-based metallic glasses
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6:3:33:10 Co-B-Si-Ta bulk metallic glasses designed using cluster line and alloying
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6:3:33:11 Confined fracture behavior of bulk metallic glass-coated tungsten composite wires produced by continuously coating process
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6:3:33:12 Glass formation, thermal properties, and elastic constants of La-Al-Co alloys
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6:3:33:13 Improved Synthesis of Bulk Metallic Glasses by Current-Assisted Copper Mold Casting
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6:3:33:14 Cluster formulae for metallic glasses derived from devitrification phases
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6:3:34:1 Laminar Fe-based amorphous composite coatings with enhanced bonding strength and impact resistance
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6:3:34:2 Robust hydrophobic Fe-based amorphous coating by thermal spraying
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6:3:34:3 Pitting initiation in Fe-based amorphous coatings
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6:3:34:4 Oxidation and crystallization mechanisms in plasma-sprayed Cu-based bulk metallic glass coatings
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6:3:34:5 Characterization of gas tunnel type plasma sprayed TiN reinforced Fe-based metallic glass coatings
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6:3:34:6 Fe-based amorphous coatings: Structures and properties
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6:3:34:7 Formation of coating and tribological behavior of kinetic sprayed Fe-based bulk metallic glass
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6:3:34:8 Wear behavior of gas tunnel type plasma sprayed Zr-based metallic glass composite coatings
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6:3:34:9 Composite coating containing WC/12Co cermet and Fe-based metallic glass deposited by high-velocity oxygen fuel spraying
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6:3:34:10 Correlation between corrosion performance and surface wettability in ZrTiCuNiBe bulk metallic glasses
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6:3:34:11 Wetting of WC by a Zr-base metallic glass-forming alloy
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6:3:34:12 Oxidation features of plastic deformed Zr-based bulk metallic glass
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6:3:35:1 Influence of melt temperature on the Invar effect in (Fe71.2B24Y4.8)(96)Nb-4 bulk metallic glass
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6:3:35:2 Magnetic properties of (Fe1-xNix)(72)B20Si4Nb4 (x=0.0-0.5) bulk metallic glasses
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6:3:35:3 Thermal stability and magnetic properties of partially Co-substituted (Fe71.2B24Y4.8)(96)Nb-4 bulk metallic glasses
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6:3:35:4 Ductile Co-Nb-B bulk metallic glass with ultrahigh strength
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6:3:35:5 Preparation and characterization of quaternary magnetic Fe80-xCoxP14B6 bulk metallic glasses
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6:3:35:6 Nearly free electron model to glass-forming ability of multi-component metallic glasses
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6:3:35:7 Effects of Cu substitution for Fe on the glass-forming ability and soft magnetic properties for Fe-based bulk metallic glasses
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6:3:35:8 Magnetic properties and thermal stability of (Fe,Co)-Mo-B-P-Si metallic glasses
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6:3:35:9 Development of Fe-based bulk metallic glasses with high saturation magnetization
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6:3:35:10 The Effect of Melt Treatment on Glass Forming Ability and Thermal Stability of Al-Based Amorphous Alloy
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6:3:35:11 Glass-forming ability and soft magnetic properties of (Co0.6Fe0.3Ni0.1)(67)B22+xSi6-xNb5 bulk glassy alloys
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6:3:35:12 Thermal stability and magnetic properties of partially Co-substituted (Fe(71.2)B(24)Y(4.8))(96)Nb(4) bulk metallic glasses (vol 109, 054901, 2011)
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6:3:35:13 The soft magnetic properties of ring-shaped (Co0.6Fe0.3Ni0.1)(68)(B0.811Si0.189)(27)Nb-5 bulk metallic glasses
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6:3:35:14 Effect of Ni-substitution on glass forming ability, mechanical, and magnetic properties of FeBNbY bulk metallic glasses
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6:3:35:15 Low expansion in [(Fe0.9Co0.1)(0.72)B0.24Nb0.04](95.5)Y-4.5 bulk metallic glass
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6:3:36:1 Eutectic-to-metallic glass transition in the Al-Sm system
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6:3:36:2 Local chemical and topological order in Al-Tb and its role in controlling nanocrystal formation
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6:3:36:3 Phase separation mediated devitrification of Al88Y7Fe5 glasses
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6:3:36:4 Effect of rare earth Th on thermophysical properties of ternary Co-Fe-Th liquid alloy
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6:3:36:5 On the solution of solute diffusion during eutectic growth
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6:3:36:6 Structural modeling of liquid and amorphous Al91Tb9 by Monte Carlo simulations
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6:3:36:7 Correlation between fragility and eutectic instability and glass-forming ability in binary metallic glasses under growth controlled conditions
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6:3:36:8 Local chemical order in Al92Ce8 metallic glass: The role of 4f-electrons
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6:3:36:9 Theory of rod eutectic growth under far-from-equilibrium conditions: Nanoscale spacing and transition to glass
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6:3:36:10 Kinetics of fcc-Al nanocrystallization in Al90Tb10 metallic glass
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6:3:36:11 Spin-glass-like behavior and related properties of aluminum-based Al-Y-RE-Ni (RE = Gd, Dy) amorphous alloys
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6:3:36:12 Atomic packing and phase separation in Al-rare earth metallic glasses
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6:3:36:13 Initial crystallization in a nanostructured Al-Sm rare earth alloy
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6:3:36:14 Limit of steady-state lamellar eutectic growth
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6:3:36:15 Effect of replacing RE and TM on magnetic properties and thermal stability of some Al-Ni-based amorphous alloys
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6:3:36:16 Estimation of diffusivity governing primary nanocrystallisation and its relation to thermal stability of amorphous phases
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6:3:36:17 Effect of (Mo, W) substitution for Nb on glass forming ability and magnetic properties of Fe-Co-based bulk amorphous alloys fabricated by centrifugal casting
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6:3:36:18 Influence of rare earth elements on crystallization of Fe82Nb2B14RE2 (RE = Y, Gd, Tb, and Dy) amorphous alloys
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6:3:37:1 Strain rate dependent shear banding behavior of a Zr-based bulk metallic glass composite
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6:3:37:2 On the microstructure-tensile property correlations in bulk metallic glass matrix composites with crystalline dendrites
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6:3:37:3 Tensile softening of metallic-glass-matrix composites in the supercooled liquid region
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6:3:37:4 Ductile-to-brittle transition of in situ dendrite-reinforced metallic-glass-matrix composites
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6:3:37:5 On the hardness and elastic modulus of bulk metallic glass matrix composites
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6:3:37:6 Strengthening and toughening of Mg-based bulk metallic glass via in-situ formed B2-type AgMg phase
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6:3:37:7 Plastic flows of in-situ metallic glass matrix composites upon dynamic loading
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6:3:37:8 Strain rate response of a Ti-based metallic glass composite at cryogenic temperature
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6:3:37:9 Quasi-static and dynamic deformation behaviors of in situ Zr-based bulk-metallic-glass-matrix composites
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6:3:37:10 Effect of processing on Charpy impact toughness of metallic glass matrix composites
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6:3:37:11 Distinguished work-hardening capacity of a Ti-based metallic glass matrix composite upon dynamic loading
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6:3:37:12 Effect of strain rate and temperature on the plastic deformation behaviour of a bulk metallic glass composite
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6:3:37:13 Cryogenic Charpy impact testing of metallic glass matrix composites
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6:3:38:1 Structural and dynamic evolution in liquid Au-Si eutectic alloy by ab initio molecular dynamics
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6:3:38:2 Local order and dynamic properties in liquid Au-Ge eutectic alloys by ab initio molecular dynamics
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6:3:38:3 Structure of eutectic liquids in the Au-Si, Au-Ge, and Ag-Ge binary systems by neutron diffraction
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6:3:38:4 Crystalline monolayer surface of liquid Au-Cu-Si-Ag-Pd: Metallic glass former
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6:3:38:5 Self-Consistent Interpretation of the 2D Structure of the Liquid Au82Si18 Surface: Bending Rigidity and the Debye-Waller Effect
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6:3:38:6 Local structure and site substitution in amorphous and quasicrystalline Zr-Ti-Ni-(Cu) alloys
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6:3:38:7 Frustration of the stable Zr-Ti-Ni quasicrystal as the basis of glass formation
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6:3:38:8 Existence of a stable compound in the Au-Ge alloy system
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6:3:38:9 Review of the highlights of X-ray studies of liquid metal surfaces
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6:3:38:10 Liquid structure as a guide for phase stability in the solid state: Discovery of a stable compound in the Au-Si alloy system
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6:3:38:11 High-pressure effects on Ti-Zr-Ni metallic glass and its corresponding quasicrystal
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6:3:38:12 Large Reaction Rate Enhancement in Formation of Ultrathin AuSi Eutectic Layers
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6:3:38:13 Effects of annealing on mechanical behavior of Zr-Ti-Ni thin film metallic glasses
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6:3:38:14 Local structural motifs and extended-range order in liquid and solid ammonia under pressure
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6:3:38:15 On the abnormal room temperature tarnishing of an 18 karat gold bulk metallic glass alloy
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6:3:38:16 Density and elasticity of Zr46Cu37.6Ag8.4Al8 bulk metallic glass at high pressure
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6:3:39:1 Determining characteristic principal clusters in the "cluster-plus-glue-atom" model
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6:3:39:2 Phase stability, elastic and electronic properties of Cu-Zr binary system intermetallic compounds: A first-principles study
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6:3:39:3 Ab initio molecular dynamics simulation of binary Cu64Zr36 bulk metallic glass: Validation of the cluster-plus-glue-atom model
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6:3:39:4 The e/a values of ideal metallic glasses in relation to cluster formulae
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6:3:39:5 Local atomic arrangements and their topology in Ni-Zr and Cu-Zr glassy and crystalline alloys
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6:3:39:6 Hardness of Al-based quasicrystals evaluated via cluster-plus-glue-atom model
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6:3:39:7 24 electron cluster formulas as the 'molecular' units of ideal metallic glasses
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6:3:39:9 Packing efficiency of coordination polyhedra
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6:3:39:10 Composition rule for Al-transition metal binary quasicrystals
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6:3:39:11 Composition formulae of ideal metallic glasses and their relevant eutectics established by a cluster-resonance model
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6:3:39:12 Structure of a glassy Zr70Pd30 alloy analysed by anomalous X-ray scattering coupled with reverse Monte Carlo simulation (AXS-RMC)
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6:3:39:13 Correlation between microhardness and electronic charge density of hafnium hydrides
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6:3:39:14 Structural Study of Zr50Cu50 Amorphous Alloy by Anomalous X-ray Scattering Coupled with Reverse Monte-Carlo Simulation
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6:3:40:2 Dendrite size dependence of tensile plasticity of in situ Ti-based metallic glass matrix composites
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6:3:40:3 Correlation of microstructure and tensile properties of Ti-based amorphous matrix composites modified from conventional titanium alloys
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6:3:40:4 High tensile ductility of Ti-based amorphous matrix composites modified from conventional Ti-6Al-4V titanium alloy
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6:3:40:5 Tensile deformation behavior of two Ti-based amorphous matrix composites containing ductile beta dendrites
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6:3:40:6 Development of plastic Ti-based bulk-metallic-glass-matrix composites by controlling the microstructures
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6:3:40:7 Dendrite size and tensile ductility in Ti-based amorphous alloys containing ductile dendrites
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6:3:40:8 Quasi-static and dynamic compressive properties of Ti-based amorphous alloys modified from conventional Ti-6Al-4V alloy
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6:3:40:9 Influence of boron and oxygen on the microstructure and mechanical properties of high-strength Ti66Nb13Cu8Ni6.8Al6.2 alloys
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6:3:40:10 Quasi-static and dynamic compressive deformation behaviors in Zr-based amorphous alloys containing ductile dendrites
DOI:10.1016/j.msea.2013.04.086 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:10 AU: Jeon, Changwoo;Kang, Minju;Kim, Choongnyun Paul;Kim, Hyoung Seop;Lee, Sunghak;
6:3:40:11 Significant tensile ductility and toughness in an ultrafine-structured Ti68.8Nb13.6Co6Cu5.1Al6.5 bi-modal alloy
DOI:10.1016/j.msea.2014.07.108 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Okulov, I. V.;Boenisch, M.;Kuehn, U.;Skrotzki, W.;Eckert, J.;
6:3:40:12 Deformation and fracture behavior of composite structured Ti-Nb-Al-Co(-Ni) alloys
DOI:10.1063/1.4865930 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Okulov, I. V.;Kuehn, U.;Marr, T.;Freudenberger, J.;Schultz, L.;Oertel, C-G;Skrotzki, W.;Eckert, J.;
6:3:40:13 Microstructure and mechanical properties of new composite structured Ti-V-Al-Cu-Ni alloys for spring applications
DOI:10.1016/j.msea.2014.02.070 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Okulov, I. V.;Kuehn, U.;Marr, T.;Freudenberger, J.;Soldatov, I. V.;Schultz, L.;Oertel, C. -G.;Skrotzki, W.;Eckert, J.;
6:3:41:1 Role of Si in high B-s and low core-loss Fe85.2B10-XP4Cu0.8SiX nano-crystalline alloys
DOI:10.1063/1.4765718 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:21 AU: Zhang, Zeqiang;Sharma, Parmanand;Makino, Akihiro;
6:3:41:2 Low core loss of Fe85Si2B8P4Cu1 nanocrystalline alloys with high B-s and B-800
DOI:10.1016/j.jallcom.2010.11.012 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:16 AU: Kubota, Takeshi;Makino, Akihiro;Inoue, Akihisa;
6:3:41:3 Nano-crystallization and magnetic mechanisms of Fe85Si2B8P4Cu1 amorphous alloy by ab initio molecular dynamics simulation
DOI:10.1063/1.4875483 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Wang, Yaocen;Takeuchi, Akira;Makino, Akihiro;Liang, Yunye;Kawazoe, Yoshiyuki;
6:3:41:4 Sintered powder cores of high Bs and low coreloss Fe84.3Si4B8P3Cu0.7 nano-crystalline alloy
DOI:10.1063/1.4811465 JN:AIP ADVANCES PY:2013 TC:2 AU: Zhang, Yan;Sharma, Parmanand;Makino, Akihiro;
6:3:41:5 Low core losses and magnetic properties of Fe85-86Si1-2B8P4Cu1 nanocrystalline alloys with high B for power applications (invited)
DOI:10.1063/1.3535169 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:14 AU: Makino, Akihiro;Kubota, Takeshi;Yubuta, Kunio;Inoue, Akihisa;Urata, Akiri;Matsumoto, Hiroyuki;Yoshida, Shigeyoshi;
6:3:41:6 Influence of microstructure on soft magnetic properties of low coreloss and high B-s Fe85Si2B8P4Cu1 nanocrystalline alloy
DOI:10.1063/1.4868188 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:7 AU: Sharma, Parmanand;Zhang, Xin;Zhang, Yan;Makino, Akihiro;
6:3:41:7 Crystallization mechanism and its correlation with structural and soft magnetic properties of FeSiBPCu nanocrystalline alloys
DOI:10.1007/s10853-011-5954-1 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:4 AU: Miao, X. F.;Wang, Y. G.;
6:3:41:8 Effect of Si addition on the corrosion properties of amorphous Fe-based soft magnetic alloys
DOI:10.1016/j.jnoncrysol.2014.05.007 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2014 TC:0 AU: Dan, Zhenhua;Takenaka, Kana;Zhang, Yan;Unami, Shigeru;Takeuchi, Akira;Hara, Nobuyoshi;Makino, Akihiro;
6:3:41:9 Effect of copper addition on crystallization and properties of hafnium containing HITPERM alloys (invited)
DOI:10.1063/1.3368723 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:4 AU: Turgut, Z.;Christy, L.;Huang, M.;Horwath, J. C.;
6:3:41:10 An amorphous alloy core medium frequency magnetic-link for medium voltage photovoltaic inverters
DOI:10.1063/1.4864050 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Islam, Md Rabiul;Guo, Youguang;Lin, Zhi Wei;Zhu, Jianguo;
6:3:41:11 Sintered magnetic cores of high B-s Fe84.3Si4B8P3Cu0.7 nano-crystalline alloy with a lamellar microstructure
DOI:10.1063/1.4865324 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Zhang, Yan;Sharma, Parmanand;Makino, Akihiro;
6:3:41:12 Electrochemical Behavior of Annealed Soft-Magnetic Fe-Si-B-P-Cu Alloy
DOI:10.2320/matertrans.MBW201213 JN:MATERIALS TRANSACTIONS PY:2013 TC:2 AU: Dan, Zhenhua;Yamada, Yasunobu;Zhang, Yan;Nishijima, Masahiko;Hara, Nobuyoshi;Matsumoto, Hiroyuki;Makino, Akihiro;
6:3:41:13 Energy efficient electrical steels: Magnetic performance prediction and optimization
DOI:10.1016/j.scriptamat.2012.02.027 JN:SCRIPTA MATERIALIA PY:2012 TC:21 AU: Moses, Anthony John;
6:3:41:14 A medium frequency transformer with multiple secondary windings for medium voltage converter based wind turbine power generating systems
DOI:10.1063/1.4795850 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:2 AU: Islam, Md Rabiul;Guo, Youguang;Zhu, Jianguo;
6:3:41:15 Spark Plasma Sintering of Soft Magnetic Fe-Si-B-P-Cu Nanocrystalline Alloy in the Form of Magnetic Cores
DOI:10.2320/matertrans.M2011233 JN:MATERIALS TRANSACTIONS PY:2011 TC:5 AU: Zhang, Yan;Sharma, Parmanand;Makino, Akihiro;
6:3:41:16 Effects of P Addition on Corrosion Properties of Soft Magnetic FeSiB Alloys
DOI:10.2320/matertrans.MAW201307 JN:MATERIALS TRANSACTIONS PY:2013 TC:1 AU: Dan, Zhenhua;Makino, Akihiro;Hara, Nobuyoshi;
6:3:41:17 Effect of Cu additions on the magnetic properties and microstructure of FeCoNbB nanocrystalline alloy
DOI:10.1007/s00339-012-6876-8 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2012 TC:3 AU: Kong, F. L.;Men, H.;Zhang, M. X.;Liu, T. C.;Xie, G. Q.;Shen, B. L.;
6:3:41:18 The structure of rapidly quenched Fe-Co-B-Si based systems and the influence of addition of Cu and P
DOI:10.1016/j.jallcom.2013.12.044 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:1 AU: Janotova, I.;Svec, P.;Mat'ko, I.;Janickovic, D.;Svec, P., Sr.;
6:3:42:1 Thermal stability and magnetic properties of FeCoBSiNb bulk metallic glasses
DOI:10.1016/j.jallcom.2010.04.013 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:19 AU: Stoica, Mihai;Li, Ran;Yavari, Alain Reza;Vaughan, Gavin;Eckert, Juergen;Van Steenberge, Nele;Romera, Daniel Ruiz;
6:3:42:2 Effect of Co on the microstructure, magnetic properties and thermal stability of bulk Fe73-xCoxNb5Y3B19 (where x=0 or 10) amorphous alloys
DOI:10.1016/j.jallcom.2012.02.106 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:5 AU: Nabialek, Marcin G.;Szota, Michal;Dospial, Marcin J.;
6:3:42:3 Influence of production method on the magnetic parameters and structure of Fe61Co10Y8Nb1B20 amorphous alloys in the as-quenched state
DOI:10.1016/j.jallcom.2014.03.028 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:1 AU: Pietrusiewicz, Pawel;Nabialek, Marcin;Dospial, Marcin;Gruszka, Konrad;Bloch, Katarzyna;Gondro, Joanna;Bragiel, Piotr;Szota, Michal;Stradomski, Zbigniew;
6:3:42:4 Investigation of magnetic properties of Fe61Co8Zr4-xY2+xNi5Nb5B15 amorphous alloys (x=0, 1) in the form of ribbons
DOI:10.1016/j.mseb.2012.10.020 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2013 TC:2 AU: Nabialek, Marcin;Dospial, Marcin;Szota, Michal;Pietrusiewicz, Pawel;Walters, Simon;Skowron, Daniel;
6:3:42:5 Investigation of the thermal and magnetic properties of Fe61Co10Zr2 Fe61Co10Zr2.5Hf2.5Me2W2B20 (Me = Y, Nb, W, Ti, Mo, Ni) bulk amorphous alloys obtained by an induction suction method
DOI:10.1016/j.jallcom.2010.12.075 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:9 AU: Nabialek, Marcin G.;Dospial, Marcin J.;Szota, Michal;Pietrusiewicz, Pawel;Jedryka, Jaroslaw;
6:3:42:6 The characterization of structure, thermal stability and magnetic properties of Fe-Co-B-Si-Nb bulk amorphous and nanocrystalline alloys
DOI:10.1016/j.jallcom.2010.12.146 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:8 AU: Lesz, S.;Babilas, R.;Nabialek, M.;Szota, M.;Dospial, M.;Nowosielski, R.;
6:3:42:7 Manufacturing of the bulk amorphous Fe61Co10Zr2+xHf3-xW2Y2B20 alloys (where x=1, 2, 3) their microstructure, magnetic and mechanical properties
DOI:10.1016/j.jallcom.2011.01.158 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:9 AU: Nabialek, Marcin;Dospial, Marcin;Szota, Michal;Olszewski, Jacek;Walters, Simon;
6:3:42:8 Influence of the cooling speed on the soft magnetic and mechanical properties of Fe61Co10Y8W1B20 amorphous alloy
DOI:10.1016/j.jallcom.2013.12.236 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:4 AU: Nabialek, Marcin;Pietrusiewicz, Pawel;Dospial, Marcin;Szota, Michal;Gondro, Joanna;Gruszka, Konrad;Dobrzanska-Danikiewicz, Anna;Walters, Simon;Bukowska, Anna;
6:3:42:9 Stress relaxation behavior of Fe-Co-Si-B-Nb metallic glassy alloys in their supercooled-liquid state
DOI:10.1016/j.jallcom.2014.05.006 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:0 AU: Yodoshi, N.;Yamada, R.;Kawasaki, A.;Makino, A.;
6:3:42:10 Influence of structural defects on the magnetization process in high-magnetic fields in the Fe61Co10Y8Nb1B20 alloy in the form of ribbons and plates
DOI:10.1016/j.jmmm.2010.06.030 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2010 TC:11 AU: Nabialek, M.;Szota, M.;Dospial, M.;Pietrusiewicz, P.;Walters, S.;
6:3:42:11 Evaluation of viscosity for Fe-based metallic glass in the supercooled liquid region by a single-particle compressive test
DOI:10.1016/j.scriptamat.2012.08.034 JN:SCRIPTA MATERIALIA PY:2012 TC:4 AU: Yodoshi, N.;Yamada, R.;Kawasaki, A.;Watanabe, R.;
6:3:42:12 Effect of manufacturing method on the magnetic properties and formation of structural defects in Fe61Co10Y8Zr1B20 amorphous alloy
DOI:10.1016/j.jallcom.2013.12.163 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:7 AU: Nabialek, M. G.;Pietrusiewicz, P.;Dospial, M. J.;Szota, M.;Bloch, K.;Gruszka, K.;Ozga, K.;Garus, S.;
6:3:42:13 Micro viscous flow processing of Fe-based metallic glassy particles
DOI:10.1016/j.jallcom.2013.12.256 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:1 AU: Yodoshi, N.;Yamada, R.;Kawasaki, A.;Makino, A.;
6:3:42:14 Preparation of Fe-based monodisperse spherical particles with fully glassy phase
DOI:10.1016/j.jallcom.2011.02.044 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:10 AU: Miura, Ayako;Dong, Wei;Fukue, Masahiro;Yodoshi, Noriharu;Takagi, Kenta;Kawasaki, Akira;
6:3:42:15 Structural evolution and the kinetics of Cu clustering in the amorphous phase of Fe-Cu-Nb-Si-B alloy
DOI:10.1063/1.3622325 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:10 AU: Gupta, P.;Gupta, A.;Shukla, A.;Ganguli, Tapas;Sinha, A. K.;Principi, G.;Maddalena, A.;
6:3:42:16 Fe-based nanocrystalline FeBCCu soft magnetic alloys with high magnetic flux density
DOI:10.1063/1.3549439 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:5 AU: Fan, Xingdu;Ma, Aibin;Men, He;Xie, Guoqiang;Shen, Baolong;Makino, Akihiro;Inoue, Akihisa;
6:3:43:1 Rapid Degradation of Azo Dye by Fe-Based Metallic Glass Powder
DOI:10.1002/adfm.201103015 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:30 AU: Wang, Jun-Qiang;Liu, Yan-Hui;Chen, Ming-Wei;Xie, Guo-Qiang;Louzguine-Luzgin, Dmitri V.;Inoue, Akihisa;Perepezko, John H.;
6:3:43:2 Novel centimeter-sized Fe-based bulk metallic glass with high corrosion resistance in simulated acid rain and seawater
DOI:10.1016/j.jnoncrysol.2013.02.026 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2013 TC:5 AU: Guo, S. F.;Chan, K. C.;Xie, S. H.;Yu, P.;Huang, Y. J.;Zhang, H. J.;
6:3:43:3 Enhanced degradation of azo dye by nanoporous-copper-decorated Mg-Cu-Y metallic glass powder through dealloying pretreatment
DOI:10.1016/j.apsusc.2014.03.069 JN:APPLIED SURFACE SCIENCE PY:2014 TC:1 AU: Luo, Xuekun;Li, Ran;Zong, Jingzhen;Zhang, Ying;Li, Haifei;Zhang, Tao;
6:3:43:4 De-alloying of rapidly solidified amorphous and crystalline alloys
DOI:10.1016/j.jallcom.2010.12.209 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:13 AU: Battezzati, Livio;Scaglione, Federico;
6:3:43:5 Synthesis of nanoporous gold by free corrosion of an amorphous precursor
DOI:10.1016/j.jallcom.2014.01.239 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:3 AU: Scaglione, F.;Rizzi, P.;Celegato, F.;Battezzati, L.;
6:3:43:6 Decolorization of azo dye solution by Fe-Mo-Si-B amorphous alloy
DOI:10.1016/j.jnoncrysol.2010.06.019 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2010 TC:17 AU: Zhang, Changqin;Zhang, Haifeng;Lv, Manqi;Hu, Zhuangqi;
6:3:43:7 Synthesis of Mg-Zn-Ca metallic glasses by gas-atomization and their excellent capability in degrading azo dyes
DOI:10.1016/j.mseb.2013.11.019 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2014 TC:0 AU: Zhao, Y. F.;Si, J. J.;Song, J. G.;Yang, Q.;Hui, X. D.;
6:3:43:8 Synthesis of an Fe Rich Amorphous Structure with a Catalytic Effect To Rapidly Decolorize Azo Dye at Room Temperature
DOI:10.1021/am501014s JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:1 AU: Liu, Peng;Zhang, Ji Liang;Zha, Mei Qin;Shek, Chan Hung;
6:3:43:9 De-alloying kinetics of an Au-based amorphous alloys
DOI:10.1016/j.jallcom.2011.11.087 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:10 AU: Scaglione, Federico;Rizzi, Paola;Battezzati, Livio;
6:3:43:10 Application of Fe-based metallic glasses in wastewater treatment
DOI:10.1016/j.mseb.2011.09.010 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2012 TC:13 AU: Lin, Bao;Bian, Xiufang;Wang, Pan;Luo, Guanping;
6:3:43:11 On the decolorization property of Fe-Mo-Si-B alloys with different structures
DOI:10.1016/j.jnoncrysol.2011.08.023 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2012 TC:6 AU: Zhang, Changqin;Zhu, Zhengwang;Zhang, Haifeng;Hu, Zhuangqi;
6:3:43:12 Rapid organism degradation function of Fe-based alloys in high concentration wastewater
DOI:10.1016/j.jnoncrysol.2012.06.002 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2012 TC:3 AU: Yang, Jianfei;Bian, Xiufang;Bai, Yanwen;Lv, Xiaoqian;Wang, Pan;
6:3:43:13 Enhanced thermal stability of laccase immobilized on monolayer-modified nanoporous Au
DOI:10.1016/j.matlet.2011.08.017 JN:MATERIALS LETTERS PY:2012 TC:3 AU: Hakamada, Masataka;Takahashi, Masaki;Mabuchi, Mamoru;
6:3:44:1 Relation between icosahedral short-range ordering and plastic deformation in Zr-Nb-Cu-Ni-Al bulk metallic glasses
DOI:10.1016/j.actamat.2011.01.020 JN:ACTA MATERIALIA PY:2011 TC:13 AU: Zhu, Z. W.;Gu, L.;Xie, G. Q.;Zhang, W.;Inoue, A.;Zhang, H. F.;Hu, Z. Q.;
6:3:44:2 Effects of casting temperature on the microstructure and mechanical properties of the TiZr-based bulk metallic glass matrix composite
DOI:10.1016/j.msea.2013.09.078 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Sha, P. F.;Zhu, Z. W.;Fu, H. M.;Li, H.;Wang, A. M.;Zhang, H. W.;Zhang, H. F.;Hu, Z. Q.;
6:3:44:3 Relation between glass and quasicrystal formation in the Zr-Nb-Cu-Ni-Al alloys upon solidification
DOI:10.1063/1.3467827 JN:APPLIED PHYSICS LETTERS PY:2010 TC:8 AU: Zhu, Zhengwang;Zhang, Wei;Xie, Guoqiang;Inoue, Akihisa;
6:3:44:4 Glass formation enhanced by oxygen in binary Zr-Cu system
DOI:10.1016/j.scriptamat.2010.01.023 JN:SCRIPTA MATERIALIA PY:2010 TC:12 AU: Wang, Y. X.;Yang, H.;Lim, G.;Li, Y.;
6:3:44:5 Unusual compressive plasticity of a centimeter-diameter Zr-based bulk metallic glass with high Zr content
DOI:10.1016/j.jallcom.2010.02.069 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:12 AU: Li, Y. H.;Zhang, W.;Dong, C.;Qiang, J. B.;Yubuta, K.;Makino, A.;Inoue, A.;
6:3:44:6 Varied linear phason strain and its induced domain structure in quasicrystalline precipitates of Zr-Al-Ni-Cu-Nb bulk metallic glass matrix composites
DOI:10.1557/jmr.2012.351 JN:JOURNAL OF MATERIALS RESEARCH PY:2012 TC:2 AU: Lu, Lu;Xiong, Dongxia;Wang, Jianbo;Zhao, Dongshan;Sun, Yufeng;
6:3:44:7 Effects of quasicrystal formation on the crystallization of (Ti36.1Zr33.2Ni5.8Be24.9)(100-x)Cu-x (x=5, 7, 9, 11, 13, 15, 17) metallic glasses
DOI:10.1063/1.4775836 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:3 AU: Sha, P. F.;Zhu, Z. W.;Tang, M. Q.;Fu, H. M.;Li, Z. K.;Li, H.;Wang, A. M.;Zhang, H. W.;Zhang, H. F.;Hu, Z. Q.;
6:3:44:8 Effect of compositional tailoring on the glass-forming ability and mechanical properties of TiZr-based bulk metallic glass matrix composites
DOI:10.1016/j.msea.2014.06.041 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Ma, D. Q.;Li, J.;Zhang, Y. F.;Zhang, X. Y.;Ma, M. Z.;Liu, R. P.;
6:3:44:9 Quantitative determination of free volume in Pd40Ni40P20 bulk metallic glass
DOI:10.1016/j.scriptamat.2010.01.025 JN:SCRIPTA MATERIALIA PY:2010 TC:8 AU: Xu, Yuanli;Fang, Jixiang;Gleiter, Herbert;Hahn, Horst;Li, Jiangong;
6:3:44:10 Enhancement of plasticity and toughness in monolithic Zr-based bulk metallic glass by heterogeneous microstructure
DOI:10.1016/j.scriptamat.2010.11.047 JN:SCRIPTA MATERIALIA PY:2011 TC:6 AU: Ren, H. T.;Pan, J.;Chen, Q.;Chan, K. C.;Liu, Y.;Liu, L.;
6:3:44:11 Phason strained quasicrystalline and crystalline precipitates in Zr-Al-Ni-Cu-Nb bulk metallic glass matrix composites
DOI:10.1016/j.jnoncrysol.2012.07.031 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2012 TC:2 AU: Xiong, Dongxia;Wang, Jianbo;Lu, Lu;Zhao, Dongshan;Sun, Yufeng;
6:3:44:12 Varied linear phason strain and its induced domain structure in quasicrystalline precipitates of Zr-Al-Ni-Cu-Nb bulk metallic glass matrix composites (vol 27, pg 3041, 2012)
DOI:10.1557/jmr.2012.427 JN:JOURNAL OF MATERIALS RESEARCH PY:2013 TC:0 AU: Lu, Lu;Xiong, Dongxia;Wang, Jianbo;Zhao, Dongshan;Sun, Yufeng;
6:3:44:13 Microstructure evolution in the Zr-based bulk metallic glass composites by additions of oxygen
DOI:10.1016/j.matlet.2013.12.074 JN:MATERIALS LETTERS PY:2014 TC:3 AU: Cheng, J. L.;Chen, G.;
6:3:45:1 Crystallization kinetics in Cu46Zr45Al7Y2 bulk metallic glass by differential scanning calorimetry (DSC)
DOI:10.1016/j.jnoncrysol.2010.12.071 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2011 TC:22 AU: Qiao, J. C.;Pelletier, J. M.;
6:3:45:2 The role of yttrium and oxygen on the crystallization behavior of a Cu-Zr-Al metallic glass
DOI:10.1016/j.jnoncrysol.2014.09.049 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2014 TC:1 AU: Coury, F. G.;Botta, W. J.;Bolfarini, C.;Kiminami, C. S.;Kaufman, M. J.;
6:3:45:3 Glass forming ability, non-isothermal crystallization kinetics, and mechanical property of Zr61.5Al10.7Cu13.65Ni14.15 metallic glass
DOI:10.1016/j.jallcom.2009.10.125 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:17 AU: Cai, A. H.;An, W. K.;Luo, Y.;Li, T. L.;Li, X. S.;Xiong, X.;Liu, Y.;
6:3:45:4 Crystallization kinetics of Mg61Cu28Gd11 and (Mg61Cu28Gd61)(99.5)Sb-0.5 bulk metallic glasses
DOI:10.1016/j.jallcom.2010.06.196 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:6 AU: Sun, Y. D.;Li, Z. Q.;Liu, J. S.;Yang, J. N.;Cong, M. Q.;
6:3:45:5 Crystallization kinetics of Zr60Cu25Fe5Al10 bulk metallic glass
DOI:10.1016/j.jnoncrysol.2014.08.030 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2014 TC:1 AU: Peng, C.;Chen, Z. H.;Zhao, X.;Zhang, A. L.;Zhang, L. K.;Chen, D.;
6:3:45:6 On valence electron density, energy dissipation and plasticity of bulk metallic glasses
DOI:10.1016/j.jallcom.2012.03.036 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:2 AU: Pang, J. J.;Tan, M. J.;Liew, K. M.;
6:3:45:7 Structure and crystallization of amorphous Cu-Zr-Al powders
DOI:10.1016/j.jnoncrysol.2010.06.016 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2010 TC:6 AU: Fernandez, Ruben;Carrasco, Wilson;Zuniga, Alejandro;
6:3:45:8 Crystallization kinetics of Cu38Zr46Ag8Al8 bulk metallic glass in different heating conditions
DOI:10.1016/j.jnoncryso1.2014.07.029 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2014 TC:1 AU: Cui, J.;Li, J. S.;Wang, J.;Kou, H. C.;Qiao, J. C.;Gravier, S.;Blandin, J. J.;
6:3:45:9 Phases formation during heating of Mg-Cu-Ag-Y bulk metallic glasses
DOI:10.1016/j.jallcom.2009.11.041 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:9 AU: Soubeyroux, Jean-Louis;Puech, Sylvain;
6:3:45:10 Isothermal crystallization in supercooled liquid state for Ca50Mg22.5Cu27.5 metallic glass
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6:3:51:6 Influence of ball milling on atomic structure and magnetic properties of Co40Fe22Ta8B30 glassy alloy
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6:3:51:9 On the mechanically induced crystallization of FCC phases by mechanical milling in ZrAlNiCu bulk metallic glasses
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6:3:51:10 Analysis of Ball-Milled ZrAlNiCu Bulk Metallic Glass Powders
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6:3:52:1 Structure of liquid Cu-Sb alloys by ab initio molecular dynamics simulations, high temperature X-ray diffraction, and resistivity
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6:3:52:2 Heredity of medium-range order structure from melts to amorphous solids
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6:3:52:3 Medium-range order and physical properties of Cu-20at.% Sb melts
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6:3:52:4 Local atomic structure inheritance in Ag50Sn50 melt
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6:3:52:5 Atomic structure and viscosity behavior in Cu37Sb63 and Cu20Sb80 melts
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6:3:52:6 Structure of isomorphous liquid Ag-Au alloys
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6:3:52:7 Structure and fragility of supercooled Ga-In melts
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6:3:52:8 Influence of polyaniline doping concentration in (Bi0.5Sb0.5)(2)S-3 thin polycrystalline films on structural, electrical and optical properties
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6:3:52:9 Effect of combined magnetic field on the eliminating inclusions from liquid aluminum alloy
DOI:10.1016/j.matlet.2011.01.061 JN:MATERIALS LETTERS PY:2011 TC:10 AU: He, Yanjie;Li, Qiulin;Liu, Wei;
6:3:52:10 The role of rare earth elements in the structures of FeB-based glass forming liquid alloys
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6:3:52:11 Chemical and topological short-range order evolution of Mg(65)Cu(25)Gd(10) alloy in the process of rapid solidification
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6:3:52:12 Removal of Non-Metallic Inclusions from Aluminum by Electroslag Refining
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6:3:52:13 Structure and electrical resistivity of liquid In-Sn alloy
DOI:10.1016/j.commatsci.2010.02.006 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2010 TC:3 AU: Korkmaz, S. D.;Korkmaz, S.;
6:3:52:14 Time-resolved X-ray diffraction studies of phase evolution including liquid phase and grain structure during solidification process in stainless steel welds
DOI:10.1016/j.matlet.2012.01.104 JN:MATERIALS LETTERS PY:2012 TC:3 AU: Terasaki, Hidenori;Komizo, Yu-ichi;
6:3:52:15 Removal of Iron Impurity from Aluminum by Electroslag Refining
DOI:10.2320/matertrans.M2010435 JN:MATERIALS TRANSACTIONS PY:2011 TC:1 AU: Chen, Chong;Wang, Jun;Shu, Da;Sun, Baode;
6:3:52:16 Improved photoelectrochemical performance of (Bi-1 Sb-- x(x))(2)S-3 photoanodes
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6:3:53:1 Computational modelling of submicron-sized metallic glasses
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6:3:53:2 Honeycomb Structures of Bulk Metallic Glasses
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6:3:53:3 Materials by design: An experimental and computational investigation on the microanatomy arrangement of porous metallic glasses
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6:3:53:4 Flaw tolerance vs. performance: A tradeoff in metallic glass cellular structures
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6:3:53:5 From brittle to ductile: Density optimization for Zr-BMG cellular structures
DOI:10.1016/j.scriptamat.2013.02.030 JN:SCRIPTA MATERIALIA PY:2013 TC:6 AU: Sarac, B.;Schroers, J.;
6:3:53:6 Property optimization of porous metallic glasses via structural design
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6:3:53:7 Pronounced energy absorption capacity of cellular bulk metallic glasses
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6:3:53:8 Effect of minimal defects in periodic cellular solids
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6:3:54:1 Glass forming ability, thermal stability and indentation characteristics of Ce75Al25-Ga-x(x) metallic glasses
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6:3:54:2 Nanoindentation characteristics of Zr69.5Al7.5-xGaxCu12Ni11 glasses and their nanocomposites
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6:3:54:3 Effect of Ga substitution on the crystallization behaviour and glass forming ability of Zr-Al-Cu-Ni alloys
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6:3:54:4 Enhanced microhardness of mechanically activated carbon-quasicrystal composite
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6:3:54:5 Effect of processing parameter on hydrogen storage characteristics of as quenched Ti45Zr38Ni17 quasicrystalline alloys
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6:3:54:6 Hydrogenation of (Zr69.5Al7.5CU12Ni11)(100-x)Ti-x quasicrystalline alloys and its effect on their structural and microhardness behavior
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6:3:54:7 Effect of Ti addition on the quasicrystalline phase formation and indentation characteristics of Zr69.5Al7.5Cu12Ni11 alloy
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6:3:54:8 Synthesis of quasicrystalline film of Al-Ga-Pd-Mn alloy
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6:3:54:9 Formation of quasicrystalline phase in Al70-xGaxPd17Mn13 alloys
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6:3:54:10 Correlation between structures and properties in (Zr65Cu15Ni10Al10)(90)Nb-10 alloys
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6:3:54:11 Simple flash evaporator for making thin films of compounds
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6:3:54:12 Structural, magnetic, and magnetotransport properties of NiMnSb thin films deposited by flash evaporation
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6:3:54:13 Structural, tribological and resistivity studies of Ga substituted (Al71-xGax) Pd21Mn8 icosahedral and other intermetallic phases
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6:3:55:1 Formation and mechanical properties of La-Al(-Ga)-C bulk metallic glasses with high content of carbon
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6:3:55:2 Relation between beta relaxation and fragility in LaCe-based metallic glasses
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6:3:55:3 The review of possible interrelations between ionic conductivity, internal friction and the viscosity of glasses and glass forming melts within the framework of Maxwell equations
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6:3:55:4 Investigation of glass forming ability in Ce-Al-Ni alloys
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6:3:55:5 Regenerator performance below 4 K in Tm-based bulk metallic glasses
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6:3:55:6 Er-based glassy composites as potential regenerator material for low-temperature cryocooler
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6:3:55:7 First-principles study of the binary Ni60Ta40 metallic glass: The atomic structure and elastic properties
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6:3:55:8 Investigation of glass forming ability in Ce-Al-Co (Cu) alloys
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6:3:55:9 Bulk metallic glasses based on ytterbium and calcium
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6:3:55:10 Mg based bulk metallic glasses: Glass transition temperature and elastic properties versus toughness
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6:3:56:1 Thermo-mechanical processing in a synchrotron beam
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6:3:56:2 Physical thermo-mechanical simulation of magnesium: An in-situ diffraction study
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6:3:56:3 Structural origins for the high plasticity of a Zr-Cu-Ni-Al bulk metallic glass
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6:3:56:4 On the Atomic Anisotropy of Thermal Expansion in Bulk Metallic Glass
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6:3:56:5 Variability of Poisson's Ratio and Enhanced Ductility in Amorphous Metal
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6:3:56:6 Defect dynamics in polycrystalline zirconium alloy probed in situ by primary extinction of neutron diffraction
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6:3:56:7 The evolution of microstructure of Ti-6Al-4V alloy during concurrent hot deformation and phase transformation
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6:3:56:8 In Situ Characterization of Lattice Structure Evolution during Phase Transformation of Zr-2.5Nb
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6:3:56:9 In situ synchrotron diffraction studies on the temperature-dependent plane-specific elastic constants in a high-strength quenched and tempered structural steel
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6:3:56:10 Investigation of In Situ and Conventional Post-Weld Heat Treatments on Dual-Laser-Beam-Welded ?-TiAl-Based Alloy
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6:3:56:11 Low Temperature Plasticity of an Ultrafine-Grained Al-3Mg Alloy Prepared by Accumulative Roll Bonding
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6:3:57:1 Composition dependence of the microstructure and soft magnetic properties of Fe-based amorphous/nanocrystalline alloys: A review study
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6:3:57:2 Fe-B-P-Cu nanocrystalline soft magnetic alloys with high B-s
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6:3:57:3 High B-s Fe84-xSi4B8P4Cux(x=0-1.5) nanocrystalline alloys with excellent magnetic softness
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6:3:57:4 Effect of P on crystallization behavior and soft-magnetic properties of Fe83.3Si4Cu0.7B12-xPx nanocrystalline soft-magnetic alloys
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6:3:57:5 Effect of P to B concentration ratio on soft magnetic properties in FeSiBPCu nanocrystalline alloys
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6:3:57:6 Effect of P addition on nanocrystallization and high temperature magnetic properties of low B and Nb containing FeCo nanocomposites
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6:3:57:7 Low core loss of non-Si quaternary Fe83.3B8P8Cu0.7 nanocrystalline alloy with high B-s of 1.7 T
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6:3:57:8 Magnetic properties and structure of Fe83.3-85.8B7.0-4.5P9Cu0.7 nanocrystalline alloys
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6:3:57:9 Effect of germanium on the microstructure and the magnetic properties of Fe-B-Si amorphous alloys
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6:3:57:10 Effect of Zr on the thermal stability and magnetic properties of Fe78Si9B13 glassy alloy
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6:3:57:11 Nanocrystals and amorphous matrix phase studies of Finemet-like alloys containing Ge
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6:3:57:12 Soft magnetic properties in Fe84-xB10C6Cux nanocrystalline alloys
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6:3:57:13 Thermodynamic Assessment of Fe-B-P-Cu Nanocrystalline Soft Magnetic Alloys for Their Crystallizations from Amorphous Phase
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6:3:57:14 Influence of partial substitution of Ge on crystallization kinetics, microstructure and magnetic property of Fe44Co44-xZr7B5Gex alloys
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6:3:57:15 Microstructure and magnetic properties of Fe72.5Cu1M2V2Si13.5B9 (M=Nb, Mo, (NbMo), (MoW)) nanocrystalline alloys
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6:3:57:16 Influence of cooling rate on iron loss behavior in 6.5 wt% grain-oriented silicon steel
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6:3:57:17 Thermodynamic prediction of bulk metallic glass forming alloys in ternary Zr-Cu-X (X = Ag, Al, Ti, Ga) systems
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6:3:57:18 Enhancement of soft magnetic properties of FeCoNbB nanocrystalline alloys with Cu and Ni additions
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6:3:58:1 Influence of structural transformations on functional properties of Fe75Ni2Si8B13C2 amorphous alloy
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6:3:58:2 Influence of microstructural inhomogeneity of individual sides of Fe81Si4B13C2 amorphous alloy ribbon on thermally induced structural transformations
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6:3:58:3 Effect of rare earth additions on magnetic properties of Fe82Nb2B14RE2 (RE = Y, Gd, Tb and Dy) amorphous alloys
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6:3:58:4 Thermally induced structural transformations and their effect on functional properties of Fe89.8Ni1.5Si5.2B3C0.5 amorphous alloy
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6:3:58:5 Random and uniform anisotropy in soft magnetic nanocrystalline alloys (invited)
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6:3:58:6 Magnetic, electrical and plastic properties of Fe76Nb2Si13B9, Fe75Ag1Nb2Si13B9 and Fe75Cu1Nb2Si13B9 amorphous alloys
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6:3:58:7 Soft magnetic amorphous Fe-Zr-Si(Cu) boron-free alloys
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6:3:58:8 Research on double resonance peaks and abnormal frequency shift in permeability spectra of annealed FeCoB films
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6:3:58:9 Solid state amorphization transformation in the mechanically alloyed Fe27.9Nb2.2B69.9 powders
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6:3:58:10 Optimization of soft magnetic properties and crystallization in FeAgNbSiB, FeAgNbB and FeAgCoNbB amorphous alloys
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6:3:58:12 Effect of structural disorder on magnetic frustrations in the Fe80Nb6B14 amorphous alloy
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6:3:58:13 Structural transformations of Fe81B13Si4C2 amorphous alloy induced by heating
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6:3:58:15 Effect of Cu Addition on Soft Magnetic Properties of Fe-Zr-Si Amorphous Alloy
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6:3:58:16 Influence of heating on electric and magnetic properties of Fe75Ni2B13Si8C2 amorphous alloy
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6:3:59:1 A brief overview of bulk metallic glasses
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6:3:59:2 Structural Origins of the Excellent Glass Forming Ability of Pd40Ni40P20
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6:3:59:4 Synthesis and Mechanical Properties of New Cu-Based Cu-Zr-Al Glassy Alloys with Critical Diameters up to Centimeter Order
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6:3:59:9 Angstrom-beam electron diffraction of amorphous materials
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6:3:60:1 Crystallization behavior and consolidation of gas-atomized Al84Gd6Ni7Co3 glassy powder
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6:3:60:3 Fabrication of Al-based bulk metallic glass by mechanical alloying and vacuum hot consolidation
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6:3:60:4 Corrosion behavior of Zr-Cu-Ni-Al bulk metallic glasses in chloride medium
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6:3:60:6 Thermal stability of the Al70Ni10Ti10Zr5Ta5 amorphous alloy powder fabricated by mechanical alloying
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6:3:60:7 Multiple maxima in glass-forming ability in Al-Zr-Ni system
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6:3:60:10 Corrosion Behavior of Zr-Cu-Ni-Al Bulk Metallic Glasses in Chloride Medium (vol 489, pg 596, 2010)
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6:3:61:1 Effects of Ar ion irradiation on the diffusion bonding joints of Zr55Cu30Ni5Al10 bulk metallic glass to aluminum alloy
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6:3:61:2 Contributions of atomic diffusion and plastic deformation to the plasma surface activation assisted diffusion bonding of zirconium-based bulk metallic glass
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6:3:61:5 Effect of pre-friction surface treatment on the pre-friction assisted diffusion bonding of Zr55Cu30Ni5Al10 bulk metallic glass to aluminum alloy
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6:3:61:7 Influence of Cold Rolling on Diffusion Bondability of SUS316L Stainless Steel Sheets
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6:3:61:8 Investigating Amorphous Metal Composite Architectures as Spacecraft Shielding
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6:3:61:11 Hypervelocity Impact Phenomenon in Bulk Metallic Glasses and Composites
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6:3:62:1 Ni-Ta binary bulk metallic glasses
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6:3:63:1 Crystallization kinetics of Ca65Mg15Zn20 bulk metallic glass
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6:3:64:3 Evolution of the Potential-Energy Surface of Amorphous Silicon
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6:3:64:4 Local structural excitations in model glasses
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6:3:64:8 Flowing damage in ion-implanted amorphous silicon
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6:3:64:9 Contribution of vacancies to relaxation in amorphous materials: A kinetic activation-relaxation technique study
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6:3:65:1 Comparison of mechanical behaviors of several bulk metallic glasses for biomedical application
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6:3:65:2 Super-high compressive plastic deformation behaviors of Zr-based metallic glass at room temperature
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6:3:65:3 On the mechanism of deformation and failure in bulk metallic glasses
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6:3:65:4 A Ni-free ZrCuFeAlAg bulk metallic glass with potential for biomedical applications
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6:3:65:5 Buckling of metallic glass bars
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6:3:65:6 Shear band multiplication aided by free volume under three-point bending
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6:3:65:7 Analysis on shear deformation mechanism of metallic glass under confined bending test
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6:3:65:8 Fatigue coaxing experiments on a Zr-based bulk-metallic glass
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6:3:65:9 Plastic stress-strain behavior of a Zr-based bulk metallic glass at high strain rates in the supercooled liquid region
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6:3:65:10 Computational modeling of plastic deformation and shear banding in bulk metallic glasses
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6:3:66:1 The effect of simulated thermal cycling on thermal and mechanical stability of a Ti-based bulk metallic glass
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6:3:66:2 Strength variation and cast defect distribution in metallic glasses
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6:3:66:3 Effects of Fe addition on glass-forming ability and mechanical properties of Ti-Zr-Be bulk metallic glass
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6:3:66:4 Weibull analysis of fracture strength for Zr55Ti2Co28Al15 bulk metallic glass: Tension-compression asymmetry and porosity effect
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6:3:66:5 Prediction and fabrication of Ti-Zr-Co ternary metallic glasses based on effective atomic radius in Ti solid solution from first-principles calculations
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6:3:66:6 A New Centimeter-Sized Ti-Based Quaternary Bulk Metallic Glass with Good Mechanical Properties
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6:3:66:7 Structural relaxation of Ti40Zr25Ni8Cu9Be18 bulk metallic glass
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6:3:66:8 Ti-Zr-Be ternary bulk metallic glasses correlated with binary eutectic clusters
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6:3:66:9 Neutron in situ crystallization studies of Ti-based BMGs
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6:3:66:10 Lightweight Ti-Zr-Be-Al bulk metallic glasses with improved glass-forming ability and compressive plasticity
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6:3:66:11 Enthalpies of Solution in Ti-X (X = Mo, Nb, V and W) Alloys from First-Principles Calculations
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6:3:66:12 Preparation of (Ti0.45Cu0.378Zr0.10Ni0.072)(100-x)Sn-x bulk metallic glasses
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6:3:67:1 Ab initio molecular dynamics simulation of binary Ni62.5Nb37.5 bulk metallic glass: validation of the cluster-plus-glue-atom model
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6:3:67:2 Correlation of atomic packing with the boson peak in amorphous alloys
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6:3:67:3 Structure and nano-mechanical characteristics of surface oxide layers on a metallic glass
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6:3:67:4 Structure vs Chemistry: Friction and Wear of Pt-Based Metallic Surfaces
DOI:10.1021/am403564a JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:5 AU: Caron, A.;Louzguine-Luzguin, D. V.;Bennewitz, R.;
6:3:67:5 Effect of surface oxidation on the nm-scale wear behavior of a metallic glass
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6:3:67:6 In situ visualization of Ni-Nb bulk metallic glasses phase transition
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6:3:67:7 Interatomic potential to predict the glass-forming ability of Ni-Nb-Mo ternary alloys
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6:3:67:8 Temperature-Dependent Two-State Dynamics of Individual Cooperatively Rearranging Regions on a Glass Surface
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6:3:67:9 Direct visualization of Ni-Nb bulk metallic glasses surface: From initial nucleation to full crystallization
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6:3:67:10 Structure and hardness evolution of the scale of a Zr-based metallic glass during oxidation
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6:3:67:11 Microstructural, electrical and magnetoelectric properties of low-temperature sintering (Ni0.8Zn0.1Cu0.1)Fe2O4/[0.48PNN-0.02PZN-0.05PNW-0.45PT] composites
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6:3:68:1:1 Spray formed Al-based amorphous matrix nanocomposite plate
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6:3:68:1:2 Microstructure and mechanical properties of a spray-formed Ti-based metallic glass former alloy
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6:3:68:1:3 Microstructural characteristics of spray formed and heat treated Al-(Y, La)-Ni-Co system
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6:3:68:1:4 Microstructure and mechanical properties of partially amorphous Al85Y8Ni5Co2 plate produced by spray forming
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6:3:68:1:5 Amorphous phase formation by spray forming of alloys [(Fe0.6Co0.4)(0.75)B0.2Si0.05](96)Nb-4 and Fe66B30Nb4 modified with Ti
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6:3:68:1:6 Microstructural characteristics of spray formed zircon sand reinforced LM13 composite
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6:3:68:1:7 Effect of cooling rate on microstructure and mechanical properties of rapidly solidified Al-based bulk alloys
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6:3:68:2:1 Synthesis of Al-rich bulk metallic glass composites by warm extrusion of gas atomized powders
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6:3:68:2:2 Nano-network mediated high strength and large plasticity in an Al-based alloy
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6:3:68:2:3 Characterisation of an Al93Fe3Cr2Ti2 alloy obtained by spray forming
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6:3:68:2:4 Hierarchical ultrafine-grained network mediated high strength and large plasticity in an Al-based alloy
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6:3:68:3:1 Formation of Ti-Zr-Cu-Ni-Sn-Si bulk metallic glasses with good plasticity
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6:3:68:3:2 On the mechanical properties of TiNb based alloys
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6:3:68:3:3 The role of Sn doping in the beta-type Ti-25 at%Nb alloys: Experiment and ab initio calculations
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6:3:68:4:1 Microstructural characterization of spray formed Fe66B30Nb4 alloy
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6:3:68:4:2 Corrosion resistance of Fe-based amorphous alloys
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6:3:68:4:3 Partial crystallization and corrosion resistance of amorphous Fe-Cr-M-B (M = Mo, Nb) alloys
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6:3:69:1 Cryogenic temperature plasticity of a bulk amorphous alloy
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6:3:69:2 Tensile properties of ZrCu-based bulk metallic glasses at ambient and cryogenic temperatures
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6:3:69:3 The temperature dependent dynamic mechanical response of a ZrCuNiAl bulk metallic glass
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6:3:69:4 Temperature-induced ductile-to-brittle transition of bulk metallic glasses
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6:3:69:5 Glass-forming ability and mechanical properties of Zr75-xNi25Alx bulk glassy alloys
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6:3:69:6 Effects of cryogenic temperatures on mechanical behavior of a Zr60Ni25Al15 bulk metallic glass
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6:3:69:7 Single-grit modeling and simulation of crack initiation and propagation in SiC grinding using maximum undeformed chip thickness
DOI:10.1016/j.commatsci.2014.05.019 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:2 AU: Zhu, Dahu;Yan, Sijie;Li, Beizhi;
6:3:69:8 Formation and properties of P-free Pd-based metallic glasses with high glass-forming ability
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6:3:70:1 Effect of Fe content on glass-forming ability and crystallization behavior of a (Ti69.7Nb23.7Zr4.9Ta1.7)(100-x)Fe-x alloy synthesized by mechanical alloying
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6:3:70:2 Tensile deformation behaviors and damping properties of small-sized Cu-Zr-Al metallic glasses
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6:3:70:3 Comparative study of non-isothermal crystallization kinetics between Fe80P13C7 bulk metallic glass and melt-spun glassy ribbon
DOI:10.1016/j.jallcom.2012.06.016 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:6 AU: Wang, Yan;Xu, Kai;Li, Qiang;
6:3:70:4 Deformation behavior of Mg67Zn28Ca5 metallic glass at near supercooled liquid region
DOI:10.1016/j.jallcom.2012.09.044 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:4 AU: Fu, X. L.;Tan, M. J.;Wang, Y. S.;Jarfors, A. E. W.;Gupta, M.;
6:3:70:5 Synthesis, characterization and mechanical properties of nano alumina particulate reinforced magnesium based bulk metallic glass composites
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6:3:70:6 Glass transition kinetics and crystallization mechanism in Se90Cd8Bi2 and Se90Cd6Bi4 chalcogenide glasses
DOI:10.1016/j.jallcom.2011.12.125 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:5 AU: Lafi, Omar A.;
6:3:70:7 Enhancement of glass-forming ability of FeSiBP bulk glassy alloys with good soft-magnetic properties and high corrosion resistance
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6:3:70:8 Glass-formation and crystallization processes in Ag-Y-Cu alloys
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6:3:70:9 The Effects of Fe2P and Fe3P Intermediate Equilibrium Phases on Glass-Forming Ability of Fe76Si9B10P5 Bulk Metallic Glass
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6:3:70:10 The effect of Sn addition on the crystallization and thermal stability of Cu-Zr-Ti metallic glasses
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6:3:70:11 Atomic structure of Cu-Zr-Ti metallic glasses subjected to high temperature annealing
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6:3:71:1 Modern soft magnets: Amorphous and nanocrystalline materials
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6:3:71:2 Magnetic-field-induced anisotropies and exchange softening in Fe-rich nanocrystalline soft magnetic alloys
DOI:10.1016/j.scriptamat.2012.03.006 JN:SCRIPTA MATERIALIA PY:2012 TC:20 AU: Suzuki, K.;Herzer, G.;
6:3:71:3 Laser assisted crystallization of ferromagnetic amorphous ribbons: A multimodal characterization and thermal model study
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6:3:71:4 Laser-induced thermal and spatial nanocrystallization of amorphous Fe-Si-B alloy
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6:3:71:5 Laser patterning of Fe-Si-B amorphous ribbons in magnetic field
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6:3:71:6 Correlation between nanocrystalline and magnetic structure of Co-based alloys with the induced transverse magnetic anisotropy
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6:3:71:7 Atom probe tomography study of ultrahigh nanocrystallization rates in FeSiNbBCu soft magnetic amorphous alloys on rapid annealing
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6:3:71:8 Magnetic domain structure and transverse induced magnetic anisotropy in CoFeCuNbSiB alloys
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6:3:71:9 Improved soft magnetic properties by laser de-vitrification of Fe-Si-B amorphous magnetic alloys
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6:3:72:1 Synthesis of FeSiBPNbCu nanocrystalline soft-magnetic alloys with high saturation magnetization
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6:3:72:2 Nanocrystalline Fe83P16Cu1 soft magnetic alloy produced by crystallization of its amorphous precursor
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6:3:72:3 Structural, thermal and magnetic properties of Fe-Si-B-P-Cu melt-spun ribbons: Application of non-isothermal kinetics and the amorphous random anisotropy model
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6:3:72:4 Investigation of glass forming ability, thermal stability and soft magnetic properties of melt-spun Fe83P16-xSixCu1 (x=0, 1, 2, 3, 4, 5) alloy ribbons
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6:3:72:5 Effects of isothermal annealing on the microstructures and mechanical properties of a FeCuSiBAl amorphous alloy
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6:3:72:6 Mechanical properties of a FeCuSiB alloy with amorphous and/or crystalline structures
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6:3:72:7 Nanocrystallization of Fe73Si7B17Nb3 metallic glass induced by microwave treatment in magnetic field of a single mode 915 MHz applicator
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6:3:72:8 Short range order in Al-Fe-Nb, Al-Fe-Ce and Al-Ni-Ce metallic glasses
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6:3:72:9 Microstructures and soft magnetic properties of nanocrystalline Fe86B13Cu1 alloy annealed by hot isothermal pressing
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6:3:72:10 Effect of wheel speed on the microstructures and magnetic properties of rapidly solidified Sm-Co alloys
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6:3:72:11 Influence of Al and Ni on the magnetic properties of Finemet alloys
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6:3:72:12 The influence of Al content on glass forming ability and magnetic properties of high M-s nanocrystalline FeSiBPCuAl alloy
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6:3:72:13 Development of novel metallic glass/polymer composite materials by microwave heating in a separated H-field
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6:3:73:1 Spark plasma sintering of in situ and ex situ iron-based amorphous matrix composites
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6:3:73:2 The effect of high-velocity oxy-fuel spraying parameters on microstructure, corrosion and wear resistance of Fe-based metallic glass coatings
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6:3:73:3 Densification Behavior and Wear Response of Spark Plasma Sintered Iron-Based Bulk Amorphous Alloys
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6:3:73:4 Structure and corrosion behavior of iron-based metallic glass coatings prepared by LPPS
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6:3:73:5 Nanocrystallization in spark plasma sintered Fe48Cr15Mo14Y2C15B6 bulk amorphous alloy
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6:3:73:6 Synthesis of Fe-Cr-Mo-C-B amorphous coating with high corrosion resistance
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6:3:73:7 Corrosion behavior of Fe41Co7Cr15Mo14C15B6Y2 bulk metallic glass in NaCl solution
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6:3:73:8 Corrosion performance and metal ion release of amorphous and nanocrystalline Fe-based alloys under simulated body fluid conditions
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6:3:73:9 Microstructure and tribological behavior of spark plasma sintered iron-based amorphous coatings
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6:3:73:10 Periodically Laser Patterned Fe-B-Si Amorphous Ribbons: Phase Evolution and Mechanical Behavior
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6:3:73:11 Annealing effect on mechanical constants for Ca48Mg27Cu25 bulk metallic glass
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6:3:73:12 Structure and corrosion behavior of iron-based metallic glass coatings prepared by LPPS (vol 258, pg 5380, 2012)
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6:3:74:1 Study on the formation of new Mg-Cu-Ti-Y quaternary bulk metallic glasses with high mechanical strength
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6:3:74:2 Effects of Zn addition on the glass forming ability and mechanical properties of Mg-Cu-Gd bulk metallic glasses
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6:3:74:3 Mg-Cu-Y-Ag bulk metallic glasses with enhanced compressive strength and plasticity
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6:3:74:4 High strength Mg-Zn-Ca alloys prepared by atomization and hot pressing process
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6:3:74:5 Mechanical properties of Mg-Li-Cu-Y metallic glass composites
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6:3:74:6 Microstructure and mechanical properties of Mg-8Li-2Zn-0.5(Ce, Y) alloys
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6:3:74:7 New MgLi based Mg-Li-Cu-(Y, Gd) BMGs: Preparation, glass forming ability and mechanical properties
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6:3:74:8 Effects of Zn on the glass forming ability and mechanical properties of MgLi-based bulk metallic glasses
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6:3:74:9 Ultra-high strength Mg-Li based bulk metallic glasses: Preparation and performance research
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6:3:74:10 Bulk Mg-3Al-Zn alloy with ultrafine grain size produced by powder metallurgy
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6:3:74:11 Ageing behavior of Mg-9Li-6Al-xY(x=0, 0.5, 2) alloys
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6:3:75:1 Shear transformation zone volume determining ductile-brittle transition of bulk metallic glasses
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6:3:75:2 Size-dependent failure mechanisms in ZrNi thin metallic glass films
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6:3:75:3 Wallner lines, crack velocity and mechanisms of crack nucleation and growth in a brittle bulk metallic glass
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6:3:75:4 Characterization and Modeling of Breaking-Induced Spontaneous Nanoscale Periodic Stripes in Metallic Glasses
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6:3:75:5 On the mechanism and the length scales involved in the ductile fracture of a bulk metallic glass
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6:3:75:6 Nanoscale periodic corrugation to dimple transition due to "beat" in a bulk metallic glass
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6:3:75:7 The 50th anniversary of the death of Adolf Gustav Smekal (1895-1959), a pioneer in materials physics
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6:3:75:8 Deformation and fracture mechanism of materials under the punch loading
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6:3:76:1 Microstructure and tribological properties of Fe-Cr matrix self-lubricating composites against Si3N4 at high temperature
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6:3:76:2 Composition versus friction and wear behavior of plasma sprayed WC-(W,Cr)(2)C-Ni/Ag/BaF2-CaF2 self-lubricating composite coatings for use up to 600 degrees C
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6:3:76:3 The microstructural characteristics and mechanical properties of Ni-Al/h-BN coatings deposited using plasma spraying
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6:3:76:4 Microstructures and tribological properties of plasma sprayed WC-Co-Cu-BaF2/CaF2 self-lubricating wear resistant coatings
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6:3:76:5 WC/Co composite surface structure and nano graphite precipitate induced by high current pulsed electron beam irradiation
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6:3:76:6 High temperature tribological properties of NiCrBSiCFe plasma-sprayed coating on austenitic stainless steel substrate
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6:3:76:7 Investigation of friction and wear behaviors of 2024 Al and 2024 Al/SiCp composite at elevated temperatures
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6:3:76:8 Microstructural characteristics of high-velocity oxygen-fuel (HVOF) sprayed nickel-based alloy coating
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6:3:76:9 Microstructure, phase transition and tribological performances of Ni3Si-based self-lubricating composite coatings
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6:3:76:10 Deposition of nanocrystalline coatings by modified LVOF thermal spray method
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6:3:76:11 Wear resistance and microstructural properties of Ni-Al/h-BN/WC-Co coatings deposited using plasma spraying
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6:3:76:12 Composition versus friction and wear behavior of plasma sprayed WC-(W,Cr)(2)C-Ni/Ag/BaF2-CaF2 self-lubricating composite coatings for use up to 600 degrees C (vol 261, pg 584, 2012)
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6:3:77:1 Interactions between mechanically generated defects and corrosion phenomena of Zr-based bulk metallic glasses
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6:3:77:2 Characterization of corrosion phenomena of Zr-Ti-Cu-Al-Ni metallic glass by SEM and TEM
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6:3:77:3 Enhancing the bio-corrosion resistance of Ni-free ZrCuFeAl bulk metallic glass through nitrogen plasma immersion ion implantation
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6:3:77:4 The pitting corrosion behavior of shear bands in a Zr-based bulk metallic glass
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6:3:77:5 Evaluation of Ni-free Zr-Cu-Fe-Al bulk metallic glass for biomedical implant applications
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6:3:77:6 Corrosion behavior of oxide-covered Cu47Ti34Zr11Ni8 (Vitreloy 101) in chloride-containing solutions
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6:3:77:7 Dissolved-Oxygen-Induced Intensive Pitting Corrosion of Amorphous ZrCu Alloys in Thin NaCl Solutions
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6:3:77:11 Stress-assisted-electrochemical corrosion of Cu-based bulk metallic glass
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6:3:78:1 Notable internal thermal effect on the yielding of metallic glasses
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6:3:78:2 Mechanical behavior of a Zr-based metallic glass at elevated temperature under high strain rate
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6:3:78:3 The failure stress of bulk metallic glasses under very high strain rate
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6:3:78:4 Intrinsic correlation between dilatation and pressure sensitivity of plastic flow in metallic glasses
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6:3:78:5 Energetic criterion on the intrinsic ductility of bulk metallic glasses
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6:3:78:6 Influence of strain-rate on compressive-deformation behavior of a Zr-Cu-Ni-Al bulk metallic glass at cryogenic temperature
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6:3:78:7 Nanoindentation study of chemical effects on the activation volume controlling shear band initiation in metallic glasses
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6:3:78:8 Effect of Temperature on the Dynamic Mechanical Behaviors of Zr-Based Metallic Glass Reinforced Porous Tungsten Matrix Composite
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6:3:78:9 Anomalous decrease of propagation rate of the macroscopic shear band in the Zr-based bulk metallic glasses at temperatures 170 and 77 K
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6:3:79:1 Effect of uniaxial loading on the structural anisotropy and the dynamics of atoms of Cu50Zr50 metallic glasses within the elastic regime studied by molecular dynamics simulation
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6:3:79:2 Structural and mechanical modifications induced on Cu47.5Zr47.5Al5 metallic glass by surface laser treatments
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6:3:79:3 Molecular dynamics simulation of Cu-Zr-Al metallic-glass films under indentation
DOI:10.1016/j.tsf.2013.05.168 JN:THIN SOLID FILMS PY:2014 TC:1 AU: Wang, Yun-Che;Wu, Chun-Yi;
6:3:79:4 Elastic moduli and mechanical properties of bulk metallic glasses after quasi-static compression
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6:3:79:5 Influence of structural relaxation on wetting behavior of molten In-Sn alloy on Cu40Zr44Al8Ag8 bulk metallic glass
DOI:10.1016/j.jallcom.2011.10.034 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:5 AU: Ma, G. F.;Zhang, H. F.;Li, H.;Hu, Z. Q.;
6:3:79:6 In situ spherical B2 CuZr phase reinforced ZrCuNiAlNb bulk metallic glass matrix composite
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6:3:79:7 The Influence of Deformation-Induced Martensitic Transformations on the Mechanical Properties of Nanocomposite Cu-Zr-(Al) Systems
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6:3:79:8 Effect of vanadium substitution for zirconium on the glass forming ability and mechanical properties of a Zr65Cu17.5Ni10Al7.5 bulk metallic glass
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6:3:79:9 Effect of V substitution on mechanical properties and fracture behavior of ZrCuNiAl bulk metallic glass
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6:3:80:1 Influence of thermally induced structural transformations on hardness in Fe89.8Ni1.5Si5.2B3C0.5 amorphous alloy
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6:3:80:2 A short-range ordering description of amorphous metal alloys using the central atoms model
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6:3:80:3 The strength of chemical bonds in solids and liquids
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6:3:80:4 Electrical resistivity and magnetic properties of Nd-Fe-B alloys produced by melt-spinning technique
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6:3:80:5 The local structure nature for a Ti-based bulk metallic glass
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6:3:80:6 Unified approach to atomic transport phenomena in metallic glasses from the bond deficiency perspective
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6:3:80:7 Epoxy resin effect on anisotropic Nd-Fe-B rubber-bonded magnets performance
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6:3:80:8 Incorporation of defects into the central atoms model of a metallic glass
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6:3:80:9 Magnetic properties of Mn-Bi melt-spun ribbons
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6:3:80:10 Microstructure and mechanical properties of rapidly quenched Fe-6.5 wt.% Si alloy
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6:3:80:11 Prediction of glass-forming ability and characterization of atomic structure of the Co-Ni-Zr metallic glasses by a proposed long range empirical potential
DOI:10.1063/1.3682485 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:2 AU: Dai Ye;Li Jiahao;Liu Baixin;
6:3:81:1 Thermal stability, crystallization kinetics and mechanical properties of Al81.8Ni9.2Co4.8Y3.1Zr1.1 amorphous alloy consolidated to a fully dense nanocrystalline matrix with some remaining amorphous phase
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6:3:81:2 Nanocrystalline and coarse grained polycrystalline nickel catalysts for the hydrogen evolution reaction
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6:3:81:3 Effect of microstructure on the electrocatalytic activity for hydrogen evolution of amorphous and nanocrystalline Zr-Ni alloys
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6:3:81:4 Effect of composition on the optical constants of Se100-xTex thin films
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6:3:81:5 Thermal behaviors of Al-based amorphous alloys bearing nanocrystalline In particles
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6:3:81:6 Study on electrodeposited CdSexTe1-x semiconducting thin films
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6:3:81:7 Topological instability and glass forming ability of Al-Ni-Sm alloys
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6:3:81:8 Size dependent melting behaviors of nanocrystalline in particles embedded in amorphous matrix
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6:3:81:9 Electrocatalytic behavior of Ni-based amorphous alloys for hydrogen evolution
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6:3:81:10 Hydrogen evolution on nickel electrode in synthetic tap water - alkaline solution
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6:3:81:11 Fabrication and Characterization of Erbium-Doped Fluoropolymer Patterns via UV-Nanoimprint Lithography for Use in Planar Optical Amplifiers
DOI:10.1080/15421406.2011.601201 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2011 TC:2 AU: Kim, Wook Hyun;Choi, Myung-Seok;Han, Yoon Soo;
6:3:82:1 Structural features and high quasi-static strain rate sensitivity of Au49Cu26.9Ag5.5Pd2.3Si16.3 bulk metallic glass
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6:3:82:2 In-situ probing of metallic glass formation and crystallization upon heating and cooling via fast differential scanning calorimetry
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6:3:82:3 Thermal analysis, fragility and viscosity of Au-based metallic glasses
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6:3:82:4 Thermodynamic, transport and mechanical properties of amorphous metallic alloys: Relation to the glass transition
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6:3:82:5 Effect of hydrostatic pressure on shear banding behaviors in bulk metallic glasses
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6:3:82:6 Thermoplastic deformation and micro/nano-replication of an Au-based bulk metallic glass in the supercooled liquid region
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6:3:82:7 Phase constitution and glass formation in an Au-based alloy
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6:3:82:8 Thermodynamics of the Au49Ag5.5Pd2.3Cu26.9Si16.3 glass-forming alloy
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6:3:82:9 The correlation between the pressure sensitivity and the fragility/glass transition temperature in bulk metallic glasses
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6:3:82:10 Evaluation of the crystal volume fraction in a partially nanocrystallized bulk metallic glass
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6:3:82:11 Structural Flexibility of a Pd40Ni40Si5P15 Bulk Metallic Glass
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6:3:83:1 The correlation between glass formation and hardness of the amorphous phase
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6:3:83:2 Compositional dependence of Young's moduli for amorphous Cu-Zr films measured using combinatorial deposition on microscale cantilever arrays
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6:3:83:3 Density change upon crystallization of amorphous Zr-Cu-Al thin films
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6:3:83:4 Influence of minor aluminum concentration changes in zirconium-based bulk metallic glasses on the elastic, anelastic, and plastic properties
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6:3:83:5 Investigation on the atomic structural evolution of as-prepared and annealed ZrCuAl metallic glasses
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6:3:83:6 Synthesis and mechanical properties of Fe-Nb-B thin-film metallic glasses
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6:3:83:7 Effect of thermal annealing on the local structure in ZrCuAl bulk metallic glass
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6:3:83:8 Density, elastic and magnetic properties of Co-Fe-Ta-Si metallic glasses by theory and experiment
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6:3:83:9 Precipitation of the ZrCu B2 phase in Zr50Cu50-xAlx (x=0, 4, 6) metallic glasses by rapidly heating and cooling
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6:3:83:10 Compositional dependence of Young's moduli for amorphous FeCo-SiO2 thin films
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6:3:84:1 Atomic-Scale Mechanisms of the Glass-Forming Ability in Metallic Glasses
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6:3:84:2 Atomic structure in Al-doped multicomponent bulk metallic glass
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6:3:84:3 Atomic-level structures and physical properties of magnetic CoSiB metallic glasses
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6:3:84:4 Structural mechanism for ultrahigh-strength Co-based metallic glasses
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6:3:84:5 Structural origin of the high glass-forming ability in Y-doped bulk metallic glasses
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6:3:84:6 Structural origin of the different glass-forming abilities in ZrCu and ZrNi metallic glasses
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6:3:84:7 Structural origin of the pinpoint-composition effect on the glass-forming ability in the NiNb alloy system
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6:3:85:1 Variations in atomic structural features of a supercooled Pd-Ni-Cu-P glass forming liquid during in situ vitrification
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6:3:85:2 Vitrification and devitrification processes in metallic glasses
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6:3:85:3 Glass transition temperature of Pd-Cu-Ni-P thin film metallic glass-a 2D approach
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6:3:85:4 Structure, mechanical properties and imprint-ability of Pd-Cu-Ni-P glassy alloy thin film prepared by a pulsed-laser deposition method
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6:3:85:5 A twin cell model for computation of glass transition temperature of quaternary thin film metallic glasses
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6:3:85:6 Double-stage glass transition in a metallic glass
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6:3:85:7 Fragility measurement of Pd-based metallic glass by dynamic mechanical analysis
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6:3:85:8 Structural basis for supercooled liquid fragility established by synchrotron-radiation method and computer simulation
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6:3:85:9 A twin cell model for computation of glass transition temperature of quaternary thin film metallic glasses (vol 375, pg 55, 2013)
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6:3:86:1 Rheological behavior of Cu-Zr-based metallic glass in the supercooled liquid region
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6:3:86:2 High temperature deformation of a Cu40Zr44Ag8Al8 bulk metallic glass
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6:3:86:3 Assessing the interfacial strength of an amorphous-crystalline interface
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6:3:86:4 Thermophysical properties of the Al83Co10Ce7 glass-forming alloy in crystalline and liquid states
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6:3:86:5 Plastic deformation behavior of Fe-Co-B-Si-Nb-Cr bulk metallic glasses under nanoindentation
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6:3:86:6 Early stage crystallization kinetics in metallic glass-forming alloys
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6:3:86:7 Prominent Fe-based bulk amorphous steel alloy with large supercooled liquid region and superior corrosion resistance
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6:3:86:8 Effect of cooling rate on the microstructure and microhardness of the CuZrAgAl alloy
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6:3:87:1 Nucleation reactions during deformation and crystallization of metallic glass
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6:3:87:2 Remelting treatment and heredity phenomenon in the formation of Fe78Si9B13 amorphous alloy
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6:3:87:3 Al-27 NMR measurement of fcc Al configurations in as-quenched Al85Ni11Y4 metallic glass and crystallization kinetics of Al nanocrystals
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6:3:87:4 Primary crystallization reactions in Al-based metallic glass alloys
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6:3:87:5 Effect of remelting treatment on glass forming ability of RE (Gd, Sm)(56)Al26Co18 alloys
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6:3:89:7 Hydrogen Permeable Nb-Based Amorphous Alloys with High Thermal Stability
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6:3:90:1 Calculation of glass forming ranges in Al-Ni-RE (Ce, La, Y) ternary alloys and their sub-binaries based on Miedema's model
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6:3:90:7 Predicting Composition Dependence of Glass Forming Ability in Ternary Al-Cu-Y System by Thermodynamic Calculation
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6:3:90:8 Structural changes induced by thermal annealing in Cr/C multilayers
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6:3:90:9 Thermodynamic assessment of the calcium-germanium system
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6:3:90:10 Effect of Nb and W substitutions on the stability of the A15 Mo3Si phase
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6:3:91:1 Microstructure and functional properties of Fe73.5Cu1Nb3Si15.5B7 amorphous alloy
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6:3:91:6 Influence of bias voltage on the formation and properties of iron-based nitrides produced by plasma nitriding
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6:3:91:7 Study of nanocrystallization in FINEMET alloy by active screen plasma nitriding
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6:3:91:8 Structural and magnetic properties of Fineme (TM) doped with Ta
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6:3:92:3 Locating new Mg-based bulk metallic glasses free of rare earth elements
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6:3:92:4 Synthesis of Ag-based bulk metallic glass in the Ag-Mg-Ca-[Cu] alloy system
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6:3:92:5 Nickel improves glass-forming ability of mischmetal substituted yttrium in the Mg-Cu based alloys
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6:3:92:6 Ultra magnesium-rich, low-density Mg-Ni-Ca bulk metallic glasses
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6:3:92:7 Thermal expansion of La-based BMG studied by in situ high-energy X-ray diffraction
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6:3:92:9 Glass forming ability and crystallization of Zr-Cu-Ag-Al-Be bulk metallic glasses
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6:3:93:1 Nanoscale Structure and Structural Relaxation in Zr50Cu45Al5 Bulk Metallic Glass
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6:3:93:3 Structural changes in Zr-based bulk metallic glasses deformed by high pressure torsion
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6:3:93:6 The glassy state - Magnetically viewed from the frozen end
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6:3:93:7 Effects of annealing on the compositional heterogeneity and structure in zirconium-based bulk metallic glass thin films
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6:3:94:1 Influence of wheel speed during planar flow melt spinning on the microstructure and soft magnetic properties of Fe68.5Si18.5B9Nb3Cu1 ribbons
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6:3:94:3 Role of Si on structure and soft magnetic properties of Fe87-xSixB9Nb3Cu1 ribbons
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6:3:94:4 Domain imaging in FINEMET ribbons
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6:3:95:2 Magnetic properties of soft magnetic composites prepared with crystalline and amorphous powders
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6:3:95:5 Effects of sintering temperature on microstructure and property evolution of Fe81Cu2Nb3Si14 soft magnetic materials fabricated from amorphous melt-spun ribbons by spark plasma sintering technique
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6:3:95:9 Phonon thermal conductivity of a nanowire with amorphous structure
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6:3:95:11 Fe-based nanocrystalline powder cores with ultra-low core loss
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6:3:95:12 Thermal activation of atomic rearrangements in elastically deformed Ni50Zr50 metallic glasses
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6:3:96:1 Phase stability for the Cu-Zr system: First-principles, experiments and solution-based modeling
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6:3:96:2 Predicted glass-forming ability of Cu-Zr-Co alloys and their crystallization behavior
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6:3:96:3 Phase formation of Cu50-xCoxZr50 (x=0-20 at.%) alloys: Influence of cooling rate
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6:3:96:4 Martensitic transformation and thermal cycling effect in Cu-Co-Zr alloys
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6:3:96:5 Combined in-situ SAXS/WAXS and HRTEM study on crystallization of (Cu60Co40)(1-x)Zr-x metallic glasses
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6:3:96:6 A mathematical approach to transformation toughening in bulk metallic glasses
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6:3:96:7 A new method for measuring the thermodynamic properties of undercooled liquid and amorphous Cu-Zr alloys
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6:3:96:8 Surface oxidation and magnetic properties of (Cu60Co40)(68)Zr-32 glassy ribbons
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6:3:96:9 Glassy Formability and Structural Variation of Zr50-xCu50Alx (x=0 similar to 25) Alloys with Respect to Icosahedral Short-Range Ordering
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6:3:97:1 Investigation of the free volume change of Fe41Co7Cr15Mo14C15B6Y2 bulk metallic glass using the cyclic thermal dilatation test
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6:3:97:2 Characteristic free volume change of bulk metallic glasses
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6:3:97:3 Characteristic free volumes of bulk metallic glasses: Measurement and their correlation with glass-forming ability
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6:3:97:4 Invar effects of (Fe71.2B24Y4.8)(96)Nb-4 alloy in different structural states
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6:3:97:5 Effect of Alloying Elements with Positive Heat of Mixing on the Free Volume and Compressive Plasticity in ZrCoCuAl Bulk Metallic Glasses
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6:3:97:6 Development of Ni- and Cu-Free Zr-Based Bulk Metallic Glasses for Biomedical Applications
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6:3:97:7 A new method for evaluating structural stability of bulk metallic glasses
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6:3:97:8 Characterization of the free volume in a Zr45.0Cu39.3Al7.0Ag8.7 bulk metallic glass by reverse Monte Carlo simulation and density measurements
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6:3:98:1 Interatomic potential to predict the favored and optimized compositions for ternary Cu-Zr-Hf metallic glasses
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6:3:98:2 Formation and structure of Al-Zr metallic glasses studied by Monte Carlo simulations
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6:3:98:3 On the determination of the glass forming ability of AlxZr1-x alloys using molecular dynamics, Monte Carlo simulations, and classical thermodynamics
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6:3:98:4 Glass-formation and atomic structures of Cu-x(Zr0.22Hf0.78)(1-x) and (Cu0.61Hf0.39)(1-x)Zr-x alloys investigated by Monte Carlo simulation
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6:3:98:5 Local structure of the Zr-Al metallic glasses studied by proposed n-body potential through molecular dynamics simulation
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6:3:98:6 Favored composition region for metallic glass formation and atomic configurations in the ternary Ni-Zr-Ti system derived from n-body potential through molecular dynamics simulations
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6:3:98:7 Molecular dynamics simulations of critically percolated, cluster-packed structure in Zr-Al-Ni bulk metallic glass
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6:3:99:1 Microstructure and elevated temperature wear behavior of induction melted Fe-based composite coating
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6:3:99:2 Elevated temperature dry sliding wear behavior of nickel-based composite coating on austenitic stainless steel deposited by a novel central hollow laser cladding
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6:3:99:3 Microstructure and wear behaviors of laser clad NiCr/Cr3C2-WS2 high temperature self-lubricating wear-resistant composite coating
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6:3:99:4 Friction and sliding wear behavior of induction melted FeCrB metamorphic alloy coating
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6:3:99:5 Effects of aging treatment on microstructure and tribological properties of nickel-based high-temperature self-lubrication wear resistant composite coatings by laser cladding
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6:3:99:6 Tribological characterisation of Zr-based bulk metallic glass in simulated physiological media
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6:3:99:7 Effect of load and sliding speed on friction and wear behavior of silver/h-BN containing Ni-base P/M composites
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6:3:99:8 Microstructural and microhardness characteristics of induction melted nickel-based alloys
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6:3:99:9 Tribological behavior at elevated temperature of multilayer TiCN/TiC/TiN hard coatings produced by chemical vapor deposition
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6:3:99:10 The effect of vanadium content and temperature on stick-slip phenomena under friction of CrV(x)N coatings
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6:3:99:11 Tribological properties of MoN layer on silver-containing nickel-base alloy at high temperatures
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6:3:99:12 Effect of dry sliding wear conditions on a vacuum induction melted Ni alloy
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6:3:100:1 Correlating the supercooled liquid region width with the fragility parameter in bulk metallic glasses
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6:3:100:2 Liquid fragility calculations from thermal analyses for metallic glasses
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6:3:100:3 Atomic-Scale Structural Evolution and Stability of Supercooled Liquid of a Zr-Based Bulk Metallic Glass
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6:3:100:4 In-situ study of crystallization kinetics in ternary bulk metallic glass alloys with different glass forming abilities
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6:3:100:5 GLASS-FORMING ALLOYS Order at the interface
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6:3:100:6 The inquiry of liquids and glass transition by heat capacity
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6:3:100:7 On the liquid-state fragility of PdNiCuP metallic glasses
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6:3:100:8 In-situ neutron scattering study of crystallization in a Zr-based bulk metallic glass
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6:3:101:1 Controlled Formation and Mechanical Characterization of Metallic Glassy Nanowires
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6:3:101:2 Formation of Metallic Glass Nanowires by Gas Atomization
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6:3:101:3 Homogeneous size reduction of metallic glass in a common acidic aqueous medium
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6:3:101:4 Functional localization of kinesin/microtubule-based motility system along metallic glass microwires
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6:3:101:5 Metallic glass nanofilms
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6:3:101:6 Three-dimensional nanoporous copper with high surface area by dealloying Mg-Cu-Y metallic glasses
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6:3:102:1 Replacement of oxide glass with metallic glass for Ag screen printing metallization on Si emitter
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6:3:102:2 Exploiting metallic glasses for 19.6% efficient back contact solar cell
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6:3:102:3 Thermal decomposition of silver acetate in silver paste for solar cell metallization: An effective route to reduce contact resistance
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6:3:102:4 Enhancement of electrical conductivity of thick silver electrode using a tailored amorphous alloy
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6:3:102:5 Oxidation resistance of the supercooled liquid in Cu50Zr50 and Cu46Zr46Al8 metallic glasses
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6:3:102:6 Oxidation induced amorphous stabilization of the subsurface region in Zr-Cu metallic glass
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6:3:102:7 Air-oxidation of a Cu50Zr50 binary amorphous ribbon at 350-425 degrees C
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6:3:102:8 The oxidation behavior of a Ti50Cu28Ni15Sn7 bulk metallic glass at 400-500 degrees C
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6:3:103:1 Effect of Voronoi volume on fluctuation at initial deformation of amorphous alloys
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6:3:103:2 Onset Mechanism of Strain-Rate-Induced Flow Stress Upturn
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6:3:103:3 Analogy between glass rheology and crystal plasticity: yielding at high strain rate
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6:3:103:4 Interaction of a 1/2 < 111 > screw dislocation with Cr precipitates in bcc Fe studied by molecular dynamics
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6:3:103:5 Chemical and topological order in shear bands of Cu64Zr36 and Cu36Zr64 glasses
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6:3:104:1 Formation of new Cu-based nanocrystalline powders by mechanical alloying technique
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6:3:104:2 Formation and structure of Cu-Zr-Al ternary metallic glasses investigated by ion beam mixing and calculation
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6:3:104:3 Structural and microstructural study of nanostructured Fe50Al40Ni10 powders produced by mechanical alloying
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6:3:104:4 Atomic migration and bonding characteristics during a glass transition investigated using as-cast Zr-Cu-Al
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6:3:104:5 Investigation of mechanosynthesized Fe50Ni40Al10 powders
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6:3:104:6 Composition reign favored for the formation of Cu-Zr-Al amorphous phases investigated by ion beam mixing
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6:3:104:7 Regular Cu-based amorphous alloy powder
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6:3:104:8 Microstructural evolution of slowly solidified Cu-Ti-Zr-Ni amorphous alloy
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6:3:105:1 Phase separation in Ni-Nb-Y metallic glasses
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6:3:105:2 Spinodal decomposition in Pd41.25Ni41.25P17.5 bulk metallic glasses
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6:3:105:3 A metastable liquid state miscibility gap in undercooled Pd-Ni-P melts
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6:3:105:4 Crystallization in homogeneous and phase-separated Pd41.25Ni41.25P17.5 bulk metallic glasses
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6:3:105:5 The time constant of the spinodal decomposition in Pd41.75Ni41.75P17.5 bulk metallic glasses
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6:3:105:6 Direct imaging of phase separation in Pd41.25Ni41.25P17.5 bulk metallic glasses
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6:3:106:1 Coupling between chemical and dynamic heterogeneities in a multicomponent bulk metallic glass
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6:3:106:2 Effects of mechanical compression and autoclave treatment on the backbone clusters in the Al86Ni9La5 amorphous alloy
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6:3:106:3 Structure of rapidly quenched (Cu0.5Zr0.5)(100-x)Ag-x alloys (x=0-40 at.%)
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6:3:106:4 Glass Transition by Gelation in a Phase Separating Binary Alloy
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6:3:109:7 Nonlinear theoretical formulation of elastic stability criterion of crystal solids
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6:3:110:10 Enhanced thermal stability and hardness of Zr46Cu39.2Ag7.8Al7 bulk metallic glass with Fe addition
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6:3:113:1 Microstructure and mechanical property of Zr65Al7.5Ni10Cu12.5Ag5 bulk metallic glass subjected to rolling
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6:3:114:1 Recent Progress in Ti-Based Metallic Glasses for Application as Biomaterials
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6:3:114:2 Stress corrosion cracking and bioactivity of Ti-based bulk metallic glass
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6:3:114:3 Effect of Nb on glass forming ability and plasticity of (Ti-Cu)-based bulk metallic glasses
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6:3:114:4 Bioactivity of a Ni-Free Ti-Based Metallic Glass
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6:3:116:5 Improvement of mechanical properties in MgCuYNdAg bulk metallic glasses with adding Mo particles
DOI:10.1016/j.jallcom.2010.04.066 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:2 AU: Hsieh, P. J.;Yang, L. C.;Su, H. C.;Lu, C. C.;Jang, J. S. C.;
6:3:116:6 Relationship between the Reinforcement Size and Mechanical Properties of Zr-Based Glassy Matrix Composites
DOI:10.2320/matertrans.MF2011367 JN:MATERIALS TRANSACTIONS PY:2012 TC:1 AU: Chu, Zhenhua;Kato, Hidemi;Wada, Takeshi;Xie, Guoqiang;Yuan, Guangyin;Ding, Wenjiang;
6:3:116:7 Fabrication and corrosion behavior of Ti-based bulk metallic glass composites containing carbon nanotubes
DOI:10.1016/j.jallcom.2010.02.061 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:2 AU: Hsu, Chih-Feng;Kai, Wu;Lin, Hong-Ming;Lin, Chung-Kwei;Lee, Pee-Yew;
6:3:116:8 Microstructure and mechanical properties of mechanically alloyed Al2O3/Ti-Cu-Ni-Sn bulk metallic glass composites prepared by vacuum hot-pressing
DOI:10.1016/j.jallcom.2010.02.026 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:5 AU: Lin, Hong-Ming;Chen, Chin-Yi;Tsay, Chien-Yie;Hsu, Chih-Feng;Lee, Pee-Yew;
6:3:116:9 Wetting behaviors and interfacial characteristics of TiZr-based bulk metallic glass/W substrate
DOI:10.1016/j.jallcom.2012.09.066 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:0 AU: Ma, G. F.;Li, Z. K.;He, C. L.;Zhu, Z. W.;Fu, H. M.;Wang, A. M.;Li, H.;Zhang, H. F.;Hu, Z. Q.;
6:3:116:10 Study of mechanical deformation of Zr55Cu30Al10Ni5 bulk metallic glass through instrumented indentation
DOI:10.1016/j.msea.2011.05.018 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:4 AU: Rezaee-Bazzaz, A.;Marvi-Mashhadi, M.;Haddad-Sabzevar, M.;
6:3:117:1 73 mm-diameter bulk metallic glass rod by copper mould casting
DOI:10.1063/1.3621862 JN:APPLIED PHYSICS LETTERS PY:2011 TC:16 AU: Lou, H. B.;Wang, X. D.;Xu, F.;Ding, S. Q.;Cao, Q. P.;Hono, K.;Jiang, J. Z.;
6:3:117:2 Effects of Cr addition on glass-forming ability and mechanical properties of Cu-Zr-Al bulk metallic glass
DOI:10.1007/s10853-012-6375-5 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:7 AU: Zhou, W.;Kong, L. T.;Li, J. F.;Zhou, Y. H.;
6:3:117:3 Glass-forming ability and thermoplastic formability of a Pd40Ni40Si4P16 glassy alloy
DOI:10.1007/s10853-010-5043-x JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:10 AU: Chen, N.;Yang, H. A.;Caron, A.;Chen, P. C.;Lin, Y. C.;Louzguine-Luzgin, D. V.;Yao, K. F.;Esashi, M.;Inoue, A.;
6:3:117:4 Microstructure and Compressive Properties of In-Situ Martensite CuZr Phase Reinforced ZrCuNiAl Metallic Glass Matrix Composite
DOI:10.2320/matertrans.M2010031 JN:MATERIALS TRANSACTIONS PY:2010 TC:6 AU: Liu, Jinmin;Yuan, Xiaoguang;Zhang, Haifeng;Fu, Huameng;Hu, Zhuangqi;
6:3:117:5 Microstructure and Mechanical Properties of Cu-Zr-Al Bulk Metallic Glass with Addition of Co
DOI:10.2320/matertrans.M2012375 JN:MATERIALS TRANSACTIONS PY:2013 TC:2 AU: Zhou, Wei;Tao, Yiming;Liu, Li;Kong, Lingti;Li, Jinfu;Zhou, Yaohe;
6:3:117:6 Glass forming ability of Fe-Co-Zr-Nd-B alloys and bulk permanent magnets derived from amorphous precursor
DOI:10.1007/s10853-010-4614-1 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:2 AU: Tan, X. H.;Xu, H.;Wu, S. J.;
6:3:118:1 High temperature deformation behaviors of Ti40Zr25Ni3Cu12Be20 bulk metallic glass
DOI:10.1016/j.jallcom.2010.02.163 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:8 AU: Huang, Yongjiang;Shen, Jun;Sun, Yi;Sun, Jianfei;Chen, John J. J.;
6:3:118:2 In situ formation of crystalline flakes in Mg-based metallic glass composites by controlled inoculation
DOI:10.1016/j.actamat.2011.08.044 JN:ACTA MATERIALIA PY:2011 TC:7 AU: Xu, Wanqiang;Zheng, Rongkun;Laws, Kevin J.;Ringer, Simon P.;Ferry, Michael;
6:3:118:3 Microstructural evolution and homogeneous viscous flow behavior of a Cu-Zr based bulk metallic glass composites
DOI:10.1016/j.jallcom.2014.08.078 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:1 AU: Zhang, X. Y.;Yuan, Z. Z.;Li, D. X.;
6:3:118:4 Bending behavior of TiZrNiCuBe bulk metallic glass
DOI:10.1016/j.jallcom.2012.06.135 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:4 AU: Huang, Yongjiang;Wang, Dongjun;Wang, Dapeng;Zhang, Zhixiong;Shen, Jun;
6:3:118:5 Enthalpy recovery and its effect on homogeneous flow stress during supercooled liquid region for Ti40Zr25Ni8Cu9Be18 bulk metallic glass
DOI:10.1016/j.jnoncrysol.2011.05.016 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2011 TC:1 AU: Zhou, X.;Kou, H. C.;Wang, J.;Li, J. S.;Zhou, L.;
6:3:118:6 Phase redistribution in an in situ Mg-based bulk metallic glass composite during deformation in the supercooled liquid region
DOI:10.1016/j.scriptamat.2010.05.029 JN:SCRIPTA MATERIALIA PY:2010 TC:8 AU: Xu, Wanqiang;Robin, Lalu;Zheng, Rongkuen;Laws, Kevin J.;Ferry, Michael;
6:3:118:7 High temperature homogeneous plastic flow behavior of a Zr based bulk metallic glass matrix composite
DOI:10.1016/j.jallcom.2010.02.017 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:4 AU: Wang, Q.;Wang, D. K.;Fu, T.;Blandin, J. J.;Pelletier, J. M.;Dong, Y. D.;
6:3:118:8 Phase redistribution in an in situ Mg-based bulk metallic glass composite during deformation in the supercooled liquid region (vol 63, pg 556, 2010)
DOI:10.1016/j.scriptamat.2010.06.043 JN:SCRIPTA MATERIALIA PY:2010 TC:0 AU: Xu, Wanqiang;Robin, Lalu;Zheng, Rongkun;Laws, Kevin J.;Ferry, Michael;
6:3:119:1 Effect of Nb addition on the glass-forming ability, mechanical and soft-magnetic properties in (Co0.942Fe0.058)(72-x)NbxB22.4Si5.6 bulk glassy alloys
DOI:10.1016/j.jallcom.2010.03.044 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:13 AU: Sun, Huaijun;Man, Qikui;Dong, Yaqiang;Shen, Baolong;Kimura, Hisamichi;Makino, Akihiro;Inoue, Akihisa;
6:3:119:2 Internal stress influence on the coercivity of FeCuNbSiB thin films
DOI:10.1016/j.jmmm.2009.06.043 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2010 TC:12 AU: Moulin, Johan;Mazaleyrat, Frederic;Mendez, Alexandra;Dufour-Gergam, Elisabeth;
6:3:119:3 Preparation of thin ribbon and bulk glassy alloys in CoFeBSiNb(Ga) using planar flow casting and suction casting methods
DOI:10.1016/j.jnoncrysol.2012.04.016 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2012 TC:3 AU: Hosko, J.;Janotova, I.;Svec, P.;Janickovic, D.;Vlasak, G.;Illekova, E.;Matko, I.;Svec, P., Sr.;
6:3:119:4 Structure analysis of CoFeBSiNb(Ga) pseudobulk metallic glasses
DOI:10.1016/j.apsusc.2012.09.162 JN:APPLIED SURFACE SCIENCE PY:2013 TC:3 AU: Hosko, J.;Janotova, I.;Svec, P.;Matko, I.;Janickovic, D.;Svec, P., Sr.;
6:3:119:5 Formation and magnetic properties of metastable phases observed in the Fe-50(HfxTa1-x)(50) films by ion beam mixing
DOI:10.1016/j.apsusc.2013.11.135 JN:APPLIED SURFACE SCIENCE PY:2014 TC:1 AU: Li, Nan;Li, JiaHao;Liu, JianBo;Liu, BaiXin;
6:3:119:6 Effect of laser shock peening on mechanical properties of Zr-based bulk metallic glass
DOI:10.1016/j.apsusc.2014.06.056 JN:APPLIED SURFACE SCIENCE PY:2014 TC:4 AU: Fu, Jie;Zhu, Yunhu;Zheng, Chao;Liu, Ren;Ji, Zhong;
6:3:119:7 Magnetic and structural properties of ion beam sputtered Fe-Zr-Nb-B-Cu thin films
DOI:10.1016/j.tsf.2011.12.071 JN:THIN SOLID FILMS PY:2012 TC:1 AU: Modak, S. S.;Kane, S. N.;Gupta, A.;Mazaleyrat, F.;LoBue, M.;Coisson, M.;Celegato, F.;Tiberto, P.;Vinai, F.;
6:3:119:8 The study of structure of Fe-B-P based metallic glasses
DOI:10.1016/j.apsusc.2012.10.110 JN:APPLIED SURFACE SCIENCE PY:2013 TC:3 AU: Janotova, I.;Hosko, J.;Svec, P.;Matko, I.;Janickovic, D.;Svec, P., Sr.;Gemming, T.;Stoica, M.;
6:3:119:9 Magnetic susceptibility of CoFeBSiNb alloys in liquid state
DOI:10.1016/j.jmmm.2013.10.038 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2014 TC:0 AU: Sidorov, V.;Hosko, J.;Mikhailov, V.;Rozkov, I.;Uporova, N.;Svec, P.;Janickovic, D.;Matko, I.;Svec, P., Sr.;Malyshev, L.;
6:3:119:10 Effect of replacing B by Zr in amorphous Co-Fe-Si-B soft magnetic alloys
DOI:10.1557/jmr.2012.49 JN:JOURNAL OF MATERIALS RESEARCH PY:2012 TC:0 AU: Babu, Diraviam Arvindha;Khan, Wasif Hussain;Chelvane, Jeyaramane Arout;Sahoo, Trilochan;Akhtar, Dilshad;
6:3:120:1 Effect of cooling rate on the bending plasticity of Zr55Al10Ni5Cu30 bulk metallic glass
DOI:10.1016/j.jallcom.2012.02.126 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:8 AU: Hu, Y.;Yan, H. H.;Lin, T.;Li, J. F.;Zhou, Y. H.;
6:3:120:2 Thin-walled Ti41.5Zr2.5Hf5Cu42.5Ni7.5Si1 bulk metallic glass tubes: Promising energy absorbers and lightweight structures
DOI:10.1016/j.jallcom.2012.08.027 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:1 AU: Hu, Q.;Fu, M. W.;Zeng, X. R.;Ma, C. L.;
6:3:120:3 Compression-compression fatigue study on model metallic glass nanowires by molecular dynamics simulations
DOI:10.1063/1.3610443 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:6 AU: Shi, Yunfeng;Louca, Despina;Wang, Gongyao;Liaw, Peter K.;
6:3:120:4 Dissimilar friction welding of tubular Zr-based bulk metallic glasses
DOI:10.1016/j.jallcom.2010.02.047 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:7 AU: Shin, Hyung-Seop;Park, Jung-Soo;Yokoyama, Yoshihiko;
6:3:120:5 Formation of porous metallic glass compacts by electro-discharge sintering
DOI:10.1016/j.jallcom.2011.02.116 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:4 AU: Cho, J. Y.;Shin, J. S.;Jo, Y. J.;Lee, J. K.;Lee, M. H.;Lee, H. S.;Lee, W. H.;Kim, K. B.;
6:3:120:6 Bulk metallic glass tube casting
DOI:10.1016/j.jallcom.2010.12.145 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:1 AU: Soinila, E.;Antin, K.;Bossuyt, S.;Hanninen, H.;
6:3:120:7 Compression-compression fatigue of Pd43Ni10CU27P20 metallic glass foam
DOI:10.1063/1.3457221 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:5 AU: Wang, Gongyao;Demetriou, Marios D.;Schramm, Joseph P.;Liaw, Peter K.;Johnson, William L.;
6:3:120:8 Necking mechanisms on porous metallic glass and W compacts using electro-discharge sintering
DOI:10.1016/j.jallcom.2011.10.088 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:1 AU: Cho, J. Y.;Song, G. A.;Choi, H. S.;Kim, Y. H.;Kim, T. S.;Lee, M. H.;Lee, H. S.;Kim, H. J.;Lee, J. K.;Fleury, E.;Seo, Y.;Kim, K. B.;
6:3:121:1 Simple correlation between mechanical and thermal properties in TE-TL (TE = Ti,Zr,Hf;TL = Ni,Cu) amorphous alloys
DOI:10.1016/j.jnoncrysol.2011.03.038 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2011 TC:5 AU: Ristic, R.;Babic, E.;Stubicar, M.;Kursumovic, A.;Cooper, J. R.;Figueroa, I. A.;Davies, I-I. A.;Todd, I.;Varga, L. K.;Bakonyi, I.;
6:3:121:2 Relationship between thermophysical and mechanical properties of metallic glasses
DOI:10.1016/j.jallcom.2010.04.034 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:8 AU: Battezzati, Livio;Habib, Ahsan;Baldissin, Daniele;Rizzi, Paola;
6:3:121:3 Thermal properties of metallic glasses: Heating rate dependence and their correlation
DOI:10.1016/j.matlet.2014.03.158 JN:MATERIALS LETTERS PY:2014 TC:1 AU: Pang, Jianjun;Wang, Yongsheng;Tan, Ming Jen;Liew, Kim Meow;
6:3:121:4 Properties and atomic structure of amorphous early transition metals
DOI:10.1016/j.jallcom.2010.02.196 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:5 AU: Ristic, R.;Babic, E.;Pajic, D.;Zadro, K.;Kursumovic, A.;Figueroa, I. A.;Davies, H. A.;Todd, I.;Varga, L. K.;Bakonyi, I.;
6:3:121:5 Electrical, thermal, and mechanical properties of Cu50Zr40Ti10 bulk amorphous composite
DOI:10.1016/j.msea.2011.12.046 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:3 AU: Cai, A. H.;Xiong, X.;Liu, Y.;An, W. K.;Zhou, G. J.;Luo, Y.;Li, T. L.;Li, X. S.;
6:3:121:6 Evolution of magnetism in Hf-Fe metallic glasses
DOI:10.1016/j.jallcom.2011.12.085 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:0 AU: Pajic, D.;Marohnic, Z.;Drobac, D.;Zadro, K.;Ristic, R.;Babic, E.;
6:3:121:7 Relevance of Fe atomic volumes for the magnetic properties of Fe-rich metallic glasses
DOI:10.1016/j.jmmm.2012.07.003 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2012 TC:5 AU: Bakonyi, I.;
6:3:121:8 Correlation of microstructure and compressive properties of amorphous matrix composites reinforced with tungsten continuous fibers or porous foams
DOI:10.1016/j.msea.2010.03.025 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:4 AU: Son, Chang-Young;Lee, Sang-Bok;Lee, Sang-Kwan;Kim, Choongnyun Paul;Lee, Sunghak;
6:3:122:1 Phase stability, microstructure and mechanical properties of Li containing Mg-based bulk metallic glass composites
DOI:10.1016/j.msea.2012.03.034 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:3 AU: Plummer, J. D.;Figueroa, I. A.;Todd, I.;
6:3:122:2 Implications of elastic constants, fragility, and bonding on permanent deformation in metallic glass
DOI:10.1063/1.3540652 JN:APPLIED PHYSICS LETTERS PY:2011 TC:5 AU: Plummer, J. D.;Todd, I.;
6:3:122:3 Effect of frame stiffness on the deformation behavior of bulk metallic glass
DOI:10.1557/JMR.2010.0256 JN:JOURNAL OF MATERIALS RESEARCH PY:2010 TC:5 AU: Han, Z.;Li, Y.;Gao, H. J.;
6:3:122:4 Isomechanical groups in bulk metallic glasses
DOI:10.1080/14786435.2012.682172 JN:PHILOSOPHICAL MAGAZINE PY:2012 TC:0 AU: Plummer, J. D.;Todd, I.;
6:3:122:5 A study of mechanical homogeneity in as-cast bulk metallic glass by nanoindentation
DOI:10.1016/j.jnoncrysol.2010.11.002 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2011 TC:5 AU: Plummer, J. D.;Goodall, R.;Figueroa, I. A.;Todd, I.;
6:3:122:6 Calibrating a nanoindenter for very shallow depth indentation using equivalent contact radius
DOI:10.1080/14786430903571420 JN:PHILOSOPHICAL MAGAZINE PY:2010 TC:6 AU: Tadjiev, Damir R.;Hand, Russell J.;Hayes, Simon A.;
6:3:122:7 Cauchy pressure and the generalized bonding model for nonmagnetic bcc transition metals
DOI:10.1103/PhysRevB.86.134106 JN:PHYSICAL REVIEW B PY:2012 TC:2 AU: Eberhart, Mark E.;Jones, Travis E.;
6:3:123:1 A method to fabricate 2D nanoparticle arrays
DOI:10.1007/s00339-010-5552-0 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2010 TC:12 AU: Lin, C. H.;Jiang, L.;Chai, Y. H.;Xiao, H.;Chen, S. J.;Tsai, H. L.;
6:3:123:2 Glassy alloy composites for bit-patterned-media
DOI:10.1016/j.jallcom.2010.12.020 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:8 AU: Nishiyama, N.;Takenaka, K.;Saidoh, N.;Futamoto, M.;Saotome, Y.;Inoue, Akihisa;
6:3:123:3 Fabrication of nanodot array mold with 2 Tdot/in.(2) for nanoimprint using metallic glass
DOI:10.1116/1.4761472 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B PY:2012 TC:2 AU: Fukuda, Yasuyuki;Saotome, Yasunori;Nishiyama, Nobuyuki;Takenaka, Kana;Saidoh, Noriko;Makabe, Eiichi;Inoue, Akihisa;
6:3:123:4 Read/write characteristics of a new type of bit-patterned-media using nano-patterned glassy alloy
DOI:10.1016/j.jmmm.2011.12.009 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2012 TC:5 AU: Takenaka, Kana;Saidoh, Noriko;Nishiyama, Nobuyuki;Ishimaru, Manabu;Futamoto, Masaaki;Inoue, Akihisa;
6:3:123:5 Fabricating 2D arrays of chemical templates for in situ synthesis of inorganic nanostructures using self-assembly based nanolithography
DOI:10.1039/c0jm01901a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:3 AU: Yap, Fung Ling;Krishnamoorthy, Sivashankar;
6:3:123:6 Fabrication and nano-imprintabilities of Zr-, Pd- and Cu-based glassy alloy thin films
DOI:10.1088/0957-4484/22/10/105302 JN:NANOTECHNOLOGY PY:2011 TC:5 AU: Takenaka, Kana;Saidoh, Noriko;Nishiyama, Nobuyuki;Inoue, Akihisa;
6:3:123:7 Nanoimprinting of Metallic Glass for Periodic Nano-Hole Structures with Dies Fabricated by FIB-CVD and RIE
DOI:10.2320/matertrans.M2010241 JN:MATERIALS TRANSACTIONS PY:2011 TC:5 AU: Fukuda, Yasuyuki;Saotome, Yasunori;Kimura, Hisamichi;Inoue, Akihisa;
6:3:124:1 Martensite structure and phase transformation of quaternary ZrCuAlCo high temperature shape memory alloys
DOI:10.1016/j.jallcom.2014.04.061 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:0 AU: Gao, W. H.;Meng, X. L.;Cai, W.;Zhao, L. C.;
6:3:124:2 Transmission electron microscopy of antiphase boundary-like structure of B19 ' martensite in Ti-Ni shape memory alloy
DOI:10.1016/j.actamat.2010.09.017 JN:ACTA MATERIALIA PY:2011 TC:10 AU: Matsuda, M.;Kuramoto, K.;Morizono, Y.;Tsurekawa, S.;Okunishi, E.;Hara, T.;Nishida, M.;
6:3:124:3 Influence of Al content on martensitic transformation behavior in Zr50Cu50-xAlx
DOI:10.1016/j.jallcom.2012.01.125 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:8 AU: Meng, F. Q.;Tsuchiya, K.;Yin, F. X.;Li, S.;Yokoyama, Y.;
6:3:124:4 Antiphase boundary-like structure of B19 ' martensite via R-phase transformation in Ti-Ni-Fe alloy
DOI:10.1016/j.jallcom.2013.10.015 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:2 AU: Matsuda, M.;Yamashita, R.;Tsurekawa, S.;Takashima, K.;Mitsuhara, M.;Nishida, M.;
6:3:124:5 Substructure and interface of the superstructure martensite in Zr50Cu50 High temperature shape memory alloy
DOI:10.1016/j.matlet.2013.05.038 JN:MATERIALS LETTERS PY:2014 TC:1 AU: Meng, Xianglong;Gao, Weihong;Gao, Zhiyong;Cai, Wei;Zhao, Liancheng;
6:3:124:6 Influence of Ni on stability of martensitic transformation in Zr50Cu50-xNix
DOI:10.1016/j.jallcom.2012.01.089 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:2 AU: Meng, Fanqiang;Tsuchiya, Koichi;Ii, Seiichiro;Yokoyama, Yoshihiko;
6:3:125:1 Effect of microalloying on the toughness of metallic glasses
DOI:10.1063/1.4769997 JN:APPLIED PHYSICS LETTERS PY:2012 TC:9 AU: Garrett, Glenn R.;Demetriou, Marios D.;Chen, Jason;Johnson, William L.;
6:3:125:2 Liquid-like platinum-rich glasses
DOI:10.1016/j.scriptamat.2011.07.035 JN:SCRIPTA MATERIALIA PY:2011 TC:9 AU: Demetriou, Marios D.;Floyd, Michael;Crewdson, Chase;Schramm, Joseph P.;Garrett, Glenn;Johnson, William L.;
6:3:125:3 On the effect of microalloying on the mechanical properties of metallic glasses
DOI:10.1016/j.actamat.2013.10.029 JN:ACTA MATERIALIA PY:2014 TC:2 AU: Gendelman, Oleg;Joy, Ashwin;Mishra, Pankaj;Procaccia, Itamar;Samwer, Konrad;
6:3:125:4 Micro-alloying and the toughness of glasses: Modeling with pinned particles
DOI:10.1063/1.4805033 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Dasgupta, Ratul;Mishra, Pankaj;Procaccia, Itamar;Samwer, Konrad;
6:3:125:5 New Methods for Developing and Manufacturing Compliant Mechanisms Utilizing Bulk Metallic Glass
DOI:10.1002/adem.201300566 JN:ADVANCED ENGINEERING MATERIALS PY:2014 TC:3 AU: Homer, Eric R.;Harris, Matthew B.;Zirbel, Shannon A.;Kolodziejska, Joanna A.;Kozachkov, Henry;Trease, Brian P.;Borgonia, John-Paul C.;Agnes, Gregory S.;Howell, Larry L.;Hofmann, Douglas C.;
6:3:125:6 Effect of microalloying on the toughness of metallic glasses (vol 101, 241913, 2012)
DOI:10.1063/1.4794850 JN:APPLIED PHYSICS LETTERS PY:2013 TC:0 AU: Garrett, Glenn R.;Demetriou, Marios D.;Chen, Jason;Johnson, William L.;
6:3:126:1 Structural heterogeneity induced plasticity in bulk metallic glasses: From well-relaxed fragile glass to metal-like behavior
DOI:10.1063/1.4827299 JN:APPLIED PHYSICS LETTERS PY:2013 TC:3 AU: Li, Weidong;Bei, H.;Tong, Y.;Dmowski, W.;Gao, Y. F.;
6:3:126:2 Study of the mechanism of the internal friction peak in a Cu36Zr48Al8Ag8 bulk metallic glass
DOI:10.1016/j.jnoncrysol.2014.09.053 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2014 TC:0 AU: Wang, Li-fang;Zhang, Qi-dong;Huang, Zhong-yue;Cui, Xiao;Zu, Fang-qiu;
6:3:126:3 Investigation on structural instability induced relaxation and crystallization in ZrCuAlNi bulk metallic glass
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6:3:126:4 Mechanical relaxation near glass transition studied by various methods
DOI:10.1016/j.jnoncrysol.2010.08.016 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2011 TC:5 AU: Hiki, Y.;
6:3:126:5 Reversed anisotropy of grain boundary properties and its effect on grain boundary engineering
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6:3:126:6 Atomistic Simulation of Shear Mode Deformation of Nanocrystalline Copper with Different Grain Sizes
DOI:10.2320/matertrans.MA201315 JN:MATERIALS TRANSACTIONS PY:2014 TC:0 AU: Kogure, Yoshiaki;Hiki, Yosio;
6:3:127:1 Correlation between plasticity and other materials properties of Cu-Zr bulk metallic glasses: An atomistic simulation study
DOI:10.1016/j.actamat.2010.10.027 JN:ACTA MATERIALIA PY:2011 TC:16 AU: Kang, Kyung-Han;Park, Kyoung-Won;Lee, Jae-Chul;Fleury, Eric;Lee, Byeong-Joo;
6:3:127:2 Crystallization and high-temperature deformation behavior of Cu49Zr45Al6 bulk metallic glass within supercooled liquid region
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6:3:127:3 Microstructure evolution in CuZrAl alloys during ball-milling
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6:3:127:4 Consolidation of Cu58Zr42 amorphous/nanocrystalline powders by PM
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6:3:128:1 Thermodynamic assessment and the composition prediction of amorphous alloy in the Fe-B-Er alloy system
DOI:10.1016/j.jallcom.2011.08.014 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:3 AU: Wang, S. L.;Han, J. J.;Wang, C. P.;Kou, S. Z.;Liu, X. J.;
6:3:128:2 Mixing entropy difference between liquid and crystal of Fe base amorphous alloys
DOI:10.1016/j.jnoncrysol.2014.05.032 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2014 TC:0 AU: Chi, B. Q.;Li, C.;Huang, Z. H.;
6:3:128:3 Study of amorphous phase in Fe100-x(NbTiTa)(x) alloys synthesized by mechanical alloying and its effect on the crystallization phenomenon
DOI:10.1016/j.jnoncrysol.2013.11.005 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2014 TC:1 AU: Xiao, Zhiyu;Luo, Fei;Tang, Cuiyong;Chen, Lu;Ngai, Tungwai Leo;
6:3:128:4 Glass formation of the Fe-Hf system studied by thermodynamic calculation and ion beam mixing
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6:3:128:5 Novel FePBNbCr glassy alloys "SENNTIX" with good soft-magnetic properties for high efficiency commercial inductor cores
DOI:10.1016/j.jallcom.2011.01.215 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:5 AU: Matsumoto, Hiroyuki;Urata, Akiri;Yamada, Yasunobu;Inoue, Akihisa;
6:3:128:6 The supercooled liquid region span of Fe-based bulk metallic glasses
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6:3:129:1 Production and Characterization of Brass-matrix Composites Reinforced with Ni59Zr20Ti16Si2Sn3 Glassy Particles
DOI:10.3390/met2020079 JN:METALS PY:2012 TC:5 AU: Kim, Jin Young;Scudino, Sergio;Kuehn, Uta;Kim, Bum Sung;Lee, Min Ha;Eckert, Juergen;
6:3:129:2 Strong and light metal matrix composites with metallic glass particulate reinforcement
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6:3:129:3 Structural and mechanical properties of Ni60Nb40 amorphous alloy particle reinforced Al-based composites produced by microwave-assisted rapid sintering
DOI:10.1016/j.msea.2013.05.072 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:5 AU: Jayalakshmi, S.;Gupta, Sujasha;Sankaranarayanan, S.;Sahu, Shreyasi;Gupta, M.;
6:3:129:4 Al-based metal matrix composites reinforced with Fe49.9Co35.1Nb7.7B4.5Si2.8 glassy powder: Mechanical behavior under tensile loading
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6:3:129:5 Tensile properties of Al matrix composites reinforced with in situ devitrified Al84Gd6Ni7Co3 glassy particles
DOI:10.1016/j.jallcom.2013.04.190 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:2 AU: Wang, Z.;Prashanth, K. G.;Scudino, S.;Chaubey, A. K.;Sordelet, D. J.;Zhang, W. W.;Li, Y. Y.;Eckert, J.;
6:3:129:6 Production of customized hybrid porous structures by powder metallurgy of Ni59Zr20Ti16Si2Sn3 glassy powders
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6:3:129:7 Fabrication and mechanical properties of Al-based metal matrix composites reinforced with Mg65Cu(20)Zn(5)Y(10) metallic glass particles
DOI:10.1016/j.msea.2014.02.003 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:5 AU: Wang, Z.;Tan, J.;Sun, B. A.;Scudino, S.;Prashanth, K. G.;Zhang, W. W.;Li, Y. Y.;Eckert, J.;
6:3:130:1 Strain rate-dependent compressive deformation and failure behavior of porous SiC/Ti-based metallic glass composite
DOI:10.1016/j.msea.2014.04.097 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Wang, B. P.;Wang, L.;Xue, Y. F.;Wang, S. Y.;Wang, Y. Q.;Zhang, H. F.;Fu, H. M.;
6:3:130:2 Shear band formation and mechanical properties of Zr38Ti17Cu10.5Co12Be22.5 bulk metallic glass/porous tungsten phase composite by hydrostatic extrusion
DOI:10.1016/j.msea.2010.06.006 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:5 AU: Xue, Y. F.;Wang, L.;Cheng, H. W.;Wang, F. C.;Zhang, H. F.;
6:3:130:3 Preparation, microstructure and deformation behavior of Zr-based metallic glass/porous SiC interpenetrating phase composites
DOI:10.1016/j.msea.2011.08.063 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:7 AU: Chen, Yongli;Wang, Aimin;Fu, Huameng;Zhu, Zhengwang;Zhang, Haifeng;Hu, Zhuangqi;Wang, Lu;Cheng, Huanwu;
6:3:130:4 Simulation of damage and failure processes of interpenetrating SiC/Al composites subjected to dynamic compressive loading
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6:3:130:5 Ballistic performance of armour ceramics: Influence of design and structure. Part 2
DOI:10.1016/j.ceramint.2010.05.022 JN:CERAMICS INTERNATIONAL PY:2010 TC:19 AU: Medvedovski, Eugene;
6:3:130:6 Damage evolution and distribution of interpenetrating phase composites under dynamic loading
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6:3:130:7 Effect of the metallic glass volume fraction on the mechanical properties of Zr-based metallic glass reinforced with porous W composite
DOI:10.1016/j.msea.2012.10.054 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:1 AU: Zhang, X. Q.;Wang, L.;Xue, Y. F.;Cheng, X. W.;Wang, Y. D.;Nie, Z. H.;Zhang, H. F.;Fu, H. M.;Ma, L. L.;Ren, Y.;
6:3:131:1 X-ray cross-correlation analysis and local symmetries of disordered systems: General theory
DOI:10.1103/PhysRevB.82.104207 JN:PHYSICAL REVIEW B PY:2010 TC:24 AU: Altarelli, M.;Kurta, R. P.;Vartanyants, I. A.;
6:3:131:2 X-ray cross-correlation analysis applied to disordered two-dimensional systems
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6:3:131:3 New Light on Disordered Ensembles: Ab Initio Structure Determination of One Particle from Scattering Fluctuations of Many Copies
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6:3:131:4 Beyond small-angle x-ray scattering: Exploiting angular correlations
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6:3:131:5 Dynamic composition determination in heterogeneous ensembles using angular autocorrelation functions as signatures
DOI:10.1063/1.4809667 JN:APPLIED PHYSICS LETTERS PY:2013 TC:0 AU: Li, Dongsheng;Xu, Zhijie;Ahzi, Said;
6:3:131:6 Component Particle Structure in Heterogeneous Disordered Ensembles Extracted from High-Throughput Fluctuation X-Ray Scattering
DOI:10.1103/PhysRevLett.110.195501 JN:PHYSICAL REVIEW LETTERS PY:2013 TC:2 AU: Chen, Gang;Zwart, Peter H.;Li, Dongsheng;
6:3:132:1 Fatigue initiation and propagation behavior in bulk-metallic glasses under a bending load
DOI:10.1063/1.3501102 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:10 AU: Wang, Gongyao;Liaw, Peter K.;Jin, Xiaoqing;Yokoyama, Yoshihiko;Huang, E-Wen;Jiang, Feng;Keer, Leon M.;Inoue, Akihisa;
6:3:132:2 Modeling size effects on fatigue life of a zirconium-based bulk metallic glass under bending
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6:3:132:3 Statistical characterization of bimodal behavior
DOI:10.1016/j.actamat.2011.04.062 JN:ACTA MATERIALIA PY:2011 TC:7 AU: Harlow, D. Gary;
6:3:132:4 Size effects on the fatigue behavior of bulk metallic glasses
DOI:10.1063/1.3664846 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:4 AU: Wang, G. Y.;Liaw, P. K.;Yokoyama, Y.;Inoue, A.;
6:3:132:5 Characterization of shear bands/cracks induced by fatigue experiment in a Zr-Cu-Al bulk metallic glass
DOI:10.1016/j.scriptamat.2011.12.009 JN:SCRIPTA MATERIALIA PY:2012 TC:3 AU: Sun, Pei-Ling;Wang, Gongyao;Liaw, Peter K.;
6:3:132:6 Modeling crack growth from pores under compressive loading with application to metallic glasses
DOI:10.1016/j.jallcom.2011.01.079 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:0 AU: Jin, Xiaoqing;Wang, Gongyao;Keer, Leon M.;Liaw, Peter K.;Wang, Q. Jane;
6:3:133:1 Abnormal sub-T-g enthalpy relaxation in the CuZrAl metallic glasses far from equilibrium
DOI:10.1063/1.3556659 JN:APPLIED PHYSICS LETTERS PY:2011 TC:11 AU: Hu, Lina;Yue, Yuanzheng;Zhang, Chunzhi;
6:3:133:2 Abnormal behavior of supercooled liquid region in bulk-forming metallic glasses
DOI:10.1063/1.3465310 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:7 AU: Park, E. S.;Na, J. H.;Kim, D. H.;
6:3:133:3 Structural evolution during the sub-T-g relaxation of hyperquenched metallic glasses
DOI:10.1063/1.3447373 JN:APPLIED PHYSICS LETTERS PY:2010 TC:10 AU: Hu, Lina;Zhang, Chunzhi;Yue, Yuanzheng;
6:3:133:4 Prediction of cooling rate dependent ordering in metallic glass transition using a two-state model
DOI:10.1016/j.commatsci.2010.06.002 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2010 TC:5 AU: Hao, S. G.;Wang, C. Z.;Li, Maozhi;Napolitano, R. E.;Mendelev, M. I.;Ho, K. M.;
6:3:133:5 Anomalous glass transition behavior in Cu-Zr-Sn alloy system
DOI:10.1016/j.jallcom.2011.01.094 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:2 AU: Park, E. S.;Ohnuma, M.;Kim, D. H.;
6:3:134:1 Outer medium effects and fracture nucleation sites in model experiments to mimic fracture surface features of metallic glasses
DOI:10.1016/j.msea.2012.01.040 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:5 AU: Deibler, Lisa A.;Lewandowski, John J.;
6:3:134:2 Effects of changes in strain rate and test temperature on Mg85Ca5Cu10 metallic glass ribbons
DOI:10.1016/j.msea.2009.11.062 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:7 AU: Deibler, Lisa A.;Lewandowski, John J.;
6:3:134:3 Model experiments to mimic fracture surface features in metallic glasses
DOI:10.1016/j.msea.2009.10.072 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:6 AU: Deibler, Lisa A.;Lewandowski, John J.;
6:3:134:4 Nanoindentation study of Cu52Zr37Ti8In3 bulk metallic glass
DOI:10.1007/s00339-013-7816-y JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2014 TC:1 AU: Wu, Jili;Pan, Ye;Pi, Jinhong;
6:3:135:1 Enhanced mechanical properties in a Zr-based metallic glass caused by deformation-induced nanocrystallization
DOI:10.1016/j.scriptamat.2009.09.014 JN:SCRIPTA MATERIALIA PY:2010 TC:21 AU: Fornell, J.;Rossinyol, E.;Surinach, S.;Baro, M. D.;Li, W. H.;Sort, J.;
6:3:135:2 Influence of the shot-peening intensity on the structure and near-surface mechanical properties of Ti40Zr10Cu38Pd12 bulk metallic glass
DOI:10.1063/1.4833017 JN:APPLIED PHYSICS LETTERS PY:2013 TC:0 AU: Gonzalez, S.;Fornell, J.;Pellicer, E.;Surinach, S.;Baro, M. D.;Greer, A. L.;Belzunce, F. J.;Sort, J.;
6:3:135:3 Indentation plastic work and large compression plasticity in in situ nanocrystallized Zr62Cu18Ni10Al10 bulk metallic glass
DOI:10.1016/j.jallcom.2010.12.045 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:0 AU: Fornell, J.;Surinach, S.;Baro, M. D.;Sort, J.;
6:3:135:4 Further evidence for room temperature, indentation-induced nanocrystallization in a bulk metallic glass
DOI:10.1016/j.msea.2012.03.026 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:2 AU: Yoo, Byung-Gil;Choi, In-Chul;Kim, Yong-Jae;Suh, Jin-Yoo;Ramamurty, Upadrasta;Jang, Jae-il;
6:3:135:5 Deformation and fracture behavior of corrosion-resistant, potentially biocompatible, Ti40Zr10Cu38Pd12 bulk metallic glass
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6:3:135:6 Out-of-Plane Magnetic Patterning Based on Indentation-Induced Nanocrystallization of a Metallic Glass
DOI:10.1002/smll.201000510 JN:SMALL PY:2010 TC:6 AU: Sort, Jordi;Bonavina, Luiz Fernando;Varea, Aida;Souza, Carlos;Botta, Walter J.;Kiminami, Claudio S.;Bolfarini, Claudemiro;Surinach, Santiago;Baro, Maria Doors;Nogues, Josep;
6:3:136:1 Atomistic modeling of solid-state amorphization and atomic structure of the Cu-Hf system
DOI:10.1016/j.matlet.2012.02.053 JN:MATERIALS LETTERS PY:2012 TC:0 AU: Cui, Y. Y.;Yang, X. H.;Li, J. H.;Dai, Y.;Liu, B. X.;
6:3:136:2 Proposed truncated Cu-Hf tight-binding potential to study the crystal-to-amorphous phase transition
DOI:10.1063/1.3477191 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:4 AU: Cui, Yuanyuan;Li, Jiahao;Dai, Ye;Liu, Baixin;
6:3:136:3 Nonequilibrium alloy formation in the immiscible Cu-Mo system studied by thermodynamic calculation and ion beam mixing
DOI:10.1063/1.3483953 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:2 AU: Bai, X.;Wang, T. L.;Ding, N.;Li, J. H.;Liu, B. X.;
6:3:136:4 Synthesis of amorphous alloys and amorphous-crystalline composites in the Cu-Nb-Hf system by ion beam mixing
DOI:10.1063/1.3603013 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:1 AU: Luo, S. Y.;Cui, Y. Y.;Wang, T. L.;Ding, N.;Li, J. H.;Liu, B. X.;
6:3:136:5 Glass forming ability of the binary Cu-Hf system studied by thermodynamic calculation and ion beam mixing
DOI:10.1016/j.matlet.2009.12.047 JN:MATERIALS LETTERS PY:2010 TC:3 AU: Cui, Y. Y.;Wang, T. L.;Liu, B. X.;
6:3:136:6 Preparation of pure CdSe nanocrystals through mechanical alloying
DOI:10.1007/s11051-009-9629-7 JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2010 TC:3 AU: Tan, G. L.;Liu, R. H.;
6:3:137:1 The effect of annealing on the electronic stability of an amorphous Zr70Pd30 alloy
DOI:10.1016/j.matchemphys.2014.06.063 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:1 AU: Antipas, G. S. E.;Karalis, K.;
6:3:137:2 Icosahedral order in Cu-Zr amorphous alloys studied by means of X-ray absorption fine structure and molecular dynamics simulations
DOI:10.1080/14786435.2012.659008 JN:PHILOSOPHICAL MAGAZINE PY:2012 TC:8 AU: Antonowicz, J.;Pietnoczka, A.;Drobiazg, T.;Almyras, G. A.;Papageorgiou, D. G.;Evangelakis, G. A.;
6:3:137:3 Molecular orbital interactions in glass-forming Zr70Cu30 liquid quasicrystals
DOI:10.1016/j.jallcom.2013.06.179 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:5 AU: Antipas, Georgios S. E.;
6:3:137:4 Local atomic order, electronic structure and electron transport properties of Cu-Zr metallic glasses
DOI:10.1063/1.4879903 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Antonowicz, J.;Pietnoczka, A.;Pekala, K.;Latuch, J.;Evangelakis, G. A.;
6:3:137:5 Influence of quasicrystalline phase on transport processes in Zr70Pd30 amorphous alloy
DOI:10.1016/j.jallcom.2010.03.243 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:1 AU: Pekala, Krystyna;Antonowicz, Jerzy;Jaskiewicz, Piotr;Drobiazg, Tomasz;Konupek, Jan;
6:3:137:6 "Soft" atoms in Zr70Pd30 metal-metal amorphous alloy
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6:3:138:1:1 The compressive and shear response of titanium matrix composite lattice structures
DOI:10.1016/j.actamat.2010.01.004 JN:ACTA MATERIALIA PY:2010 TC:23 AU: Moongkhamklang, P.;Deshpande, V. S.;Wadley, H. N. G.;
6:3:138:1:2 Shear and bending performance of carbon fiber composite sandwich panels with pyramidal truss cores
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6:3:138:1:3 Mechanical behavior of carbon fiber composite lattice core sandwich panels fabricated by laser cutting
DOI:10.1016/j.actamat.2012.06.004 JN:ACTA MATERIALIA PY:2012 TC:9 AU: Xiong, J.;Ma, L.;Vaziri, A.;Yang, J.;Wu, L.;
6:3:138:1:4 Titanium Alloy Lattice Structures with Millimeter Scale Cell Sizes
DOI:10.1002/adem.201000145 JN:ADVANCED ENGINEERING MATERIALS PY:2010 TC:6 AU: Moongkhamklang, Pimsiree;Wadley, Haydn N. G.;
6:3:138:1:5 Numerical modelling and nanoindentation experiment to study the brazed residual stresses in an X-type lattice truss sandwich structure
DOI:10.1016/j.msea.2011.02.073 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:7 AU: Jiang, Wenchun;Chen, H.;Gong, J. M.;Tu, S. T.;
6:3:138:2:1 Compressive strength and energy absorption of sandwich panels with aluminum foam-filled corrugated cores
DOI:10.1016/j.compscitech.2013.07.011 JN:COMPOSITES SCIENCE AND TECHNOLOGY PY:2013 TC:8 AU: Yan, L. L.;Yu, B.;Han, B.;Chen, C. Q.;Zhang, Q. C.;Lu, T. J.;
6:3:138:2:2 Energy-absorption enhancement in carbon-fiber aluminum-foam sandwich structures from short aramid-fiber interfacial reinforcement
DOI:10.1016/j.compscitech.2013.01.016 JN:COMPOSITES SCIENCE AND TECHNOLOGY PY:2013 TC:12 AU: Sun, Zhi;Hu, Xiaozhi;Sun, Shiyong;Chen, Haoran;
6:3:138:2:3 Increased Corrosion Resistance of Closed-Cell Aluminum Foams by Electroless Ni-P Coatings
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6:3:139:1 Corrosion behaviour of single (Ti) and duplex (Ti-TiO2) coating on 304L stainless steel in nitric acid medium
DOI:10.1016/j.matchemphys.2011.08.016 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2011 TC:6 AU: Padhy, N.;Mudali, U. Kamachi;Chawla, Vipin;Chandra, Ramesh;Raj, Baldev;
6:3:139:2 Morphological and compositional analysis of passive film on austenitic stainless steel in nitric acid medium
DOI:10.1016/j.apsusc.2011.01.026 JN:APPLIED SURFACE SCIENCE PY:2011 TC:11 AU: Padhy, N.;Paul, Ranita;Mudali, U. Kamachi;Raj, Baldev;
6:3:139:3 Investigation on passivity of titanium under steady-state conditions in acidic solutions
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6:3:139:4 Corrosion resistance of Ti-based metallic glass coating in concentrated nitric acid
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6:3:139:5 In situ surface investigation of austenitic stainless steel in nitric acid medium using electrochemical atomic force microscopy
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6:3:139:6 Effect of alloying elements on the electronic properties of thin passive films formed on carbon steel, ferritic and austenitic stainless steels in a highly concentrated LiBr solution
DOI:10.1016/j.tsf.2014.03.042 JN:THIN SOLID FILMS PY:2014 TC:7 AU: Fernandez-Domene, R. M.;Blasco-Tamarit, E.;Garcia-Garcia, D. M.;Garcia-Anton, J.;
6:3:140:1 Hypervelocity impact on Zr(51)Ti(5)Ni(10)Cu(25)A(19) bulk metallic glass
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6:3:140:2 Deformation behaviors of a TiZrNiCuBe bulk metallic glass under shock loading
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6:3:140:3 Shock compression response of a Zr-based bulk metallic glass up to 110 GPa
DOI:10.1063/1.3501044 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:6 AU: Xi, Feng;Yu, Yuying;Dai, Chengda;Zhang, Yi;Cai, Lingcang;
6:3:140:4 Effect of compositional variation on the shock wave response of bulk amorphous alloys
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6:3:140:5 Cooling rate effect of nanomechanical response for a Ti-based bulk metallic glass
DOI:10.1016/j.jnoncrysol.2010.02.002 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2010 TC:4 AU: Huang, Yongjiang;Chiu, Yu Lung;Shen, Jun;Chen, John J. J.;Sun, Jianfei;
6:3:140:6 Shock compression of pyrolytic graphite to 18GPa: Role of orientational order
DOI:10.1063/1.4820524 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:1 AU: Lucas, Marcel;Winey, J. M.;Gupta, Y. M.;
6:3:141:1 Two milling time regimes in the evolution of magnetic anisotropy of mechanically alloyed soft magnetic powders
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6:3:141:2 Role of starting phase of boron on the mechanical alloying of FeNbB composition
DOI:10.1016/j.jallcom.2012.11.099 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:5 AU: Ipus, J. J.;Blazquez, J. S.;Franco, V.;Lozano-Perez, S.;Conde, A.;
6:3:141:3 The use of amorphous boron powder enhances mechanical alloying in soft magnetic FeNbB alloy: A magnetic study
DOI:10.1063/1.4798794 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:0 AU: Ipus, J. J.;Blazquez, J. S.;Franco, V.;Conde, A.;
6:3:141:4 Amorphization and evolution of magnetic properties during mechanical alloying of Co62Nb6Zr2B30: Dependence on starting boron microstructure
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6:3:141:5 Evolution of Fe environments in mechanically alloyed Fe-Nb-(B) compositions
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6:3:142:1 Structural anisotropy of amorphous alloys with creep-induced magnetic anisotropy
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6:3:142:2 Stress-induced magnetic and structural anisotropy of nanocrystalline Fe-based alloys
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6:3:142:3 Influence of a magnetic field applied during the quenching process on the spin density and nanoscale structure of an amorphous Fe-B ribbon
DOI:10.1016/j.matlet.2012.07.072 JN:MATERIALS LETTERS PY:2012 TC:1 AU: Bonastre, J.;Sunol, J. J.;Bruna, P.;Sato, K.;Santos, J. D.;Hernando, B.;
6:3:142:4 Microstructure and magnetic properties of FINEMET nanowires
DOI:10.1063/1.4798505 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:0 AU: Chiriac, H.;Corodeanu, S.;Ovari, T. -A.;Lupu, N.;
6:3:142:5 Advances in amorphous and nanocrystalline materials
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6:3:142:6 Relaxation studies of amorphous alloys with creep induced magnetic and structural anisotropy
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6:3:143:1 Heat capacity at the glass transition
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6:3:143:2 Liquid heat capacity in the approach from the solid state: Anharmonic theory
DOI:10.1103/PhysRevB.84.054106 JN:PHYSICAL REVIEW B PY:2011 TC:17 AU: Bolmatov, Dima;Trachenko, Kostya;
6:3:143:3 Constant-volume heat capacity at glass transition
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6:3:143:4 Liquid heat capacity in the approach from the solid state: Anharmonic theory (vol 84, 054106, 2011)
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6:3:143:5 Thermodynamic approach to glass-forming ability of water-quenched Pd-P-based and Pt60Ni15P25 bulk metallic glasses
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6:3:143:6 Helium at elevated pressures: Quantum liquid with non-static shear rigidity
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6:3:144:1 Design and fabrication of a piezoelectric transducer for wind-power generator
DOI:10.1016/j.tsf.2011.01.015 JN:THIN SOLID FILMS PY:2011 TC:9 AU: Chang, Wei-Tsai;Chen, Ying-Chung;Lin, Re-Ching;Cheng, Chien-Chuan;Kao, Kuo-Sheng;Wu, Bing-Rung;Huang, Yu-Chang;
6:3:144:2 Study of scratching Mg-based BMG using nanoindenter with Berkovich probe
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6:3:144:3 Interfacial characteristics of polyethylene terephthalate-based piezoelectric multi-layer films
DOI:10.1016/j.tsf.2013.01.070 JN:THIN SOLID FILMS PY:2013 TC:1 AU: Liu, Z. H.;Pan, C. T.;Chen, Y. C.;Liang, P. H.;
6:3:144:4 Design and fabrication of a double-sided piezoelectric transducer for harvesting vibration power
DOI:10.1016/j.tsf.2012.09.030 JN:THIN SOLID FILMS PY:2013 TC:3 AU: Chang, Wei-Tsai;Chen, Ying-Chung;Kao, Kuo-Sheng;Chu, Yu-Hsien;Cheng, Chien-Chuan;
6:3:144:5 Designing a Piezoelectric Vibration-Energy Harvester Used for a Rapid IgE Allergy Sensing System Platform
DOI:10.1080/10584587.2012.741474 JN:INTEGRATED FERROELECTRICS PY:2012 TC:0 AU: Chen, Y. C.;Chang, W. T.;Cheng, C. C.;Zhong, I. Z.;Kao, K. S.;
6:3:145:1 What we have learned from studies on chemical properties of amorphous alloys?
DOI:10.1016/j.apsusc.2010.12.142 JN:APPLIED SURFACE SCIENCE PY:2011 TC:11 AU: Hashimoto, Koji;
6:3:145:2 Effects of substitution of Mo for Nb on less-common properties of Finemet alloys
DOI:10.1016/j.jmmm.2010.05.025 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2010 TC:8 AU: Butvin, P.;Butvinova, B.;Silveyra, J. M.;Chromcikova, M.;Janickovic, D.;Sitek, J.;Svec, P.;Vlasak, G.;
6:3:145:3 Surface mediated impact of thermal treatment ambience on magnetic properties of Fe-Nb-Cu-B-Si nanocrystalline ribbons
DOI:10.1016/j.apsusc.2014.01.199 JN:APPLIED SURFACE SCIENCE PY:2014 TC:1 AU: Butvinova, B.;Butvin, P.;Mat'ko, I.;Kadlecikova, M.;Kuzminski, M.;Svec, P., Jr.;
6:3:145:4 Evolution of physical properties of amorphous Fe-Ni-Nb-B alloys with different Ni/Fe ratio upon thermal treatment
DOI:10.1016/j.jallcom.2010.12.106 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:1 AU: Vlasak, G.;Svec, P.;Kuzminski, M.;Slawska-Waniewska, A.;Butvinova, B.;Butvin, P.;Hosko, J.;
6:3:145:5 Glass-formation and corrosion properties of Fe-Cr-Mo-C-B glassy ribbons with low Cr content
DOI:10.1016/j.jallcom.2013.12.245 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:0 AU: Madinehei, M.;Bruna, P.;Duarte, M. J.;Pineda, E.;Klemm, J.;Renner, F. U.;
6:3:145:6 Magnetic measurements of Fe-Ni-Nb-B and Fe-Co-Mo-Cu-B in the vicinity of the Curie temperature
DOI:10.1016/j.jmmm.2010.01.032 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2010 TC:1 AU: Vlasak, Gabriel;Svec, Peter;Kuzminski, Marek;Slawska-Waniewska, Anna;Butvinova, Beata;Butvin, Pavol;
6:3:146:1 Glass forming ability and thermodynamics of new Ti-Cu-Ni-Zr bulk metallic glasses
DOI:10.1016/j.jnoncrysol.2012.08.005 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2012 TC:7 AU: Li, Peiyou;Wang, Gang;Ding, Ding;Shen, Jun;
6:3:146:2 Correlation of glass-forming ability to thermal properties in Ti-based bulk metallic glasses
DOI:10.1016/j.jallcom.2012.07.037 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:2 AU: Yin, Enhuai;Pang, Shujie;Hui, Xidong;Zhang, Min;Zhuo, Longchao;Chen, Chen;Zhang, Tao;
6:3:146:3 Cluster distribution entropy in Ti50Cu50 and Ti50Cu45Ni5 metallic glasses
DOI:10.1016/j.jnoncrysol.2014.04.020 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2014 TC:0 AU: Sun, Yong Li;Sun, Ya Juan;Yang, Ping;Li, Hua Ming;
6:3:146:4 Characterizing thermodynamic properties of Ti-Cu-Ni-Zr bulk metallic glasses by hyperbolic expression
DOI:10.1016/j.jallcom.2012.09.105 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:1 AU: Li, Peiyou;Wang, Gang;Ding, Ding;Shen, Jun;
6:3:146:5 Studies on the formability of Al-based metallic glasses/nanocomposites based on isochronal DSC analysis
DOI:10.1016/j.jnoncrysol.2010.07.023 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2010 TC:2 AU: Zhuo, Longchao;Zhang, Tao;
6:3:147:1 Micro indentation study on Cu60Zr20Ti20 metallic glass
DOI:10.1016/j.msea.2012.04.050 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:9 AU: Vincent, S.;Basu, Joysurya;Murty, B. S.;Bhatt, Jatin;
6:3:147:2 Glass forming abilities of the Fe-Ta-(Zr, Ti) alloys studied by thermodynamic calculation and ion beam mixing
DOI:10.1016/j.apsusc.2014.04.164 JN:APPLIED SURFACE SCIENCE PY:2014 TC:0 AU: Li, N.;Li, J. H.;Liu, B. X.;
6:3:147:3 Corrosion characterization on melt spun Cu60Zr20Ti20 metallic glass: An experimental case study
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6:3:147:4 Indentation-induced deformation localisation in Zr-Cu-based metallic glass
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6:3:148:1 Mechanical properties of P/M 316L stainless steel materials
DOI:10.1016/j.powtec.2010.03.041 JN:POWDER TECHNOLOGY PY:2010 TC:18 AU: Kurgan, N.;Varol, R.;
6:3:148:2 Enhanced sintering, microstructure evolution and mechanical properties of 316L stainless steel with MoSi2 addition
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6:3:148:3 Effect of chemical composition and sintering conditions on the mechanical properties of sintered duplex stainless steels
DOI:10.1016/j.msea.2011.08.013 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:7 AU: Martin, F.;Garcia, C.;Blanco, Y.;
6:3:148:4 Effect of sintering temperature on the mechanical and electrochemical properties of austenitic stainless steel
DOI:10.1016/j.msea.2012.06.087 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:6 AU: Pandya, Shishir;Ramakrishna, K. S.;Annamalai, A. Raja;Upadhyaya, Anish;
6:3:148:5 Effect of particle size and heating rate in microwave sintering of 316L stainless steel
DOI:10.1016/j.powtec2013.12.043 JN:POWDER TECHNOLOGY PY:2014 TC:2 AU: Ertugrul, O.;Park, H. -S.;Onel, K.;Willert-Porada, M.;
6:3:149:1 Influence of Substrate Temperature on Structure and Adhesion Strength of Fe-Cr-P-C Amorphous Coating Films Produced by Thermal Spraying Technique
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6:3:149:2 Formation of Fe-Based Amorphous Coating Films by Thermal Spraying Technique
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6:3:149:3 High Chromium Fe-Cr-Mo-P-C Amorphous Coating Films Produced by Thermal Spraying Technique
DOI:10.2320/matertrans.MBW201009 JN:MATERIALS TRANSACTIONS PY:2011 TC:5 AU: Komaki, Masahiro;Mimura, Tsunehiro;Kurahasi, Ryurou;Kouzaki, Masahisa;Yamasaki, Tohru;
6:3:149:4 The Microstructure and Wear Properties of Laser-Clad WC-Cr3C2 Cermet Coating on Steel Substrate
DOI:10.2320/matertrans.M2010410 JN:MATERIALS TRANSACTIONS PY:2011 TC:5 AU: Wu, Qianlin;Li, Wenge;
6:3:149:5 Influence of Substrate Temperature on the Structure and Cohesive/Adhesive Strength of Fe-Co-Si-B-Nb Metallic Glass Coating Films Produced by Thermal Spraying
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6:3:150:1 Microstructure and wear properties of Al2O3-CeO2/Ni-base alloy composite coatings on aluminum alloys by plasma spray
DOI:10.1016/j.apsusc.2014.07.047 JN:APPLIED SURFACE SCIENCE PY:2014 TC:4 AU: He, Long;Tan, Yefa;Wang, Xiaolong;Xu, Ting;Hong, Xiang;
6:3:150:2 Performance evaluation of multilayer thin film coatings under mixed rolling-sliding dry contact conditions
DOI:10.1016/j.wear.2009.08.001 JN:WEAR PY:2010 TC:6 AU: Farley, Jonathan;Wrobel, Luiz C.;Mao, Ken;
6:3:150:3 Low cycle fatigue simulation and fatigue life prediction of multilayer coated surfaces
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6:3:151:1 Structural evolution of Lanthanide-based metallic glasses under high pressure annealing
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6:3:151:2 Structure related hardness and elastic modulus of bulk metallic glass
DOI:10.1063/1.3692568 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:4 AU: Song, M.;Sun, Y. Y.;He, Y. H.;Guo, S. F.;
6:3:151:3 Effects of ultrasonic treatment on the structure and properties of Zr-based bulk metallic glasses
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6:3:151:4 Structure dependent hardness and elastic modulus of FeCuSiBAl amorphous/nanocrystalline alloys
DOI:10.1016/j.msea.2012.07.007 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:1 AU: Song, Min;Sun, Yingying;He, Yuehui;
6:3:152:1 Magnetic structure and diffracted magneto-optics of patterned amorphous multilayers
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6:3:152:2 Magnetic properties and amorphous-to-nanocrystalline transformation by thermal treatments in Fe84.3Si4P3B8Cu0.7 amorphous thin films
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6:3:152:3 Thickness dependence of crystalline state in FeZrNbCuB thin films obtained by sputter deposition
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6:3:153:1 Production of Ni65Cr15P16B4 Metallic Glass-Coated Bipolar Plate for Fuel Cell by High Velocity Oxy-Fuel (HVOF) Spray Coating Method
DOI:10.2320/matertrans.MAW201006 JN:MATERIALS TRANSACTIONS PY:2010 TC:5 AU: Kim, Sung-chul;Yamaura, Shin-ichi;Shimizu, Yuta;Nakashima, Koji;Igarashi, Takanori;Makino, Akihiro;Inoue, Akihisa;
6:3:153:2 Production of Ni-P Amorphous Alloy-Coated Bipolar Plate for PEM Fuel Cell by Electro-Less Plating
DOI:10.2320/matertrans.MBW201007 JN:MATERIALS TRANSACTIONS PY:2011 TC:3 AU: Kim, Sung-chul;Yamaura, Shin-ichi;Makino, Akihiro;Inoue, Akihisa;
6:3:153:3 Production of Ni-Based Glassy Alloy-Coated Bipolar Plate with Hydrophilic Surface for PEMFC and Its Evaluation by Electrochemical Impedance Spectroscopy
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6:3:153:4 Glass-Forming Ability, Corrosion Resistance and Mechanical Properties of Zr60-xAl15Ni25TMx (TM = Nb and Ta) Bulk Metallic Glasses
DOI:10.2320/matertrans.MF201316 JN:MATERIALS TRANSACTIONS PY:2013 TC:0 AU: Li, Y. H.;Zhang, W.;Dong, C.;Yamaura, S.;Makino, A.;
6:3:153:5 Electrochemical Properties of Titanium in PEFC Bipolar Plate Environments
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6:3:154:1 The influence of SrSO4 on the tribological properties of NiCr-Al2O3 cermet at elevated temperatures
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6:3:154:2 Effect of size refinement and distribution of lubricants on friction coefficient of high temperature self-lubricating composites
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6:3:154:3 Preparation and characterization of Sr4Al2O7:Eu3+, Eu2+ phosphors
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6:3:154:4 Friction and wear properties of hot-pressed NiCr-BaCr2O4 high temperature self-lubricating composites
DOI:10.1016/j.wear.2013.02.004 JN:WEAR PY:2013 TC:4 AU: Ouyang, Jia-Hu;Liang, Xue-Song;Liu, Zhan-Guo;Yang, Zhen-Lin;Wang, Yu-Jin;
6:3:155:1 Design of soft magnetic CoSiB metallic glass with low Co contents
DOI:10.1063/1.3650244 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:3 AU: Zhang, Ji Liang;Wang, Ying Min;Shek, Chan Hung;
6:3:155:2 Silver mushroom induced by oxidation in Cu42Zr42Al8Ag8 metallic glasses
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6:3:155:3 Magnetic and transport properties of Co-Si-B metallic glasses with complex dopants
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6:3:155:4 The oxidation behavior of Cu42Zr42Al8Ag8 bulk metallic glasses
DOI:10.1007/s10853-012-6851-y JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:1 AU: Cao, W. H.;Zhang, J. L.;Shek, C. H.;
6:3:156:1 Wetting of TiC by molten Al at 1123-1323 K
DOI:10.1016/j.actamat.2010.11.055 JN:ACTA MATERIALIA PY:2011 TC:6 AU: Lin, Qiaoli;Shen, Ping;Yang, Longlong;Jin, Shenbao;Jiang, Qichuan;
6:3:156:2 Wetting of B4C by molten Ni at 1753 K
DOI:10.1016/j.jallcom.2012.12.125 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:2 AU: Lin, Qiaoli;Sui, Ran;
6:3:156:3 Wetting of B4C by molten Ni-Ti alloys at 1753 K
DOI:10.1016/j.jallcom.2013.04.164 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:0 AU: Lin, Qiaoli;Sui, Ran;
6:3:157:1 The single crystal superconducting Bi-2212 whiskers fabrication and their thermal transport properties
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6:3:157:2 Crystallization of glass-ceramic Bi(3)Sr(2)Ca(2)Cu(3)Oy superconducting system
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6:3:157:3 Investigation of thermoelectric power with modification of two band model with linear T term for superconductors and thermal conductivity study of Se added YBCO samples
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6:3:157:4 Fabrication of single crystalline Bi-2212 whiskers from Ga added Bi2Sr2Ca2Cu3Ox composition and their thermal, structural, electrical and magnetic properties
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6:3:161:2 Effect of arsenic atom substitute with antimony on crystallization processes and thermal stability of the (Sb, As)-S-I system
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6:3:162:2 Key experiments in highly viscous liquids
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6:3:163:1 Effects of relative density on microwave heating of various carbon powder compacts microwave-metallic multi-particle coupling using spatially separated magnetic fields
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6:3:165:1 Four-point-bending-fatigue behavior of the Cu45Zr45Ag7Al3 bulk metallic glass
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6:3:165:2 Low- and high-frequency fatigue of bulk metallic glasses
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6:3:166:2 Logistic curve model of cavitation erosion progress in metallic materials
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6:3:167:1 Suppression of Crystallization in Ti-Based Alloys by Fluxing
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6:4:1:1 Different models of hardness evolution in ultrafine-grained materials processed by high-pressure torsion
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6:4:1:2 Twenty-five years of ultrafine-grained materials: Achieving exceptional properties through grain refinement
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6:4:1:3 Using finite element modeling to examine the flow processes in quasi-constrained high-pressure torsion
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6:4:1:4 Using finite element modeling to examine the temperature distribution in quasi-constrained high-pressure torsion
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6:4:1:5 An investigation of hardness homogeneity throughout disks processed by high-pressure torsion
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6:4:1:6 Microstructural evolution in a two-phase alloy processed by high-pressure torsion
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6:4:1:7 Evolution of microstructural homogeneity in copper processed by high-pressure torsion
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6:4:1:8 Microstructural evolution and mechanical properties of a Cu-Zr alloy processed by high-pressure torsion
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6:4:1:9 High-pressure torsion of pure magnesium: Evolution of mechanical properties, microstructures and hydrogen storage capacity with equivalent strain
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6:4:1:10 Microstructural evolution and mechanical properties of a two-phase Cu-Ag alloy processed by high-pressure torsion to ultrahigh strains
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6:4:1:11 Evolution of Strength and Homogeneity in a Magnesium AZ31 Alloy Processed by High-Pressure Torsion at Different Temperatures
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6:4:1:12 Three-dimensional shear-strain patterns induced by high-pressure torsion and their impact on hardness evolution
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6:4:1:13 Achieving homogeneity in a Cu-Zr alloy processed by high-pressure torsion
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6:4:1:14 Microstructural evolution in two-phase alloys processed by high-pressure torsion
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6:4:1:15 Microstructural evolution in an Al-6061 alloy processed by high-pressure torsion
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6:4:1:16 High-pressure torsion of pure metals: Influence of atomic bond parameters and stacking fault energy on grain size and correlation with hardness
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6:4:1:17 Universal Plot for Hardness Variation in Pure Metals Processed by High-Pressure Torsion
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6:4:1:18 Influence of dislocation-solute atom interactions and stacking fault energy on grain size of single-phase alloys after severe plastic deformation using high-pressure torsion
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6:4:1:19 Significance of homologous temperature in softening behavior and grain size of pure metals processed by high-pressure torsion
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6:4:1:20 Microstructures and textures of a Cu-Ni-Si alloy processed by high-pressure torsion
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6:4:1:21 Interpretation of hardness evolution in metals processed by high-pressure torsion
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6:4:1:22 Processing of nanostructured metals and alloys via plastic deformation
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6:4:1:23 High-pressure torsion of palladium: Hydrogen-induced softening and plasticity in ultrafine grains and hydrogen-induced hardening and embrittlement in coarse grains
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6:4:1:24 Direct observations of microstructural evolution in a two-phase Cu-Ag alloy processed by high-pressure torsion
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6:4:1:25 Microstructural Evolution in Pure Aluminum in the Early Stages of Processing by High-Pressure Torsion
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6:4:1:26 Effect of strain reversals on the processing of high-purity aluminum by high-pressure torsion
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6:4:1:27 The development of hardness homogeneity in pure aluminum and aluminum alloy disks processed by high-pressure torsion
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6:4:1:28 Influence of strain rate on the characteristics of a magnesium alloy processed by high-pressure torsion
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6:4:1:29 A visualization of shear strain in processing by high-pressure torsion
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6:4:1:30 Microstructural evolution and the mechanical properties of an aluminum alloy processed by high-pressure torsion
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6:4:1:31 Development of structural heterogeneities in a magnesium alloy processed by high-pressure torsion
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6:4:1:32 Microhardness evolution and mechanical characteristics of commercial purity titanium processed by high-pressure torsion
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6:4:1:33 A critical evaluation of the processing of an aluminum 7075 alloy using a combination of ECAP and HPT
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6:4:1:35 Ultrafine grains and the Hall-Petch relationship in an Al-Mg-Si alloy processed by high-pressure torsion
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6:4:1:36 High-pressure torsion for enhanced atomic diffusion and promoting solid-state reactions in the aluminum-copper system
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6:4:1:37 Analysis of plastic flow during high-pressure torsion
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6:4:1:38 Softening by severe plastic deformation and hardening by annealing of aluminum-zinc alloy: Significance of elemental and spinodal decompositions
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6:4:1:39 Hardening of pure metals by high-pressure torsion: A physically based model employing volume-averaged defect evolutions
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6:4:1:40 Grain refinement and mechanical behavior of a magnesium alloy processed by ECAP
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6:4:1:41 Twenty-five years of severe plastic deformation: recent developments in evaluating the degree of homogeneity through the thickness of disks processed by high-pressure torsion
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6:4:1:45 Effect of short-term annealing on the microstructures and flow properties of an Al-1% Mg alloy processed by high-pressure torsion
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6:4:1:46 Influence of severe plastic deformation at cryogenic temperature on grain refinement and softening of pure metals: Investigation using high-pressure torsion
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6:4:1:47 High-pressure torsion of TiFe intermetallics for activation of hydrogen storage at room temperature with heterogeneous nanostructure
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6:4:1:48 Significance of strain reversals in a two-phase alloy processed by high-pressure torsion
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6:4:1:49 Microstructural evolution in a Cu-Zr alloy processed by a combination of ECAP and HPT
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6:4:1:50 Influence of phase volume fractions on the processing of a Ti-6Al-4V alloy by high-pressure torsion
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6:4:1:54 Unusual macroscopic shearing patterns observed in metals processed by high-pressure torsion
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6:4:1:55 Development of hardness homogeneity and superplastic behavior in an aluminum-copper eutectic alloy processed by high-pressure torsion
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6:4:1:56 Evolution of defects in copper deformed by high-pressure torsion
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6:4:1:58 On the minimum grain size obtainable by high-pressure torsion
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6:4:1:59 Formation of nanostructure and abnormal annealing behavior of a Cu-Ag-Zr alloy processed by high-pressure torsion
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6:4:1:60 High-pressure torsion of titanium at cryogenic and room temperatures: Grain size effect on allotropic phase transformations
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6:4:1:61 Continuous high-pressure torsion
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6:4:1:62 Structural and hardness inhomogeneities in Mg-Al-Zn alloys processed by high-pressure torsion
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6:4:1:63 Evolution of microstructure and hardness in NiTi shape memory alloys processed by high-pressure torsion
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6:4:1:65 Effect of temperature on the processing of a magnesium alloy by high-pressure torsion
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6:4:1:66 Plastic deformation and allotropic phase transformations in zirconia ceramics during high-pressure torsion
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6:4:1:67 In situ production of bulk intermetallic-based nanocomposites and nanostructured intermetallics by high-pressure torsion
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6:4:1:68 Influence of Anvil Alignment on Shearing Patterns in High-Pressure Torsion
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6:4:1:69 Influence of high-pressure torsion on microstructural evolution in an Al-Zn-Mg-Cu alloy
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6:4:1:70 Application of High-Pressure Torsion to WC-Co Ceramic-Based Composites for Improvement of Consolidation, Microstructure and Hardness
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6:4:1:71 Mechanical properties of copper after compression stage of high-pressure torsion
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6:4:1:72 Atomic-scale intermixing, amorphization and microstructural development in a multicomponent system subjected to surface severe plastic deformation
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6:4:1:73 Bulk Nanostructured Functional Materials By Severe Plastic Deformation
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6:4:1:74 Properties of a ZK60 magnesium alloy processed by high-pressure torsion
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6:4:1:75 Microstructural evolution in an aluminum solid solution alloy processed by ECAP
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6:4:1:76 An examination of microstructural evolution in a Cu-Ni-Si alloy processed by HPT and ECAP
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6:4:1:77 An investigation into the homogeneity of microstructure, strain pattern and hardness of pure aluminum processed by accumulative back extrusion
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6:4:1:78 Strain hardening behavior of a two-phase Cu-Ag alloy processed by high-pressure torsion
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6:4:1:79 Effect of aging on microstructural development in an Al-Mg-Si alloy processed by high-pressure torsion
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6:4:1:80 Mechanical properties and microstructure evolution in an aluminum 6082 alloy processed by high-pressure torsion
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6:4:1:81 Equal-Channel Angular Pressing and High-Pressure Torsion of Pure Copper: Evolution of Electrical Conductivity and Hardness with Strain
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6:4:1:82 Flow mechanisms in ultrafine-grained metals with an emphasis on superplasticity
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6:4:1:83 Dynamic recrystallization and recovery during high-pressure torsion: Experimental evidence by torque measurement using ring specimens
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6:4:1:84 On the relation between the microstructure and the mechanical behavior of pure Zn processed by high pressure torsion
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6:4:1:85 Hardening mechanism of commercially pure Mg processed by high pressure torsion at room temperature
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6:4:1:86 Ultrahigh strength and high plasticity in TiAl intermetallics with bimodal grain structure and nanotwins
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6:4:1:87 Extreme structural inhomogeneities in high-pressure torsion samples along the axial direction
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6:4:1:88 High-pressure torsion of hafniurn
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6:4:1:89 The development of hardness homogeneity in a Cu-Zr alloy processed by equal-channel angular pressing
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6:4:1:90 Assessment of homogeneity of the shear-strain pattern in Al-7 wt%Si casting alloy processed by high-pressure torsion
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6:4:1:91 Evolution of plasticity, strain-rate sensitivity and the underlying deformation mechanism in Zn-22% Al during high-pressure torsion
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6:4:1:92 Microstructural characteristics of tungsten-base nanocomposites produced from micropowders by high-pressure torsion
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6:4:1:93 An investigation of flow patterns and hardness distributions using different anvil alignments in high-pressure torsion
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6:4:1:94 Stability of the ultrafine-grained microstructure in silver processed by ECAP and HPT
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6:4:1:95 Evolution of microhardness and microstructure in a cast Al-7 % Si alloy during high-pressure torsion
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6:4:1:96 Influence of the supersaturated silicon solid solution concentration on the effectiveness of severe plastic deformation processing in Al-7 wt.% Si casting alloy
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6:4:1:97 A theoretical and experimental evaluation of repetitive corrugation and straightening: Application to Al-Cu and Al-Cu-Sc alloys
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6:4:1:98 Hardness homogeneity and micro-tensile behavior in a magnesium AZ31 alloy processed by equal-channel angular pressing
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6:4:1:99 Three-dimensional analysis of plastic flow during high-pressure torsion
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6:4:1:100 Effect of heat treatment on microstructure and microhardness evolution in a Ti-6Al-4V alloy processed by high-pressure torsion
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6:4:1:101 Using ball indentation to determine the mechanical properties of an Al-7475 alloy processed by high-pressure torsion
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6:4:1:102 High-Pressure Torsion for Pure Chromium and Niobium
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6:4:1:103 Mechanism of activation of TiFe intermetallics for hydrogen storage by severe plastic deformation using high-pressure torsion
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6:4:1:104 High-pressure torsion of pure cobalt: hcp-fcc phase transformations and twinning during severe plastic deformation
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6:4:1:105 A critical examination of the paradox of strength and ductility in ultrafine-grained metals
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6:4:1:106 Microstructural evolution of cryomilled Ti/Al mixture during high-pressure torsion
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6:4:1:107 Inhomogeneous softening during annealing of ultrafine-grained silver processed by HPT
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6:4:1:108 Microstructural evolution in ultrafine-grained titanium processed by high-pressure torsion under different pressures
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6:4:1:109 Phase transformations in the severely plastically deformed Zr-Nb alloys
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6:4:1:110 Comparison of microstructures and mechanical properties of a Cu-Ag alloy processed using different severe plastic deformation modes
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6:4:1:111 Correlations between hardness and atomic bond parameters of pure metals and semi-metals after processing by high-pressure torsion
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6:4:1:112 Nanoindentation analysis for local properties of ultrafine grained copper processed by high pressure torsion
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6:4:1:113 Microstructural heterogeneity in hexagonal close-packed pure Ti processed by high-pressure torsion
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6:4:1:114 The significance of grain boundary sliding in the superplastic Zn-22 % Al alloy processed by ECAP
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6:4:1:115 An evaluation of the shearing patterns introduced by different anvil alignments in high-pressure torsion
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6:4:1:116 The corrosion behaviour of commercial purity titanium processed by high-pressure torsion
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6:4:1:117 Application of high-pressure torsion for consolidation of ceramic powders
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6:4:1:118 Dislocation density-based finite element analysis of large strain deformation behavior of copper under high-pressure torsion
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6:4:1:119 Using deformation mechanism maps to depict flow processes in superplastic ultrafine-grained materials
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6:4:1:120 Recent developments in modelling of microhardness saturation during SPD processing of metals and alloys
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6:4:1:121 Microstructure and microtexture evolution with aging treatment in an Al-Mg-Si alloy severely deformed by HPT
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6:4:1:122 Review: achieving superplasticity in metals processed by high-pressure torsion
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6:4:1:123 Powder consolidation of Al-10 wt% Fe alloy by High-Pressure Torsion
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6:4:1:124 Using an Al-Cu binary alloy to compare processing by multi-axial compression and high-pressure torsion
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6:4:1:125 Effect of temperature on solid-state formation of bulk nanograined intermetallic Al3Ni during high-pressure torsion
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6:4:1:126 Microstructures and mechanical properties of Mg-Zn-Y alloy consolidated from gas-atomized powders using high-pressure torsion
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6:4:1:127 Continuous high-pressure torsion using wires
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6:4:1:128 Microstructure evolution in solution treated Ti15Mo alloy processed by high pressure torsion
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6:4:1:129 Microstructures and Mechanical Properties of Pure V and Mo Processed by High-Pressure Torsion
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6:4:1:130 Unusual hardening in Ti/Al2O3 nanocomposites produced by high-pressure torsion followed by annealing
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6:4:1:131 The dead metal zone in high-pressure torsion
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6:4:1:132 Phase transformation and nanograin refinement of silicon by processing through high-pressure torsion
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6:4:1:133 The many facets of deformation mechanism mapping and the application to nanostructured materials
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6:4:1:134 Achieving superplastic properties in a Pb-Sn eutectic alloy processed by equal-channel angular pressing
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6:4:1:135 Rate Independent and Rate Dependent Structural Evolution during Severe Plastic Deformation
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6:4:1:136 Thermal stability of nanocrystalline structure in niobium processed by high pressure torsion at cryogenic temperatures
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6:4:1:137 Age-hardening of an Al-Li-Cu-Mg alloy (2091) processed by high-pressure torsion
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6:4:1:138 High-cycle fatigue behavior of Zn-22% Al alloy processed by high-pressure torsion
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6:4:1:139 Critical strain for mechanical alloying of Cu-Ag, Cu-Ni and Cu-Zr by high-pressure torsion
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6:4:1:140 Using X-ray microtomography to evaluate cavity formation in a superplastic magnesium alloy processed by equal-channel angular pressing
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6:4:1:141 Graphite to diamond-like carbon phase transformation by high-pressure torsion
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6:4:1:142 X-ray diffraction study on the microstructure of a Mg-Zn-Y alloy consolidated by high-pressure torsion
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6:4:1:143 Strengthening of Al through addition of Fe and by processing with high-pressure torsion
DOI:10.1007/s10853-012-6935-8 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:8 AU: Cubero-Sesin, Jorge M.;Horita, Zenji;
6:4:1:144 Grain refinement and mechanical properties in ultrafine grained Pd and Pd-Ag alloys produced by HPT
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6:4:1:145 Nanostructuring Nb by various techniques of severe plastic deformation
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6:4:1:146 Influence of microstructural stability on the creep mechanism of Al-7 wt% Si alloy processed by equal channel angular pressing
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6:4:1:147 Microstructure and microtexture in pure copper processed by high-pressure torsion
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6:4:1:148 Effect of high pressure torsion on the microstructure evolution of a gamma Ti-45Al-2Nb-2Mn-0.8 vol% TiB2 alloy
DOI:10.1007/s10853-013-7201-4 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:1 AU: Srinivasarao, B.;Zhilyaev, A. P.;Munoz-Moreno, R.;Perez-Prado, M. T.;
6:4:1:149 Finite element analysis for the geometry effect on strain inhomogeneity during high-pressure torsion
DOI:10.1007/s10853-014-8283-3 JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:2 AU: Lee, Dong Jun;Kim, Hyoung Seop;
6:4:1:150 Heterogeneous Process of Disordering and Structural Refinement in Ni3Al during Severe Plastic Deformation by High-Pressure Torsion
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6:4:1:151 Refining efficiency and capability of top-down synthesis of nanocrystalline materials
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6:4:1:152 Modeling the temperature rise in high-pressure torsion
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6:4:1:153 An in situ synchrotron X-ray diffraction study of precipitation kinetics in a severely deformed Cu-Ni-Si alloy
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6:4:1:154 Homogeneity of ultrafine-grained copper deformed by high-pressure torsion characterized by positron annihilation and microhardness
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6:4:1:155 Estimation of heat production during high pressure torsion of Cu-based metallic glass
DOI:10.1016/j.jallcom.2009.10.056 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:8 AU: Hobor, Sandor;Kovacs, Zsolt;Revesz, Adam;
6:4:1:156 Effect of accumulated shear on the microstructure and morphology of severely deformed Cu60Zr30Ti10 metallic glass
DOI:10.1016/j.jallcom.2011.06.046 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:4 AU: Hobor, Sandor;Kovacs, Zsolt;Revesz, Adam;
6:4:1:157 Strengthening via Microstructure Refinement in Bulk Al-4 mass% Fe Alloy Using High-Pressure Torsion
DOI:10.2320/matertrans.MD201127 JN:MATERIALS TRANSACTIONS PY:2012 TC:7 AU: Cubero-Sesin, Jorge M.;Horita, Zenji;
6:4:1:158 An Investigation of Cavity Development during Superplastic Flow in a Zinc-Aluminum Alloy Processed Using Severe Plastic Deformation
DOI:10.2320/matertrans.MD201106 JN:MATERIALS TRANSACTIONS PY:2012 TC:9 AU: Kawasaki, Megumi;Langdon, Terence G.;
6:4:1:159 Equal Channel Angular Pressing of a Mg-3Al-1Zn Alloy with Back Pressure
DOI:10.1002/adem.201000014 JN:ADVANCED ENGINEERING MATERIALS PY:2010 TC:11 AU: Kang, Feng;Liu, Jin Qiang;Wang, Jing Tao;Zhao, Xiang;
6:4:1:160 Strain path and microstructure evolution during severe deformation processing of an as-cast hypoeutectic Al-Si alloy
DOI:10.1007/s10853-010-4530-4 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:9 AU: Garcia-Infanta, J. M.;Zhilyaev, A. P.;Carreno, F.;Ruano, O. A.;Su, J. Q.;Menon, S. K.;McNelley, T. R.;
6:4:1:161 Mechanical properties and thermal stability of bulk Cu cold consolidated from atomized powders by high-pressure torsion
DOI:10.1007/s10853-012-6569-x JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:7 AU: Yoon, Eun Yoo;Lee, Dong Jun;Ahn, Dong-Hyun;Lee, Eon Sik;Kim, Hyoung Seop;
6:4:1:162 Microstructure and mechanical properties of high purity nanostructured titanium processed by high pressure torsion at temperatures 300 and 77 K
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6:4:1:163 Hardness and microstructure of interstitial free steels in the early stage of high-pressure torsion
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6:4:1:164 High-pressure torsion for fabrication of high-strength and high-electrical conductivity Al micro-wires
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6:4:1:165 Microstructure and microtexture evolution in pure metals after ultra-high straining
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6:4:1:166 Deformation mechanism maps for micro-grained, ultrafine-grained, and nano-grained materials
DOI:10.1016/j.msea.2010.10.048 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:12 AU: Mohamed, Farghalli A.;
6:4:1:167 Influence of rolling direction on flow and cavitation in a superplastic magnesium alloy processed by equal-channel angular pressing
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6:4:1:168 Microstructure gradient after hot torsion deformation of powder metallurgical 6061 Al alloy
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6:4:1:169 On the minimum grain size obtainable by equal channel angular pressing
DOI:10.1016/j.msea.2013.04.104 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:3 AU: Mohamed, Farghalli A.;Dheda, Shehreen S.;
6:4:1:170 Ultrafine grain formation in Mg-Zn alloy by in situ precipitation during high-pressure torsion
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6:4:1:171 Deformation-induced nanoscale mixing reactions in Cu/Ni and Ag/Pd multilayers
DOI:10.1063/1.4829359 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Wang, Z.;Perepezko, J. H.;
6:4:1:172 Application of high-pressure torsion to Al-6 %Cu-0.4 %Zr alloy for ultrafine-grain refinement and superplasticity
DOI:10.1007/s10853-014-8362-5 JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:1 AU: Alhamidi, Ali;Horita, Zenji;
6:4:1:173 High-Pressure Torsion of Machining Chips and Bulk Discs of Amorphous Zr50Cu30Al10Ni10
DOI:10.2320/matertrans.MB200914 JN:MATERIALS TRANSACTIONS PY:2010 TC:8 AU: Edalati, Kaveh;Yokoyama, Yoshihiko;Horita, Zenji;
6:4:1:174 Correlation between the behavior of nanocrystalline HCP metals and the dislocation model for the minimum grain size obtainable by milling
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6:4:1:175 Fabrication of high strength Cu-NbC composite conductor by high pressure torsion
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6:4:1:176 Effect of titanium nitride nanoparticles on grain size stabilization and consolidation of cryomilled titanium
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6:4:1:177 Effect of rapid cooling and extrusion ratio on the mechanical property of Mg alloys
DOI:10.1016/j.jallcom.2010.04.036 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:2 AU: Kim, Taek-Soo;
6:4:1:178 Characterization of ultra-fine grained steel samples produced by high pressure torsion via magnetic Barkhausen noise analysis
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6:4:1:179 A study of morphological and compositional evolution of nanoprecipitates in the Zr-Nb system and their transformational behavior
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6:4:1:180 Influence of dislocation-solute atom interactions and stacking fault energy on grain size of single-phase alloys after severe plastic deformation using high-pressure torsion (vol 69, pg 68, 2014)
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6:4:1:181 Effect of Decrease of Hydride-Induced Embrittlement in Nanocrystalline Titanium
DOI:10.1002/adem.201000049 JN:ADVANCED ENGINEERING MATERIALS PY:2010 TC:5 AU: Murzinova, M. A.;Salishchev, G. A.;
6:4:1:182 Tensile testing of Al6061-T6 microspecimens with ultrafine grained structure derived from machining-based SPD process
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6:4:1:183 Stability of thermal-induced phase transformations in the severely deformed equiatomic Ni-Ti alloys
DOI:10.1007/s10853-012-6508-x JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:3 AU: Mahesh, K. K.;Braz Fernandes, F. M.;Gurau, G.;
6:4:1:184 Structural and Optical Properties of Al-Zn-Cu Thin Films Prepared by DC-Magnetron Sputtering at Different Sputtering Powers
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6:4:1:185 Detection of material property errors in handbooks and databases using artificial neural networks with hidden correlations
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6:4:2:1:1 Manufacturing of high-strength aluminum/alumina composite by accumulative roll bonding
DOI:10.1016/j.msea.2010.03.070 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:86 AU: Jamaati, Roohollah;Toroghinejad, Mohammad Reza;
6:4:2:1:2 Application of ARB process for manufacturing high-strength, finely dispersed and highly uniform Cu/Al2O3 composite
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6:4:2:1:3 Effect of particle size on microstructure and mechanical properties of composites produced by ARB process
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6:4:2:1:4 Application of anodizing and CAR processes for manufacturing Al/Al2O3 composite
DOI:10.1016/j.msea.2010.02.052 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:38 AU: Jamaati, Roohollah;Toroghinejad, Mohammad Reza;Najafizadeh, Abbas;
6:4:2:1:5 Application of compocasting and cross accumulative roll bonding processes for manufacturing high-strength, highly uniform and ultra-fine structured Al/SiCp nanocomposite
DOI:10.1016/j.msea.2013.11.006 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Ardakani, Mohammad Reza Kamali;Khorsand, Shohreh;Amirkhanlou, Sajjad;Nayyeri, Mohammad Javad;
6:4:2:1:6 CAR process: A technique for significant enhancement of as-cast MMC properties
DOI:10.1016/j.matchar.2011.10.008 JN:MATERIALS CHARACTERIZATION PY:2011 TC:20 AU: Jamaati, Roohollah;Amirkhanlou, Sajjad;Toroghinejad, Mohammad Reza;Niroumand, Behzad;
6:4:2:1:7 Fabrication and characterization of Al/SiCp composites by CAR process
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6:4:2:1:8 On the use of accumulative roll bonding process to develop nanostructured aluminum alloy 5083
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6:4:2:1:9 An alternative method of processing MMCs by CAR process
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6:4:2:1:10 Investigation of the parameters of the cold roll bonding (CRB) process
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6:4:2:1:11 Significant improvement of semi-solid microstructure and mechanical properties of A356 alloy by ARB process
DOI:10.1016/j.msea.2010.11.086 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:25 AU: Jamaati, Roohollah;Amirkhanlou, Sajjad;Toroghinejad, Mohammad Reza;Niroumand, Behzad;
6:4:2:1:12 Refinement of microstructure and improvement of mechanical properties of Al/Al2O3 cast composite by accumulative roll bonding process
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6:4:2:1:13 Cross accumulative roll bonding A novel mechanical technique for significant improvement of stir-cast Al/Al2O3 nanocomposite properties
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6:4:2:1:14 The effect of alumina content on the mechanical properties of hybrid composites fabricated by ARB process
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6:4:2:1:15 Nano-grained 70/30 brass strip produced by accumulative roll-bonding (ARB) process
DOI:10.1016/j.msea.2009.09.029 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:37 AU: Pasebani, Somayeh;Toroghinejad, Mohammad Reza;
6:4:2:1:16 The influence of TiO2 nano-particles on bond strength of cold roll bonded aluminum strips
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6:4:2:1:17 Fabrication of nanoparticle strengthened IF steel via ARB process
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6:4:2:1:18 Hybrid composites produced by anodizing and accumulative roll bonding (ARB) processes
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6:4:2:1:19 Effect of Al2O3 nano-particles on the bond strength in CRB process
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6:4:2:1:20 Microstructure and mechanical properties of Al/SiO2 composite produced by CAR process
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6:4:2:1:21 Application of powder metallurgy and hot rolling processes for manufacturing aluminum/alumina composite strips
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6:4:2:1:22 Effects of reinforcement distribution on low and high temperature tensile properties of Al356/SiCp cast composites produced by a novel reinforcement dispersion technique
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6:4:2:1:23 Evaluating the mechanical behavior of hot rolled Al/alumina composite strips using shear punch test
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6:4:2:1:24 Effect of stacking fault energy on nanostructure formation under accumulative roll bonding (ARB) process
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6:4:2:1:25 Investigation of microstructure and mechanical properties of Cu-SiCP composite produced by continual annealing and roll-bonding process
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6:4:2:1:26 Synthesis of A356-MWCNT nanocomposites through a novel two stage casting process
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6:4:2:1:27 Investigation on mechanical properties and fracture behavior of A356 aluminum alloy based ZrO2 particle reinforced metal-matrix composites
DOI:10.1016/j.ceramint.2012.08.057 JN:CERAMICS INTERNATIONAL PY:2013 TC:6 AU: Abdizadeh, Hossein;Baghchesara, Mohammad Amin;
6:4:2:2:1 Fabrication of nanostructure Al/SiCP composite by accumulative roll-bonding (ARB) process
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6:4:2:2:2 Effects of TC4 foil on the microstructures and mechanical properties of accumulatively roll-bonded aluminium-based metal matrix composites
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6:4:2:2:3 Accelerated grain refinement during accumulative roll bonding by nanoparticle reinforcement
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6:4:2:2:4 Fabrication of Al/Cu-p composite by accumulative roll bonding process and investigation of mechanical properties
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6:4:2:2:5 Particle Based Alloying by Accumulative Roll Bonding in the System Al-Cu
DOI:10.3390/met1010065 JN:METALS PY:2011 TC:12 AU: Schmidt, Christian W.;Knoedler, Patrick;Hoeppel, Heinz Werner;Goeken, Mathias;
6:4:2:2:6 Tailoring Materials Properties by Accumulative Roll Bonding
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6:4:2:2:7 On the achievement of uniform particle distribution in metal matrix composites fabricated by accumulative roll bonding
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6:4:2:2:8 Prediction of hardness of Al alloys processed by accumulative roll bonding
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6:4:2:2:9 High-strength nanostructured Al/B4C composite processed by cross-roll accumulative roll bonding
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6:4:2:2:10 Al 5083/SiCp composites produced by continual annealing and roll-bonding
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6:4:2:2:11 Fabrication of Al-2 vol% Al2O3/SiC hybrid composite via accumulative roll bonding (ARB): An investigation of the microstructure and mechanical properties
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6:4:2:2:12 Tailoring Nanostructured, Graded, and Particle-Reinforced Al Laminates by Accumulative Roll Bonding
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6:4:2:2:13 Processing of Al/B4C composites by cross-roll accumulative roll bonding
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6:4:2:2:14 Comparison of nanostructured Al/B4C composite produced by ARB and Al/B4C composite produced by RRB process
DOI:10.1016/j.msea.2010.08.093 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:25 AU: Alizadeh, Morteza;
6:4:2:2:15 Fabrication of Al/Al3Mg2 composite by vacuum annealing and accumulative roll-bonding process
DOI:10.1016/j.msea.2012.08.037 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:7 AU: Liu, C. Y.;Jing, R.;Wang, Q.;Zhang, B.;Jia, Y. Z.;Ma, M. Z.;Liu, R. P.;
6:4:2:2:16 Effect of W particles on the properties of accumulatively roll-bonded Al/W composites
DOI:10.1016/j.msea.2012.03.095 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:11 AU: Liu, C. Y.;Wang, Q.;Jia, Y. Z.;Zhang, B.;Jing, R.;Ma, M. Z.;Jing, Q.;Liu, R. P.;
6:4:2:2:17 Fabrication of Al/Al2O3/TiC hybrid composite by anodizing and accumulative roll bonding processes and investigation of its microstructure and mechanical properties
DOI:10.1016/j.msea.2013.07.075 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:9 AU: Dehkordi, Hajar Farajzadeh;Toroghinejad, Mohammad Reza;Raeissi, Keyvan;
6:4:2:2:18 Microstructures and mechanical properties of Al/Zn composites prepared by accumulative roll bonding and heat treatment
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6:4:2:2:19 A new consideration on reinforcement distribution in the different planes of nanostructured metal matrix composite sheets prepared by accumulative roll bonding (ARB)
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6:4:2:2:20 Strength prediction of the ARBed Al/Al2O3/B4C nano-composites using Orowan model
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6:4:2:2:21 Particle stabilization of plastic flow in nanostructured Al-1 %Si Alloy
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6:4:2:2:22 Effect of SiC particles on the microstructure evolution and mechanical properties of aluminum during ARB process
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6:4:2:2:23 Design of Graded Materials by Particle Reinforcement During Accumulative Roll Bonding
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6:4:2:2:24 Strengthening mechanisms in particulate Al/B4C composites produced by repeated roll bonding process
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6:4:2:2:25 Processing of ultrafine-grained aluminum by cross accumulative roll-bonding
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6:4:2:2:26 Influence of cross-rolling on the mechanical properties of an accumulative roll bonded aluminum alloy AA6014
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6:4:2:2:27 Effects of temperature and B4C content on the bonding properties of roll-bonded aluminum strips
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6:4:2:2:28 Cold rolled nanostructured super-pure Al (99.9996%) containing 1 % Si particles: structure and strength
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6:4:2:2:29 Dislocation density and flow stress modeling of nanostructured Al-SiCp composite during accumulative roll bonding
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6:4:2:2:30 Achieving a desirable combination of strength and workability in Al/SiC composites by AHP selection method
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6:4:2:3:1 Evaluation of mechanical properties and structure of multilayered Al/Ni composites produced by accumulative roll bonding (ARB) process
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6:4:2:3:2 Ultrafine equiaxed-grain Ti/Al composite produced by accumulative roll bonding
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6:4:2:3:3 Microstructure evolution and mechanical properties of Cu/Zn multilayer processed by accumulative roll bonding (ARB)
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6:4:2:3:4 Microstructure and mechanical properties of the Mg/Al laminated composite fabricated by accumulative roll bonding (ARB)
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6:4:2:3:5 High-strength and high-conductive Cu/Ag multilayer produced by ARB
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6:4:2:3:6 Accumulative roll bonding of multilayered Cu/Zn/Al: An evaluation of microstructure and mechanical properties
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6:4:2:3:7 Microstructure and texture evolution during accumulative roll bonding of aluminium alloys AA2219/AA5086 composite laminates
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6:4:2:3:8 Microstructure and mechanical properties of the Mg/Al multilayer fabricated by accumulative roll bonding (ARB) at ambient temperature
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6:4:2:3:9 Al/Ni metal intermetallic composite produced by accumulative roll bonding and reaction annealing
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6:4:2:3:10 Fabrication of Al/Ni/Cu composite by accumulative roll bonding and electroplating processes and investigation of its microstructure and mechanical properties
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6:4:2:3:11 Tailoring materials properties of UFG aluminium alloys by accumulative roll bonded sandwich-like sheets
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6:4:2:3:12 Microstructures and mechanical properties of Mg/Mg and Mg/Al/Mg laminated composites prepared via warm roll bonding
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6:4:2:3:13 Ultrafine grained AA1050/AA6061 composite produced by accumulative roll bonding
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6:4:2:3:14 Mechanical properties and microstructure evolutions of multilayered Al-Cu composites produced by accumulative roll bonding process and subsequent annealing
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6:4:2:3:15 Investigation on microstructure and mechanical properties of Al-Zn composite during accumulative roll bonding (ARB) process
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6:4:2:3:16 The tensile and impact resistance properties of accumulative roll bonded Al6061 and AZ31 alloy plates
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6:4:2:3:17 Study on the microstructure and mechanical properties of multilayer Cu/Ni composite processed by accumulative roll bonding
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6:4:2:3:18 Manufacturing Al/steel multilayered composite by accumulative roll bonding and the effects of subsequent annealing on the microstructural and mechanical characteristics
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6:4:2:3:19 Magnesium matrix composites fabricated by using accumulative roll bonding of magnesium sheets coated with carbon-nanotube-containing aluminum powders
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6:4:2:3:20 Texture analysis of a friction stir welded ultrafine grained Al-Al2O3 composite produced by accumulative roll-bonding
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6:4:2:3:21 Cu/Zr nanoscaled multi-stacks fabricated by accumulative roll bonding
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6:4:2:3:22 Microstructure and mechanical properties of the accumulative roll bonded (ARBed) pure magnesium sheet
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6:4:2:3:23 Application of continual annealing and roll bonding (CAR) process for manufacturing Al-Zn multilayered composites
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6:4:2:4:1 Evaluation of corrosion properties of Al/nanosilica nanocomposite sheets produced by accumulative roll bonding (ARB) process
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6:4:2:4:2 Corrosion investigation of Al-SiC nano-composite fabricated by accumulative roll bonding (ARB) process
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6:4:2:4:3 On the chloride-induced pitting of ultra fine grains 5052 aluminum alloy produced by accumulative roll bonding process
DOI:10.1016/j.jallcom.2011.01.066 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:13 AU: Naeini, Mehdi Fadaei;Shariat, Mohammad Hossain;Eizadjou, Mehdi;
6:4:3:1 Grain boundaries in ultrafine grained materials processed by severe plastic deformation and related phenomena
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6:4:3:2 Ultra-fast diffusion channels in pure Ni severely deformed by equal-channel angular pressing
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6:4:3:3 Grain boundary self-diffusion in polycrystalline nickel of different purity levels
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6:4:3:4 Plasticity and Grain Boundary Diffusion at Small Grain Sizes
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6:4:3:5 Diffusion of Ag and Co in ultrafine-grained alpha-Ti deformed by equal channel angular pressing
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6:4:3:6 Effect of annealing on percolating porosity in ultrafine-grained copper produced by equal channel angular pressing
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6:4:3:7 Microstructural evolution of precipitation-hardened beta-type titanium alloy through high-pressure torsion
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6:4:3:8 Percolating porosity in ultrafine grained copper processed by High Pressure Torsion
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6:4:3:9 Grain boundary and triple junction diffusion in nanocrystalline copper
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6:4:3:10 On the formation of an ultrafine-duplex structure facilitated by severe shear deformation in a Ti-20Mo beta-type titanium alloy
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6:4:3:11 Effect of back pressure during equal-channel angular pressing on deformation-induced porosity in copper
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6:4:3:12 Strain mapping along Al-Pb interfaces
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6:4:3:13 Grain boundary width, energy and self-diffusion in nickel: Effect of material purity
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6:4:3:14 Scaling effects on grain boundary diffusivity; Au in Cu
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6:4:3:15 Microstructure evolution during severe plastic deformation
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6:4:3:16 Strain mapping in a deformation-twinned nanocrystalline Pd grain
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6:4:3:17 High-strength nanostructured Ti-12Mo alloy from ductile metastable beta state precursor
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6:4:3:18 Diffusion and segregation of silver in copper Sigma 5(310) grain boundary
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6:4:3:19 Promoting nano/ultrafine-duplex structure via accelerated alpha precipitation in a beta-type titanium alloy severely deformed by high-pressure torsion
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6:4:3:20 Effect of recrystallization on diffusion in ultrafine-grained Ni
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6:4:3:21 Solvent grain boundary diffusion in binary solid solutions: a new approach to evaluate solute grain boundary segregation
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6:4:3:22 Effect of atomic interaction on grain boundary diffusion in the B regime
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6:4:3:23 High-Pressure Torsion for Giant Magnetoresistance and Better Magnetic Properties
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6:4:3:24 Evaluation of strain caused by coherent precipitates in an Al alloy using TEM techniques
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6:4:3:26 Study of coherence strain of GP II zones in an aged aluminum composite
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6:4:3:27 Room temperature instability of an Al-4%Cu super saturated solid solution in a nano-crystalline alloy produced by SPD
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6:4:3:28 Microstructure evolution and hardness variation during annealing of equal channel angular pressed ultra-fine grained nickel subjected to 12 passes
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6:4:3:29 Annealing behaviour of nanocrystalline NiTi (50 at% Ni) alloy produced by high-pressure torsion
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6:4:4:1 The influence of stacking fault energy on the mechanical properties of nanostructured Cu and Cu-Al alloys processed by high-pressure torsion
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6:4:4:2 Significance of stacking fault energy on microstructural evolution in Cu and Cu-Al alloys processed by high-pressure torsion
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6:4:4:4 Enhanced cyclic deformation responses of ultrafine-grained Cu and nanocrystalline Cu-Al alloys
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6:4:4:5 Microstructural evolution and shear fracture of Cu-16 at.% Al alloy induced by equal channel angular pressing
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6:4:4:6 Formation of fivefold deformation twins in an ultrafine-grained copper alloy processed by high-pressure torsion
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6:4:4:7 Microstructure and mechanical properties of Cu and Cu-Zn alloys produced by equal channel angular pressing
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6:4:4:8 Optimizing strength and ductility of Cu-Zn alloys through severe plastic deformation
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6:4:4:9 Effects of dislocation slip mode on high-cycle fatigue behaviors of ultrafine-grained Cu-Zn alloy processed by equal-channel angular pressing
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6:4:4:10 Mechanically driven annealing twinning induced by cyclic deformation in nanocrystalline Cu
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6:4:4:11 Dislocation emission from deformation-distorted grain boundaries in ultrafine-grained materials
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6:4:4:12 Optimizing strength and ductility of austenitic stainless steels through equal-channel angular pressing and adding nitrogen element
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6:4:4:13 Mechanical behaviour and in situ observation of shear bands in ultrafine grained Pd and Pd-Ag alloys
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6:4:4:15 Effects of stacking fault energy on the thermal stability and mechanical properties of nanostructured Cu-Al alloys during thermal annealing
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6:4:4:16 Significantly enhanced tensile strength and ductility in nickel aluminium bronze by equal channel angular pressing and subsequent heat treatment
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6:4:4:17 Optimizing strength and ductility in Cu-Al alloy with recrystallized nanostructures formed by simple cold rolling and annealing
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6:4:4:18 Development of ultrahigh strength and high ductility in nanostructured iron alloys with lattice softening and nanotwins
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6:4:4:19 Competition between slip and twinning in face-centered cubic metals
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6:4:4:20 Tearing toughness of annealed Cu-Al alloy sheets with different Al contents
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6:4:4:21 Crack Mitigation during Dealloying of Au25Cu75
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6:4:4:22 Assessment of tearing resistance of ductile metals: Using a new concept of tearing toughness
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6:4:5:1 Extreme grain refinement by severe plastic deformation: A wealth of challenging science
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6:4:5:2 Improvement of mechanical properties of magnesium alloy ZK60 by integrated extrusion and equal channel angular pressing
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6:4:5:3 Particle evolution in Mg-Zn-Zr alloy processed by integrated extrusion and equal channel angular pressing: Evaluation by electron microscopy and synchrotron small-angle X-ray scattering
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6:4:5:4 Effect of grain size on the mechanisms of plastic deformation in wrought Mg-Zn-Zr alloy revealed by acoustic emission measurements
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6:4:5:5 Enhanced fatigue properties of nanostructured austenitic SUS 316L stainless steel
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6:4:5:6 Enhanced corrosion resistance of Mg alloy ZK60 after processing by integrated extrusion and equal channel angular pressing
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6:4:5:7 Microstructure and mechanical properties of ZK60 alloy processed by two-step equal channel angular pressing
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6:4:5:8 Double-peak age strengthening of cold-worked 2024 aluminum alloy
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6:4:5:9 Rapid grain refinement of 2024 Al alloy through recrystallization induced by electropulsing
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6:4:5:10 ZK60 alloy processed by ECAP: Microstructural, physical and mechanical characterization
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6:4:5:11 Nanostructurization assisted by twinning during equal channel angular pressing of metastable 316L stainless steel
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6:4:5:12 Improvement of fatigue strength of a Mg-Zn-Zr alloy by integrated extrusion and equal-channel angular pressing
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6:4:5:13 The control of texture to improve high-cyclic fatigue performance in copper after equal channel angular pressing
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6:4:5:14 Superplastic Behavior of Friction Stir Processed ZK60 Magnesium Alloy
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6:4:5:15 Cluster Analysis of Acoustic Emissions Measured during Deformation of Duplex Stainless Steels
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6:4:5:16 FE simulation and experimental investigation of ZK60 magnesium alloy with different radial diameters processed by equal channel angular pressing
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6:4:5:17 Deformation mechanisms in austenitic TRIP/TWIP steels at room and elevated temperature investigated by acoustic emission and scanning electron microscopy
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6:4:5:18 Cyclic Response of SUS316L Stainless Steel Processed by ECAP
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6:4:5:19 Formation of Structure and Properties of Low-Carbon Steel Under Rolling with Shear and Cold Drawing
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6:4:5:20 Effect of ECAP Deformation Route on the Degree of Anisotropy of Microstructure of Extremely Low CN Fe-20mass% Cr Alloy
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6:4:5:21 Strengthening of austenitic stainless steel by formation of nanocrystalline gamma-phase through severe plastic deformation during two-dimensional linear plane-strain machining
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6:4:5:22 Reactive synthesis for porous Ti3AlC2 ceramics through TiH2, Al and graphite powders
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6:4:5:23 EBSD Analysis of Microstructure Evolution of Pure Iron Subjected to Sliding Wear and Related Change in Vickers Microhardness
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6:4:5:24 Unusual Young's modulus behavior in ultrafine-grained and microcrystalline copper wires caused by texture changes during processing and annealing
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6:4:5:25 Special Issue 2nd Symposium on Biodegradable Metals
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6:4:5:26 Summary of the panel discussions at the 2nd Symposium on Biodegradable Metals, Maratea, Italy, 2010
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6:4:6:1 Tubular channel angular pressing (TCAP) as a novel severe plastic deformation method for cylindrical tubes
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6:4:6:2 Development of a novel severe plastic deformation method for tubular materials: Tube Channel Pressing (TCP)
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6:4:6:3 Microstructure, texture and mechanical properties of aluminum processed by high-pressure tube twisting
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6:4:6:4 Characterization of AZ91/alumina nanocomposite produced by FSP
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6:4:6:5 TEM analysis and determination of dislocation densities in nanostructured copper tube produced via parallel tubular channel angular pressing process
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6:4:6:6 Characterization of ultrafine-grained aluminum tubes processed by Tube Cyclic Extrusion-Compression (TCEC)
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6:4:6:7 Accumulative spin-bonding (ASB) as a novel SPD process for fabrication of nanostructured tubes
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6:4:6:8 Microstructure inhomogeneity in ultra-fine grained bulk AZ91 produced by accumulative back extrusion (ABE)
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6:4:6:9 Principles of severe plastic deformation using tube high-pressure shearing
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6:4:6:10 Characterization of nanostructured pure aluminum tubes produced by tubular channel angular pressing (TCAP)
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6:4:6:11 Severe plastic deformation processes for thin samples
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6:4:6:12 Tube cyclic expansion-extrusion (TCEE) as a novel severe plastic deformation method for cylindrical tubes
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6:4:6:13 Parallel tubular channel angular pressing (PTCAP) as a new severe plastic deformation method for cylindrical tubes
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6:4:6:14 Deformation Behavior in Tubular Channel Angular Pressing (TCAP) Using Triangular and Semicircular Channels
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6:4:6:15 Repetitive forging (RF) using inclined punches as a new bulk severe plastic deformation method
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6:4:6:16 Hollow cone high-pressure torsion: Microstructure and tensile strength by unique severe plastic deformation
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6:4:9:26 Phase Transformations During High-Pressure Torsion of Pure Zr and of a Zr-2.5%Nb Alloy
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6:4:12:9 Microstructrual evolution of aluminum 6061 alloy through tube channel pressing
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6:4:12:13 Production of nano-grained structure in 6061 aluminum alloy strip by accumulative roll bonding
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6:4:12:15 Effect of over-aging on the microstructural evolution in an Al-Cu-Mg-Ag alloy during ECAP at 300 degrees C
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6:4:12:16 Microstructure evolution in abrasion-induced surface layer on an Al-Zn-Mg-Cu alloy
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6:4:12:17 Microstructural evolution in a 5024 aluminum alloy processed by ECAP with and without back pressure
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6:4:12:18 Mechanical properties and fracture behavior of an Al-Mg-Sc-Zr alloy at ambient and subzero temperatures
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6:4:12:20 Mechanical and microstructural characterization of 6061 aluminum alloy strips severely deformed by Dissimilar Channel Angular Pressing
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6:4:12:25 G-phase precipitation in austenitic stainless steel deformed by high pressure torsion
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6:4:13:2 Role of stacking fault energy in strengthening due to cryo-deformation of FCC metals
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6:4:13:5 Effect of stacking fault energy on deformation behavior of cryo-rolled copper and copper alloys
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6:4:13:8 Influence of stacking fault energy on the mechanical properties in cold-rolling Cu and Cu-Ge alloys
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6:4:13:21 On the anomalous hardening during annealing of heavily deformed f.c.c. metals
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6:4:14:10 Strength and Ductility of Bi-Modal Cu
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6:4:14:11 Improving ductility in ultrafine grained nickel with porosity and segregation via deformation
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6:4:14:12 Effect of strain rate on tensile properties of electric brush-plated nanocrystalline copper
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6:4:14:14 Annealing behaviour of ultrafine-grained aluminium
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6:4:15:4 ECAP with back pressure for optimum strength and ductility in aluminium alloy 6016. Part 1: Microstructure
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6:4:15:10 The role of beta(1)' precipitates in the bio-corrosion performance of Mg-3Zn in simulated body fluid
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6:4:15:11 Nanostructured Cu-Cr alloy with high strength and electrical conductivity
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6:4:15:13 Untitled
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6:4:15:15 Characteristics of steady state deformation of an Al-0.1 Mg alloy at low temperatures
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6:4:16:1 Shear induced chemical mixing in heterogeneous systems
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6:4:16:11 Dependence of shear-induced mixing on length scale
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6:4:16:15 New findings on the atomistic mechanisms active during mechanical milling of a Fe-Y2O3 model alloy
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6:4:16:17 Microstructural characteristics of a nanoeutectic Ag-Cu alloy processed by surface mechanical attrition treatment
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6:4:16:18 Mesostructural refinement in the early stages of mechanical alloying
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6:4:16:19 Kinetics behaviour of metastable equiatomic Cu-Fe solid solution as function of the number of collisions induced by mechanical alloying
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6:4:16:22 Early stages of the mechanical alloying of TiC-TiN powder mixtures
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6:4:17:2 Texture evolution of an Fe-Ni alloy sheet produced by cross accumulative roll bonding
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6:4:17:4 Microstructure and texture evolution during accumulative roll bonding of aluminium alloy AA5086
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6:4:17:6 Textural evolution of nanostructured AA5083 produced by ARB
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6:4:17:10 Texture and microstructure evolution of Fe-Ni alloy after accumulative roll bonding
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6:4:17:11 Investigation of ultrafine grained AA1050 fabricated by accumulative roll bonding
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6:4:17:12 The effect of SiC nanoparticles on deformation texture of ARB-processed steel-based nanocomposite
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6:4:17:13 Effect of ARB process on textural evolution of AA1100 aluminum alloy
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6:4:17:14 Shear texture gradient in AA6061 aluminum alloy processed by accumulative roll bonding with high roll roughness
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6:4:17:15 Textural evolution of nano-grained 70/30 brass produced by accumulative roll-bonding
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6:4:17:17 Microstructure and texture evolution during the ultra grain refinement of the Armco iron deformed by accumulative roll bonding (ARB)
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6:4:17:18 Texture and grain growth characteristics in a boron added interstitial free steel after severe cold rolling and annealing
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6:4:18:7 Harmonic-structured copper: performance and proof of fabrication concept based on severe plastic deformation of powders
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6:4:18:17 Mechanical Properties of Harmonic Structured Composite with Pure Titanium and Ti-48 at%Al Alloy by MM/SPS Process
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6:4:18:18 Microstructures and deformation mechanisms of a G4 TiAl alloy produced by spark plasma sintering
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6:4:18:20 Harmonic Structure Design of a SUS329J1 Two Phase Stainless Steel and Its Mechanical Properties
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6:4:18:21 Effects of SiO2 Particles on Deformation of Mechanically Milled Water-Atomized SUS304L Powder Compacts
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6:4:18:23 Indentation creep study on ultrafine-grained Zn processed by powder metallurgy
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6:4:19:1 A model of grain fragmentation based on lattice curvature
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6:4:19:5 Unexpected brass-type texture in rolling of ultrafine-grained copper
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6:4:19:6 Effect of strain reversal on texture and grain refinement in route C equal channel angular pressed copper
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6:4:19:7 Effect of strain path on grain refinement in severely plastically deformed copper
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6:4:19:8 Modeling of large strain hardening during grain refinement
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6:4:19:9 The origin of strain reversal texture in equal channel angular pressing
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6:4:19:10 Evolution of texture and microstructure during hot torsion of a magnesium alloy
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6:4:19:11 Spatial confinement-induced switchover in microstructure evolution during severe plastic deformation at micrometer length scales
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6:4:19:12 Texture evolution and grain refinement of ultrafine-grained copper during micro-extrusion
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6:4:19:13 Notes on representing grain size distributions obtained by electron backscatter diffraction
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6:4:19:14 Texture development and grain refinement in non-equal-channel angular-pressed Al
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6:4:19:15 Modeling of disorientation axis distribution in severely deformed copper
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6:4:20:1 Principles of self-annealing in silver processed by equal-channel angular pressing: The significance of a very low stacking fault energy
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6:4:20:2 Effects of releasing the hydrostatic pressure on the nanostructure after severe plastic deformation of Cu
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6:4:20:3 Microstructural stability of Cu processed by different routes of severe plastic deformation
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6:4:20:4 Enhancement of mechanical properties of biocompatible Ti-45Nb alloy by hydrostatic extrusion
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6:4:20:5 Development a dislocation density based model considering the effect of stacking fault energy: Severe plastic deformation
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6:4:20:6 The effect of impurity level on ultrafine-grained microstructures and their stability in low stacking fault energy silver
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6:4:20:7 Microstructure of low stacking fault energy silver processed by different routes of severe plastic deformation
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6:4:20:8 Strength response upon pressure release after high pressure torsion deformation
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6:4:20:9 High temperature thermal stability of ultrafine-grained silver processed by equal-channel angular pressing
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6:4:20:10 Microstructure and hardness of copper-carbon nanotube composites consolidated by High Pressure Torsion
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6:4:20:11 Correlation between the microstructure studied by X-ray line profile analysis and the strength of high-pressure-torsion processed Nb and Ta
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6:4:20:12 Reduction of vacancy concentration during storage of severely deformed Cu
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6:4:20:13 A comparison between equal channel angular pressing and asymmetric rolling of silver in the severe plastic deformation regime
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6:4:20:14 Evolution of strength and structure during SPD processing of Ti-45Nb alloys: experiments and simulations
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6:4:20:15 Microstructure, texture and mechanical properties of pure copper processed by ECAP and subsequent cold rolling
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6:4:20:16 Mechanical behavior of nanocrystalline TiNi alloy produced by severe plastic deformation
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6:4:20:17 Microstructural homogenization of ECAPed copper through post-rolling
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6:4:20:18 Quantitative re-examination of Taylor model for FCC polycrystals
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6:4:20:19 The effects of post annealing on the mechanical properties, microstructure and texture evolutions of pure copper deformed by twist extrusion process
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6:4:20:20 Texture evolution during room temperature ageing of silver processed by equal-channel angular pressing
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6:4:21:1 Effect of Nb additions on the microstructure, thermal stability and mechanical behavior of high pressure Zr phases under ambient conditions
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6:4:21:2 Grain size and reversible beta-to-omega phase transformation in a Ti alloy
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6:4:21:3 High-pressure torsion induced microstructural evolution in a hexagonal close-packed Zr alloy
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6:4:21:4 Stabilization of metastable phases in Mg-Li alloys by high-pressure torsion
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6:4:21:5 Orientation dependency of the alpha to omega plus beta transformation in commercially pure zirconium by high-pressure torsion
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6:4:21:7 Deformation-induced omega phase in nanocrystalline Mo
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6:4:21:9 Synthesis of non-equilibrium phases in immiscible metals mechanically mixed by high pressure torsion
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6:4:21:10 Thermal stability of pure bcc Zr fabricated by high pressure torsion
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6:4:21:11 Analysis of microstructure and microhardness of Zr-2.5Nb processed by High-Pressure Torsion (HPT)
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6:4:21:12 Transmission electron microscopy observations of structural modulation in the phase transition from alpha-Zr to omega-Zr induced by shear strain
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6:4:21:13 Microstructural evolution during gaseous hydrogen charging of Zircaloy-4 processed by high-pressure torsion: A comparative study
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6:4:22:1 Computation on new deformation routes of tube channel pressing considering back pressure and friction effects
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6:4:22:2 Finite element analysis of plastic deformation in variable lead axisymmetric forward spiral extrusion
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6:4:22:3 Finite element analysis of plastic deformation in twist extrusion
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6:4:22:4 Axi-symmetric forward spiral extrusion, a kinematic and experimental study
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6:4:22:5 Development of new routes of severe plastic deformation through cyclic expansion-extrusion process
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6:4:22:6 A novel single pass severe plastic deformation technique: Vortex extrusion
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6:4:22:7 Cyclic expansion-extrusion (CEE): A modified counterpart of cyclic extrusion-compression (CEC)
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6:4:22:8 A modification on ECAP process by incorporating torsional deformation
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6:4:22:9 Evolution of the microstructure and mechanical properties of AZ61 alloy processed by half channel angular extrusion (HCAE), a novel severe plastic deformation process
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6:4:22:10 Strain composite strips produced by accumulative roll bonding technique
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6:4:22:11 Different processing routes for deformation via simple shear extrusion (SSE)
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6:4:22:12 Investigation on the feasibility of room temperature plastic deformation of pure magnesium by simple shear extrusion process
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6:4:22:13 A kinematics study of variable lead axisymmetric forward spiral extrusion
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6:4:22:14 Multiple pass axi-symmetrical forward spiral extrusion of interstitial-free (IF) steel
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6:4:22:15 Spiral extrusion of aluminum/copper composite for future manufacturing of hybrid rods: A study of bond strength and interfacial characteristics
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6:4:22:16 Microstructural evolution and its effect on mechanical properties of commercially pure aluminum deformed by ECAE (Equal Channel Angular Extrusion) via routes A and C
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6:4:22:17 Comparative Analysis of Two Twist-Based SPD Processes: Elliptical Cross-Section Spiral Equal-Channel Extrusion vs. Twist Extrusion
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6:4:22:18 Equal-channel angular sheet extrusion of interstitial-free (IF) steel: Microstructural evolution and mechanical properties
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6:4:22:19 Numerical and experimental studies of pure copper processed by a new severe plastic deformation method
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6:4:22:20 Integration of physically based models into FE analysis: Homogeneity of copper sheets under large plastic deformations
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6:4:23:1 Dynamic and post-dynamic recrystallization under hot, cold and severe plastic deformation conditions
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6:4:23:2 Dynamic recrystallization mechanisms operating in a Ni-20%Cr alloy under hot-to-warm working
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6:4:23:3 sigma 3 CSL boundary distributions in an austenitic stainless steel subjected to multidirectional forging followed by annealing
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6:4:23:7 Flow behavior and microstructure evolution of a P/M TiAl alloy during high temperature deformation
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6:4:23:8 Microstructure evolution in AISI201 austenitic stainless steel during the first compression cycle of multi-axial compression
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6:4:23:11 Textures and grain boundary character distributions in a cold rolled and annealed Pb-Ca based alloy
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6:4:23:13 Nano-grain evolution in austenitic stainless steel during multi-directional forging
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6:4:23:14 Hot deformation behaviors of beta phase containing Ti-43Al-4Nb-1.4W-based alloy
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6:4:23:15 An investigation on microstructural and mechanical properties of powder metallurgical TiAl alloy during hot pack-rolling
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6:4:23:16 Analysis of local microstructure after shear creep deformation of a fine-grained duplex gamma-TiAl alloy
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6:4:23:17 Hot rolling of gamma titanium aluminide foil
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6:4:23:19 Effect of hydrogen treatment on properties and structure development in Zr-2.5Nb alloy
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6:4:24:4 Anisotropy of uni-axial and bi-axial deformation behavior of pure Titanium after hydrostatic extrusion
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6:4:24:5 Evolution of microstructure, macrotexture and mechanical properties of commercially pure Ti during ECAP-conform processing and drawing
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6:4:24:10 Non-equilibrium grain boundaries in titanium nanostructured by severe plastic deformation: Computational study of sources of material strengthening
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6:4:24:11 Structure and properties of hydrostatically extruded commercially pure titanium
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6:4:24:12 Microstructural evolution and electro-resistivity in HPT nickel
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6:4:24:13 About application of three dimensional analyses of fracture surfaces in fracture study on nanostructured titanium
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6:4:24:14 Adiabatic heating and the saturation of grain refinement during SPD of metals and alloys: experimental assessment and computer modeling
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6:4:24:15 Microstructure and texture evolution in ultrafine-grained pure Ti processed by equal-channel angular pressing with subsequent dynamic compression
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6:4:24:16 Strain-induced phase transformation during thermo-mechanical processing of titanium alloys
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6:4:24:17 Local and global measures of the fracture toughness of metal matrix composites
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6:4:25:1 Boundaries and interfaces in ultrafine grain composites
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6:4:25:2 Local stress gradients in Ti/Al composite wires determined by two-dimensional X-ray microdiffraction
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6:4:25:3 Mechanical behavior of ultrafine-grained Al composites reinforced with B4C nanoparticles
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6:4:25:4 HRTEM and EELS study of aluminum nitride in nanostructured Al 5083/B4C processed via cryomilling
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6:4:25:5 Ti-Al Composite Wires with High Specific Strength
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6:4:25:6 Texture development in Ti/Al filament wires produced by accumulative swaging and bundling
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6:4:25:7 Grain Refinement and Deformation Mechanisms in Room Temperature Severe Plastic Deformed Mg-AZ31
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6:4:25:10 Damascene Light-Weight Metals
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6:4:25:12 Absorption of Nitrogen at Al/Al2O3 Interfaces in Al Nanocomposites: A Computational Analysis
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6:4:25:13 Processing of Intermetallic Titanium Aluminide Wires
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6:4:25:14 Processing of High Strength Light-Weight Metallic Composites
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6:4:26:3 Modeling and simulation of strain-induced phase transformations under compression in a diamond anvil cell
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6:4:26:5 Are processing conditions similar in ball milling and high-pressure torsion? The case of the tetragonal-to-monoclinic phase transition in ZrO2 powders
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6:4:26:8 High-density amorphous phase of silicon carbide obtained under large plastic shear and high pressure
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6:4:26:11 Static compression of LiH to 250 GPa
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6:4:26:12 Mechanical processing of Fe powders
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6:4:27:1 Grain Boundary Segregation in UFG Alloys Processed by Severe Plastic Deformation
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6:4:27:3 Mg segregations at and near deformation-distorted grain boundaries in ultrafine-grained Al-Mg alloys
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6:4:27:4 Effect of Mg content on the minimum grain size of Al-Mg alloys obtained by friction stir processing
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6:4:27:5 Microstructural stability of copper with antimony dopants at grain boundaries: experiments and molecular dynamics simulations
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6:4:28:1 Effect of ageing on microstructure and mechanical properties of bulk, cryorolled, and room temperature rolled Al 7075 alloy
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6:4:28:8 Formability of cryo-rolled aluminium in uniaxial and biaxial tension
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6:4:28:9 Microstructural evolution and aging behavior of cryorolled Al-4Zn-2Mg alloy
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6:4:28:10 Hierarchical nanostructures strengthen Al-Mg-Si alloys processed by deformation and aging
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6:4:29:9 Microstructural refinement of CP-Ti by cryogenic channel-die compression involving mechanical twinning
DOI:10.1016/j.msea.2012.06.040 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:3 AU: Hong, D. H.;Hwang, S. K.;
6:4:29:10 Enhanced Mechanical Properties and Formability of Cross-Roll Rolled Ni-10Cr Alloy
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6:4:29:11 Mechanical properties of bulk aluminium consolidated from mechanically milled particles by back pressure equal channel angular pressing
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6:4:29:12 Multiscale two-phase Ti-Al with high strength and plasticity through consolidation of particles by severe plastic deformation
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6:4:29:13 Characterization of Al2O3NP-Al-2024 and AgCNP-Al-2024 composites prepared by mechanical processing in a high energy ball mill
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6:4:29:14 Enhancement of Grain Refinement and Mechanical Properties of Cross-Roll Rolled Pure Copper
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6:4:29:15 Nanoparticle effects in cast Mg-1 wt% SiC nano-composites
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6:4:30:1 Microstructure development and hardening during high pressure torsion of commercially pure aluminium: Strain reversal experiments and a dislocation based model
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6:4:30:2 A model of grain refinement and strengthening of Al alloys due to cold severe plastic deformation
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6:4:30:3 The influence of indenter tip rounding on the indentation size effect
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6:4:30:4 Al-Mg-Cu based alloys and pure Al processed by high pressure torsion: The influence of alloying additions on strengthening
DOI:10.1016/j.msea.2010.02.016 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:23 AU: Zhang, Jiuwen;Gao, Nong;Starink, Marco J.;
6:4:30:5 Experimental microindentation of pure copper subjected to severe plastic deformation by combined tension-torsion
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6:4:30:6 Effect of Mg addition on strengthening of aluminium alloys subjected to different strain paths in high pressure torsion
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6:4:30:7 Characterisation of high pressure torsion processed 7150 Al-Zn-Mg-Cu alloy
DOI:10.1016/j.msea.2012.05.026 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:10 AU: Ghosh, K. S.;Gao, N.;Starink, M. J.;
6:4:30:8 Microstructure evolution, hardening and thermal behavior of commercially pure copper subjected to torsion deformation
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6:4:30:9 Evolution of ultrafine microstructures in commercial purity aluminum heavily deformed by torsion
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6:4:30:10 Strain rate sensitivity and deformation kinetics of ECAPed aluminium over a wide range of strain rates
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6:4:30:11 Effect of solution pH on electrochemical and stress corrosion cracking behaviour of a 7150 Al-Zn-Mg-Cu alloy
DOI:10.1016/j.msea.2014.02.036 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:5 AU: Rout, Prasanta Kumar;Ghosh, M. M.;Ghosh, K. S.;
6:4:30:12 Mechanical Properties of Bulk Ultrafine Grained Aluminum Fabricated by Torsion Deformation at Various Temperatures and Strain Rates
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6:4:31:1 Microstructure strengthening mechanisms in different equal channel angular pressed aluminum alloys
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6:4:31:2 Microstructure evolution and deformation behavior of ultrafine-grained Al-Zn-Mg alloys with fine eta ' precipitates
DOI:10.1016/j.actamat.2010.08.034 JN:ACTA MATERIALIA PY:2010 TC:23 AU: Zhang, S.;Hu, W.;Berghammer, R.;Gottstein, G.;
6:4:31:3 On the Hall-Petch relationship in a nanostructured Al-Cu alloy
DOI:10.1016/j.msea.2010.08.070 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:28 AU: Shanmugasundaram, T.;Heilmaier, M.;Murty, B. S.;Sarma, V. Subramanya;
6:4:31:4 Microstructure control during severe plastic deformation of Al-Cu-Li and the influence on strength and ductility
DOI:10.1016/j.msea.2011.01.036 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:9 AU: Munoz-Morris, M. A.;Morris, D. G.;
6:4:31:5 Severe plastic deformation processing of Al-Cu-Li alloy for enhancing strength while maintaining ductility
DOI:10.1016/j.scriptamat.2010.04.022 JN:SCRIPTA MATERIALIA PY:2010 TC:15 AU: Munoz-Morris, M. A.;Morris, D. G.;
6:4:31:6 Microstructure strengthening mechanisms in an Al-Mg-Si-Sc-Zr equal channel angular pressed aluminium alloy
DOI:10.1016/j.apsusc.2013.01.101 JN:APPLIED SURFACE SCIENCE PY:2013 TC:0 AU: Cabibbo, Marcello;
6:4:31:7 Partial dissolution of strengthening particles induced by equal channel angular pressing in an Al-Li-Cu alloy
DOI:10.1016/j.matchar.2012.03.005 JN:MATERIALS CHARACTERIZATION PY:2012 TC:5 AU: Cabibbo, Marcello;
6:4:31:8 A TEM Kikuchi pattern study of ECAP AA1200 via routes A, C, B-C
DOI:10.1016/j.matchar.2010.03.007 JN:MATERIALS CHARACTERIZATION PY:2010 TC:13 AU: Cabibbo, M.;
6:4:31:9 Effects of simultaneous polishing on electrodeposited nanocrystalline nickel
DOI:10.1016/j.msea.2011.06.006 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:5 AU: Zhu, Zeng-Wei;Zhu, Di;Qu, Ning-Song;
6:4:31:10 Influence of severe plastic deformation on dynamic strain aging of ultrafine grained Al-Mg alloys
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6:4:31:11 A TEM quantitative evaluation of strengthening in an Mg-RE alloy reinforced with SIC
DOI:10.1016/j.matchar.2011.04.011 JN:MATERIALS CHARACTERIZATION PY:2011 TC:5 AU: Cabibbo, Marcello;Spigarelli, Stefano;
6:4:31:12 The strength and thermal stability of Al-5Mg alloys nano-engineered using methods of metal forming
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6:4:31:13 Further evidence of grain boundary internal friction in bicrystals
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6:4:31:14 Internal friction in Al bicrystals with < 111 > tilt and twist grain boundaries
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6:4:31:15 High-cycle fatigue bending strength of rapidly solidified and plastic consolidated RS442 aluminium alloy
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6:4:32:1 Quantitative local profile analysis of nanomaterials by electron diffraction
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6:4:32:2 Electron microscopy of severely deformed L12 intermetallics
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6:4:32:3 Microstructure and magnetic properties of atmospheric plasma sprayed Fe-40Al coating obtained from nanostructured powders
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6:4:32:4 Thermally induced transition from a ferromagnetic to a paramagnetic state in nanocrystalline FeAl processed by high-pressure torsion
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6:4:32:5 Structural modifications during heating of bulk nanocrystalline FeAl produced by high-pressure torsion
DOI:10.1016/j.actamat.2010.06.036 JN:ACTA MATERIALIA PY:2010 TC:12 AU: Mangler, C.;Gammer, C.;Karnthaler, H. P.;Rentenberger, C.;
6:4:32:6 Synthesis and characterization of electrodeposited hierarchical nanodendritic NiCoFe alloy powders
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6:4:32:7 Enhanced oxygen evolution and reduction reactions of porous ternary NiCoFe foam electrodes prepared by dynamic hydrogen template deposition
DOI:10.1016/j.nanoen.2012.12.004 JN:NANO ENERGY PY:2013 TC:2 AU: Rafailovic, Lidija D.;Gammer, Christoph;Rentenberger, Christian;Trisovic, Tomislav;Kleber, Christoph;Karnthaler, H. Peter;
6:4:32:8 Structure and magnetic properties of electrodeposited Ni87.3Fe11.3W1.4 alloy
DOI:10.1016/j.powtec.2014.01.017 JN:POWDER TECHNOLOGY PY:2014 TC:0 AU: Spasojevic, M.;Ribic-Zelenovic, L.;Maricic, A.;Spasojevic, P.;
6:4:32:9 Micostructure and Magnetic Properties in Nanostructured Fe and Fe-Based Intermetallics Produced by High-Pressure Torsion
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6:4:32:10 Growth of nanosized chemically ordered domains in intermetallic FeAl made nanocrystalline by severe plastic deformation
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6:4:32:11 Phototriggered Production of Reactive Oxygen Species by TIO2 Nanospheres and Rods
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6:4:32:12 Morphology and aspect ratio of bismuth nanoparticles embedded in a zinc matrix
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6:4:32:13 Nanocrystalline Zr3Al made through amorphization by repeated cold rolling and followed by crystallization
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6:4:32:14 Structural and magnetic properties of Fe60Al40 alloys prepared by means of a magnetic mill
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6:4:32:15 Application of orthogonally arranged FIB-SEM for precise microstructure analysis of materials
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6:4:32:16 Investigation of the epsilon phase in the Fe-Al system by high-temperature neutron diffraction
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6:4:32:17 Improvement in the properties of plasma-sprayed metallic, alloy and ceramic coatings using dry-ice blasting
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6:4:32:18 Improvement of adhesion of plasma-sprayed Al2O3 coatings by using dry-ice blasting
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6:4:32:19 Microstructural properties of electrochemically prepared Ni-Fe-W powders
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6:4:32:20 Giant strain-induced ferromagnetism in Fe59Mn17Al24
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6:4:33:1 Hardness homogeneity on longitudinal and transverse sections of an aluminum alloy processed by ECAP
DOI:10.1016/j.msea.2011.01.074 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:30 AU: Alhajeri, Saleh N.;Gao, Nong;Langdon, Terence G.;
6:4:33:2 Principles of ECAP-Conform as a continuous process for achieving grain refinement: Application to an aluminum alloy
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6:4:33:3 A characterization of microstructure and microhardness on longitudinal planes of an Al-Mg-Si alloy processed by ECAP
DOI:10.1016/j.matchar.2013.07.016 JN:MATERIALS CHARACTERIZATION PY:2013 TC:4 AU: Vevecka, Aferdita;Cabibbo, Marcello;Langdon, Terence G.;
6:4:33:4 An experimental evaluation of a special ECAP die containing two equal arcs of curvature
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6:4:33:5 Evaluating a New Core-Sheath Procedure for Processing Hard Metals by Equal-Channel Angular Pressing
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6:4:33:6 A convergent-beam electron diffraction study of strain homogeneity in severely strained aluminum processed by equal-channel angular pressing
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6:4:33:7 Using X-ray microbeam diffraction to study the long-range internal stresses in aluminum processed by ECAP
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6:4:33:8 The processing of NiTi shape memory alloys by equal-channel angular pressing at room temperature
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6:4:33:9 X-ray microbeam measurements of long-range internal stresses in commercial-purity aluminum processed by multiple passes of equal-channel angular pressing
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6:4:33:10 Texture induced grain coarsening in severe plastic deformed low carbon steel
DOI:10.1016/j.scriptamat.2014.05.003 JN:SCRIPTA MATERIALIA PY:2014 TC:2 AU: Gu, C. F.;Toth, L. S.;Rusz, S.;Bova, M.;
6:4:33:11 A comparison of the effects of severe plastic deformation and heat treatment on the tensile properties and impact toughness of aluminum alloy 6061
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6:4:34:1 Deformation twinning and localized amorphization in nanocrystalline tantalum induced by sliding friction
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6:4:34:2 Grain coarsening behavior in a nanocrystalline copper subjected to sliding friction
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6:4:34:3 Correlation between strengthening and damage of Cu refined by different SPD processing and friction in different lubricant regions
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6:4:34:4 Towards new formulations for journal bearing alloys
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6:4:34:5 Structural evolution in copper layers during sliding under different lubricant conditions
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6:4:34:6 Dislocation structure and hardness of surface layers under friction of copper in different lubricant conditions
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6:4:34:7 Formation of thick nanocrystalline surface layer on copper during oscillating sliding
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6:4:34:8 Subsurface shear instability and nanostructuring of metals in sliding
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6:4:34:9 In situ observation of wear particle formation on lubricated sliding surfaces
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6:4:34:10 Surface nanocrystallization of Cu and Ta by sliding friction
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6:4:34:11 Different stages in the continuous microstructural evolution of copper deformed to ultrahigh plastic strains
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6:4:34:12 Influence of microstructure on tribologically mixed layers
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6:4:34:13 Orientation dependence of subsurface deformation in dry sliding wear of Cu single crystals
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6:4:34:14 Producing ultrafine-grained aluminum rods by cyclic forward-backward extrusion: Study the microstructures and mechanical properties
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6:4:34:15 Deformation-induced grain refinement in body-centered cubic Co-Fe alloys upon room temperature compression
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6:4:34:16 A proposed diffusion-controlled wear mechanism of alloy steel friction stir welding (FSW) tools used on an aluminum alloy
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6:4:34:17 Subsurface shear instability and nanostructuring of metals in sliding (vol 268, pg 59, 2010)
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6:4:35:1 High Strength AA7050 Al alloy processed by ECAP: Microstructure and mechanical properties
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6:4:35:2 Twist-channel angular pressing: effect of the strain path on grain refinement and mechanical properties of copper
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6:4:35:10 The effect of ECAP and Cu addition on the aging response and grain substructure evolution in an Al-4.4 wt.% Mg alloy
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6:4:35:12 Numerical and experimental studies of the plastic strains distribution using subsequent direct extrusion after three twist extrusion passes
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6:4:35:13 Microstructural evolution and mechanical response of Cu-Al-Be-B shape memory alloy processed by repetitive equal channel angular pressing
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6:4:37:2 Effect of strain rate on microstructure evolutions and mechanical properties of cryorolled Zr upon annealing
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6:4:37:13 Isothermal alpha '' formation in beta metastable titanium alloys
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6:4:38:1 Nanoscale deformation twinning at ultrahigh strain rates during kinetic spraying of nickel
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6:4:40:4:2 Bulky Averaged Microscopic Information for ECAP-Processed Cu Using Accelerator-Based Gamma-Ray-Induced Positron Annihilation Spectroscopy and Neutron Diffraction
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6:4:41:3 Synthesis and characterization of aluminium-alumina micro- and nano-composites by spark plasma sintering
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6:4:41:4 Thermal and mechanical properties of Al/Al2O3 composites at elevated temperatures
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6:4:41:7 Effect of volume fraction and particle size of alumina reinforcement on compaction and densification behavior of Al-Al2O3 nanocomposites
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6:4:41:8 Preparation and surface modification of submicron YAl2 particles by mixed milling with magnesium for fabricating YAl2p/MgLiAl composites
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6:4:41:10 Production of Al/Al2O3 Nanocomposites through Consolidation by High-Pressure Torsion
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6:4:41:11 Hardness and Wear Properties of Al-4.5%Cu/Al3Mg2 Nanocomposite Prepared by Mechanical Alloying
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6:4:42:5 Laser compression of nanocrystalline tantalum
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6:4:42:6 Mechanical behavior of microstructure engineered multi-length-scale titanium over a wide range of strain rates
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6:4:42:7 Effect of low-temperature rolling on the propensity to adiabatic shear banding of commercial purity tungsten
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6:4:42:8 Transition in the deformation mode of nanocrystalline tantalum processed by high-pressure torsion
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6:4:42:9 A modified criterion for shear band formation in bulk metallic glass under complex stress states
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6:4:43:2 Effect of precipitation on mechanical and wear properties of ultrafine-grained Cu-Cr-Zr alloy
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6:4:43:3 Effect of internal oxidation on wear behavior of ultrafine-grained Nb-Zr
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6:4:43:4 High tensile ductility and high strength in ultrafine-grained low-carbon steel
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6:4:43:5 High temperature single impact studies on material deformation and fracture behaviour of metal matrix composites and steels
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6:4:43:6 Pure copper processed by extrusion preceded equal channel angular pressing
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6:4:43:7 Fatigue Life and Failure Characteristics of an Ultrafine-Grained Ti-6Al-4V Alloy Processed by ECAP and Extrusion
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6:4:43:8 Enhanced fatigue properties of ultrafine-grained Ti rods processed by ECAP-Conform
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6:4:43:10 Microstructure and mechanical behavior of UFG copper processed by ECAP following different processing regimes
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6:4:43:12 Microstructural and tribological properties of Al5083 based surface hybrid composite produced by friction stir processing
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6:4:43:15 Evolution of microstructure and mechanical properties of cold-rolled SUS430 stainless steel during a continuous annealing process
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6:4:43:16 Friction and wear properties of zirconium and niobium in a hydrogen environment
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6:4:43:17 The influence of induction hardening on the impact wear resistance of compacted graphite iron (CGI)
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6:4:44:1 Processing a twinning-induced plasticity steel by high-pressure torsion
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6:4:44:2 Evolution of a martensitic structure in a Cu-Al alloy during processing by high-pressure torsion
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6:4:44:3 Martensitic Phase Transformation and Deformation Behavior of Fe-Mn-C-Al Twinning-Induced Plasticity Steel during High-Pressure Torsion
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6:4:44:4 Microstructure and mechanical response of single-crystalline high-manganese austenitic steels under high-pressure torsion: The effect of stacking-fault energy
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6:4:44:5 Annealing behavior of nano-crystalline austenitic SUS316L produced by HPT
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6:4:44:6 Grain boundary segregation induced strengthening of an ultrafine-grained austenitic stainless steel
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6:4:44:7 Nanostructurization of 316L type austenitic stainless steels by hydrostatic extrusion
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6:4:44:8 Deformation mechanisms of a modified 316L austenitic steel subjected to high pressure torsion
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6:4:44:9 The role of twinning on microstructure and mechanical response of severely deformed single crystals of high-manganese austenitic steel
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6:4:44:10 Intergranular corrosion resistance of nanostructured austenitic stainless steel
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6:4:44:11 Formation of Fully Annealed Nanocrystalline Austenite in Fe-Ni-C Alloy
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6:4:45:1 Texture evolution and enhanced grain refinement under high-pressure-double-torsion
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6:4:45:2 Modeling bending of alpha-titanium with embedded polycrystal plasticity in implicit finite elements
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6:4:45:3 Anisotropic stress-strain response and microstructure evolution of textured alpha-uranium
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6:4:45:4 Material-based design of the extrusion of bimetallic tubes
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6:4:45:5 A high-performance computational framework for fast crystal plasticity simulations
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6:4:45:6 Thermal residual strains in depleted alpha-U
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6:4:45:8 Deformation behavior of the cobalt-based superalloy Haynes 25: Experimental characterization and crystal plasticity modeling
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6:4:45:10 A simple mechanical model for grain boundary sliding in nanocrystalline metals
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6:4:46:2 Microstructure and mechanical properties after annealing of equal-channel angular pressed interstitial-free steel
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6:4:46:3 Annealing behaviour and mechanical properties of severely deformed interstitial free steel
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6:4:47:2 Microstructure evolution of commercial pure titanium during equal channel angular pressing
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6:4:47:3 Microstructure and mechanical properties of Al-xMg alloys processed by room temperature ECAP
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6:4:47:4 Deformation Behavior and Microstructural Evolution of Ultrafine-Grained Commercially Pure Ti
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6:4:47:6 Effect of initial microstructure on the processing of titanium using equal channel angular pressing
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6:4:47:7 Novel deformation structures of pure titanium induced by room temperature equal channel angular pressing
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6:4:47:8 Microstructure evolution in pure titanium during warm deformation by combined rolling processes
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6:4:47:9 Grain refinement of pure Ti during plastic deformation
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6:4:48:2 Modelling plastic deformation in BCC metals: Dynamic recovery and cell formation effects
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6:4:48:3 A thermostatistical theory of low and high temperature deformation in metals
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6:4:48:5 Revisiting the Considere criterion from the viewpoint of dislocation theory fundamentals
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6:4:48:6 A thermodynamic theory for dislocation cell formation and misorientation in metals
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6:4:48:7 Dislocation annihilation in plastic deformation: I. Multiscale irreversible thermodynamics
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6:4:48:8 Modelling multiscale plasticity: A thermostatistical approach
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6:4:48:10 Modelling and design of stress-induced martensite formation in metastable beta Ti alloys
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6:4:49:1 Improved fatigue properties of ultrafine-grained copper under cyclic torsion loading
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6:4:49:2 Fatigue properties of ultra-fine grain Cu-Cr alloy processed by equal-channel angular pressing
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6:4:49:3 Microstructure and texture evolutions and mechanical properties in pure copper by equal-channel angular pressing
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6:4:49:4 Enhancement of static and fatigue strength of 1050 Al processed by equal-channel angular pressing using two routes
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6:4:49:5 Fatigue cracking and fracture behaviors of coarse-grained copper under cyclic tension-compression and torsion loadings
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6:4:49:6 Microstructural stability of ultrafine-grained niobium-zirconium alloy at elevated temperatures
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6:4:49:8 EBSD investigation of the microstructure and microtexture evolution of 1050 aluminum cross deformed from ECAP to plane strain compression
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6:4:49:9 Surface hardening of biocompatible ultrafine-grained niobium zirconium alloy by two-stage oxidation treatment
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6:4:49:10 The influence of temporary hydrogenation on ECAP formability and low cycle fatigue life of CP titanium
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6:4:50:1 Grain refinement in a Cu-Cr-Zr alloy during multidirectional forging
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6:4:50:2 Microstructure, mechanical properties and electrical conductivity of industrial Cu-0.5%Cr alloy processed by severe plastic deformation
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6:4:50:3 Insights into structural and thermodynamic properties of the intermetallic compound in ternary Mg-Zn-Cu alloy under high pressure and high temperature
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6:4:50:5 Evolution of microstructure and mechanical properties in Cu-14%Fe alloy during severe cold rolling
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6:4:50:6 Mechanical and electrical responses of nanostructured Cu-3 wt%Ag alloy fabricated by ECAP and cold rolling
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6:4:50:7 Effect of ECAP combined cold working on mechanical properties and electrical conductivity of Conform-produced Cu-Mg alloys
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6:4:50:8 Effect of Sn addition on the microstructure and mechanical properties of Mg-6Zn-1Mn (wt.%) alloy
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6:4:50:9 Microstructure and mechanical properties of a Mg-Zn-Y alloy produced by a powder metallurgy route
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6:4:50:10 Microstructure and phase selection in supercooled copper alloys exhibiting metastable liquid miscibility gaps
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6:4:51:15 Plastic deformation of a monoclinic Al13Fe4 at 300 873 K
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6:4:52:1 Effect of strain rate on tensile performance of Al/Cu/Al laminated composites produced by asymmetrical roll bonding
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6:4:52:2 Interface strengthening of laminated composite produced by asymmetrical roll bonding
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6:4:52:5 On the interface and mechanical property of Ti/Al-6%Cu-0.5%Mg-0.4%Ag bimetal composite produced by cold-roll bonding and subsequent annealing treatment
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6:4:52:6 Formation of ultra-fine copper grains in copper-clad aluminum wire
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6:4:52:7 Intermetallic phase formation in diffusion-bonded Cu/Al laminates
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6:4:52:8 Brittleness study of intermetallic (Cu, Al) layers in copper-clad aluminium thin wires
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6:4:52:9 Solid-state bonding of alloy-designed Cu-Zn brass and steel associated with phase transformation by spark plasma sintering
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6:4:53:2 A comparison of the von Mises and Hencky equivalent strains for use in simple shear experiments
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6:4:53:3 Work Hardening and Microstructural Development during High-Pressure Torsion in Pure Iron
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6:4:53:5 Formation of bimodal grain structures in high purity Al by reversal high pressure torsion
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6:4:53:6 Problems with Using the Hencky Equivalent Strain in Simple Shear
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6:4:53:7 Appropriateness of the Hencky Equivalent Strain as the Quantity to Represent the Degree of Severe Plastic Deformation
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6:4:53:8 The Hencky equivalent strain and its inapplicability to the interpretation of torsion testing experiments
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6:4:53:9 Inapplicability of the Hencky Formalism to the Description of Large Deformations in Shear
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6:4:53:10 Comparative Analysis of Plastic Flow and Grain Refinement in Pure Aluminium Subjected to Simple Shear-Based Severe Plastic Deformation Processing
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6:4:53:11 Evolution of the spread of crystal orientation with plastic deformation in a cold-rolled Cu single crystal
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6:4:53:12 Effect of Deformation Temperature on Microstructure Evolution in ARB Processed Ultralow Carbon IF Steel
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6:4:54:1 Fracture toughness evaluation of ultrafine-grained nickel
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6:4:54:7 Influence of impurities on the fracture behaviour of tungsten
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6:4:54:9 Magnetic characteristics of HPT deformed soft-magnetic materials
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6:4:55:1 Mechanical properties and microstructure evolution in ultrafine-grained AZ31 alloy processed by severe plastic deformation
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6:4:55:4 Effect of annealing on microstructure and mechanical properties of ZK60 magnesium alloy sheets processed by twin-roll cast and differential speed rolling
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6:4:55:5 Mechanical properties and corrosion behaviour of nanocrystalline Ti-5Ta-1.8Nb alloy produced by cryo-rolling
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6:4:55:6 Texture and microstructure evolution in ultrafine-grained AZ31 processed by EX-ECAP
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6:4:55:7 Room temperature corrosion properties of AZ31 magnesium alloy processed by extrusion and equal channel angular pressing
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6:4:55:8 Structure of grains and grain boundaries in cryo-mechanically processed Ti alloy
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6:4:56:2 Direct Experimental Determination of Grain Boundary Excess Volume in Metals
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6:4:56:4 Grain boundary excess volume and defect annealing of copper after high-pressure torsion
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6:4:56:6 Ultra-Fast Atomic Transport in Severely Deformed Materials-A Pathway to Applications?
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6:4:56:8 Strain Relaxation and Vacancy Creation in Thin Platinum Films
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6:4:57:5 Effect of equal channel angular pressing on grain refinement and texture evolution in a biomedical alloy Ti-13Nb-13Zr
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6:4:61:9 Texture evolution in high strain rate deformed Cu-10Zn alloy
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6:4:61:10 Investigation of strain-hardening rate on splined mandrel flow forming of 5052 and 6061 aluminum alloys
DOI:10.1016/j.msea.2011.10.094 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:3 AU: Haghshenas, M.;Wood, J. T.;Klassen, R. J.;
6:4:61:11 Residual stress measurement at the micrometer scale: focused ion beam (FIB) milling and nanoindentation testing
DOI:10.1080/14786431003800883 JN:PHILOSOPHICAL MAGAZINE PY:2011 TC:4 AU: Sebastiani, M.;Bemporad, E.;Carassiti, F.;Schwarzer, N.;
6:4:62:1 On the fatigue crack growth-microstructure relationship in ultrafine-grained interstitial-free steel
DOI:10.1007/s10853-010-4511-7 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:14 AU: Niendorf, T.;Rubitschek, F.;Maier, H. J.;Canadinc, D.;Karaman, I.;
6:4:62:2 Influence of precipitates on low-cycle fatigue and crack growth behavior in an ultrafine-grained aluminum alloy
DOI:10.1016/j.actamat.2014.07.061 JN:ACTA MATERIALIA PY:2014 TC:2 AU: Hockauf, K.;Wagner, M. F. -X.;Halle, T.;Niendorf, T.;Hockauf, M.;Lampke, T.;
6:4:62:3 Experimental and Numerical Investigation of the Role of Grain Boundary Misorientation Angle on the Dislocation-Grain Boundary Interactions
DOI:10.1002/adem.201000229 JN:ADVANCED ENGINEERING MATERIALS PY:2011 TC:5 AU: Canadinc, Demircan;Biyikli, Emre;Niendorf, Thomas;Maier, Hans Juergen;
6:4:62:4 Microstructure-based modeling of the impact response of a biomedical niobium-zirconium alloy
DOI:10.1557/jmr.2014.105 JN:JOURNAL OF MATERIALS RESEARCH PY:2014 TC:1 AU: Onal, Orkun;Bal, Burak;Toker, S. Mine;Mirzajanzadeh, Morad;Canadinc, Demircan;Maier, Hans J.;
6:4:62:5 A comprehensive evaluation of parameters governing the cyclic stability of ultrafine-grained FCC alloys
DOI:10.1016/j.msea.2011.04.051 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:4 AU: Canadinc, D.;Niendorf, T.;Maier, H. J.;
6:4:62:6 Anisotropy of ultrafine-grained alloys under impact loading: The case of biomedical niobium-zirconium
DOI:10.1016/j.scriptamat.2011.12.007 JN:SCRIPTA MATERIALIA PY:2012 TC:3 AU: Toker, S. M.;Rubitschek, F.;Niendorf, T.;Canadinc, D.;Maier, H. J.;
6:4:62:7 Three-dimensional modeling of the grain boundary misorientation angle distribution based on two-dimensional experimental texture measurements
DOI:10.1016/j.msea.2010.05.037 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:7 AU: Biyikli, E.;Canadinc, D.;Maier, H. J.;Niendorf, T.;Top, S.;
6:4:62:8 Effect of stress on the annealing behavior of severely plastically deformed aluminum alloy 3103
DOI:10.1016/j.msea.2010.05.053 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:4 AU: Bhaumik, S.;Molodova, X.;Gottstein, G.;
6:4:62:9 Mechanism of fatigue crack initiation and propagation in the very high cycle fatigue regime of high-strength steels
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6:4:62:10 Development of Nanostructured AA3103 by Equal Channel Angular Pressing and Thermal Treatments
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6:4:62:11 The effect of microstructure on very high cycle fatigue properties in Ti-6Al-4V
DOI:10.1016/j.scriptamat.2010.02.043 JN:SCRIPTA MATERIALIA PY:2010 TC:10 AU: Oguma, H.;Nakamura, T.;
6:4:62:12 Derivation of Recovery Kinetics From Stress Relaxation Tests
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6:4:62:13 Local plasticity exhaustion in a very high cycle fatigue regime
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6:4:63:1 Continuous acoustic emission during intermittent plastic flow in alpha-brass
DOI:10.1016/j.scriptamat.2012.01.053 JN:SCRIPTA MATERIALIA PY:2012 TC:13 AU: Vinogradov, A.;Lazarev, A.;
6:4:63:2 On the similarity of plastic flow processes during smooth and jerky flow in dilute alloys
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6:4:63:3 Stochastic dislocation kinetics and fractal structures in deforming metals probed by acoustic emission and surface topography measurements
DOI:10.1063/1.4884682 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Vinogradov, A.;Yasnikov, I. S.;Estrin, Y.;
6:4:63:4 Effect of equal channel angular pressing on the Portevin-Le Chatelier effect in an Al3Mg alloy
DOI:10.1016/j.msea.2014.07.064 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Lebedkina, T. A.;Lebyodkin, M. A.;Lamark, T. T.;Janecek, M.;Estrin, Y.;
6:4:63:5 Multiscale study of acoustic emission during smooth and jerky flow in an AlMg alloy
DOI:10.1016/j.actamat.2012.08.058 JN:ACTA MATERIALIA PY:2012 TC:10 AU: Shashkov, I. V.;Lebyodkin, M. A.;Lebedkina, T. A.;
6:4:63:6 On the similarity of plastic flow processes during smooth and jerky flow: Statistical analysis
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6:4:63:7 On the nature of acoustic emission and internal friction during cyclic deformation of metals
DOI:10.1016/j.actamat.2014.02.007 JN:ACTA MATERIALIA PY:2014 TC:3 AU: Vinogradov, A.;Yasnikov, I. S.;
6:4:63:8 Multiscale Modeling Approach to Acoustic Emission during Plastic Deformation
DOI:10.1103/PhysRevLett.106.106001 JN:PHYSICAL REVIEW LETTERS PY:2011 TC:5 AU: Kumar, Jagadish;Ananthakrishna, G.;
6:4:63:9 Evolution of Fractal Structures in Dislocation Ensembles during Plastic Deformation
DOI:10.1103/PhysRevLett.108.205504 JN:PHYSICAL REVIEW LETTERS PY:2012 TC:6 AU: Vinogradov, A.;Yasnikov, I. S.;Estrin, Y.;
6:4:63:10 The electric current-induced suppression of the Portevin - Le Chatelier effect in Al-Mg alloys
DOI:10.1016/j.msea.2014.05.050 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Shibkov, A. A.;Denisov, A. A.;Zheltov, M. A.;Zolotov, A. E.;Gasanov, M. F.;
6:4:64:1 Effect of directional solidification rate on the microstructure and properties of deformation-processed Cu-7Cr-0.1Ag in situ composites
DOI:10.1016/j.jallcom.2014.05.181 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:2 AU: Liu, Keming;Jiang, Zhengyi;Zhao, Jingwei;Zou, Jin;Chen, Zhibao;Lu, Deping;
6:4:64:2 Influence of a high magnetic field on the microstructure and properties of a Cu-Fe-Ag in situ composite
DOI:10.1016/j.msea.2013.07.016 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:6 AU: Liu, K. M.;Lu, D. P.;Zhou, H. T.;Chen, Z. B.;Atrens, A.;Lu, L.;
6:4:64:3 Effect of homogenization treatment on microstructure and properties for Cu-Fe-Ag in situ composites
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6:4:64:4 Effect of Ag addition on the as-cast microstructure of Cu-8 wt.% Fe in situ composites
DOI:10.1016/j.jallcom.2010.08.063 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:9 AU: Xie, Zhixiong;Gao, Haiyan;Lu, Qin;Wang, Jun;Sun, Baode;
6:4:64:5 Enhanced Strength and Electrical Conductivity of Cu-8Fe Composite by Adding Trace Ag and P
DOI:10.2320/matertrans.M2013260 JN:MATERIALS TRANSACTIONS PY:2013 TC:1 AU: Xie, Zhixiong;Gao, H. Y.;Dong, S. J.;Wang, J.;Huang, H.;Luo, Ping;
6:4:64:6 Effect of Ag micro-alloying on the microstructure and properties of Cu-14Fe in situ composite
DOI:10.1016/j.msea.2010.04.051 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:11 AU: Liu, K. M.;Lu, D. P.;Zhou, H. T.;Atrens, A.;Zou, J.;Yang, Y. L.;Zeng, S. M.;
6:4:64:7 Microstructure refinement mechanism of Cu-7Cr in situ composites with trace Ag
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6:4:64:8 Influence of Ag micro-alloying on the microstructure and properties of Cu-7Cr in situ composite
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6:4:64:9 Studies of electrical resistivity of an annealed Cu-Fe composite
DOI:10.1063/1.4803716 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:4 AU: Qu, Lei;Wang, Engang;Han, Ke;Zuo, Xiaowei;Zhang, Lin;Jia, Peng;He, Jicheng;
6:4:64:10 Experiment and simulation on the thermal instability of a heavily deformed Cu-Fe composite
DOI:10.1016/j.msea.2010.12.015 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:5 AU: Qu, Lei;Wang, Engang;Zuo, Xiaowei;Zhang, Lin;He, Jicheng;
6:4:65:1 Influence of scandium on an Al-2% Si alloy processed by high-pressure torsion
DOI:10.1016/j.msea.2010.10.102 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:14 AU: Rajinikanth, V.;Venkateswarlu, K.;Sen, Mani Kuntal;Das, Mousami;Alhajeri, Saleh N.;Langdon, Terence G.;
6:4:65:2 Recycling of AlSi8Cu3 alloy chips via high pressure torsion
DOI:10.1016/j.msea.2012.09.045 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:2 AU: Abd El Aal, Mohamed Ibrahim;Yoon, Eun Yoo;Kim, Hyoung Seop;
6:4:65:3 The effect of extrusion and high-pressure torsion on the properties of Alumix-231
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6:4:65:4 Microstructural refinement and wear property of Al-Si-Cu composite subjected to extrusion and high-pressure torsion
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6:4:65:5 Improving mechanical properties of chip-based aluminum extrudates by integrated extrusion and equal channel angular pressing (iECAP)
DOI:10.1016/j.msea.2012.01.081 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:16 AU: Haase, M.;Ben Khalifa, N.;Tekkaya, A. E.;Misiolek, W. Z.;
6:4:65:6 Recycling of titanium machining chips by severe plastic deformation consolidation
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6:4:65:7 Adiabatic Shearing Localisation in High Strain Rate Deformation of Al-Sc Alloy
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6:4:66:1 Wear resistance and electroconductivity in copper processed by severe plastic deformation
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6:4:66:2 Correlation between wear resistance and subsurface recrystallization structure in copper
DOI:10.1016/j.wear.2012.07.008 JN:WEAR PY:2012 TC:13 AU: Yao, B.;Han, Z.;Lu, K.;
6:4:66:3 Effect of annealing on wear resistance and electroconductivity of copper processed by high-pressure torsion
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6:4:66:4 Wear mechanism transition dominated by subsurface recrystallization structure in Cu-Al alloys
DOI:10.1016/j.wear.2014.08.010 JN:WEAR PY:2014 TC:1 AU: Chen, X.;Han, Z.;Lu, K.;
6:4:66:5 Numerical modelling and experimental approach for surface morphology evaluation during ultrasonic shot peening
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6:4:66:6 Long-term self-annealing of copper and aluminium processed by high-pressure torsion
DOI:10.1007/s10853-014-8208-1 JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:0 AU: Zhilyaev, Alexander P.;Langdon, Terence G.;
6:4:66:7 Influence of processing parameters on wear resistance of nanostructured OFHC copper manufactured by large strain extrusion machining
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6:4:66:8 Surface alloying method of ultrasonic shot peening on iron surface
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6:4:66:9 Exploring the Limit of Dislocation Based Plasticity in Nanostructured Metals
DOI:10.1103/PhysRevLett.112.135504 JN:PHYSICAL REVIEW LETTERS PY:2014 TC:4 AU: Hughes, D. A.;Hansen, N.;
6:4:67:1 Cyclic deformation response of ultrafine pure Al
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6:4:67:2 Shear bands evolution in ultrafine-grained aluminium under cyclic loading
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6:4:67:3 The role of shear banding on the fatigue ductility of ultrafine-grained aluminium
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6:4:67:4 Formation of a high-cycle fatigue fracture surface and a crack growth mechanism of ultrafine-grained copper with different stages of microstructural evolution
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6:4:67:5 A composite nature of cyclic strain accommodation mechanisms of accumulative roll bonding (ARB) processed Cu sheet materials
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6:4:67:6 The Cyclic Deformation Behavior of Severe Plastic Deformation (SPD) Metals and the Influential Factors
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6:4:67:7 Grain growth in ultrafine grain sized copper during cyclic deformation
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6:4:67:8 Enhanced fatigue resistance of Cu with a gradient nanograined surface layer
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6:4:67:9 Strain rate effect on the cyclic deformation response of UFG Al alloys
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6:4:67:10 Strain incompatibility and its influence on grain coarsening during cyclic deformation of ARB copper
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6:4:67:11 Formation behavior of different topographies of crack growth path under high and low cyclic stresses in ultrafine-grained copper
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6:4:68:1 A systematic investigation of the mechanochemical decomposition of Ag oxalate in rod drop experiments
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6:4:68:2 Molecular dynamics of collisions between rough surfaces
DOI:10.1103/PhysRevB.82.205415 JN:PHYSICAL REVIEW B PY:2010 TC:14 AU: Delogu, F.;
6:4:68:3 Ag Nanoparticles from the Mechanochemical Decomposition of Ag Oxalate
DOI:10.1021/la301770f JN:LANGMUIR PY:2012 TC:6 AU: Delogu, Francesco;
6:4:68:4 Estimation of the mass of powder trapped at collision during ball milling from the kinetics of the mechanically activated decomposition of Ag oxalate
DOI:10.1016/j.matchemphys.2012.09.024 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:1 AU: Delogu, Francesco;
6:4:68:5 Mechanochemistry of Ti-C powder mixtures
DOI:10.1016/j.actamat.2014.08.036 JN:ACTA MATERIALIA PY:2014 TC:0 AU: Delogu, Francesco;Takacs, Laszlo;
6:4:68:6 Activation of self-sustaining high-temperature reactions by mechanical processing of Ti-C powder mixtures
DOI:10.1016/j.scriptamat.2013.03.033 JN:SCRIPTA MATERIALIA PY:2013 TC:0 AU: Delogu, Francesco;
6:4:68:7 Synthesis of Sn-Ag binary alloy powders by mechanical alloying
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6:4:68:8 Ag-Ni Janus nanoparticles by mechanochemical decomposition of Ag and Ni oxalates
DOI:10.1016/j.actamat.2013.11.028 JN:ACTA MATERIALIA PY:2014 TC:1 AU: Delogu, Francesco;
6:4:68:9 Room-temperature spontaneous magnetization in a nanostructured TiO2-Al system prepared by ball-milling
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6:4:68:10 Formation of a Al50Fe50 solid solution by mechanical alloying
DOI:10.1016/j.matchemphys.2012.01.073 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:0 AU: Delogu, Francesco;
6:4:68:11 Mechanochemical decomposition of Ag and Ni oxalates
DOI:10.1016/j.matchemphys.2014.05.041 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:0 AU: Delogu, Francesco;
6:4:69:1 Inhomogeneous microstructural evolution of pure iron during high-pressure torsion
DOI:10.1016/j.msea.2011.01.029 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:16 AU: Descartes, S.;Desrayaud, C.;Rauch, E. F.;
6:4:69:2 Microstructure and mechanical properties of IF steel deformed during plane stress local torsion
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6:4:69:3 An experimental-finite element analysis of the plane stress local torsion
DOI:10.1007/s10853-013-7352-3 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:2 AU: Khoddam, S.;Shamdani, A. H.;
6:4:69:4 Improvement of ductile iron wear resistance through local surface reinforcement
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6:4:69:5 A new test to study the cyclic hardening behaviour of a range of high strength rail materials
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6:4:69:6 Microstructure and mechanical properties of UFG medium carbon steel processed by HPT at increased temperature
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6:4:69:7 Mechanical behavior of a micro sized pillar fabricated from ultrafine-grained ferrite evaluated by a microcompression test
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6:4:69:8 An attempt to produce ex situ TTS to understand their mechanical formation conditions - The case of an ultra high purity iron
DOI:10.1016/j.wear.2011.01.089 JN:WEAR PY:2011 TC:3 AU: Descartes, S.;Busquet, M.;Berthier, Y.;
6:4:70:1 In situ determination of aging precipitation in deformed Fe-Cu and Fe-Cu-B-N alloys by time-resolved small-angle neutron scattering
DOI:10.1103/PhysRevB.82.174111 JN:PHYSICAL REVIEW B PY:2010 TC:13 AU: He, S. M.;van Dijk, N. H.;Paladugu, M.;Schut, H.;Kohlbrecher, J.;Tichelaar, F. D.;van der Zwaag, S.;
6:4:70:2 Thermally activated precipitation at deformation-induced defects in Fe-Cu and Fe-Cu-B-N alloys studied by positron annihilation spectroscopy
DOI:10.1103/PhysRevB.81.094103 JN:PHYSICAL REVIEW B PY:2010 TC:15 AU: He, S. M.;van Dijk, N. H.;Schut, H.;Peekstok, E. R.;van der Zwaag, S.;
6:4:70:3 Positron annihilation study on deformation-induced Au precipitation in Fe-Au and Fe-Au-B-N alloys
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6:4:70:4 Defect-induced Au precipitation in Fe-Au and Fe-Au-B-N alloys studied by in situ small-angle neutron scattering
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6:4:70:5 Positron annihilation study on repeated deformation/precipitation aging in Fe-Cu-B-N alloys
DOI:10.1007/s10853-013-7411-9 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:1 AU: He, S. M.;Brandhoff, P. N.;Schut, H.;van der Zwaag, S.;van Dijk, N. H.;
6:4:70:6 Preferential Au precipitation at deformation-induced defects in Fe-Au and Fe-Au-B-N alloys
DOI:10.1016/j.jallcom.2013.09.011 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:3 AU: Zhang, S.;Langelaan, G.;Brouwer, J. C.;Sloof, W. G.;Bruck, E.;van der Zwaag, S.;van Dijk, N. H.;
6:4:70:7 Positron annihilation study of ageing precipitation in deformed Fe-Cu-B-N-C
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6:4:70:8 Al-shape memory alloy self-healing metal matrix composite
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6:4:71:1 Microstructure and texture evolution in low carbon steel deformed by differential speed rolling (DSR) method
DOI:10.1007/s10853-014-8280-6 JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:1 AU: Hamad, Kotiba;Megantoro, Rachmad Bastian;Ko, Young Gun;
6:4:71:2 Annealing behavior of severely deformed IF steel via the differential speed rolling method
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6:4:71:3 Deformation, recrystallization and plastic anisotropy of asymmetrically rolled aluminum sheets
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6:4:71:4 Extraordinary high-strain rate superplasticity of severely deformed Al-Mg-Sc-Zr alloy
DOI:10.1016/j.msea.2012.01.041 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:17 AU: Avtokratova, E.;Sitdikov, O.;Markushev, M.;Mulyukov, R.;
6:4:71:5 Microstructure and texture evolution of copper processed by differential speed rolling with various speed asymmetry coefficient
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6:4:71:6 Superplasticity of the rolled and friction stir processed Al-4.5 Mg-0.35Sc-0.15Zr alloy
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6:4:71:7 Effect of process parameters on abnormal grain growth during friction stir processing of a cast Al alloy
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6:4:71:8 Asymmetric rolling of strip-cast Al-5.5Mg-0.3Cu alloy sheet: Effects on the formability and mechanical properties
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6:4:71:9 High-formability Al alloy sheet produced by asymmetric rolling of strip-cast sheet
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6:4:71:10 Texture-Induced Anisotropy in Asymmetrically Rolled Aluminium Alloys
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6:4:71:11 Annealing behavior of ultrafine grained structure in low-carbon steel produced by equal channel angular pressing
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6:4:72:1 Determining the minimum grain size in severe plastic deformation process via first-principles calculations
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6:4:72:2 Theoretical investigation of the omega-related phases in TiAl-Nb/Mo alloys
DOI:10.1103/PhysRevB.90.054109 JN:PHYSICAL REVIEW B PY:2014 TC:0 AU: Hu, Qing-Miao;Vitos, Levente;Yang, Rui;
6:4:72:3 Stacking fault energies of Mn, Co and Nb alloyed austenitic stainless steels
DOI:10.1016/j.actamat.2011.05.049 JN:ACTA MATERIALIA PY:2011 TC:18 AU: Lu, Song;Hu, Qing-Miao;Johansson, Borje;Levente Vitos;
6:4:72:4 First-principle calculation of stacking fault energies in Ni and Ni-Co alloy
DOI:10.1063/1.3585786 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:14 AU: Chandran, Mahesh;Sondhi, S. K.;
6:4:72:5 Basal-plane stacking fault energy of hexagonal close-packed metals based on the Ising model
DOI:10.1016/j.actamat.2012.10.023 JN:ACTA MATERIALIA PY:2013 TC:3 AU: Hu, Qing-Miao;Yang, Rui;
6:4:72:6 Interlayer potentials for fcc (111) planes of Pd-Ag random alloys
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6:4:72:7 Temperature dependence of stacking-fault and anti-phase boundary energies in Al3Sc from ab initio calculations
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6:4:73:1 Microstructure refinement and strengthening mechanisms of a 12Cr ODS steel processed by equal channel angular extrusion
DOI:10.1016/j.jallcom.2013.04.198 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:8 AU: Song, M.;Sun, C.;Jang, J.;Han, C. H.;Kim, T. K.;Hartwig, K. T.;Zhang, X.;
6:4:73:2 Response of equal channel angular extrusion processed ultrafine-grained T91 steel subjected to high temperature heavy ion irradiation
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6:4:73:3 Enhancement of strength and ductility in ultrafine-grained T91 steel through thermomechanical treatments
DOI:10.1007/s10853-013-7522-3 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:7 AU: Song, M.;Zhu, R.;Foley, D. C.;Sun, C.;Chen, Y.;Hartwig, K. T.;Zhang, X.;
6:4:73:4 Microstructural and mechanical properties of Al 7075 alloy processed by Equal Channel Angular Pressing
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6:4:73:5 Thermal stability of ultrafine grained Fe-Cr-Ni alloy
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6:4:73:6 Temperature and grain size dependent plastic instability and strain rate sensitivity of ultrafine grained austenitic Fe-14Cr-16Ni alloy
DOI:10.1016/j.msea.2014.01.003 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Sun, C.;Ma, J.;Yang, Y.;Hartwig, K. T.;Maloy, S. A.;Wang, H.;Zhang, X.;
6:4:73:7 Texture and mechanical properties of EUROFER 97 steel processed by ECAP
DOI:10.1016/j.msea.2011.04.006 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:4 AU: Eddahbi, M.;Monge, M. A.;Leguey, T.;Fernandez, P.;Pareja, R.;
6:4:73:8 On the coupled temperature-strain rate sensitivity of ultrafine-grained interstitial-free steel
DOI:10.1016/j.scriptamat.2010.05.026 JN:SCRIPTA MATERIALIA PY:2010 TC:3 AU: Canadinc, D.;Niendorf, T.;Maier, H. J.;
6:4:74:1 Evaluation of mechanical behavior of nano-grained 2024 Al alloy during high pressure torsion (HPT) process at various temperatures
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6:4:74:2 Hardness of Multi Wall Carbon Nanotubes reinforced aluminium matrix composites
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6:4:74:3 Strain-induced grain growth of cryomilled nanocrystalline Al in trimodal composites during forging
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6:4:74:4 Homogenization of ECAPed Al 2024 alloy through age-hardening
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6:4:74:5 Comparative studies on the microstructure and mechanical properties of bimodal and trimodal Al2024 based composites
DOI:10.1016/j.msea.2014.04.051 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Abdollahi, Alireza;Alizadeh, Ali;Baharvandi, Hamid Reza;
6:4:74:6 Composition and structure of nitrogen-containing dispersoids in trimodal aluminum metal-matrix composites
DOI:10.1007/s10853-010-4571-8 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:7 AU: Hofmeister, C.;Yao, B.;Sohn, Y. H.;Delahanty, T.;van den Bergh, M.;Cho, K.;
6:4:74:7 Evaluation of precipitation reaction in 2024 Al-Cu alloy through ultrasonic parameters
DOI:10.1016/j.msea.2011.01.112 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:7 AU: Kumaran, S. Muthu;
6:4:74:8 Identification of high temperature precipitation reactions in 2024 Al-Cu-Mg alloy through ultrasonic parameters
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6:4:74:9 Thermal stability of cryomilled nanocrystalline aluminum containing diamantane nanoparticles
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6:4:75:1 An evaluation of creep behavior in ultrafine-grained aluminum alloys processed by ECAP
DOI:10.1007/s10853-009-3975-9 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:16 AU: Kawasaki, Megumi;Sklenicka, Vaclav;Langdon, Terence G.;
6:4:75:2 Factors influencing creep flow and ductility in ultrafine-grained metals
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6:4:75:3 The effect of high hydrostatic pressure on creep behaviour of pure Al and a Cu-0.2 wt% Zr alloy processed by equal-channel angular pressing
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6:4:75:4 Effect of isothermal extrusion parameters on mechanical properties of Al-Si eutectic alloy
DOI:10.1016/j.msea.2011.05.009 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:5 AU: Deng, Lei;Wang, Xinyun;Xia, Juchen;Li, Jianjun;
6:4:75:5 Influence of Backpressure During ECAP on the Monotonic and Cyclic Deformation Behavior of AA5754 and Cu99.5
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6:4:75:6 Fatigue Damage Evolution in Ultrafine-Grained Interstitial-Free Steel
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6:4:75:7 Influence of the ECAP Processing Parameters on the Cyclic Deformation Behavior on Ultrafine-Grained Cubic Face Centered Metals
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6:4:75:8 Anticorrosion behavior of ultrafine-grained Al-26 wt% Si alloy fabricated by ECAP
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6:4:75:9 Room and high temperature ECAP processing of Al-10%Si alloy
DOI:10.1016/j.msea.2013.09.006 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:1 AU: Regina Cardoso, K.;Munoz-Morris, M. A.;Valdes Leon, K.;Morris, D. G.;
6:4:75:10 Effect of Sn content on the structural and mechanical properties of Al-Si alloy
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6:4:76:1 General relationship between strength and hardness
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6:4:76:2 Transmission electron microscopy of single and double aged 718Plus superalloy
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6:4:76:3 Microstructural investigation of thermally aged nickel-based superalloy 718Plus
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6:4:76:4 The microstructure of heat-treated nickel-based superalloy 718Plus
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6:4:76:5 Yield strength prediction in Ni-base alloy 718Plus based on thermo-kinetic precipitation simulation
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6:4:76:6 Modeling of the yield strength of a stainless maraging steel
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6:4:76:7 The Precipitation Behavior of Superalloy ATI Allvac 718Plus
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6:4:77:1 Effect of SPD and friction stir welding on microstructure and mechanical properties of Al-Cu-Mg-Ag sheets
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6:4:77:2 Microstructural stability of ultrafine grained cold sprayed 6061 aluminum alloy
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6:4:77:3 Effect of cold work and non-isothermal annealing on the recrystallization behavior and texture evolution of a precipitation-hardenable aluminum alloy
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6:4:77:4 Simulation of static softening behavior of an aluminum alloy after cold strip rolling
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6:4:77:5 In situ neutron diffraction analysis of grain structure during friction stir processing of an aluminum alloy
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6:4:77:6 Influence of the heating rate on the initiation of primary recrystallization in a deformed Al-Mg alloy
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6:4:77:7 A thermomechanical process for grain refinement in precipitation hardening AA6xxx aluminum alloys
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6:4:77:8 Development of Ultra-Fine Grained Structure in an Al-5.4 %Mg-0.5 %Mn Alloy Subjected to Severe Plastic Deformation
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6:4:77:10 Computational fluid dynamics studies on heat generation during friction stir welding of aluminum alloy
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6:4:77:11 In situ observation of microstrain relief in cold-sprayed bulk copper during thermal annealing
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6:4:78:1 Plastic strain localization in metals: origins and consequences
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6:4:78:2 Formation process and mechanical properties of 0.2% carbon steel with bimodal microstructures subjected to heavy-reduction single-pass hot/warm compression
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6:4:78:4 Molecular dynamical investigation on dislocation near twist-grain boundary of Ni under compression
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6:4:78:5 Fatigue damage of ultrafine-grain copper in very-high cycle fatigue region
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6:4:78:6 A probabilistic derivation of the effect of grain size on the dislocation free path in a deforming polycrystal
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6:4:78:7 Realistic micromechanical modeling of discontinuously reinforced composites
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6:4:79:1 Effects of equal channel angular pressing on the strength and toughness of Al-Cu alloys
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6:4:79:2 Shear banding observations in Cu-16 wt.% Ag alloy subjected to one-pass equal channel angular pressing
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6:4:79:3 Role of strain path change in grain refinement by severe plastic deformation: A case study of equal channel angular extrusion
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6:4:79:4 Modelling of equal channel angular pressing using a mesh-free method
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6:4:79:5 The effectiveness of Equal Channel Angular Pressing and rod rolling for refining microstructures and obtaining high strength in a Cu-Fe composite
DOI:10.1016/j.msea.2011.04.076 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:3 AU: Morris, D. G.;Munoz-Morris, M. A.;
6:4:79:6 Reversible nature of shear bands in copper single crystals subjected to iterative shear of ECAP in forward and reverse directions
DOI:10.1016/j.msea.2010.12.005 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:5 AU: Miyamoto, Hiroyuki;Ikeda, Takumi;Uenoya, Toshiyuki;Vinogradov, Alexei;Hashimoto, Satoshi;
6:4:79:7 Directionality of slip traces and banded structures in fcc materials processed by equal-channel angular extrusion
DOI:10.1016/j.scriptamat.2012.05.020 JN:SCRIPTA MATERIALIA PY:2012 TC:2 AU: Li, Saiyi;
6:4:79:8 Quantitative analysis of the influence of strain hardening on equal channel angular pressing process
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6:4:79:9 Misorientation Change of the Grain Boundary in Pure Copper Bicrystals Subjected to One-Pass Equal-Channel Angular Pressing
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6:4:79:10 Upper-bound analysis of die corner gap formation for strain-hardening materials in ECAP process
DOI:10.1016/j.commatsci.2014.05.012 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:0 AU: Medeiros, N.;Moreira, L. P.;
6:4:79:11 Effect of Grain Boundary Structure on Misorientation Change of Pure Copper Bicrystals Pressed by One-Pass Equal-Channel Angular Pressing
DOI:10.2320/matertrans.M2013076 JN:MATERIALS TRANSACTIONS PY:2013 TC:0 AU: Hirayama, Kentoku;Nagai, Kazuki;Fujiwara, Hiroshi;Miyamoto, Hiroyuki;
6:4:80:1 Strength and ductility-related properties of ultrafine grained two-phase titanium alloy produced by warm multiaxial forging
DOI:10.1016/j.msea.2011.12.102 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:18 AU: Zherebtsov, S.;Kudryavtsev, E.;Kostjuchenko, S.;Malysheva, S.;Salishchev, G.;
6:4:80:2 On the processing of hetero-nanostructured metals for improved strength/ductility balance by ECAE and SPS techniques
DOI:10.1016/j.jallcom.2010.03.035 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:11 AU: Grosdidier, T.;Goran, D.;Ji, G.;Llorca, N.;
6:4:80:3 Enhanced ductility in a bimodal ultrafine-grained Ti-6Al-4V alloy fabricated by high energy ball milling and spark plasma sintering
DOI:10.1016/j.msea.2014.04.057 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Long, Y.;Wang, T.;Zhang, H. Y.;Huang, X. L.;
6:4:80:4 In-depth quantitative analysis of the microstructures produced by Surface Mechanical Attrition Treatment (SMAT)
DOI:10.1016/j.matchar.2013.06.006 JN:MATERIALS CHARACTERIZATION PY:2013 TC:9 AU: Samih, Y.;Beausir, B.;Bolle, B.;Grosdidier, T.;
6:4:80:5 High-strength Ti-6Al-4V with ultrafine-grained structure fabricated by high energy ball milling and spark plasma sintering
DOI:10.1016/j.msea.2013.07.078 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:11 AU: Long, Yan;Zhang, Hongying;Wang, Tao;Huang, Xiaolong;Li, Yuanyuan;Wu, Jingshen;Chen, Haibin;
6:4:80:6 The mechanical behaviour of an ultrafine grained Ti-47Al-2Cr (at%) alloy in tension and compression and at different temperatures
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6:4:80:7 Influence of hydrogen content on tensile and compressive properties of Ti-6Al-4V alloy at room temperature
DOI:10.1016/j.msea.2010.03.052 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:12 AU: Yuan, B. G.;Li, C. F.;Yu, H. P.;Sun, D. L.;
6:4:80:8 Evolution of texture and microstructure in pulsed electro-deposited Cu treated by Surface Mechanical Attrition Treatment (SMAT)
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6:4:81:1 ODS ferritic steel engineered with bimodal grain size for high strength and ductility
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6:4:81:2 Synthesis, characterization and mechanical behaviour of an in situ consolidated nanocrystalline FeCrNi alloy
DOI:10.1007/s10853-011-5986-6 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:7 AU: Gupta, Rajeev K.;Darling, Kris S.;Raman, R. K. Singh;Ravi, K. R.;Koch, Carl C.;Murty, B. S.;Scattergood, R. O.;
6:4:81:3 Fabrication and oxidation resistance of nanocrystalline Fe10Cr alloy
DOI:10.1007/s10853-010-4665-3 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:10 AU: Gupta, Rajeev K.;Raman, R. K. Singh;Koch, Carl C.;
6:4:81:4 Electrochemical characteristics of nano and microcrystalline Fe-Cr alloys
DOI:10.1007/s10853-012-6529-5 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:5 AU: Gupta, Rajeev K.;Raman, R. K. Singh;Koch, C. C.;
6:4:81:5 The mechanical property of the oxide scale on Fe-Cr alloy steels
DOI:10.1016/j.jallcom.2012.09.064 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:4 AU: Yang, Chan-Woo;Kim, Jung-Hoon;Triambulo, Ross E.;Kang, Youn-Hee;Lee, Jong-Sub;Park, Jin-Woo;
6:4:81:6 Bimodal grain size distribution: an effective approach for improving the mechanical and corrosion properties of Fe-Cr-Ni alloys
DOI:10.1007/s10853-012-6686-6 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:5 AU: Mahesh, B. V.;Raman, R. K. Singh;Koch, C. C.;
6:4:81:7 Fe-Cr-Ni-Zr alloys with bi-modal grain size distribution: Synthesis, mechanical properties and oxidation resistance
DOI:10.1016/j.msea.2013.02.049 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: Mahesh, B. V.;Raman, R. K. Singh;Scattergood, R. O.;Koch, C. C.;
6:4:81:8 Modeling of critical grain size for shifting plasticity enhancement to decrease by refining grain size
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6:4:81:9 Resistance of nanocrystalline vis-a-vis microcrystalline Fe-Cr alloys to environmental degradation and challenges to their synthesis
DOI:10.1080/14786435.2010.484402 JN:PHILOSOPHICAL MAGAZINE PY:2010 TC:9 AU: Raman, R. K. Singh;Gupta, Rajeev K.;Koch, Carl C.;
6:4:81:10 Relationship between dislocations and residual stresses in cold-drawn pearlitic steel analyzed by energy-dispersive X-ray diffraction
DOI:10.1016/j.matchar.2013.06.017 JN:MATERIALS CHARACTERIZATION PY:2013 TC:5 AU: Sato, Shigeo;Wagatsuma, Kazuaki;Suzuki, Shigeru;Kumagai, Masayoshi;Imafuku, Muneyuki;Tashiro, Hitoshi;Kajiwara, Kentaro;Shobu, Takahiasa;
6:4:81:11 The effect of alloy compositions on the microstructure and the mechanical strength of oxide scales on four selected steels
DOI:10.1016/j.msea.2012.06.082 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:4 AU: Yang, Chan-Woo;Cho, Seung-Mok;Kang, Youn-Hee;Lee, Jong-Sub;Park, Jin-Woo;
6:4:82:1 Asymmetric accumulative roll bonding of aluminium-titanium composite sheets
DOI:10.1016/j.msea.2013.04.027 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:5 AU: Hoi Pang Ng;Przybilla, Thomas;Schmidt, Christian;Lapovok, Rimma;Orlov, Dmitry;Hoeppel, Heinz-Werner;Goeken, Mathias;
6:4:82:2 Plastic anisotropy of ultrafine grained aluminium alloys produced by accumulative roll bonding
DOI:10.1016/j.msea.2010.02.006 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:17 AU: Beausir, B.;Scharnweber, J.;Jaschinski, J.;Brokmeier, H. -G.;Oertel, C. -G.;Skrotzki, W.;
6:4:82:3 Confined recrystallization of high-purity aluminium during accumulative roll bonding of aluminium laminates
DOI:10.1016/j.actamat.2012.04.004 JN:ACTA MATERIALIA PY:2012 TC:6 AU: Chekhonin, Paul;Beausir, Benoit;Scharnweber, Juliane;Oertel, Carl-Georg;Hausoel, Tina;Hoeppel, Heinz Werner;Brokmeier, Heinz-Guenter;Skrotzki, Werner;
6:4:82:4 Flow stress analysis of ultrafine grained AA 1050 by plane strain compression test
DOI:10.1016/j.msea.2013.11.027 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Mohebbi, Mohammad Sadegh;Akbarzadeh, Abbas;Yoon, Young-Ok;Kim, Shae-Kwang;
6:4:82:5 Simulation of yield surfaces for aluminium sheets with rolling and recrystallization textures
DOI:10.1016/j.commatsci.2012.08.015 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:3 AU: Saai, A.;Dumoulin, S.;Hopperstad, O. S.;Lademo, O. -G.;
6:4:82:6 The impact of particle distributions and grain-level inhomogeneities on post-necking deformation and fracture in AA5754 sheet alloys during uniaxial tension
DOI:10.1016/j.msea.2010.11.051 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:5 AU: Hu, X. H.;Wilkinson, D. S.;Jain, M.;Wu, P. D.;Mishra, R. K.;
6:4:82:7 Electrochemical characteristics of a carbon fibre composite and the associated galvanic effects with aluminium alloys
DOI:10.1016/j.apsusc.2014.06.072 JN:APPLIED SURFACE SCIENCE PY:2014 TC:1 AU: Liu, Z.;Curioni, M.;Jamshidi, P.;Walker, A.;Prengnell, P.;Thompson, G. E.;Skeldon, P.;
6:4:82:8 Predicting tensile stretchability of trimmed AA6111-T4 sheets
DOI:10.1016/j.commatsci.2014.01.015 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:0 AU: Hu, X. H.;Sun, X.;Golovashchenko, S. F.;
6:4:83:1 Modeling the crystallographic texture changes in aluminum alloys during recrystallization
DOI:10.1016/j.actamat.2011.05.050 JN:ACTA MATERIALIA PY:2011 TC:14 AU: Sidor, Jurij J.;Petrov, Roumen H.;Kestens, Leo A. I.;
6:4:83:2 Modeling the crystallographic changes in processing of Al alloys
DOI:10.1007/s10853-014-8068-8 JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:1 AU: Sidor, Jurij J.;Petrov, Roumen H.;Kestens, Leo A. I.;
6:4:83:3 Influence of cold rolling reduction on the deformation behaviour and crystallographic orientation development
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6:4:83:4 Microstructural and texture changes in severely deformed aluminum alloys
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6:4:83:5 Analytical description of rolling textures in face-centred-cubic metals
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6:4:83:6 Direct correlation of deformation microstructures and cube recrystallization nucleation in aluminium
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6:4:83:7 Comparison between recrystallization mechanisms in copper and Ti-IF steel after a low amount of deformation
DOI:10.1016/j.msea.2011.01.075 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:6 AU: Samet-Meziou, A.;Helbert-Etter, A. L.;Baudin, T.;
6:4:83:8 Reinforcement of the Cube texture during recrystallization of a 1050 aluminum alloy partially recrystallized and 10% cold-rolled
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6:4:84:1 Effect of grain size on strain rate sensitivity of cryomilled Al-Mg alloy
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6:4:84:2 Effects of stretching processing parameters on the mean elongation ratio and maximum spread ratio of heavy forgings
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6:4:84:3 Effect of forging on the microstructure and tensile properties of 2024Al/Al(18)B(4)O(33)w composite
DOI:10.1016/j.msea.2014.07.092 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Shi, W. C.;Yuan, L.;Zheng, Z. Z.;Shan, D. B.;
6:4:84:4 Towards electroformed nanostructured aluminum alloys with high strength and ductility
DOI:10.1557/jmr.2012.105 JN:JOURNAL OF MATERIALS RESEARCH PY:2012 TC:4 AU: Ruan, Shiyun;Schuh, Christopher A.;
6:4:84:5 Mechanical and dry sliding wear behavior of ultrafine-grained AISI 1024 steel processed using multiaxial forging
DOI:10.1007/s10853-010-4430-7 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:7 AU: Padap, A. K.;Chaudhari, G. P.;Nath, S. K.;
6:4:84:6 Evolution of texture during hot rolling of aluminum borate whisker-reinforced 6061 aluminum alloy composite
DOI:10.1016/j.msea.2010.12.103 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:5 AU: Xu, S. C.;Wang, L. D.;Zhao, P. T.;Li, W. L.;Xue, Z. W.;Fei, W. D.;
6:4:84:7 A study of hot rolling of 6061 aluminum alloy matrix composite reinforced with SnO2-coated Al18B4O33 whisker
DOI:10.1016/j.msea.2012.04.048 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:2 AU: Xu, S. C.;Wang, L. D.;Zhao, P. T.;Li, W. L.;Fei, W. D.;
6:4:84:8 Studies on cold upsetting behaviour of AA2014-based metal matrix composites, FEM simulation, and comparison with experimental results
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6:4:84:9 Microstructure Characterization and Thermal Stability of Nanocrystalline Cu Powders Processed via Cryomilling
DOI:10.2320/matertrans.M2011374 JN:MATERIALS TRANSACTIONS PY:2012 TC:0 AU: Liu, Jingchun;Cui, Hua;Zhou, Xianglin;Zhang, Jishan;
6:4:84:10 Fiber texture evolution of hot-rolled aluminum matrix composite reinforced by aluminum borate whisker
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6:4:84:11 Microstructural evolution and mechanical behavior of warm multi-axially forged HSLA steel
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6:4:84:12 Equicohesive temperature of the interface and matrix and its effect on the tensile plasticity of Al18B4O33 whiskers reinforced aluminum composite at elevated temperatures
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6:4:85:1 Abnormal grain growth of Goss grains in Fe-3% Si steel driven by sub-boundary-enhanced solid-state wetting: Analysis by Monte Carlo simulation
DOI:10.1016/j.actamat.2010.04.038 JN:ACTA MATERIALIA PY:2010 TC:21 AU: Ko, Kyung-Jun;Rollett, Anthony D.;Hwang, Nong-Moon;
6:4:85:2 Three-dimensional Monte Carlo simulation for the effect of precipitates and sub-boundaries on abnormal grain growth
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6:4:85:3 Sub-boundaries in abnormally growing Goss grains in Fe-3% Si steel
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6:4:85:4 Parallel three-dimensional Monte Carlo simulations for effects of precipitates and sub-boundaries on abnormal grain growth of Goss grains in Fe-3% Si steel
DOI:10.1080/14786435.2013.822645 JN:PHILOSOPHICAL MAGAZINE PY:2013 TC:2 AU: Park, Chang-Soo;Na, Tae-Wook;Kang, Jul-Ki;Lee, Byeong-Joo;Han, Chan-Hee;Hwang, Nong-Moon;
6:4:85:5 Irregular or Smooth Grain Boundaries Evolved after Secondary Recyrstallization of Fe-3%Si Steel
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6:4:85:6 Pancake-shaped growth of abnormally-growing Goss grains in Fe-3%Si steel approached by solid-state wetting
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6:4:85:7 Deformation Feature of Goss Grains in Fe-3%Si Steel Focused on Stored Energy after Cold Rolling
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6:4:86:1 Strengthening study on 6082 Al alloy after combination of aging treatment and ECAP process
DOI:10.1016/j.msea.2010.04.017 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:31 AU: Dadbakhsh, S.;Taheri, A. Karimi;Smith, C. W.;
6:4:86:2 Formability and failure mechanisms of AA2024 under hot forming conditions
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6:4:86:3 Investigation on strengthening of 6A02 aluminum alloy sheet in hot forming-quenching integrated process with warm forming-dies
DOI:10.1016/j.msea.2013.08.059 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:8 AU: Fan, Xiaobo;He, Zhubin;Yuan, Shijian;Lin, Peng;
6:4:86:4 Experimental investigation on hot forming-quenching integrated process of 6A02 aluminum alloy sheet
DOI:10.1016/j.msea.2013.02.058 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:10 AU: Fan, Xiaobo;He, Zhubin;Yuan, Shijian;Zheng, Kailun;
6:4:86:5 Continuous cooling precipitation diagrams of Al-Mg-Si alloys
DOI:10.1016/j.msea.2012.04.033 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:21 AU: Milkereit, Benjamin;Wanderka, Nelia;Schick, Christoph;Kessler, Olaf;
6:4:86:6 New Developments of Hydroforming in China
DOI:10.2320/matertrans.MF201122 JN:MATERIALS TRANSACTIONS PY:2012 TC:8 AU: Yuan, Shijian;He, Zhubin;Liu, Gang;
6:4:86:7 Two-Step Die Motion for Die Quenching of AA2024 Aluminum Alloy Billet on Servo Press
DOI:10.2320/matertrans.L-M2014806 JN:MATERIALS TRANSACTIONS PY:2014 TC:0 AU: Jeon, Jae-Yeol;Matsumoto, Ryo;Utsunomiya, Hiroshi;
6:4:86:8 New evidence on the nature of the metastable S ''-phase on Al-Cu-Mg alloys
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6:4:86:9 Precipitation in a Nanograined 7475 Aluminium Alloy-Processing, Properties and Nanoanalysis
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6:4:87:1 Severe deformation twinning in pure copper by cryogenic wire drawing
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6:4:87:2 Direct synthesis of amorphous carbon nanotubes on Fe76Si9B10P5 glassy alloy particles
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6:4:87:3 Dependence of texture evolution on initial orientation in drawn single crystal copper
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6:4:87:4 Properties of cryo-drawn copper with severely twinned microstructure
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6:4:87:5 Thermal dependence of the wear of molybdenum disulphide coatings
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6:4:87:6 Experimental and numerical investigations of the texture evolution in copper wire drawing
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6:4:87:7 Glow discharge plasma as a surface preparation tool for microstructure investigations
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6:4:89:1 Microstructural evolution during extrusion of a Ti/Al/Al35V65 (Ti-6Al-4V) powder compact and the mechanical properties of the extruded rod
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6:4:89:5 Characterization of Ni-Ti shape memory alloys prepared by powder metallurgy
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6:4:89:6 Observation of High Resolution Microstructures in Thermal Sprayed Coatings and Single Deposited Splats Using Ion Beam Milling
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6:4:89:8 Design and verification of thermomechanical parameters of P/M Ti6Al4V alloy forging
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6:4:89:9 Mechanical properties of porous metastable beta Ti-Nb-Zr alloys for biomedical applications
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6:4:90:1 Effect of carbon content on formation of bimodal microstructure and mechanical properties of low-carbon steels subjected to heavy-reduction single-pass hot/warm deformation
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6:4:90:2 Change in microstructures and mechanical properties during deep wire drawing of copper
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6:4:90:3 Mechanical, microstructural and electrical evolution of commercially pure copper processed by equal channel angular extrusion
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6:4:90:4 Thermal stability of ultrafine-grained copper during high speed micro-extrusion
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6:4:90:5 Changes in Mechanical Characteristics of Pre-Annealed Wires of Cu-Sn Alloy Manufactured by Continuous Draw Bending
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6:4:91:2 The effect of residual stress relaxation by the vibratory stress relief technique on the textures of grains in AA 6061 aluminum alloy
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6:4:91:4 In-situ scanning electron microscopy studies of small fatigue crack growth in ultrasonic consolidation bonded aluminum 2024 laminated structure
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6:4:91:5 Understanding acoustoplasticity through dislocation dynamics simulations
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6:4:91:6 Relationships between rolled grain shape, deformation bands, microstructures and recrystallization textures in Al-5%Mg
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6:4:91:7 A thermomechanical crystal plasticity constitutive model for ultrasonic consolidation
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6:4:91:9 The continuous stiffness measurement technique in nanoindentation intrinsically modifies the strength of the sample
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6:4:91:10 The effect of tensile deformation by in situ ultrasonic treatment on the microstructure of low-carbon steel
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6:4:92:2 Temperature dependency of mechanical behavior and strain rate sensitivity of an Al-Mg alloy with bimodal grain size
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6:4:92:3 Mechanical behavior of bulk nanocrystalline copper alloys produced by high energy ball milling
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6:4:92:7 Machining of coarse grained and ultra fine grained titanium
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6:4:92:8 Heterogeneous plastic deformation in bimodal bulk ultrafine-grained nickel
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6:4:93:3 Resonant ultrasound spectroscopy for a sample with cantilever boundary condition using Rayleigh-Ritz method
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6:4:93:8 Frequency Domain Characteristics of Laser Surface Acoustic Waves in Healthy Incisor and Initial Dental Caries
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6:4:94:4 Effect of initial notch orientation on fracture toughness in fail-safe steel
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6:4:95:3 Study on the feasibility of the torsion extrusion (TE) process as a severe plastic deformation method for consolidation of Al powder
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6:4:95:4 Three-dimensional finite element analysis of torsion extrusion (TE) as an SPD process
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6:4:95:6 Deformation rate effect on the microstructure and mechanical properties of Al-SiCp composites consolidated by hot extrusion
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6:4:95:7 Effect of SiC-Reinforcement and Equal-Channel Angular Pressing on Microstructure and Mechanical Properties of AA2017
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6:4:95:8 The study of the precipitation process in Al-Cu-Mg/bagasse ash particulate composites
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6:4:96:1 Microstructure and vacancy-type defects of high-pressure torsion deformed Al-3wt%Cu alloy
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6:4:96:2 Effect of Homogenization Treatment on the Microstructure and Mechanical Property Evolutions of As-Cast Al-Cu Alloy during High-Pressure Torsion
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6:4:96:8 Charging-induced defect formation in LixCoO2 battery cathodes studied by positron annihilation spectroscopy
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6:4:97:2 A systematic study of grain refinement during impact of 4340 steel
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6:4:97:3 Effect of prior heat treatment on the dynamic impact behavior of 4340 steel and formation of adiabatic shear bands
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6:4:97:6 Microstructure of adiabatic shear bands in Ti6Al4V
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6:4:97:7 The effects of microstructure, strain rates and geometry on dynamic impact response of a carbon-manganese steel
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6:4:98:2 Cu-Nb Nanocomposite Wires Processed by Severe Plastic Deformation: Effects of the Multi-Scale Microstructure and Internal Stresses on Elastic-Plastic Properties
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6:4:98:4 In situ neutron diffraction measurement of residual stress relaxation in a welded steel pipe during heat treatment
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6:4:98:5 Local strain matching between Nb nanowires and a phase transforming NiTi matrix in an in-situ composite
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6:4:98:6 Nb3Sn nucleation and growth in multifilament superconducting strands monitored by high resolution synchrotron diffraction during in situ reaction
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6:4:98:7 The Bauschinger effect in drawn and annealed nanocomposite Cu-Nb wires
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6:4:99:1 Change of anisotropic tensile strength due to amount of severe plastic deformation in aluminum 2024 alloy
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6:4:99:2 Assessment of tensile strength using small punch test for transversely isotropic aluminum 2024 alloy produced by equal channel angular pressing
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6:4:99:3 Assessment of anisotropic tensile strength using a modified shear punch test for Cu-Cr-Zr alloy processed by severe plastic deformation
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6:4:99:4 Size effect criteria on the small punch test for AISI 316L austenitic stainless steel
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6:4:99:5 Shear banding during cyclic deformation of sub-microcrystalline nickel
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6:4:99:6 Formation of micro shear bands during cyclic deformation of sub-microcrystalline nickel
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6:4:99:7 Computational and analytical prediction of the elastic modulus and yield stress in particulate-reinforced metal matrix composites
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6:4:99:8 Assessment of tensile properties of spot welds using shear punch test
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6:4:100:1 Grain boundary sliding in ultrafine grained aluminum under tension at room temperature
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6:4:100:2 The effect of microstructure heterogeneity on the microscale deformation of ultrafine-grained aluminum
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6:4:100:3 Tensile behavior and deformation mechanisms of ultrafine-grained aluminum processed using equal-channel angular pressing
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6:4:100:4 Deformation-induced grain coalescence in an electrodeposited pure iron sheet studied by in situ neutron diffraction and electron backscatter diffraction
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6:4:100:5 Effect of strain rate on deformation mechanism for ultrafine-grained interstitial-free steel
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6:4:100:6 Activation parameters and deformation mechanisms of ultrafine-grained copper under tension at moderate temperatures
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6:4:101:1 Mechanical properties and fracture characteristics of high carbon steel after equal channel angular pressing
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6:4:101:2 Cyclic Deformation Behavior of a 316L Austenitic Stainless Steel Processed by High Pressure Torsion
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6:4:101:3 Influence of morphology and structural size on the fracture behavior of a nanostructured pearlitic steel
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6:4:101:4 Preparation and microstructure characteristics of low-temperature bainite in surface layer of low carbon gear steel
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6:4:101:5 Microstructure properties of tempered D6ac steel
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6:4:101:6 Microstructure and mechanical properties of spheroidized D6AC steel
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6:4:101:7 Influence of austempering temperature on the mechanical properties of a low carbon low alloy steel
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6:4:102:1 The microstructural basis for the mechanical properties and electrical resistivity of nanocrystalline Cu-Al2O3
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6:4:102:2 Microstructural development and mechanical properties of nanostructured copper reinforced with SiC nanoparticles
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6:4:102:3 Processing, characterization and properties of copper-based composites strengthened by low amount of alumina particles
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6:4:102:4 The effects of equal channel angular extrusion on the mechanical and electrical properties of alumina dispersion-strengthened copper alloys
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6:4:102:5 Factors controlling the tensile properties of ultrafine structured Cu-5vol%Al2O3 nanocomposite prepared by high energy mechanical milling and powder compact extrusion
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6:4:102:6 Consolidation of ultrafine-grained Cu powder and nanostructured Cu-(2.5-10) vol%Al2O3 composite powders by powder compact forging
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6:4:102:7 Compressive yield strength of the nanocrystalline Cu with Al2O3 dispersoid
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6:4:102:8 Anisotropy effects on the tensile and fatigue behaviour of an oxide dispersion strengthened copper alloy
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6:4:103:1 Superior fatigue crack growth resistance, irreversibility, and fatigue crack growth-microstructure relationship of nanocrystalline alloys
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6:4:103:2 Effect of alloying composition on low-cycle fatigue properties and microstructure of Fe-30Mn-(6-x)Si-xAl TRIP/TWIP alloys
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6:4:103:3 Mapping of 475 degrees C embrittlement in ferritic Fe-Cr-Al alloys
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6:4:103:4 Determination of alpha/gamma phase boundaries in the Fe-Cr-Ni-Mn quaternary system with a diffusion-multiple method
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6:4:103:5 High temperature fatigue crack growth of Haynes 230
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6:4:104:1 Improvement of strength and conductivity in Cu-alloys with the application of high pressure torsion and subsequent heat-treatments
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6:4:104:2 Effect of deformation schedules and initial states on structure and properties of Cu-0.18% Zr alloy after high-pressure torsion and heating
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6:4:104:3 Microstructure evolution of CuZr polycrystals processed by high-pressure torsion
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6:4:104:4 The effect of alloying with hafnium on the thermal stability of chromium bronze after severe plastic deformation
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6:4:104:5 Recrystallisation and bonding behaviour of ultra fine grained copper and Cu-Cr-Zr alloy using ECAP
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6:4:105:1 Characterizing deformed ultrafine-grained and nanocrystalline materials using transmission Kikuchi diffraction in a scanning electron microscope
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6:4:105:2 Grain size effect on deformation twinning propensity in ultrafine-grained hexagonal close-packed titanium
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6:4:105:3 Nano twins in ultrafine-grained Ti processed by dynamic plastic deformation
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6:4:105:4 Dual-phase nanocrystalline Ni-Co alloy with high strength and enhanced ductility
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6:4:106:1 A new cluster-type model for the simulation of textures of polycrystalline metals
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6:4:106:2 A hierarchical multi-scale model for hexagonal materials taking into account texture evolution during forming simulation
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6:4:106:3 Hierarchical multi-scale modeling of texture induced plastic anisotropy in sheet forming
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6:4:106:4 Control of texture and earing in aluminium alloy AA 3105 sheet for packaging applications
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6:4:106:5 Polycrystal plasticity models based on crystallographic and morphologic texture: Evaluation of predictions of plastic anisotropy and deformation texture
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6:4:106:6 Texture and anisotropy in the Al-Mg alloy AA 5005-Part I: Texture evolution during rolling and recrystallization
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6:4:106:7 Texture and anisotropy in the Al-Mg alloy AA 5005-Part II: Correlation of texture and anisotropic properties
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6:4:106:8 Modeling the mechanical response of polycrystals deforming by climb and glide
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6:4:107:1 The role of stress state on the fracture toughness and toughening mechanisms of wrought molybdenum and molybdenum alloys
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6:4:107:2 The transverse elongation and fracture mechanism of the upset Mo and Mo-La2O3 bars
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6:4:107:3 The effect of texture and microstructure on the properties of Mo bars
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6:4:107:4 Nanostructured high-strength molybdenum alloys with unprecedented tensile ductility
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6:4:107:5 The microstructure and texture of Mo-La2O3 alloys with high transverse ductility
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6:4:107:6 The reciprocal relationship of orientation dependence of the dislocation boundaries in body-centered cubic metals and face-centered cubic metals
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6:4:107:7 The Banded Structure and Its Effects on the Transverse Elongation and Textures of Mo Bars
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6:4:107:8 Orientation dependence of the dislocation microstructure in compressed body-centered cubic molybdenum
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6:4:107:9 Preparation and characterization of sintered molybdenum doped with MoSi2/La2O3/Y2O3 composite particle
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6:4:108:1 Continuous ECAP process design for manufacturing a microstructure-refined bolt
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6:4:108:2 Microstructure optimization of austenitic Alloy 800H (Fe-21Cr-32Ni)
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6:4:108:3 Manufacturing of Nanostructured Rings from Previously ECAE-Processed AA5083 Alloy by Isothermal Forging
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6:4:108:4 The effect of microstructure and texture evolution on mechanical properties of low-carbon steel processed by the continuous hybrid process
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6:4:108:5 Investigations on the high temperature properties of a superalloy after microstructure engineering
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6:4:108:6 High-strength bolt-forming of fine-grained aluminum alloy 6061 with a continuous hybrid process
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6:4:108:7 High Strength Bolt Manufacturing of Ultra-Fine Grained Aluminium Alloy 6061
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6:4:109:1 Mechanism of weld formation during very-high-power ultrasonic additive manufacturing of Al alloy 6061
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6:4:109:2 A study of subgrain formation in Al 3003 H-18 foils undergoing ultrasonic additive manufacturing using a dislocation density based crystal plasticity finite element framework
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6:4:109:3 Bonding characteristics during very high power ultrasonic additive manufacturing of copper
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6:4:109:4 Characterization of interfacial microstructures in 3003 aluminum alloy blocks fabricated by ultrasonic additive manufacturing
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6:4:109:5 Influence of Crystallography on Shear-Band Formation in FCC Metals
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6:4:109:7 Effect of dislocation hardening on monotonic and cyclic strength of severely deformed copper
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6:4:109:8 A study of subgrain formation in Al 3003 H-18 foils undergoing ultrasonic additive manufacturing using a dislocation density based crystal plasticity finite element framework (vol 113, 203517, 2013)
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6:4:110:1:1 Significant influence of particle surface oxidation on deposition efficiency, interface microstructure and adhesive strength of cold-sprayed copper coatings
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6:4:110:1:2 Deposition behavior of thermally softened copper particles in cold spraying
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6:4:110:1:3 A hybrid approach to determine critical and erosion velocities in the cold spray process
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6:4:110:2:1 Influence of oxide chemistry of feedstock on cold sprayed Cu coatings
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6:4:110:2:2 Relationship between particle size and deformation in the cold spray process
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6:4:110:2:3 Effect of Sn particle size on the intermetallic compound formations of cold sprayed Sn-Ni coatings
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6:4:110:2:4 Investigation of Cu coatings deposited by kinetic metallization
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6:4:110:3:1 Effect of substrate hardness on the deformation behavior of subsequently incident particles in cold spraying
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6:4:110:3:2 Deformation behavior of the oxide film on the surface of cold sprayed powder particle
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6:4:110:3:3 Interface bonding between particle and substrate during HVOF spraying
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6:4:111:1 Comparisons of dry sliding tribological behaviors between coarse-grained and nanocrystalline copper
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6:4:111:2 Microstructure evolution and mechanical properties of nanocrystalline zirconium processed by surface circulation rolling treatment
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6:4:111:3 Atomistic scale tribological behaviors in nano-grained and single crystal copper systems
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6:4:111:4 Processing and properties of bulk ultrafine-grained pure niobium
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6:4:112:1 Different strain-rate dependent compressive properties and work-hardening capacities of 50 vol% TiCx/Al and TiB2/Al composites
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6:4:112:2 Effects of strain rate on tensile properties of pure Mg and in situ AIN reinforced Mg-5Al composite
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6:4:112:3 Effect of strain rate on tensile and compression behaviour of Al-Si/graphite composite
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6:4:112:4 High volume fraction TiCx/Al composites with good comprehensive performance fabricated by combustion synthesis and hot press consolidation
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6:4:112:5 Effects of TiB2 content and alloy elements (Mg, Mo, V) on the compression properties of high-volume-fraction TiB2/Al composites
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6:4:112:6 Effects of alloy elements (Mg, Zn, Sn) on the microstructures and compression properties of high-volume-fraction TiCx/Al composites
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6:4:113:1 Three Nb single crystals processed by equal-channel angular pressing-Part I: Dislocation substructure
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6:4:113:2 Three Nb single crystals processed by equal-channel angular pressing-Part II: Mesoscopic bands
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6:4:113:3 EBSD characterization of an ECAP deformed Nb single crystal
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6:4:113:4 Local texture and microstructure in cube-oriented nickel single crystal deformed by equal channel angular extrusion
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6:4:114:1 General relation between tensile strength and fatigue strength of metallic materials
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6:4:114:2 Study on fatigue property of a new 2.8 GPa grade maraging steel
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6:4:114:3 Fatigue strengths of Cu-Be alloy with high tensile strengths
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6:4:114:4 Effect of loading type on fatigue properties of high strength bearing steel in very high cycle regime
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6:4:114:5 Tensile and fatigue properties of ultrafine-grained low-carbon steel processed by equal channel angular pressing
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6:4:114:6 Statistical description of the effect of Zr addition on the behavior of microcracks in Cu-6Ni-2Mn-2Sn-2Al Alloy
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6:4:115:1 Quantifying the progression of dynamic recrystallization in severe shear deformation at high strain rates
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6:4:115:2 Mapping subgrain sizes resulting from severe simple shear deformation
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6:4:115:3 Microstructure evolution during severe shear deformation at small length-scales
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6:4:115:4 Effect of strain rate in severe plastic deformation on microstructure refinement and stored energies
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6:4:116:1 Preparation of Spherical Titanium Powders from Polygonal Titanium Hydride Powders by Radio Frequency Plasma Treatment
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6:4:116:2 Cold compaction study of Armstrong Process (R) Ti-6Al-4V powders
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6:4:116:3 Effects of gamma ' Precipitation on the Structure and Properties of 713LC Superalloy via HIP Treatment
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6:4:116:4 Induction plasma synthesis of nanometric spheroidized glass powder for use in cementitious materials
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6:4:116:5 Cold compaction behavior of nano-structured Nd-Fe-B alloy powders prepared by different processes
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6:4:116:6 Influences of gamma '' and delta Precipitations on the Microstructural Properties of 718 Alloy through HIP, Solid-Solution, and Different Aging Heat Treatments
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6:4:116:7 A comparative study of laser direct metal deposition characteristics using gas and plasma-atomized Ti-6Al-4V powders
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6:4:117:1 Phenomenological description and temperature dependence of serrated flow in Ni-10Pd during high temperature instrumented microindentation
DOI:10.1016/j.msea.2012.06.007 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:2 AU: Gan, Bin;Tin, Sammy;
6:4:117:2 Unstable plastic flow in the Al-2%Mg alloy, effect of annealing process
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6:4:117:3 Compositional dependence of serrated flow in nickel binary solid solutions during high-temperature microindentation
DOI:10.1080/14786435.2014.903341 JN:PHILOSOPHICAL MAGAZINE PY:2014 TC:0 AU: Gan, Bin;Tin, Sammy;
6:4:117:4 Crossover from continuous to discontinuous propagation in the Portevin-Le Chatelier effect
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6:4:117:5 Rate dependence of the serrated flow in Ni-10Pd during high temperature instrumented microindentation
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6:4:117:6 Assessment of the effectiveness of transition metal solutes in hardening of Ni solid solutions
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6:4:118:1 Measurements of mechanical properties of alpha-phase in Cu-Sn alloys by using instrumented nanoindentation
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6:4:118:2 Friction and wear of PEEK composites in vacuum environment
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6:4:118:3 The friction and wear properties of CuZn39Pb3 alloys under atmospheric and vacuum conditions
DOI:10.1016/j.wear.2013.10.003 JN:WEAR PY:2014 TC:3 AU: Kucukomeroglu, Tevfik;Kara, Levent;
6:4:118:4 Evaluation of effect of alloy elements in copper based CuSn10 and CuZn30 bearings on tribological and mechanical properties
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6:4:118:5 Enhancing the lifetime of MoS2-lubricated ball bearings
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6:4:118:6 Techniques employed in making ancient thin-walled bronze vessels unearthed in Hubei Province, China
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6:4:118:7 Friction and wear behavior of copper matrix composite for spacecraft rendezvous and docking under different conditions
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6:4:119:1 Characterisation of Conform (TM) and conventionally extruded Al-4Mg-1Zr. Effect of extrusion route on superplasticity
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6:4:119:2 Texture evolution in an Al-Cu alloy during equal channel angular pressing: the effect of starting microstructure
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6:4:119:3 Influence of subsequent cold work on the superplastic properties of a friction stir welded (FSW) aluminium alloy
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6:4:119:4 Superplastic deformation mechanism and mechanical behavior of a laser-welded Ti-6Al-4V alloy joint
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6:4:119:5 Microstructure and mechanical properties of Al-Cu-Mg alloy tube fabricated by friction stir welding and tube spinning
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6:4:119:6 Development of microstructure and properties during the multiple extrusion and consolidation of Al-4Mg-1Zr
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6:4:120:1 Optimizing the strength and ductility of AZ91 Mg alloy by ECAP and subsequent aging
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6:4:120:2 Effect of rolling temperature on the evolution of defects and properties of an Al-Cu alloy
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6:4:120:3 Mechanical properties and precipitate behavior of Mg-9Al-1Zn alloy processed by equal-channel angular pressing and aging
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6:4:120:4 Effects of aging treatment on microstructure and mechanical property of an AZ80N magnesium alloy
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6:4:120:5 Evaluating the room temperature mechanical properties of age hardened AZ80 magnesium alloy using shear punch testing method
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6:4:121:1 Work hardening in ultrafine-grained titanium: Multilayering and grading
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6:4:121:2 Ti-based amorphous/nanocrystal composite with high ductility and strain-hardening
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6:4:121:3 Stable shear of Cu46Zr47Al7 bulk metallic glass alloy by controlling temperature rise
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6:4:122:1 Comparative hot deformation characters of Al-Mn-Mg-RE alloy and Al-Mn-Mg-RE-Ti alloy
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6:4:122:2 Flow stress and microstructural evolution of the horizontal continuous casting Al-0.96Mn-0.38Si-0.18Fe alloy during hot compression
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6:4:122:3 Influence of Si and Fe on the distribution of intermetallic compounds in twin-roll cast Al-Mn-Zr alloys
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6:4:123:1 Grain boundary glasses in silicon nitride: A review of chemistry, properties and crystallisation
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6:4:123:2 High strain rate induced localized amorphization in cubic BN/NiCrAl nanocomposite through high velocity impact
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6:4:123:3 Dynamic behavior of nanometer-scale amorphous intergranular film in silicon nitride by in situ high-resolution transmission electron microscopy
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6:4:123:4 Dramatic influence of interface chemical potentials on the oxidation of silicon and carbon based compounds
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6:4:123:5 Chemical Potential-Based Analysis for the Oxidation Kinetics of Si and SiC Single Crystals
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6:4:124:1 Electrochemical behavior of anodized AA7075-T73 alloys as affected by the matrix structure
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6:4:124:2 Electrochemical behavior of anodized AA6063-T6 alloys affected by matrix structures
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6:4:124:3 The Effects of Anodization Treatment on the Microstructure and Fatigue Behavior of 7075-T73 Aluminum Alloy
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6:4:124:4 Effects of the hydrogen content on the development of anodic aluminum oxide film on pure aluminum
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6:4:125:1 Microstructural evolution in adiabatic shear band in the ultrafine-grained austenitic stainless steel processed by multi-axial compression
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6:4:125:2 The effect of bainite in producing nano/ultrafine grained steel by the martensite treatment
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6:4:125:3 Development of ultrafine grains in C-Mn steel plates through hot-rolling and air-cooling
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6:4:125:4 Monte Carlo simulation of grain growth in heat-affected zone of 12 wt.% Cr ferritic stainless steel hybrid welds
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6:4:126:1 Grain boundary phase transformation in Cu-Co solid solutions
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6:4:126:2 Grain boundary wetting and premelting in the Cu-Co alloys
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6:4:126:3 Diffusional creep in Cu-Fe solid solutions
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6:4:126:4 Adsorption and surface tension isotherms for non-ideal solid solutions
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6:4:127:1 Assessment of the depth dependence of the indentation stress during constant strain rate nanoindentation of 70/30 brass
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6:4:127:2 The sharpness of a Berkovich indenter
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6:4:127:3 Use of an atomic force microscope for the metrological verification of the reference standards of instrumented indentation tests
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6:4:128:1 Role of particles on microstructure and mechanical properties of the severely processed 7075 aluminium alloy
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6:4:128:2 Evolution of the microstructure, texture and creep properties of the 7075 aluminium alloy during hot accumulative roll bonding
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6:4:129:1 Intrinsically Ductile Failure in a Nanocrystalline Beta Titanium Alloy
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6:4:129:2 Ultrahigh strength of nanocrystalline iron-based alloys produced by high-pressure torsion
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6:4:130:1 Atomic diffusion behavior in Cu-Al explosive welding process
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6:4:130:2 Specific wave interface and its formation during magnetic pulse welding
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6:4:130:3 Mechanical property and microstructure of aluminum alloy-steel tubes joint by magnetic pulse welding
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6:4:130:4 Testing of explosive welding and welded joints. The microstructure of explosive welded joints and their mechanical properties
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6:4:131:1 The evolution of tribolayers during high temperature sliding wear
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6:4:131:2 Wear mechanism study of exhaust valve system in modern heavy duty combustion engines
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6:4:131:3 Comparison and analysis of protective tribofilms found on heavy duty exhaust valves from field service and made in a test rig
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6:4:131:4 On the physical nature of tribolayers and wear debris after sliding wear in a superalloy/steel tribosystem at 25 and 300 degrees C
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6:4:132:1 Microstructure and mechanical properties of diffusion bonded W/steel joint using V/Ni composite interlayer
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6:4:132:2 Interface microstructure and strength properties of diffusion bonded joints of titanium-Al interlayer-18Cr-8Ni stainless steel
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6:4:132:3 Microstructure and mechanical properties of diffusion bonded joints between tungsten and F82H steel using a titanium interlayer
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6:4:132:4 Diffusion bonding titanium to stainless steel using Nb/Cu/Ni multi-interlayer
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6:4:133:1 Structure of Iron-Based Cladding Layer on Al-Mg-Si Alloy Coated by a Resistance Seam Welding Method
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6:4:133:2 Interaction of molten aluminum with porous TiB2-based ceramics containing Ti-Fe additives
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6:4:133:3 Pressureless Sintering of TiB2-Based Ceramics with Ti-Fe Additives: Sintering Mechanism and Stability in Liquid Aluminum
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6:4:134:1 Theoretical analysis of extrusion through rotating container: Torque and twist angle
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6:4:134:2 Finite element and artificial neural network analysis of ECAP
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6:4:134:3 Finite element simulation of cross equal channel angular pressing
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6:4:135:1 Theory of Repeating Nucleation in Point Contact Reactions between Nanowires
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6:4:135:2 Heterogeneous nucleation and depletion effect in nanowire growth
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6:4:136:1 On the characterization of bulk copper produced by cold gas dynamic spray processing in as fabricated and annealed conditions
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6:4:136:2 Pressureless sintering of cold sprayed Inconel 718 deposit
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6:4:136:3 Influence of annealing treatment on the microstructure and mechanical performance of cold sprayed 304 stainless steel coating
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6:4:137:1 Texture Evolution in Al-0.2 mass%Sc Alloy during ARB Process and Subsequent Annealing
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6:4:137:2 Microstructural Evolution during ARE Process of Al-0.2 mass% Sc Alloy Containing Al3Sc Precipitates in Starting Structures
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6:4:137:3 Study of texture, anisotropy and formability of cartridge brass sheets
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6:4:138:1 Preface to the Special Issue on Ultrafine Grained Materials
DOI:10.1007/s10853-010-4709-8 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:2 AU: Zhu, Yuntian T.;Mathaudhu, Suveen N.;Goken, Mathias;Langdon, Terence G.;Lowe, Terry C.;Semiatin, S. Lee;Tsuji, Nobuhiro;Zhao, Yong Hao;
6:4:138:2 Special Issue: Nanostructured Materials Preface
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6:4:138:3 Preface to the special issue on ultrafine-grained materials
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6:4:139:1 Microstructure refinement and hardening of Ag-20 wt.%Cu alloy by rapid solidification
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6:4:139:2 Effect of solubility on strengthening of Ag-Cu ultrafine eutectic composites
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6:4:140:1 Microstructure and mechanical behavior of neutron irradiated ultrafine grained ferritic steel
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6:4:140:2 Studies of microstructural imperfections of powdered Zirconium-based alloys
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6:4:141:1 Deformation behavior of consecutive workpieces in equal channel angular pressing of solid dies
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6:4:141:2 Plastic Flow and Strain Homogeneity of an Equal Channel Angular Pressing Process Enhanced through Forward Extrusion
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6:4:142:1 Superplastic behavior of Zn-Al eutectoid alloy with 2% Cu
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6:4:142:2 Phase transformations in the Zn-Al eutectoid alloy after quenching from the high temperature triclinic beta phase
DOI:10.1016/j.matchar.2010.07.014 JN:MATERIALS CHARACTERIZATION PY:2010 TC:4 AU: Sandoval-Jimenez, A.;Negrete, J.;Torres-Villasenor, G.;
6:4:143:1 Effect of Aging Treatment on Ultra-Fine Grains and Si-Phase in Al-0.5%Si Alloy Fabricated by ARB Process
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6:4:143:2 Aging Behavior of Ultra-Fine Grained Al-0.5%Si-0.5%Ge Alloy Fabricated by ARB Process
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6:5:1:1 Dislocation and twin substructure evolution during strain hardening of an Fe-22 wt.% Mn-0.6 wt.% C TWIP steel observed by electron channeling contrast imaging
DOI:10.1016/j.actamat.2011.07.009 JN:ACTA MATERIALIA PY:2011 TC:107 AU: Gutierrez-Urrutia, I.;Raabe, D.;
6:5:1:2 On the mechanism of twin formation in Fe-Mn-C TWIP steels
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6:5:1:3 The effect of grain size and grain orientation on deformation twinning in a Fe-22 wt.% Mn-0.6 wt.% C TWIP steel
DOI:10.1016/j.msea.2010.02.041 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:143 AU: Gutierrez-Urrutia, I.;Zaefferer, S.;Raabe, D.;
6:5:1:4 Dependence of tensile deformation behavior of TWIP steels on stacking fault energy, temperature and strain rate
DOI:10.1016/j.actamat.2010.05.049 JN:ACTA MATERIALIA PY:2010 TC:96 AU: Curtze, S.;Kuokkala, V. -T.;
6:5:1:5 Multistage strain hardening through dislocation substructure and twinning in a high strength and ductile weight-reduced Fe-Mn-Al-C steel
DOI:10.1016/j.actamat.2012.07.018 JN:ACTA MATERIALIA PY:2012 TC:52 AU: Gutierrez-Urrutia, I.;Raabe, D.;
6:5:1:6 Revealing the strain-hardening behavior of twinning-induced plasticity steels: Theory, simulations, experiments
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6:5:1:7 Stacking fault energy and plastic deformation of fully austenitic high manganese steels: Effect of Al addition
DOI:10.1016/j.msea.2010.02.058 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:85 AU: Park, Kyung-Tae;Jin, Kwang Geun;Han, Sang Ho;Hwang, Si Woo;Choi, Kayoung;Lee, Chong Soo;
6:5:1:8 Hydrogen-assisted failure in a twinning-induced plasticity steel studied under in situ hydrogen charging by electron channeling contrast imaging
DOI:10.1016/j.actamat.2013.04.030 JN:ACTA MATERIALIA PY:2013 TC:26 AU: Koyama, Motomichi;Akiyama, Eiji;Tsuzaki, Kaneaki;Raabe, Dierk;
6:5:1:9 The effects of Si on the mechanical twinning and strain hardening of Fe-18Mn-0.6C twinning-induced plasticity steel
DOI:10.1016/j.actamat.2013.02.031 JN:ACTA MATERIALIA PY:2013 TC:20 AU: Jeong, Kookhyun;Jin, Jae-Eun;Jung, Yeon-Seung;Kang, Singon;Lee, Young-Kook;
6:5:1:10 Work hardening associated with epsilon-martensitic transformation, deformation twinning and dynamic strain aging in Fe-17Mn-0.6C and Fe-17Mn-0.8C TWIP steels
DOI:10.1016/j.msea.2011.06.011 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:65 AU: Koyama, Motomichi;Sawaguchi, Takahiro;Lee, Taekyung;Lee, Chong Soo;Tsuzaki, Kaneaki;
6:5:1:11 On the relationship between the twin internal structure and the work-hardening rate of TWIP steels
DOI:10.1016/j.scriptamat.2010.07.016 JN:SCRIPTA MATERIALIA PY:2010 TC:58 AU: Idrissi, H.;Renard, K.;Schryvers, D.;Jacques, P. J.;
6:5:1:12 On the origin of dynamic strain aging in twinning-induced plasticity steels
DOI:10.1016/j.actamat.2011.07.040 JN:ACTA MATERIALIA PY:2011 TC:59 AU: Lee, Seok-Jae;Kim, Jinkyung;Kane, Shashank N.;De Cooman, Bruno Charles;
6:5:1:13 Effects of recrystallization annealing temperature on carbide precipitation, microstructure, and mechanical properties in Fe-18Mn-0.6C-1.5Al TWIP steel
DOI:10.1016/j.msea.2009.08.048 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:45 AU: Kang, Singon;Jung, Yeon-Seung;Jun, Joong-Hwan;Lee, Young-Kook;
6:5:1:14 Effects of Al on microstructure and tensile properties of C-bearing high Mn TWIP steel
DOI:10.1016/j.actamat.2011.12.004 JN:ACTA MATERIALIA PY:2012 TC:57 AU: Jin, J-E.;Lee, Y-K.;
6:5:1:15 Effect of Al on the stacking fault energy of Fe-18Mn-0.6C twinning-induced plasticity
DOI:10.1016/j.scriptamat.2011.05.014 JN:SCRIPTA MATERIALIA PY:2011 TC:44 AU: Kim, Jinkyung;Lee, Seok-Jae;De Cooman, Bruno C.;
6:5:1:16 Strain rate effects on tensile deformation behaviors for Fe-22Mn-0.6C-(1.5Al) twinning-induced plasticity steel
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6:5:1:17 Effects of Al addition on deformation and fracture mechanisms in two high manganese TWIP steels
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6:5:1:18 Influence of carbon content on the microstructure, martensitic transformation and mechanical properties in austenite/epsilon-martensite dual-phase Fe-Mn-C steels
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6:5:1:19 Orientation dependence of twinning and strain hardening behaviour of a high manganese twinning induced plasticity steel with polycrystalline structure
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6:5:1:20 The influence of manganese content on the stacking fault and austenite/epsilon-martensite interfacial energies in Fe-Mn-(Al-Si) steels investigated by experiment and theory
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6:5:1:21 Microstructure and texture evolution in a twinning-induced-plasticity steel during uniaxial tension
DOI:10.1016/j.actamat.2013.01.051 JN:ACTA MATERIALIA PY:2013 TC:10 AU: Saleh, Ahmed A.;Pereloma, Elena V.;Gazder, Azdiar A.;
6:5:1:22 The mechanism of enhanced resistance to the hydrogen delayed fracture in Al-added Fe-18Mn-0.6C twinning-induced plasticity steels
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6:5:1:23 Hydrogen-induced cracking at grain and twin boundaries in an Fe-Mn-C austenitic steel
DOI:10.1016/j.scriptamat.2011.12.015 JN:SCRIPTA MATERIALIA PY:2012 TC:37 AU: Koyama, Motomichi;Akiyama, Eiji;Sawaguchi, Takahiro;Raabe, Dierk;Tsuzaki, Kaneaki;
6:5:1:24 Hot ductility behaviour of high-Mn TWIP steels
DOI:10.1016/j.msea.2010.11.030 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:34 AU: Hamada, A. S.;Karjalainen, L. P.;
6:5:1:25 On the relationship between work hardening and twinning rate in TWIP steels
DOI:10.1016/j.msea.2012.01.123 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:30 AU: Renard, K.;Jacques, P. J.;
6:5:1:26 Applying the texture analysis for optimizing thermomechanical treatment of high manganese twinning-induced plasticity steel
DOI:10.1016/j.actamat.2014.07.068 JN:ACTA MATERIALIA PY:2014 TC:2 AU: Haase, Christian;Barrales-Mora, Luis A.;Roters, Franz;Molodov, Dmitri A.;Gottstein, Guenter;
6:5:1:27 Some aspects of the cyclic behavior of twinning-induced plasticity steels
DOI:10.1016/j.scriptamat.2011.12.008 JN:SCRIPTA MATERIALIA PY:2012 TC:9 AU: Karjalainen, L. Pentti;Hamada, Atef;Misra, R. Devesh K.;Porter, David A.;
6:5:1:28 Microstructure evolution and strengthening mechanisms of Fe-23Mn-0.3C-1.5Al TWIP steel during cold rolling
DOI:10.1016/j.msea.2014.08.051 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Kusakin, Pavel;Belyakov, Andrey;Haase, Christian;Kaibyshev, Rustam;Molodov, Dmitri A.;
6:5:1:29 Thermodynamic modeling of the stacking fault energy of austenitic steels
DOI:10.1016/j.actamat.2010.10.037 JN:ACTA MATERIALIA PY:2011 TC:37 AU: Curtze, S.;Kuokkala, V. -T.;Oikari, A.;Talonen, J.;Hanninen, H.;
6:5:1:30 On deformation twinning in a 17.5% Mn-TWIP steel: A physically based phenomenological model
DOI:10.1016/j.msea.2010.10.031 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:32 AU: Soulami, A.;Choi, K. S.;Shen, Y. F.;Liu, W. N.;Sun, X.;Khaleel, M. A.;
6:5:1:31 Analysis of the microstructure evolution during tensile testing at room temperature of high-manganese austenitic steel
DOI:10.1016/j.matchar.2009.11.013 JN:MATERIALS CHARACTERIZATION PY:2010 TC:40 AU: Jimenez, J. A.;Frommeyer, G.;
6:5:1:32 Kinetics of deformation processes in high-alloyed cast transformation-induced plasticity/twinning-induced plasticity steels determined by acoustic emission and scanning electron microscopy: Influence of austenite stability on deformation mechanisms
DOI:10.1016/j.actamat.2013.01.016 JN:ACTA MATERIALIA PY:2013 TC:13 AU: Vinogradov, A.;Lazarev, A.;Linderov, M.;Weidner, A.;Biermann, H.;
6:5:1:33 Characterisation of the Portevin-Le Chatelier effect affecting an austenitic TWIP steel based on digital image correlation
DOI:10.1016/j.msea.2010.01.037 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:50 AU: Renard, K.;Ryelandt, S.;Jacques, P. J.;
6:5:1:34 Comparison of work hardening and deformation twinning evolution in Fe-22Mn-0.6C (1.5Al) twinning-induced plasticity steels
DOI:10.1016/j.scriptamat.2013.02.060 JN:SCRIPTA MATERIALIA PY:2013 TC:11 AU: Yang, H. K.;Zhang, Z. J.;Zhang, Z. F.;
6:5:1:35 In-situ characterization of the damage evolution in thin polyelectrolyte films on TWIP steel substrates
DOI:10.1016/j.msea.2012.12.086 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:2 AU: Niendorf, T.;Brenne, F.;Liu, C.;Ozcan, O.;
6:5:1:36 Strain hardening behavior of a TRIP/TWIP steel with 18.8% Mn
DOI:10.1016/j.msea.2010.10.040 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:33 AU: Ding, Hao;Ding, Hua;Song, Dan;Tang, Zhengyou;Yang, Ping;
6:5:1:37 Crystal plasticity modeling of texture development and hardening in TWIP steels
DOI:10.1016/j.actamat.2012.01.015 JN:ACTA MATERIALIA PY:2012 TC:18 AU: Dancette, S.;Delannay, L.;Renard, K.;Melchior, M. A.;Jacques, P. J.;
6:5:1:38 Stacking faults in high-alloyed metastable austenitic cast steel observed by electron channelling contrast imaging
DOI:10.1016/j.scriptamat.2010.11.028 JN:SCRIPTA MATERIALIA PY:2011 TC:29 AU: Weidner, A.;Martin, S.;Klemm, V.;Martin, U.;Biermann, H.;
6:5:1:39 Welding of twinning-induced plasticity steels
DOI:10.1016/j.scriptamat.2011.11.041 JN:SCRIPTA MATERIALIA PY:2012 TC:12 AU: Roncery, Lais Mujica;Weber, Sebastian;Theisen, Werner;
6:5:1:40 Dislocation density measurement by electron channeling contrast imaging in a scanning electron microscope
DOI:10.1016/j.scriptamat.2011.11.027 JN:SCRIPTA MATERIALIA PY:2012 TC:27 AU: Gutierrez-Urrutia, I.;Raabe, D.;
6:5:1:41 A mechanism-based model for deformation twinning in polycrystalline FCC steel
DOI:10.1016/j.msea.2014.04.010 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Wang, Y. Y.;Sun, X.;Wang, Y. D.;Hu, X. H.;Zbib, H. M.;
6:5:1:42 Delayed static failure of twinning-induced plasticity steels
DOI:10.1016/j.scriptamat.2012.02.038 JN:SCRIPTA MATERIALIA PY:2012 TC:27 AU: Chun, Young Soo;Park, Kyung-Tae;Lee, Chong Soo;
6:5:1:43 Hydrogen-induced delayed fracture of a Fe-22Mn-0.6C steel pre-strained at different strain rates
DOI:10.1016/j.scriptamat.2012.02.040 JN:SCRIPTA MATERIALIA PY:2012 TC:14 AU: Koyama, Motomichi;Akiyama, Eiji;Tsuzaki, Kaneaki;
6:5:1:44 Texture evolution of cold rolled and annealed Fe-24Mn-3Al-2Si-1Ni-0.06C TWIP steel
DOI:10.1016/j.msea.2011.02.055 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:27 AU: Saleh, Ahmed A.;Pereloma, Elena V.;Gazder, Azdiar A.;
6:5:1:45 Deformation mechanisms of twinning-induced plasticity steels: In situ synchrotron characterization and modeling
DOI:10.1016/j.scriptamat.2009.11.008 JN:SCRIPTA MATERIALIA PY:2010 TC:22 AU: Yan, Kun;Carr, David G.;Callaghan, Mark D.;Liss, Klaus-Dieter;Li, Huijun;
6:5:1:46 Modelling the effect of carbon on deformation behaviour of twinning induced plasticity steels
DOI:10.1007/s10853-011-5703-5 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:12 AU: Huang, Mingxin;Bouaziz, Olivier;Barbier, David;Allain, Sebastien;
6:5:1:47 Elastic strain energy induced by epsilon martensitic transformation and its contribution to the stacking-fault energy of austenite in Fe-15Mn-xC alloys
DOI:10.1016/j.jallcom.2014.08.054 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:0 AU: Lee, Seung-Joon;Han, Jeongho;Lee, Chan-Young;Park, Il-Jeong;Lee, Young-Kook;
6:5:1:48 Small-angle neutron scattering analysis of Mn-C clusters in high-manganese 18Mn-0.6C steel
DOI:10.1016/j.matchar.2014.07.010 JN:MATERIALS CHARACTERIZATION PY:2014 TC:0 AU: Kang, Mihyun;Shin, Eunjoo;Woo, Wanchuck;Lee, Young-Kook;
6:5:1:49 Flow stress analysis of TWIP steel via the XRD measurement of dislocation density
DOI:10.1016/j.msea.2010.01.033 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:40 AU: Dini, G.;Ueji, R.;Najafizadeh, A.;Monir-Vaghefi, S. M.;
6:5:1:50 Influence of cold rolling on microstructure, texture and mechanical properties of low carbon high Mn TWIP steel
DOI:10.1016/j.msea.2014.07.088 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Tewary, N. K.;Ghosh, S. K.;Bera, Supriya;Chakrabarti, D.;Chatterjee, S.;
6:5:1:51 Self-consistent modelling of lattice strains during the in-situ tensile loading of twinning induced plasticity steel
DOI:10.1016/j.msea.2013.09.073 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Saleh, Ahmed A.;Pereloma, Elena V.;Clausen, Bjorn;Brown, Donald W.;Tome, Carlos N.;Gazder, Azdiar A.;
6:5:1:52 Tensile deformation behavior of Fe-Mn-C TWIP steel with ultrafine elongated grain structure
DOI:10.1016/j.matlet.2012.02.012 JN:MATERIALS LETTERS PY:2012 TC:18 AU: Lee, Taekyung;Koyama, Motomichi;Tsuzaki, Kaneaki;Lee, You-Hwan;Lee, Chong Soo;
6:5:1:53 Fatigue crack growth-Microstructure relationships in a high-manganese austenitic TWIP steel
DOI:10.1016/j.msea.2009.12.012 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:30 AU: Niendorf, T.;Rubitschek, F.;Maier, H. J.;Niendorf, J.;Richard, H. A.;Frehn, A.;
6:5:1:54 Adiabatic temperature increase associated with deformation twinning and dislocation plasticity
DOI:10.1016/j.actamat.2012.03.008 JN:ACTA MATERIALIA PY:2012 TC:11 AU: Eisenlohr, A.;Gutierrez-Urrutia, I.;Raabe, D.;
6:5:1:55 The effects of N on the microstructures and tensile properties of Fe-15Mn-0.6C-2Cr-xN twinning-induced plasticity steels
DOI:10.1016/j.actamat.2013.07.036 JN:ACTA MATERIALIA PY:2013 TC:7 AU: Jung, Yeon-Seung;Kang, Singon;Jeong, Kookhyun;Jung, Jae-Gil;Lee, Young-Kook;
6:5:1:56 On the stress state dependence of the twinning rate and work hardening in twinning-induced plasticity steels
DOI:10.1016/j.scriptamat.2012.01.063 JN:SCRIPTA MATERIALIA PY:2012 TC:13 AU: Renard, K.;Idrissi, H.;Schryvers, D.;Jacques, P. J.;
6:5:1:57 Microbanding mechanism in an Fe-Mn-C high-Mn twinning-induced plasticity steel
DOI:10.1016/j.scriptamat.2013.03.010 JN:SCRIPTA MATERIALIA PY:2013 TC:7 AU: Gutierrez-Urrutia, I.;Raabe, D.;
6:5:1:58 Effects of rare earth addition on microstructure and mechanical properties of a Fe-15Mn-1.5Al-0.6C TWIP steel
DOI:10.1016/j.msea.2014.04.084 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Zhao, Yangyang;Wang, Junfeng;Zhou, Shu;Wang, Xiaodong;
6:5:1:59 Hydrogen and aluminium in high-manganese twinning-induced plasticity steel
DOI:10.1016/j.scriptamat.2014.01.039 JN:SCRIPTA MATERIALIA PY:2014 TC:4 AU: Han, Do Kyeong;Kim, Yong Min;Han, Heung Nam;Bhadeshia, H. K. D. H.;Suh, Dong-Woo;
6:5:1:60 Effect of annealing on the microstructure and mechanical properties of cold rolled Fe-24Mn-3Al-2Si-1Ni-0.06C TWIP steel
DOI:10.1016/j.msea.2011.01.052 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:17 AU: Santos, Dagoberto B.;Saleh, Ahmed A.;Gazder, Azdiar A.;Carman, Andrew;Duarte, Dayanna M.;Ribeiro, Erica A. S.;Gonzalez, Berenice M.;Pereloma, Elena V.;
6:5:1:61 On the evolution and modelling of lattice strains during the cyclic loading of TWIP steel
DOI:10.1016/j.actamat.2013.05.017 JN:ACTA MATERIALIA PY:2013 TC:5 AU: Saleh, Ahmed A.;Pereloma, Elena V.;Clausen, Bjorn;Brown, Donald W.;Tome, Carlos N.;Gazder, Azdiar A.;
6:5:1:62 Single crystal elastic constants of high-manganese transformation- and twinning-induced plasticity steels determined by a new method utilizing nanoindentation
DOI:10.1016/j.msea.2013.04.049 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:6 AU: Pierce, D. T.;Nowag, K.;Montagne, A.;Jimenez, J. A.;Wittig, J. E.;Ghisleni, R.;
6:5:1:63 Microstructure and mechanical properties of sub-rapidly solidified Fe-18 wt%Mn-C alloy strip
DOI:10.1016/j.msea.2014.05.033 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Song, Changjiang;Lu, Wei;Xie, Ke;Zhang, Yunhu;Xia, Wenbing;Han, Ke;Zhai, Qijie;
6:5:1:64 Microstructural evolution during plastic deformation of twinning-induced plasticity steels
DOI:10.1016/j.scriptamat.2011.12.016 JN:SCRIPTA MATERIALIA PY:2012 TC:11 AU: Lee, Young-Kook;
6:5:1:65 Interaction of aluminium with hydrogen in twinning-induced plasticity steel
DOI:10.1016/j.scriptamat.2014.06.007 JN:SCRIPTA MATERIALIA PY:2014 TC:1 AU: Song, Eun Ju;Bhadeshia, H. K. D. H.;Suh, Dong-Woo;
6:5:1:66 Recrystallization behavior, microstructure evolution and mechanical properties of biodegradable Fe-Mn-C(-Pd) TWIP alloys
DOI:10.1016/j.actamat.2012.01.041 JN:ACTA MATERIALIA PY:2012 TC:9 AU: Schinhammer, Michael;Pecnik, Christina M.;Rechberger, Felix;Haenzi, Anja C.;Loeffler, Joerg F.;Uggowitzer, Peter J.;
6:5:1:67 Study of internal stresses in a TWIP steel analyzing transient and permanent softening during reverse shear tests
DOI:10.1007/s10853-010-4750-7 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:8 AU: Gutierrez-Urrutia, I.;del Valle, J. A.;Zaefferer, S.;Raabe, D.;
6:5:1:68 Microstructure evolution and mechanical behavior of a new microalloyed high Mn austenitic steel during compressive deformation
DOI:10.1016/j.msea.2014.07.084 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Eskandari, M.;Zarei-Hanzaki, A.;Szpunar, J. A.;Mohtadi-Bonab, M. A.;Karnali, A. R.;Nazarian-Samani, M.;
6:5:1:69 An investigation into the room temperature mechanical properties and microstructural evolution of thermomechanically processed TWIP steel
DOI:10.1016/j.msea.2013.11.065 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Khalesian, A. R.;Zarei-Hanzaki, A.;Abedi, H. R.;Pilehva, F.;
6:5:1:70 High-cycle fatigue behavior of ultrafine-grained austenitic stainless and TWIP steels
DOI:10.1016/j.msea.2010.05.035 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:28 AU: Hamada, A. S.;Karjalainen, L. P.;
6:5:1:71 Effect of deformation and annealing on the formation and reversion of epsilon-martensite in an Fe-Mn-C alloy
DOI:10.1016/j.actamat.2010.01.045 JN:ACTA MATERIALIA PY:2010 TC:41 AU: Lue, Yaping;Hutchinson, Bevis;Molodov, Dmitri A.;Gottstein, Guenter;
6:5:1:72 Effect of Ni on the hot ductility and hot cracking susceptibility of high Mn austenitic cast steel
DOI:10.1016/j.msea.2014.09.040 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Han, Kyutae;Yoo, Jaehong;Lee, Bongkeun;Han, Ilwook;Lee, Changhee;
6:5:1:73 Temperature dependence of the flow stress of Fe-18Mn-0.6C-xA1 twinning-induced plasticity steel
DOI:10.1016/j.actamat.2013.07.042 JN:ACTA MATERIALIA PY:2013 TC:16 AU: Jung, Il-Chan;De Cooman, Bruno C.;
6:5:1:74 Role of epsilon martensite in tensile properties and hydrogen degradation of high-Mn steels
DOI:10.1016/j.msea.2011.11.039 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:22 AU: Chun, Young Soo;Kim, Ji Soo;Park, Kyung-Tae;Lee, Young-Kook;Lee, Chong Soo;
6:5:1:75 Effects of intergranular carbide precipitation on delayed fracture behavior in three TWinning Induced Plasticity (TWIP) steels
DOI:10.1016/j.msea.2013.08.063 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:5 AU: Hong, Seokmin;Lee, Junghoon;Lee, Byeong-Joo;Kim, Hyoung Seop;Kim, Sung-Kyu;Chin, Kwang-Geun;Lee, Sunghak;
6:5:1:76 Recrystallization kinetics and microstructure evolution during annealing of a cold-rolled Fe-Mn-C alloy
DOI:10.1016/j.actamat.2011.01.063 JN:ACTA MATERIALIA PY:2011 TC:25 AU: Lue, Yaping;Molodov, Dmitri A.;Gottstein, Guenter;
6:5:1:77 In situ neutron diffraction study of the microstructure and tensile deformation behavior in Al-added high manganese austenitic steels
DOI:10.1016/j.actamat.2011.12.043 JN:ACTA MATERIALIA PY:2012 TC:18 AU: Jeong, J. S.;Woo, W.;Oh, K. H.;Kwon, S. K.;Koo, Y. M.;
6:5:1:78 Improved tensile properties of partially recrystallized submicron grained TWIP steel
DOI:10.1016/j.matlet.2009.09.057 JN:MATERIALS LETTERS PY:2010 TC:24 AU: Dini, G.;Najafizadeh, A.;Ueji, R.;Monir-Vaghefi, S. M.;
6:5:1:79 Influence of precooling and deformation temperature on microstructure and mechanical properties in a high-manganese austenitic steel
DOI:10.1016/j.msea.2014.07.034 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Behjati, P.;Kermanpur, A.;Najafizadeh, A.;Baghbadorani, H. Samaei;Jung, J. -G.;Lee, Y. -K.;
6:5:1:80 Dynamic mechanical properties of the Fe-30Mn-3Si-4Al TWIP steel after different heat treatments
DOI:10.1016/j.msea.2011.09.106 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:7 AU: Xiong, Zhi-ping;Ren, Xue-ping;Bao, Wei-ping;Li, Shu-xia;Qu, Hai-tao;
6:5:1:81 Low-cycle fatigue behavior of a high manganese austenitic twin-induced plasticity steel
DOI:10.1016/j.msea.2013.07.020 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:7 AU: Guo, Pengcheng;Qian, Lihe;Meng, Jiangying;Zhang, Fucheng;Li, Laifeng;
6:5:1:82 Fatigue crack growth behavior of a coarse- and a fine-grained high manganese austenitic twin-induced plasticity steel
DOI:10.1016/j.msea.2014.03.035 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Ma, Penghui;Qian, Lihe;Meng, Jiangying;Liu, Shuai;Zhang, Fucheng;
6:5:1:83 Deformation mechanisms of a 20Mn TWIP steel investigated by in situ neutron diffraction and TEM
DOI:10.1016/j.actamat.2013.06.051 JN:ACTA MATERIALIA PY:2013 TC:3 AU: Shen, Y. F.;Wang, Y. D.;Liu, X. P.;Sun, X.;Peng, R. Lin;Zhang, S. Y.;Zuo, L.;Liaw, P. K.;
6:5:1:84 Appearance of dislocation-mediated and twinning-induced plasticity in an engineering-grade FeMnNiCr alloy
DOI:10.1016/j.actamat.2011.08.040 JN:ACTA MATERIALIA PY:2011 TC:5 AU: Geissler, D.;Freudenberger, J.;Kauffmann, A.;Krautz, M.;Klauss, H.;Voss, A.;Eickemeyer, J.;Schultz, L.;
6:5:1:85 Theory and application of electron channelling contrast imaging under controlled diffraction conditions
DOI:10.1016/j.actamat.2014.04.018 JN:ACTA MATERIALIA PY:2014 TC:14 AU: Zaefferer, Stefan;Elhami, Nahid-Nora;
6:5:1:86 Characterization of twin boundaries in an Fe-17.5Mn-0.56C twinning induced plasticity steel
DOI:10.1016/j.matchar.2013.08.016 JN:MATERIALS CHARACTERIZATION PY:2013 TC:2 AU: Patterson, Erin E.;Field, David P.;Zhang, Yudong;
6:5:1:87 Effect of Nb and Mo on the hot ductility behavior of a high-manganese austenitic Fe-21Mn-1.3Al-1.5Si-0.5C TWIP steel
DOI:10.1016/j.msea.2014.08.030 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Mejia, I.;Salas-Reyes, A. E.;Bedolla-Jacuinde, A.;Calvo, J.;Cabrera, J. M.;
6:5:1:88 Orientation-dependent indentation modulus and yielding in a high Mn twinning-induced plasticity steel
DOI:10.1016/j.msea.2011.10.116 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:6 AU: Kang, Singon;Jung, Yeon-Seung;Yoo, Byung-Gil;Jang, Jae-il;Lee, Young-Kook;
6:5:1:89 Low stacking fault energy steels in the context of manganese-rich iron-based alloys
DOI:10.1016/j.scriptamat.2011.12.041 JN:SCRIPTA MATERIALIA PY:2012 TC:9 AU: Saeed-Akbari, A.;Schwedt, A.;Bleck, W.;
6:5:1:90 The effect of nitrogen on the stacking fault energy in Fe-15Mn-2Cr-0.6C-xN twinning-induced plasticity steels
DOI:10.1016/j.scriptamat.2014.08.004 JN:SCRIPTA MATERIALIA PY:2014 TC:1 AU: Lee, Seung-Joon;Jung, Yeon-Seung;Baik, Sung-Il;Kim, Young-Woon;Kang, Mihyun;Woo, Wanchuck;Lee, Young-Kook;
6:5:1:91 Deformation twinning in submicron and micron pillars of twinning-induced plasticity steel
DOI:10.1016/j.scriptamat.2012.07.023 JN:SCRIPTA MATERIALIA PY:2012 TC:7 AU: Wu, S. Z.;Yen, H. W.;Huang, M. X.;Ngan, A. H. W.;
6:5:1:92 Double-hit compression behavior of TWIP steels
DOI:10.1016/j.msea.2011.09.080 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:7 AU: Hajkazemi, J.;Zarei-Hanzaki, A.;Sabet, M.;Khoddam, S.;
6:5:1:93 Dynamic recrystallization behavior of new transformation-twinning induced plasticity steel
DOI:10.1016/j.msea.2014.03.112 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Marandi, A.;Zarei-Hanzaki, R.;Zarei-Hanzaki, A.;Abedi, H. R.;
6:5:1:94 Effects of Al addition on high strain rate deformation of fully austenitic high Mn steels
DOI:10.1016/j.msea.2011.06.020 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:15 AU: Hwang, Si Woo;Ji, Jung Noon;Park, Kyung-Tae;
6:5:1:95 The dynamic behaviour of a twinning induced plasticity steel
DOI:10.1016/j.msea.2013.09.081 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:6 AU: Rahman, K. M.;Vorontsov, V. A.;Dye, D.;
6:5:1:96 Deformation mechanisms in high-manganese steels showing twinning-induced plasticity: Fine-grained material and single crystals at ambient and cryogenic temperatures
DOI:10.1016/j.scriptamat.2012.08.011 JN:SCRIPTA MATERIALIA PY:2012 TC:3 AU: Niendorf, T.;Ruesing, C. J.;Frehn, A.;Chumlyakov, Y. I.;Maier, H. J.;
6:5:1:97 Internal stresses and the mechanism of work hardening in twinning-induced plasticity steels
DOI:10.1016/j.scriptamat.2012.02.019 JN:SCRIPTA MATERIALIA PY:2012 TC:9 AU: Gil Sevillano, Javier;de Las Cuevas, Fernando;
6:5:1:98 Microstructural characterization of high-manganese austenitic steels with different stacking fault energies
DOI:10.1016/j.matchar.2011.05.011 JN:MATERIALS CHARACTERIZATION PY:2011 TC:12 AU: Sato, Shigeo;Kwon, Eui-Pyo;Imafuku, Muneyuki;Wagatsuma, Kazuaki;Suzuki, Shigeru;
6:5:1:99 Effect of Cu addition on the mechanical behavior of austenitic twinning-induced plasticity steel
DOI:10.1016/j.scriptamat.2011.09.019 JN:SCRIPTA MATERIALIA PY:2011 TC:10 AU: Lee, Sangwon;Kim, Jinkyung;Lee, Seok-Jae;De Cooman, Bruno C.;
6:5:1:100 Formation of friction layer of Ni3Al matrix composites with micro- and nano-structure during sliding friction under different loads
DOI:10.1016/j.matchemphys.2014.06.030 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:1 AU: Zhai, Wenzheng;Shi, Xiaoliang;Xu, Zengshi;Zhang, Qiaoxin;
6:5:1:101 Microtexture analysis of cold-rolled and annealed twinning-induced plasticity steel
DOI:10.1016/j.scriptamat.2011.06.026 JN:SCRIPTA MATERIALIA PY:2011 TC:8 AU: Gazder, Azdiar A.;Saleh, Ahmed A.;Pereloma, Elena V.;
6:5:1:102 Heterogeneous deformation in twinning-induced plasticity steel
DOI:10.1016/j.scriptamat.2012.02.028 JN:SCRIPTA MATERIALIA PY:2012 TC:7 AU: De Cooman, B. C.;Kim, Jinkyung;Lee, Seil;
6:5:1:103 Texture generation and implications in TWIP steels
DOI:10.1016/j.scriptamat.2012.02.048 JN:SCRIPTA MATERIALIA PY:2012 TC:6 AU: Bracke, Lieven;Verbeken, Kim;Kestens, Leo A. I.;
6:5:1:104 Contribution of deformation mechanisms to strength and ductility in two Cr-Mn grade austenitic stainless steels
DOI:10.1016/j.msea.2012.08.108 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:14 AU: Hamada, A. S.;Karjalainen, L. P.;Misra, R. D. K.;Talonen, J.;
6:5:1:105 Strain-hardening of twinning-induced plasticity steels
DOI:10.1016/j.scriptamat.2011.11.029 JN:SCRIPTA MATERIALIA PY:2012 TC:13 AU: Bouaziz, O.;
6:5:1:106 Nanoscale characterization of the evolution of the twin-matrix orientation in Fe-Mn-C twinning-induced plasticity steel by means of transmission electron microscopy orientation mapping
DOI:10.1016/j.scriptamat.2012.10.052 JN:SCRIPTA MATERIALIA PY:2013 TC:8 AU: Albou, A.;Galceran, M.;Renard, K.;Godet, S.;Jacques, P. J.;
6:5:1:107 Impact of short-range ordering on yield strength of high manganese austenitic steels
DOI:10.1016/j.msea.2014.07.016 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Kang, Jee-Hyun;Ingendahl, Tobias;von Appen, Joerg;Dronskowski, Richard;Bleck, Wolfgang;
6:5:1:108 Hydrogen effects on cathodically charged twinning-induced plasticity steel
DOI:10.1016/j.scriptamat.2011.12.012 JN:SCRIPTA MATERIALIA PY:2012 TC:16 AU: Ronevich, J. A.;Kim, S. K.;Speer, J. G.;Matlock, D. K.;
6:5:1:109 Evolution of recrystallization texture in a 0.78 wt.% Cr extra-low-carbon steel after warm and cold rolling
DOI:10.1016/j.actamat.2011.04.027 JN:ACTA MATERIALIA PY:2011 TC:20 AU: Gazder, Azdiar A.;Sanchez-Araiza, Miguel;Jonas, John J.;Perelorna, Elena V.;
6:5:1:110 Modeling the deformation textures and microstructural evolutions of a Fe-Mn-C TWIP steel during tensile and shear testing
DOI:10.1016/j.msea.2012.01.128 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:15 AU: Barbier, D.;Favier, V.;Bolle, B.;
6:5:1:111 Hot deformation activation energy (Q(HW)) of austenitic Fe-22Mn-1.5Al-1.5Si-0.4C TWIP steels microalloyed with Nb, V, and Ti
DOI:10.1016/j.msea.2012.10.091 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:12 AU: Reyes-Calderon, F.;Mejia, I.;Cabrera, J. M.;
6:5:1:112 Hot ductility behavior of high-Mn austenitic Fe-22Mn-1.5Al-1.5Si-0.45C TWIP steels microalloyed with Ti and V
DOI:10.1016/j.msea.2014.05.072 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:5 AU: Salas-Reyes, A. E.;Mejia, I.;Bedolla-Jacuinde, A.;Boulaajaj, A.;Calvo, J.;Cabrera, J. M.;
6:5:1:113 Stacking fault energy measurements of Fe-Mn-Al-Si austenitic twinning-induced plasticity steels
DOI:10.1016/j.scriptamat.2012.01.050 JN:SCRIPTA MATERIALIA PY:2012 TC:5 AU: Pierce, D. T.;Bentley, J.;Jimenez, J. A.;Wittig, J. E.;
6:5:1:114 Abnormal room temperature serrated flow and strain rate dependence of critical strain of a Fe-Mn-C twin-induced plasticity steel
DOI:10.1016/j.msea.2012.10.087 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:3 AU: Qian, Lihe;Guo, Pengcheng;Zhang, Fucheng;Meng, Jiangying;Zhang, Ming;
6:5:1:115 Severe plastic deformation of a TWIP steel
DOI:10.1016/j.msea.2013.11.013 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:6 AU: Timokhina, I. B.;Medvedev, A.;Lapovok, R.;
6:5:1:116 Effect of nitrogen on the critical strain for dynamic strain aging in high-manganese twinning-induced plasticity steel
DOI:10.1016/j.scriptamat.2011.06.017 JN:SCRIPTA MATERIALIA PY:2011 TC:12 AU: Lee, Sangwon;Kim, Jinkyung;Lee, Seok-Jae;De Cooman, Bruno C.;
6:5:1:117 On the feasibility of twinning nucleation via extrinsic faulting in twinning-induced plasticity steel
DOI:10.1016/j.scriptamat.2012.11.014 JN:SCRIPTA MATERIALIA PY:2013 TC:6 AU: Gazder, Azdiar A.;Saleh, Ahmed A.;Pereloma, Elena V.;
6:5:1:118 Microstructural evolution and strain hardening behavior during plastic deformation of Fe-12Mn-8Al-0.8C steel
DOI:10.1016/j.msea.2013.07.023 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: Wu, Zhi Qiang;Ding, Hua;Li, Hua Ying;Huang, Ming Li;Cao, Fu Rong;
6:5:1:119 Microstructural investigation on deformation behavior of high purity Fe-Cr-Ni austenitic alloys during tensile testing at different temperatures
DOI:10.1016/j.msea.2014.08.077 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:4 AU: Behjati, P.;Kermanpur, A.;Najafizadeh, A.;Baghbadorani, H. Samaei;
6:5:1:120 Hydrogen-induced twinning in < 0 0 1 > Hadfield steel single crystals
DOI:10.1016/j.scriptamat.2010.08.029 JN:SCRIPTA MATERIALIA PY:2010 TC:9 AU: Astafurova, E. G.;Zakharova, G. G.;Maier, H. J.;
6:5:1:121 Influence of Al on internal friction spectrum of Fe-18Mn-0.6C twinning-induced plasticity steel
DOI:10.1016/j.scriptamat.2012.01.042 JN:SCRIPTA MATERIALIA PY:2012 TC:4 AU: Jung, Ilchan;Lee, Seok-Jae;De Cooman, Bruno C.;
6:5:1:122 On the evolution and modelling of brass-type texture in cold-rolled twinning-induced plasticity steel
DOI:10.1016/j.actamat.2014.02.033 JN:ACTA MATERIALIA PY:2014 TC:4 AU: Saleh, Ahmed A.;Haase, Christian;Pereloma, Elena V.;Molodov, Dmitri A.;Gazder, Azdiar A.;
6:5:1:123 The ductility behavior of a high-Mn twinning induced plasticity steel during cold-to-hot deformation
DOI:10.1016/j.msea.2012.10.051 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:3 AU: Baradaran, A. Haft;Zarei-Hanzaki, A.;Abedi, H. R.;Fatemi-Varzaneh, S. M.;Imandoust, A.;
6:5:1:124 Interactions between deformation-induced defects and carbides in a vanadium-containing TWIP steel
DOI:10.1016/j.scriptamat.2012.02.002 JN:SCRIPTA MATERIALIA PY:2012 TC:9 AU: Yen, Hung-Wei;Huang, Mingxin;Scott, C. P.;Yang, Jer-Ren;
6:5:1:125 Micromechanical modelling of twinning-induced plasticity steels
DOI:10.1016/j.scriptamat.2011.12.017 JN:SCRIPTA MATERIALIA PY:2012 TC:5 AU: Favier, V.;Barbier, D.;
6:5:1:126 Work hardening and uniform elongation of an ultrafine-grained Fe-33Mn binary alloy
DOI:10.1016/j.msea.2011.10.038 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:4 AU: Koyama, M.;Sawaguchi, T.;Tsuzaki, K.;
6:5:1:127 Effects of cold rolling on microstructure and mechanical properties of Fe-30Mn-3Si-4Al-0.093C TWIP steel
DOI:10.1016/j.msea.2012.10.020 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:8 AU: Shen, Y. F.;Qiu, C. H.;Wang, L.;Sun, X.;Zhao, X. M.;Zuo, L.;
6:5:1:128 Relationship between relaxation mechanisms and strain aging in an austenitic FeMnC steel
DOI:10.1016/j.scriptamat.2010.12.039 JN:SCRIPTA MATERIALIA PY:2011 TC:12 AU: Allain, S.;Bouaziz, O.;Lebedkina, T.;Lebyodkin, M.;
6:5:1:129 Energy-based approach to predict the fatigue life behavior of pre-strained Fe-18Mn TWIP steel
DOI:10.1016/j.msea.2011.02.068 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:11 AU: Kim, Yong Woo;Kim, Gyosung;Hong, Seong-Gu;Lee, Chong Soo;
6:5:1:130 TEM investigation of the formation mechanism of deformation twins in Fe-Mn-Si-Al TWIP steels
DOI:10.1080/14786435.2013.832837 JN:PHILOSOPHICAL MAGAZINE PY:2013 TC:2 AU: Idrissi, H.;Renard, K.;Schryvers, D.;Jacques, P. J.;
6:5:1:131 On the role of slip-twin interactions on the impact behavior of high-manganese austenitic steels
DOI:10.1016/j.msea.2013.11.033 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Toker, S. M.;Canadinc, D.;Taube, A.;Gerstein, G.;Maier, H. J.;
6:5:1:132 Neutron diffraction analysis of stacking fault energy in Fe-18Mn-2Al-0.6C twinning-induced plasticity steels
DOI:10.1016/j.matlet.2012.02.075 JN:MATERIALS LETTERS PY:2012 TC:5 AU: Kang, Mihyun;Woo, Wanchuck;Lee, Young-Kook;Seong, Baek-Seok;
6:5:1:133 Tensile deformation of a low density Fe-27Mn-12Al-0.8C duplex steel in association with ordered phases at ambient temperature
DOI:10.1016/j.msea.2013.07.094 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: Ha, Min Chul;Koo, Jin-Mo;Lee, Jae-Kon;Hwang, Si Woo;Park, Kyung-Tae;
6:5:1:134 Effect of deuterium pre-charging on the mechanical properties, phase and deformation texture of 21-6-9 austenitic stainless steel
DOI:10.1016/j.msea.2013.04.030 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:0 AU: Chang, Y. H.;Luo, C.;Chen, C. A.;Chen, S. X.;
6:5:1:135 Caliber-rolled TWIP steel for high-strength wire rods with enhanced hydrogen-delayed fracture resistance
DOI:10.1016/j.scriptamat.2012.07.006 JN:SCRIPTA MATERIALIA PY:2012 TC:8 AU: Chun, Young Soo;Lee, Junmo;Bae, Chul Min;Park, Kyung-Tae;Lee, Chong Soo;
6:5:1:136 The influence of silicon and aluminum alloying on the lattice parameter and stacking fault energy of austenitic steel
DOI:10.1016/j.scriptamat.2014.07.019 JN:SCRIPTA MATERIALIA PY:2014 TC:2 AU: Lehnhoff, G. R.;Findley, K. O.;De Cooman, B. C.;
6:5:1:137 Microstructure and hardness evolution during isothermal process at 700 degrees C for Fe-24Mn-0.7Si-1.0Al TWIP steel
DOI:10.1016/j.matchar.2010.09.007 JN:MATERIALS CHARACTERIZATION PY:2010 TC:1 AU: Liu, J. B.;Liu, X. H.;Liu, W.;Zeng, Y. W.;Shu, K. Y.;
6:5:1:138 Yield behaviour associated with stacking faults in a high-temperature annealed ultra-low carbon high manganese steel
DOI:10.1016/j.msea.2013.05.087 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:0 AU: Fu, Liming;Fan, Likun;Li, Zhigang;Sun, Nairong;Wang, Huanrong;Wang, Wei;Shan, Aidang;
6:5:1:139 Temperature dependence of plastic deformation mechanisms in a modified transformation-twinning induced plasticity steel
DOI:10.1016/j.msea.2013.04.106 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:5 AU: Asghari, A.;Zarei-Hanzaki, A.;Eskandari, M.;
6:5:1:140 Thermally activated dislocation dynamics in austenitic FeMnC steels at low homologous temperature
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6:5:1:141 Low-temperature strain-induced ferrite transformation in twinning-induced plasticity steel
DOI:10.1016/j.scriptamat.2012.09.006 JN:SCRIPTA MATERIALIA PY:2012 TC:12 AU: Imandoust, A.;Zarei-Hanzaki, A.;Abedi, H. R.;
6:5:1:142 Unusual grain-size and strain-rate effects on the serrated flow in FeMnC twin-induced plasticity steels
DOI:10.1007/s10853-012-6925-x JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:4 AU: Qian, Lihe;Guo, Pengcheng;Meng, Jiangying;Zhang, Fucheng;
6:5:1:143 Twinning Induced Plasticity and Work Hardening Behavior of Aged Cu-Ni-Si Alloy
DOI:10.2320/matertrans.MBW201326 JN:MATERIALS TRANSACTIONS PY:2014 TC:0 AU: Araki, Akiyoshi;Poole, Warren J.;Kobayashi, Equo;Sato, Tatsuo;
6:5:1:144 Scanning and transmission electron microscopy investigations of defect arrangements in a two-phase gamma-TiAl alloy
DOI:10.1016/j.msea.2013.01.078 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:3 AU: Weidner, A.;Pyczak, F.;Biermann, H.;
6:5:1:145 Sliding wear behavior of a high-Mn austenitic twinning induced plasticity (TWIP) steel microalloyed with Nb
DOI:10.1016/j.wear.2013.01.054 JN:WEAR PY:2013 TC:3 AU: Mejia, I.;Bedolla-Jacuinde, A.;Pablo, J. R.;
6:5:1:146 Characterization of different work hardening behavior in AISI 321 stainless steel and Hadfield steel
DOI:10.1007/s10853-010-4369-8 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:8 AU: Zhang, Wanhu;Wu, Junliang;Wen, Yuhua;Ye, Jianjian;Li, Ning;
6:5:1:147 Micro-structural study of high-Mn TWIP steels using diffraction profile analysis
DOI:10.1016/j.msea.2011.09.060 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:9 AU: Jeong, J. S.;Koo, Y. M.;Jeong, I. K.;Kim, S. K.;Kwon, S. K.;
6:5:1:148 Dynamic tensile behaviour of TWIP steel under intermediate strain rate loading
DOI:10.1016/j.msea.2013.02.062 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:7 AU: Xu, Shanqing;Ruan, Dong;Beynon, John H.;Rong, Yonghua;
6:5:1:149 Stability of austenite and quasi-adiabatic heating during high-strain-rate deformation of twinning-induced plasticity steels
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6:5:1:150 Transmission electron microscopy observation of a deformation twin in TWIP steel by an ex situ tensile test
DOI:10.1080/14786435.2011.600736 JN:PHILOSOPHICAL MAGAZINE PY:2011 TC:2 AU: Liu, J. B.;Liu, X. H.;Liu, W.;Zeng, Y. W.;Shu, K. Y.;
6:5:1:151 A constitutive model of the deformation behaviour of twinning induced plasticity (TWIP) steel at different temperatures
DOI:10.1016/j.msea.2014.06.073 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:4 AU: Shterner, V.;Molotnikov, A.;Timokhina, I.;Estrin, I.;Beladi, H.;
6:5:1:152 Effect of microalloying elements (Nb, V and Ti) on the hot flow behavior of high-Mn austenitic twinning induced plasticity (TWIP) steel
DOI:10.1016/j.msea.2012.09.101 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:14 AU: Reyes-Calderon, F.;Mejia, I.;Boulaajaj, A.;Cabrera, J. M.;
6:5:1:153 Hot workability of AISI 321 and AISI 304 austenitic stainless steels
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6:5:1:154 Mechanical behavior prediction of TWIP steel in plastic deformation
DOI:10.1016/j.commatsci.2014.03.007 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:1 AU: Dan, W. J.;Liu, F.;Zhang, W. G.;
6:5:1:155 Microstructural features controlling the deformation and recrystallization behaviour Fe-30%Mn and Fe-30%Mn-0.5%C
DOI:10.1016/j.msea.2010.03.014 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:7 AU: Wang, X.;Zurob, H. S.;Embury, J. D.;Ren, X.;Yakubtsov, I.;
6:5:1:156 Development of microstructure and texture in Fe-26Mn-3Si-3Al alloy during cold-rolling and annealing
DOI:10.1016/j.jallcom.2013.12.059 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:0 AU: Kowalska, Joanna;Ratuszek, Wiktoria;Witkowska, Malgorzata;Zielinska-Lipiec, Anna;
6:5:1:157 Internal friction mechanism of Fe-19Mn alloy at low and high strain amplitude
DOI:10.1016/j.msea.2012.10.060 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:1 AU: Huang, Shuke;Huang, Wenrong;Liu, Jianhui;Teng, Jin;Li, Ning;Wen, Yuhua;
6:5:1:158 Electron Beam Welding of High Alloy CrMnNi Cast Steels with TRIP/TWIP Effect
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6:5:1:159 "Dislocation density measurement by electron channeling contrast imaging in a scanning electron microscope" (vol 66, pg 343, 2012)
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6:5:1:160 Phase field model of deformation twinning in tantalum: Parameterization via molecular dynamics
DOI:10.1016/j.scriptamat.2012.11.022 JN:SCRIPTA MATERIALIA PY:2013 TC:2 AU: Gu, Yijia;Chen, Long-Qing;Heo, Tae Wook;Sandoval, Luis;Belak, James;
6:5:1:161 Effects of Niobium on Mechanical Twinning and Tensile Properties of a High Mn Twinning-Induced Plasticity Steel
DOI:10.2320/matertrans.M2012273 JN:MATERIALS TRANSACTIONS PY:2012 TC:2 AU: Kang, Singon;Jung, Jae-Gil;Lee, Young-Kook;
6:5:1:162 Study of stress localisation in polycrystalline grains using self-consistent modelling and neutron diffraction
DOI:10.1080/14786435.2012.683542 JN:PHILOSOPHICAL MAGAZINE PY:2012 TC:2 AU: Baczmanski, A.;Gaj, A.;Le Joncour, L.;Wronski, S.;Francois, M.;Panicaud, B.;Braham, C.;Paradowska, A. M.;
6:5:1:163 Non-destructive determination of the yield strength and flow properties of high-manganese twinning-induced plasticity steel
DOI:10.1016/j.msea.2012.08.066 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:4 AU: Hamada, A. S.;Haggag, F. M.;Porter, D. A.;
6:5:1:164 Effects of microstructure on fretting fatigue behavior of IN100
DOI:10.1016/j.msea.2009.10.068 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:1 AU: Mall, S.;Kim, H. -K.;Saladin, E. C.;Porter, W. J.;
6:5:2:1 Orientation gradients and geometrically necessary dislocations in ultrafine grained dual-phase steels studied by 2D and 3D EBSD
DOI:10.1016/j.msea.2010.01.004 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:155 AU: Calcagnotto, Marion;Ponge, Dirk;Demir, Eralp;Raabe, Dierk;
6:5:2:2 Deformation and fracture mechanisms in fine- and ultrafine-grained ferrite/martensite dual-phase steels and the effect of aging
DOI:10.1016/j.actamat.2010.10.002 JN:ACTA MATERIALIA PY:2011 TC:104 AU: Calcagnotto, Marion;Adachi, Yoshitaka;Ponge, Dirk;Raabe, Dierk;
6:5:2:3 Effect of grain refinement to 1 mu m on strength and toughness of dual-phase steels
DOI:10.1016/j.msea.2010.08.062 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:59 AU: Calcagnotto, Marion;Ponge, Dirk;Raabe, Dierk;
6:5:2:4 Integrated experimental-simulation analysis of stress and strain partitioning in multiphase alloys
DOI:10.1016/j.actamat.2014.07.071 JN:ACTA MATERIALIA PY:2014 TC:7 AU: Tasan, C. C.;Diehl, M.;Yan, D.;Zambaldi, C.;Shanthraj, P.;Roters, F.;Raabe, D.;
6:5:2:5 Experimental and numerical study on geometrically necessary dislocations and non-homogeneous mechanical properties of the ferrite phase in dual phase steels
DOI:10.1016/j.actamat.2011.03.062 JN:ACTA MATERIALIA PY:2011 TC:41 AU: Kadkhodapour, J.;Schmauder, S.;Raabe, D.;Ziaei-Rad, S.;Weber, U.;Calcagnotto, M.;
6:5:2:6 Mechanisms of void formation during tensile testing in a commercial, dual-phase steel
DOI:10.1016/j.actamat.2010.12.039 JN:ACTA MATERIALIA PY:2011 TC:46 AU: Kadkhodapour, J.;Butz, A.;Rad, S. Ziaei;
6:5:2:7 Microscale-calibrated modeling of the deformation response of low-carbon martensite
DOI:10.1016/j.actamat.2013.02.051 JN:ACTA MATERIALIA PY:2013 TC:9 AU: Ghassemi-Armaki, Hassan;Chen, Peng;Bhat, Shrikant;Sadagopan, Sriram;Kumar, Sharvan;Bower, Allan;
6:5:2:8 Microscale-calibrated modeling of the deformation response of dual-phase steels
DOI:10.1016/j.actamat.2013.11.036 JN:ACTA MATERIALIA PY:2014 TC:7 AU: Chen, Peng;Ghassemi-Armaki, Hassan;Kumar, Sharvan;Bower, Allan;Bhat, Shrikant;Sadagopan, Sriram;
6:5:2:9 Local plastic strain evolution in a high strength dual-phase steel
DOI:10.1016/j.msea.2010.04.052 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:53 AU: Ghadbeigi, H.;Pinna, C.;Celotto, S.;Yates, J. R.;
6:5:2:10 Hydrogen-assisted decohesion and localized plasticity in dual-phase steel
DOI:10.1016/j.actamat.2014.01.048 JN:ACTA MATERIALIA PY:2014 TC:8 AU: Koyama, Motomichi;Tasan, Cemal Cem;Akiyama, Eiji;Tsuzaki, Kaneaki;Raabe, Dierk;
6:5:2:11 Deformation response of ferrite and martensite in a dual-phase steel
DOI:10.1016/j.actamat.2013.10.001 JN:ACTA MATERIALIA PY:2014 TC:15 AU: Ghassemi-Armaki, H.;Maass, R.;Bhat, S. P.;Sriram, S.;Greer, J. R.;Kumar, K. S.;
6:5:2:12 Quantitative measurement of strain partitioning and slip systems in a dual-phase steel
DOI:10.1016/j.scriptamat.2013.03.021 JN:SCRIPTA MATERIALIA PY:2013 TC:10 AU: Han, Qihang;Kang, Yonglin;Hodgson, Peter D.;Stanford, Nicole;
6:5:2:13 Nondestructive characterization of microstructure and mechanical properties of intercritically annealed dual-phase steel by magnetic Barkhausen noise technique
DOI:10.1016/j.msea.2014.04.026 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:4 AU: Ghanei, S.;Alam, A. Saheb;Kashefi, M.;Mazinani, M.;
6:5:2:14 Microstructural banding effects clarified through micrographic digital image correlation
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6:5:2:15 Microtexture development during equibiaxial tensile deformation in monolithic and dual phase steels
DOI:10.1016/j.actamat.2011.05.020 JN:ACTA MATERIALIA PY:2011 TC:11 AU: Kim, Do Hyun;Kim, Se-Jong;Kim, Sung-Hwan;Rollett, Anthony D.;Oh, Kyu Hwan;Han, Heung Nam;
6:5:2:16 The influence of microstructure and composition on the plastic behaviour of dual-phase steels
DOI:10.1016/j.actamat.2014.04.015 JN:ACTA MATERIALIA PY:2014 TC:9 AU: Pierman, A. -P.;Bouaziz, O.;Pardoen, T.;Jacques, P. J.;Brassart, L.;
6:5:2:17 Stress-strain relationship between ferrite and martensite in a dual-phase steel studied by in situ neutron diffraction and crystal plasticity theories
DOI:10.1016/j.actamat.2012.08.054 JN:ACTA MATERIALIA PY:2012 TC:13 AU: Woo, W.;Em, V. T.;Kim, E. -Y.;Han, S. H.;Han, Y. S.;Choi, S. -H.;
6:5:2:18 Correlations between nanoindentation hardness and macroscopic mechanical properties in DP980 steels
DOI:10.1016/j.msea.2013.12.084 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:8 AU: Taylor, M. D.;Choi, K. S.;Sun, X.;Matlock, D. K.;Packard, C. E.;Xu, L.;Barlat, E.;
6:5:2:19 Deformation behavior of a high strength multiphase steel at macro- and micro-scales
DOI:10.1016/j.msea.2014.05.068 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:6 AU: de Diego-Calderon, I.;Santofimia, M. J.;Molina-Aldareguia, J. M.;Monclus, M. A.;Sabirov, I.;
6:5:2:20 Method for measuring nanoscale local strain in a dual phase steel using digital image correlation with nanodot patterns
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6:5:2:21 Microstructure, mechanical properties and fracture behavior of ultra-high strength dual-phase steel
DOI:10.1016/j.msea.2014.09.005 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Zhao, Zhengzhi;Tong, Tingting;Liang, Juhua;Yin, Hongxiang;Zhao, Aimin;Tang, Di;
6:5:2:22 Effects of quenching and tempering on the microstructure and bake hardening behavior of ferrite and dual phase steels
DOI:10.1016/j.msea.2014.06.100 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Kuang, C. F.;Li, J.;Zhang, S. G.;Wang, J.;Liu, H. F.;Volinsky, A. A.;
6:5:2:23 Strain partitioning in dual-phase steels containing tempered martensite
DOI:10.1016/j.msea.2014.05.078 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:7 AU: Han, Qihang;Asgari, Alireza;Hodgson, Peter D.;Stanford, Nicole;
6:5:2:24 Failure mechanisms in DP600 steel: Initiation, evolution and fracture
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6:5:2:25 Microstructure and mechanical properties of high strength and high toughness micro-laminated dual phase steels
DOI:10.1016/j.msea.2014.08.073 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Zhang, M. D.;Hu, J.;Cao, W. Q.;Dong, H.;
6:5:2:26 EBSD study of the substructure development with cold deformation of dual phase steel
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6:5:2:27 A novel route for development of ultrahigh strength dual phase steels
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6:5:2:28 Effects of initial microstructure and thermomechanical processing parameters on microstructures and mechanical properties of ultrafine grained dual phase steels
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6:5:2:29 Dual phase structure formed by partial reversion of cold-deformed martensite
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6:5:2:30 Influence of martensite volume fraction and cooling rate on the properties of thermomechanically processed dual phase steel
DOI:10.1016/j.msea.2012.01.010 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:17 AU: Asadi, Mehdi;De Cooman, Bruno Charles;Palkowski, Heinz;
6:5:2:31 Microstructural evolution of iron based metal-matrix composites submitted to simple shear
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6:5:2:32 Stress partitioning behavior of multilayered steels during tensile deformation measured by in situ neutron diffraction
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6:5:2:33 Affect of the tempering temperature on the microstructure and mechanical properties of dual phase steels
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6:5:2:34 Effects of tempering on the mechanical properties of high strength dual-phase steels
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6:5:2:35 Effect of microstructure on mechanical properties of dual phase steels in the presence of stress concentrators
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6:5:2:36 Identification of the continuum damage parameter: An experimental challenge in modeling damage evolution
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6:5:2:37 Effect of the martensite distribution on the strain hardening and ductile fracture behaviors in dual-phase steel
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6:5:2:38 Development of Multilayer Steels for Improved Combinations of High Strength and High Ductility
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6:5:2:39 Study on the mixture strain hardening of multi-phase steels
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6:5:2:40 Individual mechanical properties of ferrite and martensite in Fe-0.16 mass% C-1.0 mass% Si-1.5 mass% Mn steel
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6:5:2:41 Effect of pre-IC annealing treatments on the final microstructure and work hardening behavior of a dual-phase steel
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6:5:2:42 Development of a new ultrafine grained dual phase steel and examination of the effect of grain size on tensile deformation behavior
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6:5:2:43 Strain mapping with high spatial resolution across a wide observation range by digital image correlation on plastic replicas
DOI:10.1016/j.matchar.2014.10.010 JN:MATERIALS CHARACTERIZATION PY:2014 TC:1 AU: Hamada, Shigeru;Fujisawa, Tomoya;Koyama, Motomichi;Koga, Norimitsu;Nakada, Nobuo;Tsuchiyama, Toshihiro;Ueda, Masaharu;Noguchi, Hiroshi;
6:5:2:44 Connectivity of slip systems between different phases in ferrite-martensite dual-phase steels
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6:5:2:45 Effect of micro-alloying elements on the stretch-flangeability of dual phase steel
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6:5:2:46 Strain field in a brittle/ductile multilayered steel composite
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6:5:2:47 Indentation-based damage quantification revisited
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6:5:2:48 Barkhausen noise characterisation during elastic bending and tensile-compression loading of case-hardened and tempered samples
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6:5:2:49 Ultrasound, eddy current and magnetic Barkhausen noise as tools for sigma phase detection on a UNS S31803 duplex stainless steel
DOI:10.1016/j.msea.2010.01.017 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:13 AU: Normando, Paulo G.;Moura, Elineudo P.;Souza, Jose A.;Tavares, Sergio S. M.;Padovese, Linilson R.;
6:5:3:1 Strain-induced martensitic transformation near twin boundaries in a biomedical Co-Cr-Mo alloy with negative stacking fault energy
DOI:10.1016/j.actamat.2012.11.041 JN:ACTA MATERIALIA PY:2013 TC:19 AU: Koizumi, Yuichiro;Suzuki, Sho;Yamanaka, Kenta;Lee, Byoung-Soo;Sato, Kazuhisa;Li, Yunping;Kurosu, Shingo;Matsumoto, Hiroaki;Chiba, Akihiko;
6:5:3:2 Nanoarchitectured Co-Cr-Mo orthopedic implant alloys: Nitrogen-enhanced nanostructural evolution and its effect on phase stability
DOI:10.1016/j.actbio.2012.12.013 JN:ACTA BIOMATERIALIA PY:2013 TC:16 AU: Yamanaka, Kenta;Mori, Manami;Chiba, Akihiko;
6:5:3:3 Grain refinement of biomedical Co-27Cr-5Mo-0.16N alloy by reverse transformation
DOI:10.1016/j.matlet.2009.10.001 JN:MATERIALS LETTERS PY:2010 TC:28 AU: Kurosu, Shingo;Matsumoto, Hiroaki;Chiba, Akihiko;
6:5:3:4 Effects of sigma phase and carbide on the wear behavior of CoCrMo alloys in Hanks' solution
DOI:10.1016/j.wear.2013.12.010 JN:WEAR PY:2014 TC:6 AU: Chen, Yan;Li, Yunping;Kurosu, Shingo;Yamanaka, Kenta;Tang, Ning;Koizumi, Yuichiro;Chiba, Akihiko;
6:5:3:5 Role of strain-induced martensitic transformation on extrusion and intrusion formation during fatigue deformation of biomedical Co-Cr-Mo-N alloys
DOI:10.1016/j.actamat.2014.08.039 JN:ACTA MATERIALIA PY:2014 TC:1 AU: Mitsunobu, Takuya;Koizumi, Yuichiro;Lee, Byoung-Soo;Yamanaka, Kenta;Matsumoto, Hiroaki;Li, Yunping;Chiba, Akihiko;
6:5:3:6 Build direction dependence of microstructure and high-temperature tensile property of Co-Cr-Mo alloy fabricated by electron beam melting
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6:5:3:7 Effect of cold rolling on phase decomposition in biomedical Co-29Cr-6Mo-0.2N alloy during isothermal heat treatment at 1073 K
DOI:10.1016/j.jallcom.2014.05.175 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:1 AU: Mori, Manami;Yamanaka, Kenta;Chiba, Akihiko;
6:5:3:8 Evolution of cold-rolled microstructures of biomedical Co-Cr-Mo alloys with and without N doping
DOI:10.1016/j.msea.2010.09.002 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:28 AU: Mori, Manami;Yamanaka, Kenta;Matsumoto, Hiroaki;Chiba, Akihiko;
6:5:3:9 Mechanical properties of as-forged Ni-free Co-29Cr-6Mo alloys with ultrafine-grained microstructure
DOI:10.1016/j.msea.2011.04.027 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:26 AU: Yamanaka, Kenta;Mori, Manami;Chiba, Akihiko;
6:5:3:10 Thermo-mechanical fatigue test of a wrought Co-based alloy as potential tooling material for die casting
DOI:10.1016/j.msea.2014.07.073 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Tang, Ning;Li, Yunping;Tunthawiroon, Phacharaphon;Koizumi, Yuichiro;Chiba, Akihiko;
6:5:3:11 Deformation mode in biomedical Co-27% Cr-5% Mo alloy consisting of a single hexagonal close-packed structure
DOI:10.1016/j.scriptamat.2010.08.006 JN:SCRIPTA MATERIALIA PY:2010 TC:12 AU: Matsumoto, Hiroaki;Kurosu, Shingo;Lee, Byoung-Soo;Li, Yunping;Chiba, Akihiko;
6:5:3:12 Role of nitrogen addition in stabilizing the gamma phase of Biomedical Co-29Cr-6Mo alloy
DOI:10.1016/j.matchemphys.2011.12.081 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:13 AU: Li, Y. P.;Yu, J. S.;Kurosu, S.;Koizumi, Y.;Matsumoto, H.;Chiba, A.;
6:5:3:13 Application of Harmonic Structure Design to Biomedical Co-Cr-Mo Alloy for Improved Mechanical Properties
DOI:10.2320/matertrans.MA201303 JN:MATERIALS TRANSACTIONS PY:2014 TC:6 AU: Sawangrat, Choncharoen;Yamaguchi, Osamu;Vajpai, Sanjay Kumar;Ameyama, Kei;
6:5:3:14 Nitrogen-induced dynamic strain aging in a biomedical-grade Co-Cr-Mo alloy
DOI:10.1016/j.msea.2012.05.003 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:4 AU: Yamanaka, Kenta;Mori, Manami;Chiba, Akihiko;
6:5:3:15 Collective behavior of strain-induced martensitic transformation (SIMT) in biomedical Co-Cr-Mo-N alloy polycrystal: An ex-situ electron backscattering diffraction study
DOI:10.1016/j.msea.2014.05.071 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Lee, Byoung-Soo;Koizumi, Yuichiro;Matsumoto, Hiroaki;Chiba, Akihiko;
6:5:3:16 Suzuki segregation in Co-Ni-based superalloy at 973 K: An experimental and computational study by phase-field simulation
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6:5:3:17 Effects of microstructures on the sliding behavior of hot-pressed CoCrMo alloys
DOI:10.1016/j.wear.2014.07.022 JN:WEAR PY:2014 TC:1 AU: Chen, Yan;Li, Yunping;Kurosu, Shingo;Yamanaka, Kenta;Tang, Ning;Chiba, Akihiko;
6:5:3:18 Phase decomposition in biomedical Co-29Cr-6Mo-0.2N alloy during isothermal heat treatment at 1073 K
DOI:10.1016/j.jallcom.2013.12.126 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:3 AU: Mori, M.;Yamanaka, K.;Chiba, A.;
6:5:3:19 Asymmetric slip trace formation in tension/compression cyclic deformation of biomedical Co-Cr-Mo-N alloy with negative stacking fault energy
DOI:10.1016/j.scriptamat.2013.10.015 JN:SCRIPTA MATERIALIA PY:2014 TC:0 AU: Mitsunobu, Takuya;Koizumi, Yuichiro;Lee, Byoung-Soo;Chiba, Akihiko;
6:5:3:20 Fractures in tensile deformation of biomedical Co-Cr-Mo-N alloys
DOI:10.1016/j.matlet.2010.12.007 JN:MATERIALS LETTERS PY:2011 TC:13 AU: Lee, B. S.;Matsumoto, H.;Chiba, A.;
6:5:3:21 Deformation induced FCC to HCP transformation in a Co-27Cr-5Mo-0.05C alloy
DOI:10.1016/j.msea.2010.12.024 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:15 AU: Mani, A.;Salinas-Rodriguez;Lopez, H. F.;
6:5:3:22 The damage process in a biomedical Co-29Cr-6Mo-0.14N alloy analyzed by X-ray tomography and electron backscattered diffraction
DOI:10.1016/j.scriptamat.2010.07.032 JN:SCRIPTA MATERIALIA PY:2011 TC:9 AU: Kurosu, Shingo;Matsumoto, Hiroaki;Chiba, Akihiko;Landron, Caroline;Fabregue, Damien;Maire, Eric;
6:5:3:23 Microstructural characterization of as-cast biocompatible Co-Cr-Mo alloys
DOI:10.1016/j.matchar.2010.10.011 JN:MATERIALS CHARACTERIZATION PY:2011 TC:28 AU: Giacchi, J. V.;Morando, C. N.;Fornaro, O.;Palacio, H. A.;
6:5:3:24 Nanoscale carbide precipitation in Co-28Cr-5Mo-0.3C implant alloy during martensite transformation
DOI:10.1016/j.matlet.2013.11.018 JN:MATERIALS LETTERS PY:2014 TC:1 AU: Zangeneh, Sh.;Ketabchi, M.;Lopez, H. F.;
6:5:3:25 Microstructural evolution during isothermal aging and strain-induced transformation followed by isothermal aging in Co-Cr-Mo-C alloy: A comparative study
DOI:10.1016/j.msea.2010.03.018 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:16 AU: Lashgari, H. R.;Zangeneh, Sh.;Hasanabadi, F.;Saghafi, M.;
6:5:3:26 Pulsed electron beam surface melting of CoCrMo alloy for biomedical applications
DOI:10.1016/j.wear.2013.02.002 JN:WEAR PY:2013 TC:4 AU: Walker, J. C.;Cook, R. B.;Murray, J. W.;Clare, A. T.;
6:5:3:27 Effect of ball milling on the physical and mechanical properties of the nanostructured Co-Cr-Mo powders
DOI:10.1016/j.apt.2014.07.009 JN:ADVANCED POWDER TECHNOLOGY PY:2014 TC:0 AU: Dehaghani, Majid Taghian;Ahmadian, Mahdi;Fathi, Mohammadhossein;
6:5:3:28 Effect of isothermal aging on the microstructural evolution of Co-Cr-Mo-C alloy
DOI:10.1016/j.msea.2010.06.081 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:6 AU: Zangeneh, Sh.;Lashgari, H. R.;Saghafi, M.;Karshenas, M.;
6:5:3:29 Effects of chromium and nitrogen content on the microstructures and mechanical properties of as-cast Co-Cr-Mo alloys for dental applications
DOI:10.1016/j.actbio.2012.03.024 JN:ACTA BIOMATERIALIA PY:2012 TC:19 AU: Yoda, Keita;Suyalatu;Takaichi, Atsushi;Nomura, Naoyuki;Tsutsumi, Yusuke;Doi, Hisashi;Kurosu, Shingo;Chiba, Akihiko;Igarashi, Yoshimasa;Hanawa, Takao;
6:5:3:30 Influence of carbon and nitrogen addition on microstructure and hot deformation behavior of biomedical Co-Cr-Mo alloy
DOI:10.1016/j.matchemphys.2012.05.069 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:6 AU: Li, Yunping;Yamashita, Yui;Tang, Ning;Liu, Bin;Kurosu, Shingo;Matsumoto, Hiroaki;Koizumi, Yuichiro;Chiba, Akihiko;
6:5:3:31 Microscopic mechanism of plastic deformation in a polycrystalline Co-Cr-Mo alloy with a single hcp phase
DOI:10.1016/j.actamat.2013.11.005 JN:ACTA MATERIALIA PY:2014 TC:3 AU: Matsumoto, Hiroaki;Koizumi, Yuichiro;Ohashi, Tetsuya;Lee, Byong-Soo;Li, Yunping;Chiba, Akihiko;
6:5:3:32 Characterization of air-formed surface oxide film on a Co-Ni-Cr-Mo alloy (MP35N) and its change in Hanks' solution
DOI:10.1016/j.apsusc.2012.02.057 JN:APPLIED SURFACE SCIENCE PY:2012 TC:8 AU: Nagai, Akiko;Tsutsumi, Yusuke;Suzuki, Yuta;Katayama, Keiichi;Hanawa, Takao;Yamashita, Kimihiro;
6:5:3:33 High temperature passive film on the surface of Co-Cr-Mo alloy and its tribological properties
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6:5:3:34 Grain refinement by pearlitic-type constituents in Co-28Cr-5Mo-0.3C alloy
DOI:10.1016/j.matlet.2012.11.074 JN:MATERIALS LETTERS PY:2013 TC:0 AU: Zangeneh, Sh;Ketabchi, M.;
6:5:3:35 Dynamic Recrystallization Behavior of Biomedical CCM Alloy with Additions of C and N
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6:5:3:36 Construction of Processing Map for Biomedical Co-29Cr-6Mo-0.23C-0.14N Alloy by Using Compression Tests
DOI:10.2320/matertrans.M2010388 JN:MATERIALS TRANSACTIONS PY:2011 TC:2 AU: Yamashita, Yui;Li, Yunping;Matsumoto, Hiroaki;Koizumi, Yuichiro;Chiba, Akihiko;
6:5:3:37 Powder metallurgical processing of Co-28%Cr-6%Mo for dental implants: Physical, mechanical and electrochemical properties
DOI:10.1016/j.powtec.2010.09.024 JN:POWDER TECHNOLOGY PY:2011 TC:15 AU: Rodrigues, Wilson Correa;Broilo, Luiz Roberto;Schaeffer, Lirio;Knoernschild, Gerhard;Mallqui Espinoza, Fidel Rome;
6:5:3:38 Microstructural evolution during solution treatment of Co-Cr-Mo-C biocompatible alloys
DOI:10.1016/j.matchar.2012.03.006 JN:MATERIALS CHARACTERIZATION PY:2012 TC:3 AU: Giacchi, J. V.;Fornaro, O.;Palacio, H.;
6:5:3:39 Biotribological response of Co-Cr alloy with added boron under ball-on-disc tests
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6:5:3:40 Isothermal aging effect on the microstructure and dry sliding wear behavior of Co-28Cr-5Mo-0.3C alloy
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6:5:3:41 Characterization of wear particles generated from CoCrMo alloy under sliding wear conditions
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6:5:3:42 Failure analysis of cemented metal-on-metal total hip replacements from a single centre cohort
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6:5:3:43 Influence of roughness on surface instability of medical grade cobalt-chromium alloy (CoCrMo) during contact corrosion-fatigue
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6:5:3:44 FCC to HCP transformation kinetics in a Co-27Cr-5Mo-0.23C alloy
DOI:10.1007/s10853-010-4969-3 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:2 AU: Turrubiates-Estrada, R.;Salinas-Rodriguez, A.;Lopez, H. F.;
6:5:3:45 Friction surfaced Stellite6 coatings
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6:5:3:46 Mass Loss and Ion Elution of Biomedical Co-Cr-Mo Alloys during Pin-on-Disk Wear Tests
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6:5:3:47 Effects of substitutional impurity Au and Si atoms on antiphase boundary energies in Ti3Al: A first principles study
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6:5:3:48 Phase characterization in as-cast F-75 Co-Cr-Mo-C alloy
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6:5:3:49 Rejuvenation of degraded first stage gas turbine nozzle by heat treatment
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6:5:4:1 Enhanced work-hardening behavior and mechanical properties in ultrafine-grained steels with large-fractioned metastable austenite
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6:5:4:2 Smaller is less stable: Size effects on twinning vs. transformation of reverted austenite in TRIP-maraging steels
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6:5:4:3 Austenite stability of ultrafine-grained transformation-induced plasticity steel with Mn partitioning
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6:5:4:4 Strain partitioning and mechanical stability of retained austenite
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6:5:4:5 Significance of control of austenite stability and three-stage work-hardening behavior of an ultrahigh strength high ductility combination transformation-induced plasticity steel
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6:5:4:6 Mn partitioning during the intercritical annealing of ultrafine-grained 6% Mn transformation-induced plasticity steel
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6:5:4:7 Experimental and numerical analysis on formation of stable austenite during the intercritical annealing of 5Mn steel
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6:5:4:8 Structure-mechanical property relationship in a high strength low carbon alloy steel processed by two-step intercritical annealing and intercritical tempering
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6:5:4:9 The effects of the heating rate on the reverse transformation mechanism and the phase stability of reverted austenite in medium Mn steels
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6:5:4:10 Microstructure and mechanical properties of Fe-0.2C-5Mn steel processed by ART-annealing
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6:5:4:11 Evolution of microstructure and mechanical properties of medium Mn steels during double annealing
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6:5:4:12 Unique serrated flow dependence of critical stress in a hot-rolled Fe-Mn-Al-C steel
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6:5:4:13 Unique impact of ferrite in influencing austenite stability and deformation behavior in a hot-rolled Fe-Mn-Al-C steel
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6:5:4:14 Nanoindentation investigation on the mechanical stability of individual austenite grains in a medium-Mn transformation-induced plasticity steel
DOI:10.1016/j.scriptamat.2013.03.030 JN:SCRIPTA MATERIALIA PY:2013 TC:12 AU: He, B. B.;Huang, M. X.;Liang, Z. Y.;Ngan, A. H. W.;Luo, H. W.;Shi, J.;Cao, W. Q.;Dong, H.;
6:5:4:15 The effects of the initial martensite microstructure on the microstructure and tensile properties of intercritically annealed Fe-9Mn-0.05C steel
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6:5:4:16 Microstructural evolution and mechanical properties of hot-rolled 11% manganese TRIP steel
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6:5:4:17 Deformation microstructures and strengthening mechanisms of an ultrafine grained duplex medium-Mn steel
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6:5:4:18 Improved ductility of a transformation-induced-plasticity steel by nanoscale austenite lamellae
DOI:10.1016/j.msea.2013.06.062 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:9 AU: Shen, Y. F.;Liu, Y. D.;Sun, X.;Wang, Y. D.;Zuo, L.;Misra, R. D. K.;
6:5:4:19 Stability of retained austenite in multi-phase microstructure during austempering and its effect on the ductility of a low carbon steel
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6:5:4:20 Work hardening behavior of ultrafine-grained Mn transformation-induced plasticity steel
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6:5:4:21 High strength low-carbon alloyed steel with good ductility by combining the retained austenite and nano-sized precipitates
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6:5:4:22 Investigation of the mechanical stability of reversed austenite in 13%Cr-4%Ni martensitic stainless steel during the uniaxial tensile test
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6:5:4:23 Twinning and Tripping in 10% Mn steels
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6:5:4:24 Strain partitioning in ultra-fine grained medium-manganese transformation induced plasticity steel
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6:5:4:25 An in situ study on austenite memory and austenitic spontaneous recrystallization of a martensitic steel
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6:5:4:26 Luders-like deformation induced by delta-ferrite-assisted martensitic transformation in a dual-phase high-manganese steel
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6:5:4:27 Reply to comments on "Austenite stability of ultrafine-grained transformation-induced plasticity steel with Mn partitioning"
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6:5:4:28 Heat treatment effects on the microstructure and mechanical properties of a medium manganese steel (0.2C-5Mn)
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6:5:4:29 Intercritical rolling induced ultrafine microstructure and excellent mechanical properties of the medium-Mn steel
DOI:10.1016/j.msea.2013.06.067 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:5 AU: Zhang, R.;Cao, W. Q.;Peng, Z. J.;Shi, J.;Dong, H.;Huang, C. X.;
6:5:4:30 Structure-property relationship in a 960 MPa grade ultrahigh strength low carbon niobium-vanadium microalloyed steel: The significance of high frequency induction tempering
DOI:10.1016/j.msea.2014.08.072 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Xie, Z. J.;Fang, Y. P.;Han, G.;Guo, H.;Misra, R. D. K.;Shang, C. J.;
6:5:4:31 Austenite stability and heterogeneous deformation in fine-grained transformation-induced plasticity-assisted steel
DOI:10.1016/j.scriptamat.2013.02.026 JN:SCRIPTA MATERIALIA PY:2013 TC:2 AU: Ryu, Joo Hyun;Kim, Jeong In;Kim, Hyoung Seop;Oh, Chang-Seok;Bhadeshia, H. K. D. H.;Suh, Dong-Woo;
6:5:4:32 Effect of retained austenite on austenite memory of a 13% Cr-5% Ni martensitic
DOI:10.1016/j.jallcom.2012.04.021 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:0 AU: Liu, L.;Yang, Z. -G.;Zhang, C.;
6:5:5:1 Influence of Al content and precipitation state on the mechanical behavior of austenitic high-Mn low-density steels
DOI:10.1016/j.scriptamat.2012.08.038 JN:SCRIPTA MATERIALIA PY:2013 TC:27 AU: Gutierrez-Urrutia, I.;Raabe, D.;
6:5:5:2 Hydrogen embrittlement associated with strain localization in a precipitation-hardened Fe-Mn-Al-C light weight austenitic steel
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6:5:5:3 Deformation behavior of ferrite-austenite duplex lightweight Fe-Mn-Al-C steel
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6:5:5:4 Excellent combination of strength and ductility in an Fe-9Al-28Mn-1.8C alloy
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6:5:5:5 Low-density steels
DOI:10.1016/j.scriptamat.2012.11.037 JN:SCRIPTA MATERIALIA PY:2013 TC:21 AU: Suh, Dong-Woo;Kim, Nack J.;
6:5:5:6 Direct evidence for the formation of ordered carbides in a ferrite-based low-density Fe-Mn-Al-C alloy studied by transmission electron microscopy and atom probe tomography
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6:5:5:7 Effect of aging on the microstructure and deformation behavior of austenite base lightweight Fe-28Mn-9Al-0.8C steel
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6:5:5:8 Microstructure and mechanical properties of Al-alloyed Fe-Cr-Ni-Mn-C stainless steels
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6:5:5:9 Tensile deformation of low-density Fe-Mn-Al-C austenitic steels at ambient temperature
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6:5:5:10 Deformation mechanisms in ultrahigh-strength and high-ductility nanostructured FeMnAlC alloy
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6:5:5:11 Rapid alloy prototyping: Compositional and thermo-mechanical high throughput bulk combinatorial design of structural materials based on the example of 30Mn-1.2C-xAl triplex steels
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6:5:5:12 Novel ferrite-austenite duplex lightweight steel with 77% ductility by transformation induced plasticity and twinning induced plasticity mechanisms
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6:5:5:13 Microstructure and tensile behavior of duplex low-density steel containing 5 mass% aluminum
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6:5:5:14 Thermodynamic calculation on the stability of (Fe,Mn)(3)AlC carbide in high aluminum steels
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6:5:5:15 Tensile deformation of a duplex Fe-20Mn-9Al-0.6C steel having the reduced specific weight
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6:5:5:16 Effect of annealing temperature on microstructural modification and tensile properties in 0.35 C-3.5 Mn-5.8 Al lightweight steel
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6:5:5:17 Dual-scale correlation of mechanical behavior in duplex low-density steel
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6:5:5:18 Phase equilibria and thermodynamics of the Fe-Al-C system: Critical evaluation, experiment and thermodynamic optimization
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6:5:5:19 Thermodynamic analysis of the effect of C, Mn and Al on microstructural evolution of lightweight steels
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6:5:5:20 A novel high-strength, high-ductility and high-corrosion-resistance FeAlMnC low-density alloy
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6:5:5:21 Isothermal precipitation behavior of kappa-carbide in the Fe-9Mn-6Al-0.15C lightweight steel with a multiphase microstructure
DOI:10.1016/j.jallcom.2013.05.138 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:3 AU: Jeong, Junyeong;Lee, Chan-Young;Park, Il-Jeong;Lee, Young-Kook;
6:5:5:22 Effects of Nb and C additions on the microstructure and tensile properties of lightweight ferritic Fe-8Al-5Mn alloy
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6:5:5:23 Evolution of microstructure and mechanical properties during thermomechanical processing of a low-density multiphase steel for automotive application
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6:5:5:24 Low-density low-carbon Fe-Al ferritic steels
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6:5:5:25 Microstructure characterisation of a low density steel by transmission electron microscopic study
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6:5:5:26 Effects of aluminum content on cracking phenomenon occurring during cold rolling of three ferrite-based lightweight steel
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6:5:5:27 Structure and properties of gas-nitrided nanostructured FeAlMnC alloy
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6:5:5:28 Improvement of corrosion resistance of nitrided low alloy steel by plasma post-oxidation
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6:5:5:29 Relationship between Microstructures and Tensile Properties of an Fe-30Mn-8.5Al-2.0C Alloy
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6:5:5:30 Effect of Carbon on Spinodal Decomposition in Fe-26Mn-20Al-C Alloys
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6:5:5:31 A New Austenitic FeMnAlCrC Alloy with High-Strength, High-Ductility, and Moderate Corrosion Resistance
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6:5:5:32 Effect of Manganese on Microstructure and Mechanical Properties of Cast High Alloyed CrMnNi-N Steels
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6:5:6:1 Metallic composites processed via extreme deformation: Toward the limits of strength in bulk materials
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6:5:6:2 Chemical gradients across phase boundaries between martensite and austenite in steel studied by atom probe tomography and simulation
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6:5:6:3 Atomic-scale mechanisms of deformation-induced cementite decomposition in pearlite
DOI:10.1016/j.actamat.2011.03.022 JN:ACTA MATERIALIA PY:2011 TC:57 AU: Li, Y. J.;Choi, P.;Borchers, C.;Westerkamp, S.;Goto, S.;Raabe, D.;Kirchheim, R.;
6:5:6:4 Evolution of strength and microstructure during annealing of heavily cold-drawn 6.3 GPa hypereutectoid pearlitic steel wire
DOI:10.1016/j.actamat.2012.03.006 JN:ACTA MATERIALIA PY:2012 TC:41 AU: Li, Y. J.;Choi, P.;Goto, S.;Borchers, C.;Raabe, D.;Kirchheim, R.;
6:5:6:5 Segregation engineering enables nanoscale martensite to austenite phase transformation at grain boundaries: A pathway to ductile martensite
DOI:10.1016/j.actamat.2013.06.055 JN:ACTA MATERIALIA PY:2013 TC:31 AU: Raabe, D.;Sandloebes, S.;Millan, J.;Ponge, D.;Assadi, H.;Herbig, M.;Choi, P. -P.;
6:5:6:6 Atomic scale effects of alloying, partitioning, solute drag and austempering on the mechanical properties of high-carbon bainitic-austenitic TRIP steels
DOI:10.1016/j.actamat.2012.07.064 JN:ACTA MATERIALIA PY:2012 TC:20 AU: Seol, Jae-Bok;Raabe, Dierk;Choi, Puck-Pa;Im, Yung-Rok;Park, Chan-Gyung;
6:5:6:7 Bulk combinatorial design of ductile martensitic stainless steels through confined martensite-to-austenite reversion
DOI:10.1016/j.msea.2013.06.036 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:5 AU: Springer, H.;Beide, M.;Raabe, D.;
6:5:6:8 Nanoscale austenite reversion through partitioning, segregation and kinetic freezing: Example of a ductile 2 GPa Fe-Cr-C steel
DOI:10.1016/j.actamat.2012.01.045 JN:ACTA MATERIALIA PY:2012 TC:27 AU: Yuan, L.;Ponge, D.;Wittig, J.;Choi, P.;Jimenez, J. A.;Raabe, D.;
6:5:6:9 Shear-Induced Mixing Governs Codeformation of Crystalline-Amorphous Nanolaminates
DOI:10.1103/PhysRevLett.113.035501 JN:PHYSICAL REVIEW LETTERS PY:2014 TC:1 AU: Guo, Wei;Jaegle, Eric A.;Choi, Pyuck-Pa;Yao, Jiahao;Kostka, Aleksander;Schneider, Jochen M.;Raabe, Dierk;
6:5:6:10 Atomic-scale analysis of carbon partitioning between martensite and austenite by atom probe tomography and correlative transmission electron microscopy
DOI:10.1016/j.actamat.2013.10.064 JN:ACTA MATERIALIA PY:2014 TC:19 AU: Toji, Yuki;Matsuda, Hiroshi;Herbig, Michael;Choi, Pyuck-Pa;Raabe, Dierk;
6:5:6:11 Microstructure evolution in nano/submicron grained AISI 301LN stainless steel
DOI:10.1016/j.msea.2009.11.037 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:27 AU: Rajasekhara, S.;Karjalainen, L. P.;Kyrolainen, A.;Ferreira, P. J.;
6:5:6:12 Atomic-scale investigation of epsilon and theta precipitates in bainite in 100Cr6 bearing steel by atom probe tomography and ab initio calculations
DOI:10.1016/j.actamat.2013.08.051 JN:ACTA MATERIALIA PY:2013 TC:8 AU: Song, W.;von Appen, J.;Choi, P.;Dronskowski, R.;Raabe, D.;Bleck, W.;
6:5:6:13 Thermodynamics of carbon solubility in ferrite and vacancy formation in cementite in strained pearlite
DOI:10.1016/j.actamat.2012.12.001 JN:ACTA MATERIALIA PY:2013 TC:7 AU: Nematollahi, Gh. Ali;von Pezold, Johann;Neugebauer, Joerg;Raabe, Dierk;
6:5:6:14 Designing Heusler nanoprecipitates by elastic misfit stabilization in Fe-Mn maraging steels
DOI:10.1016/j.actamat.2014.05.016 JN:ACTA MATERIALIA PY:2014 TC:1 AU: Milian, J.;Sandloebes, S.;Al-Zubi, A.;Hickel, T.;Choi, P.;Neugebauer, J.;Ponge, D.;Raabe, D.;
6:5:6:15 Nanocrystalline Fe-C alloys produced by ball milling of iron and graphite
DOI:10.1016/j.actamat.2013.02.006 JN:ACTA MATERIALIA PY:2013 TC:9 AU: Chen, Y. Z.;Herz, A.;Li, Y. J.;Borchers, C.;Choi, P.;Raabe, D.;Kirchheim, R.;
6:5:6:16 Crystallization, phase evolution and corrosion of Fe-based metallic glasses: An atomic-scale structural and chemical characterization study
DOI:10.1016/j.actamat.2014.02.027 JN:ACTA MATERIALIA PY:2014 TC:6 AU: Duarte, M. J.;Kostka, A.;Jimenez, J. A.;Choi, P.;Klemm, J.;Crespo, D.;Raabe, D.;Renner, F. U.;
6:5:6:17 Martensite -> austenite phase transformation kinetics in an ultrafine-grained metastable austenitic stainless steel
DOI:10.1016/j.actamat.2010.10.012 JN:ACTA MATERIALIA PY:2011 TC:13 AU: Rajasekhara, S.;Ferreira, P. J.;
6:5:6:18 Atomic-Scale Quantification of Grain Boundary Segregation in Nanocrystalline Material
DOI:10.1103/PhysRevLett.112.126103 JN:PHYSICAL REVIEW LETTERS PY:2014 TC:7 AU: Herbig, M.;Raabe, D.;Li, Y. J.;Choi, P.;Zaefferer, S.;Goto, S.;
6:5:6:19 Segregation Stabilizes Nanocrystalline Bulk Steel with Near Theoretical Strength
DOI:10.1103/PhysRevLett.113.106104 JN:PHYSICAL REVIEW LETTERS PY:2014 TC:1 AU: Li, Yujiao;Raabe, Dierk;Herbig, Michael;Choi, Pyuck-Pa;Goto, Shoji;Kostka, Aleksander;Yarita, Hiroshi;Borchers, Christine;Kirchheim, Reiner;
6:5:6:20 X-ray diffraction and Mossbauer spectroscopy studies of cementite dissolution in cold-drawn pearlitic steel
DOI:10.1080/14786435.2013.838010 JN:PHILOSOPHICAL MAGAZINE PY:2013 TC:1 AU: Chakraborty, J.;Ghosh, M.;Ranjan, Rajeev;Das, G.;Das, D.;Chandra, S.;
6:5:6:21 Shear-Induced Mixing Governs Codeformation of Crystalline-Amorphous Nanolaminates (vol 113, 035501, 2014)
DOI:10.1103/PhysRevLett.113.069903 JN:PHYSICAL REVIEW LETTERS PY:2014 TC:0 AU: Guo, Wei;Jaegle, Eric A.;Choi, Pyuck-Pa;Yao, Jiahao;Kostka, Aleksander;Schneider, Jochen M.;Raabe, Dierk;
6:5:7:1:1 Modeling tensile strength of austenitic graded steel based on the strain gradient plasticity theory
DOI:10.1016/j.commatsci.2011.01.016 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:26 AU: Nazari, Ali;Mohandesi, Jamshid Aghazadeh;Tavareh, Saeed;
6:5:7:1:2 Prediction Charpy impact energy of bcc and fcc functionally graded steels in crack divider configuration by strain gradient plasticity theory
DOI:10.1016/j.commatsci.2011.05.047 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:16 AU: Nazari, Ali;Najafi, Seyyed Mehdi Mojtahed;
6:5:7:1:3 Simulation of impact energy in functionally graded steels
DOI:10.1016/j.commatsci.2010.11.019 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:24 AU: Nazari, Ali;Mohandesi, Jamshid Aghazadeh;Vishkasogheh, Mehdi Hamid;Abedi, Mohammad;
6:5:7:1:4 Prediction impact behavior of functionally graded steel by strain gradient plasticity theory
DOI:10.1016/j.commatsci.2011.06.004 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:12 AU: Nazari, Ali;Najafi, Seyyed Mehdi Mojtahed;
6:5:7:1:5 Modeling ductile to brittle transition temperature of functionally graded steels by artificial neural networks
DOI:10.1016/j.commatsci.2011.02.003 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:32 AU: Nazari, Ali;Milani, Amir Ali;Zakeri, Mohammad;
6:5:7:1:6 Microhardness profile prediction of a graded steel by strain gradient plasticity theory
DOI:10.1016/j.commatsci.2011.01.014 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:28 AU: Nazari, Ali;Mohandesi, Jamshid Aghazadeh;Tavareh, Saeed;
6:5:7:1:7 Modeling tensile strength of oblique layer functionally graded austenitic steel
DOI:10.1016/j.commatsci.2010.11.029 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:2 AU: Naari, Ali;Mohandesi, Jamshid Aghazadeh;
6:5:7:1:8 Application of strain gradient plasticity theory to model Charpy impact energy of functionally graded steels using modified stress-strain curve data
DOI:10.1016/j.commatsci.2011.07.057 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:11 AU: Nazari, Ali;
6:5:7:1:9 Modeling ductile to brittle transition temperature of functionally graded steels by fuzzy logic
DOI:10.1007/s10853-011-5563-z JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:27 AU: Nazari, Ali;Milani, Amir Ali;
6:5:7:1:10 Modeling fracture toughness of ferritic and austenitic functionally graded steel based on the strain gradient plasticity theory
DOI:10.1016/j.commatsci.2011.06.008 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:12 AU: Nazari, Ali;
6:5:7:1:11 Ductile to brittle transition temperature of functionally graded steels with crack arrester configuration
DOI:10.1016/j.msea.2011.01.105 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:18 AU: Nazari, Ali;Milani, Amir Ali;
6:5:7:1:12 Strain gradient plasticity theory to predict the input data for modeling Charpy impact energy in functionally graded steels
DOI:10.1016/j.commatsci.2011.07.007 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:7 AU: Nazari, Ali;
6:5:7:1:13 Modeling fracture toughness of functionally graded steels in crack arrester configuration
DOI:10.1016/j.commatsci.2010.12.019 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:19 AU: Nazari, Ali;Mohandesi, Jamshid Aghazadeh;Riahi, Shadi;
6:5:7:1:14 Simulation of impact energy in functionally graded steels by mechanism-based strain gradient plasticity theory
DOI:10.1016/j.commatsci.2011.07.010 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:8 AU: Nazari, Ali;
6:5:7:1:15 Simulation Charpy impact energy of functionally graded steels by modified stress-strain curve through mechanism-based strain gradient plasticity theory
DOI:10.1016/j.commatsci.2011.07.027 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:5 AU: Nazari, Ali;
6:5:7:1:16 Modeling Charpy impact energy of functionally graded steel based on the strain gradient plasticity theory and modified stress-strain curve data
DOI:10.1016/j.commatsci.2011.06.029 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:7 AU: Nazari, Ali;
6:5:7:1:17 Strain gradient plasticity theory for modeling J(IC) of functionally graded steels
DOI:10.1016/j.commatsci.2011.06.038 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:7 AU: Nazari, Ali;
6:5:7:1:18 Application of strain gradient plasticity theory to model Charpy impact energy of functionally graded steels
DOI:10.1016/j.commatsci.2011.06.039 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:8 AU: Nazari, Ali;
6:5:7:1:19 Simulation of critical J-integral in functionally graded steels components weakened by U and blunt V-shape notches under Charpy test
DOI:10.1016/j.commatsci.2013.01.001 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:0 AU: Khaleghinia, J.;Vanini, A. Sadough;Abolghasemzadeh, M.;Kordani, N.;
6:5:7:1:20 Dynamic notch fracture toughness J(C)(V) assessment of functionally austenitic-martensitic graded steels
DOI:10.1016/j.msea.2012.03.051 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:2 AU: Vanini, S. A. Sadough;Abolghasemzadeh, M.;Kordani, N.;Sarmadian, M.;
6:5:7:1:21 Fatigue behavior of functionally graded steel produced by electro-slag remelting
DOI:10.1016/j.msea.2013.06.051 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:1 AU: Salehi, M.;Vaghasloo, Y. Alizadeh;Naderi, M.;Movaffagh, M. Ramezani;Varmaziar, A.;
6:5:7:2:1 Variations in DBIT and CTOD within weld heat-affected zone of API X65 pipeline steel
DOI:10.1016/j.msea.2012.03.062 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:5 AU: Ju, Jang-Bog;Kim, Woo-sik;Jang, Jae-il;
6:5:7:3:1 Prediction compressive strength of lightweight geopolymers by ANFIS
DOI:10.1016/j.ceramint.2012.02.026 JN:CERAMICS INTERNATIONAL PY:2012 TC:4 AU: Nazari, Ali;Khalaj, Gholamreza;
6:5:8:1 The effect of morphology on the stability of retained austenite in a quenched and partitioned steel
DOI:10.1016/j.scriptamat.2012.11.003 JN:SCRIPTA MATERIALIA PY:2013 TC:38 AU: Xiong, X. C.;Chen, B.;Huang, M. X.;Wang, J. F.;Wang, L.;
6:5:8:2 Microstructural development during the quenching and partitioning process in a newly designed low-carbon steel
DOI:10.1016/j.actamat.2011.06.014 JN:ACTA MATERIALIA PY:2011 TC:41 AU: Santofimia, M. J.;Zhao, L.;Petrov, R.;Kwakernaak, C.;Sloof, W. G.;Sietsma, J.;
6:5:8:3 New low carbon Q&P steels containing film-like intercritical ferrite
DOI:10.1016/j.msea.2010.06.083 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:40 AU: Santofimia, M. J.;Nguyen-Minh, T.;Zhao, L.;Petrov, R.;Sabirov, I.;Sietsma, J.;
6:5:8:4 Effect of fresh martensite on the stability of retained austenite in quenching and partitioning steel
DOI:10.1016/j.msea.2014.07.054 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:8 AU: De Knijf, Dorien;Petrov, Roumen;Foejer, Cecilia;Kestens, Leo A. I.;
6:5:8:5 Study of microstructural evolution, microstructure-mechanical properties correlation and collaborative deformation-transformation behavior of quenching and partitioning (Q&P) steel
DOI:10.1016/j.msea.2013.12.054 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:6 AU: Sun, Jing;Yu, Hao;Wang, Shaoyang;Fan, Yongfei;
6:5:8:6 Microstructure evolution and mechanical properties of a hot-rolled directly quenched and partitioned steel containing proeutectoid ferrite
DOI:10.1016/j.msea.2014.04.030 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Xu, Yunbo;Tan, Xiaodong;Yang, Xiaolong;Hu, Zhiping;Peng, Fei;Wu, Di;Wang, Guodong;
6:5:8:7 A carbide-free bainite/martensite/austenite triplex steel with enhanced mechanical properties treated by a novel quenching-partitioning-tempering process
DOI:10.1016/j.msea.2012.08.064 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:14 AU: Gao, Guhui;Zhang, Han;Tan, Zhunli;Liu, Wenbo;Bai, Bingzhe;
6:5:8:8 Characterization of microstructure obtained by quenching and partitioning process in low alloy martensitic steel
DOI:10.1016/j.msea.2010.02.020 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:45 AU: Wang, C. Y.;Shi, J.;Cao, W. Q.;Dong, H.;
6:5:8:9 Enhanced ductility and toughness in an ultrahigh-strength Mn-Si-Cr-C steel: The great potential of ultrafine filmy retained austenite
DOI:10.1016/j.actamat.2014.05.055 JN:ACTA MATERIALIA PY:2014 TC:5 AU: Gao, Guhui;Zhang, Han;Gui, Xiaolu;Luo, Ping;Tan, Zhunli;Bai, Bingzhe;
6:5:8:10 Study of microstructural evolution and strength-toughness mechanism of heavy-wall induction bend pipe
DOI:10.1016/j.msea.2014.07.101 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Zhou, Tao;Yu, Hao;Hu, Junli;Wang, Shaoyang;
6:5:8:11 Microstructure development and mechanical properties of quenching and partitioning (Q&P) steel and an incorporation of hot-dipping galvanization during Q&P process
DOI:10.1016/j.msea.2013.08.021 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:5 AU: Sun, Jing;Yu, Hao;
6:5:8:12 High strength-elongation product of Nb-microalloyed low-carbon steel by a novel quenching-partitioning-tempering process
DOI:10.1016/j.msea.2011.07.008 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:20 AU: Zhou, S.;Zhang, K.;Wang, Y.;Gu, J. F.;Rong, Y. H.;
6:5:8:13 Effect of partitioning procedure on microstructure and mechanical properties of a hot-rolled directly quenched and partitioned steel
DOI:10.1016/j.msea.2013.11.064 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:6 AU: Tan, Xiaodong;Xu, Yunbo;Yang, Xiaolong;Liu, Ziquan;Wu, Di;
6:5:8:14 Microstructure-properties relationship in a one-step quenched and partitioned steel
DOI:10.1016/j.msea.2013.09.063 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:7 AU: Tan, Xiaodong;Xu, Yunbo;Yang, Xiaolong;Wu, Di;
6:5:8:15 Characterization of transformed and deformed microstructures in transformation induced plasticity steels using electron backscattering diffraction
DOI:10.1016/j.msea.2011.03.033 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:13 AU: Kwon, Eui Pyo;Fujieda, Shun;Shinoda, Kozo;Suzuki, Shigeru;
6:5:8:16 Microstructure, tensile and toughness properties after quenching and partitioning treatments of a medium-carbon steel
DOI:10.1016/j.msea.2012.08.130 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:19 AU: Bagliani, E. Paravicini;Santofimia, M. J.;Zhao, L.;Sietsma, J.;Anelli, E.;
6:5:8:17 Mechanism exploration of an ultrahigh strength steel by quenching-partitioning-tempering process
DOI:10.1016/j.msea.2011.08.050 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:15 AU: Wang, X. D.;Guo, Z. H.;Rong, Y. H.;
6:5:8:18 Quenching and partitioning treatment of a low-carbon martensitic stainless steel
DOI:10.1016/j.msea.2011.10.125 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:20 AU: Tsuchiyama, Toshihiro;Tobata, Junya;Tao, Teruyuki;Nakada, Nobuo;Takaki, Setsuo;
6:5:8:19 Bainitic transformation during the two-step quenching and partitioning process in a medium carbon steel containing silicon
DOI:10.1016/j.msea.2010.06.045 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:26 AU: Li, H. Y.;Lu, X. W.;Wu, X. C.;Min, Y. A.;Jin, X. J.;
6:5:8:20 Influence of alloying elements on the microstructure evolution and mechanical properties in quenched and partitioned steels
DOI:10.1016/j.msea.2014.01.066 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Maheswari, N.;Chowdhury, S. Ghosh;Kumar, K. C. Hari;Sankaran, S.;
6:5:8:21 Carbide characterization in a Nb-microalloyed advanced ultrahigh strength steel after quenching-partitioning-tempering process
DOI:10.1016/j.msea.2010.02.026 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:16 AU: Wang, X. D.;Xu, W. Z.;Guo, Z. H.;Wang, L.;Rong, Y. H.;
6:5:8:22 From the TRIP effect and Quenching and Partitioning steels concepts to the development of new high-performance, lean powder metallurgy steels
DOI:10.1016/j.msea.2013.02.034 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: Torralba, Jose M.;Navarro, Alfonso;Campos, Monica;
6:5:8:23 Development of 3rd generation AHSS with medium Mn content alloying compositions
DOI:10.1016/j.msea.2012.11.113 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:15 AU: Aydin, Huseyin;Essadiqi, Elhachmi;Jung, In-Ho;Yue, Stephen;
6:5:8:24 The static and dynamic mechanical properties of a new low-carbon, low-alloy austempered steel
DOI:10.1016/j.msea.2013.09.085 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Martis, Codrick J.;Putatunda, Susil K.;Boileau, James;Spray, John G.;
6:5:8:25 Microstructural analysis of martensite constituents in quenching and partitioning steels
DOI:10.1016/j.matchar.2014.03.003 JN:MATERIALS CHARACTERIZATION PY:2014 TC:8 AU: Santofimia, M. J.;Petrov, R. H.;Zhao, L.;Sietsma, J.;
6:5:8:26 Strengthening and toughening mechanisms of quenching-partitioning-tempering (Q-P-T) steels
DOI:10.1016/j.jallcom.2012.02.016 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:6 AU: Hsu (Xu Zuyao), T. Y.;Jin, X. J.;Rong, Y. H.;
6:5:8:27 Phase transformations during the decomposition of austenite below M-s in a low-carbon steel
DOI:10.1016/j.matchar.2014.06.003 JN:MATERIALS CHARACTERIZATION PY:2014 TC:2 AU: da Silva, Elisabete Pinto;Xu, Wei;Fojer, Cecilia;Houbaert, Yvan;Sietsma, Jilt;Petrov, Roumen H.;
6:5:9:1 Steels for bearings
DOI:10.1016/j.pmatsci.2011.06.002 JN:PROGRESS IN MATERIALS SCIENCE PY:2012 TC:89 AU: Bhadeshia, H. K. D. H.;
6:5:9:2 Examination of carbon partitioning into austenite during tempering of bainite
DOI:10.1016/j.scriptamat.2010.04.049 JN:SCRIPTA MATERIALIA PY:2010 TC:38 AU: Caballero, F. G.;Miller, M. K.;Clarke, A. J.;Garcia-Mateo, C.;
6:5:9:3 Tensile behaviour of a nanocrystalline bainitic steel containing 3 wt% silicon
DOI:10.1016/j.msea.2012.04.031 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:26 AU: Garcia-Mateo, C.;Caballero, F. G.;Sourmail, T.;Kuntz, M.;Cornide, J.;Smanio, V.;Elvira, R.;
6:5:9:4 Carbon supersaturation of ferrite in a nanocrystalline bainitic steel
DOI:10.1016/j.actamat.2009.12.020 JN:ACTA MATERIALIA PY:2010 TC:45 AU: Caballero, F. G.;Miller, M. K.;Garcia-Mateo, C.;
6:5:9:5 Thermal stability of austenite retained in bainitic steels
DOI:10.1016/j.msea.2009.11.063 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:28 AU: Podder, A. Saha;Bhadeshia, H. K. D. H.;
6:5:9:6 Complementary use of transmission electron microscopy and atom probe tomography for the examination of plastic accommodation in nanocrystalline bainitic steels
DOI:10.1016/j.actamat.2011.06.024 JN:ACTA MATERIALIA PY:2011 TC:17 AU: Caballero, F. G.;Yen, Hung-Wei;Miller, M. K.;Yang, Jer-Ren;Cornide, J.;Garcia-Mateo, C.;
6:5:9:7 Strengthening and mechanical stability mechanisms in nanostructured bainite
DOI:10.1007/s10853-013-7408-4 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:4 AU: Avishan, Behzad;Garcia-Mateo, Carlos;Morales-Rivas, Lucia;Yazdani, Sasan;Caballero, Francisca G.;
6:5:9:8 Temperature dependence of carbon supersaturation of ferrite in bainitic steels
DOI:10.1016/j.scriptamat.2012.08.007 JN:SCRIPTA MATERIALIA PY:2012 TC:19 AU: Caballero, F. G.;Miller, M. K.;Garcia-Mateo, C.;Cornide, J.;Santofimia, M. J.;
6:5:9:9 On measurement of carbon content in retained austenite in a nanostructured bainitic steel
DOI:10.1007/s10853-011-5880-2 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:16 AU: Garcia-Mateo, C.;Caballero, F. G.;Miller, M. K.;Jimenez, J. A.;
6:5:9:10 Three phase crystallography and solute distribution analysis during residual austenite decomposition in tempered nanocrystalline bainitic steels
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6:5:9:11 Improved rolling contact fatigue life for an ultrahigh-carbon steel with nanobainitic microstructure
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6:5:9:13 Retained austenite thermal stability in a nanostructured bainitic steel
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6:5:9:14 Mechanical properties of nanostructured, low temperature bainitic steel designed using a thermodynamic model
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6:5:9:17 Low temperature kinetics of bainite formation in high carbon steels
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6:5:9:18 Nanostructured high-carbon dual-phase steels
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6:5:9:19 New experimental evidence of the diffusionless transformation nature of bainite
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6:5:9:20 Computational design of advanced steels
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6:5:9:21 Carbon in cubic and tetragonal ferrite
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6:5:9:22 Effect of tempering upon the tensile properties of a nanostructured bainitic steel
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6:5:9:23 Multi-step isothermal bainitic transformation in medium-carbon steel
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6:5:9:24 Experimental evidence for non-cubic bainitic ferrite
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6:5:9:25 Acceleration of the super bainite transformation through a coarse austenite grain size
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6:5:9:26 The Bauschinger effect in the supercooled austenite of SAE 52100 steel
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6:5:9:27 Developing very hard nanostructured bainitic steel
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6:5:9:28 Enhanced thermal stability in nanostructured bainitic steel
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6:5:9:29 An assessment of the contributing factors to the nanoscale structural refinement of advanced bainitic steels
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6:5:9:30 Influence of transformation temperature on carbide precipitation sequence during lower bainite formation
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6:5:9:31 Unambiguous carbon partitioning from martensite to austenite in Fe-C-Ni alloys during quenching and partitioning
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6:5:9:32 Parameter identification for an Armstrong-Frederick hardening law for supercooled austenite of SAE 52100 steel
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6:5:9:33 Direct or indirect: Influence of type of retained austenite decomposition during tempering on the toughness of a hot-work tool steel
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6:5:9:34 Autocatalytic nature of the bainitic transformation in steels: a new hypothesis
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6:5:9:35 Foreign Object Damage by Spherical Steel Projectiles in an N720/Alumina Oxide/Oxide Ceramic Matrix Composite
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6:5:9:36 Optimisation of the mechanical properties of air cooled bainitic steel components through tailoring of the transformation kinetics
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6:5:9:37 Artificial intelligence as efficient technique for ball bearing fretting wear damage prediction
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6:5:10:1 Stability, structure and electronic properties of gamma-Fe23C6 from first-principles theory
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6:5:10:2 Origin of Predominance of Cementite among Iron Carbides in Steel at Elevated Temperature
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6:5:10:3 Stability and structures of the epsilon-phases of iron nitrides and iron carbides from first principles
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6:5:10:4 Electronic, magnetic and elastic properties of epsilon-phases Fe3X(X=B, C, N) from density-functional theory calculations
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6:5:10:5 Electronic, magnetic and elastic properties of gamma-Fe4X (X=B/C/N) from density functional theory calculations
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6:5:10:6 Deformation-induced austenite grain rotation and transformation in TRIP-assisted steel
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6:5:10:7 epsilon-Carbide in alloy steels: First-principles assessment
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6:5:10:8 Role of carbon and nitrogen in Fe2C and Fe2N from first-principles calculations
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6:5:10:9 Structural and magnetic properties of NiCx and NiNx (x=0 to 1/3) solid solutions from first-principles calculations
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6:5:10:10 Characterization of NbC and (Nb, Ti)N nanoprecipitates in TRIP assisted multiphase steels
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6:5:10:11 Stability and crystal structures of iron carbides: A comparison between the semi-empirical modified embedded atom method and quantum-mechanical DFT calculations
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6:5:10:12 Electronic and elastic properties of e-phases Cr2-xVxN (x=0, 1, 2) from density-functional calculations
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6:5:10:13 Stability, elastic and magnetostrictive properties of gamma-Fe4C and its derivatives from first principles theory
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6:5:10:14 Structural tale of two novel (Cr, Mn)C carbides in steel
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6:5:10:15 Structure and stability of Fe2C phases from density-functional theory calculations
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6:5:10:16 Structural properties, phase stability and theoretical hardness of Cr23-xMxC6 (M = Mo, W; x=0-3)
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6:5:10:17 Unravelling the structural and chemical features influencing deformation-induced martensitic transformations in steels
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6:5:10:18 Real-time martensitic transformation kinetics in maraging steel under high magnetic fields
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6:5:10:19 Atomistic study on phase stability and electronic structures of Z phase CrNbNx (x=1, 2, 3)
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6:5:10:20 Novel ultrafine Fe(C) precipitates strengthen transformation-induced-plasticity steel
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6:5:10:21 Alloy carbide precipitation in tempered 2.25 Cr-Mo steel under high magnetic field
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6:5:10:22 The effect of high magnetic field on metal solute substitution in M23C6 alloy carbide
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6:5:10:23 Computational searches for iron carbide in the Earth's inner core
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6:5:10:24 Theoretical study on the elastic, electronic and thermodynamic properties of trigonal-type Cr2N under high pressures
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6:5:10:25 Relations between Parameters in Different Sublattice Configurations for CALPHAD-Type Thermodynamic Assessments
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6:5:10:26 Effect of precipitation on hot formability of high nitrogen steels
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6:5:11:1 Modelling the effect of microstructural banding on the flow curve behaviour of dual-phase (DP) steels
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6:5:11:2 Characterization and modelling of failure initiation in DP steel
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6:5:11:3 A method to quantitatively upscale the damage initiation of dual-phase steels under various stress states from microscale to macroscale
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6:5:11:4 Hole-expansion formability of dual-phase steels using representative volume element approach with boundary-smoothing technique
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6:5:11:5 Characterization and Modeling of Failure Initiation in Bainite-Aided DP Steel
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6:5:11:6 Correlation between 2D and 3D flow curve modelling of DP steels using a microstructure-based RVE approach
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6:5:11:7 Micro-macro-characterisation and modelling of mechanical properties of gas metal arc welded (GMAW) DP600 steel
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6:5:11:8 Crystal plasticity approach for predicting the Bauschinger effect in dual-phase steels
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6:5:11:9 A micromechanical damage simulation of dual phase steels using XFEM
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6:5:11:10 Characterisation of microstructure and modelling of flow behaviour of bainite-aided dual-phase steel
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6:5:11:11 Study the effect of martensite banding on the failure initiation in dual-phase steel
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6:5:11:12 A study of the unloading behaviour of dual phase steel
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6:5:11:13 Microstructural deformation pattern and mechanical behavior analyses of DP600 dual phase steel
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6:5:11:14 Simulation of shear failure in dual phase steels using localization criteria and experimental observation
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6:5:11:15 Micromechanics based modeling to predict flow behavior and plastic strain localization of dual phase steels
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6:5:11:16 Numerical modeling of dual phase microstructure behavior under deformation conditions on the basis of digital material representation
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6:5:11:17 Influence of various material design parameters on deformation behaviors of TRIP steels
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6:5:11:18 FEM modeling of the flow curves and failure modes of dual phase steels with different martensite volume fractions using actual microstructure as the representative volume
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6:5:11:19 Failure analysis of DP600 steel during the cross-die test
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6:5:11:20 Determination of bulk flow properties of a material from the flow properties of its constituent phases
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6:5:11:21 A study of microcrack formation in multiphase steel using representative volume element and damage mechanics
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6:5:11:22 Microstructure evolution simulation in hot rolled DP600 steel during gas metal arc welding
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6:5:11:23 Micromechanics based modeling of Dual Phase steels: Prediction of ductility and failure modes
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6:5:11:24 A dislocation-based hardening model incorporated into an anisotropic hardening approach
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6:5:11:25 On strain partitioning and micro-damage behavior of dual-phase steels
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6:5:11:26 Effect of tempering temperature on resistance to deformation behavior for low carbon bainitic YP960 steels
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6:5:11:27 Nonlinear elastic behaviors of low and high strength steels in unloading and reloading
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6:5:12:1 Mapping the parent austenite orientation reconstructed from the orientation of martensite by EBSD and its application to ausformed martensite
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6:5:12:2 EBSD and reconstruction of pre-transformation microstructures, examples and complexities in steels
DOI:10.1016/j.matchar.2014.06.023 JN:MATERIALS CHARACTERIZATION PY:2014 TC:1 AU: Abbasi, Majid;Kim, Dong-Ik;Nelson, Tracy W.;Abbasi, Mehrdad;
6:5:12:3 EBSD imaging of orientation relationships and variant groupings in different martensitic alloys and Widmanstatten iron meteorites
DOI:10.1016/j.matchar.2014.05.015 JN:MATERIALS CHARACTERIZATION PY:2014 TC:10 AU: Cayron, Cyril;
6:5:12:4 An alternative to the crystallographic reconstruction of austenite in steels
DOI:10.1016/j.matchar.2013.12.014 JN:MATERIALS CHARACTERIZATION PY:2014 TC:8 AU: Bernier, Nicolas;Bracke, Lieven;Malet, Loic;Godet, Stephane;
6:5:12:5 Quantitative analysis of variant selection in ausformed lath martensite
DOI:10.1016/j.actamat.2011.11.018 JN:ACTA MATERIALIA PY:2012 TC:19 AU: Miyamoto, G.;Iwata, N.;Takayama, N.;Furuhara, T.;
6:5:12:6 Three-dimensional characterization of bainitic microstructures in low-carbon high-strength low-alloy steel studied by electron backscatter diffraction
DOI:10.1016/j.matchar.2013.02.009 JN:MATERIALS CHARACTERIZATION PY:2013 TC:6 AU: Kang, J. S.;Seol, Jae-Bok;Park, C. G.;
6:5:12:7 The mechanisms of the fcc-bcc martensitic transformation revealed by pole figures
DOI:10.1016/j.actamat.2009.10.046 JN:ACTA MATERIALIA PY:2010 TC:19 AU: Cayron, Cyril;Barcelo, Francoise;de Carlan, Yann;
6:5:12:8 The crystallography of carbide-free bainites in thermo-mechanically processed low Si transformation-induced plasticity steels
DOI:10.1016/j.jallcom.2014.05.123 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:2 AU: Pereloma, Elena V.;Al-Harbi, Fayez;Gazder, Azdiar A.;
6:5:12:9 An advanced approach to reconstructing parent orientation maps in the case of approximate orientation relations: Application to steels
DOI:10.1016/j.actamat.2012.04.034 JN:ACTA MATERIALIA PY:2012 TC:9 AU: Germain, L.;Gey, N.;Mercier, R.;Blaineau, P.;Humbert, M.;
6:5:12:10 The influence of grain morphology on texture measured after phase transformation in multiphase steels
DOI:10.1007/s10853-014-8282-4 JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:0 AU: Cabus, C.;Regle, H.;Bacroix, B.;
6:5:12:11 Effects of transformation temperature on variant pairing of bainitic ferrite in low carbon steel
DOI:10.1016/j.actamat.2011.12.018 JN:ACTA MATERIALIA PY:2012 TC:23 AU: Takayama, N.;Miyamoto, G.;Furuhara, T.;
6:5:12:12 Effects of ausforming temperature on bainite transformation, microstructure and variant selection in nanobainite steel
DOI:10.1016/j.actamat.2013.03.041 JN:ACTA MATERIALIA PY:2013 TC:13 AU: Gong, W.;Tomota, Y.;Adachi, Y.;Paradowska, A. M.;Kelleher, J. F.;Zhang, S. Y.;
6:5:12:13 Nucleation and variant selection during the alpha-gamma-alpha phase transformation in microalloyed steel
DOI:10.1016/j.actamat.2010.11.017 JN:ACTA MATERIALIA PY:2011 TC:12 AU: Lischewski, I.;Gottstein, G.;
6:5:12:14 Effect of hot deformation of austenite on martensitic transformation in high manganese steel
DOI:10.1016/j.jallcom.2012.12.032 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:4 AU: Wang, Hui-Zhen;Yang, Ping;Mao, Wei-Min;Lu, Fa-Yun;
6:5:12:15 On the nature of internal interfaces in a tempered martensite ferritic steel and their evolution during long-term creep
DOI:10.1016/j.scriptamat.2012.02.042 JN:SCRIPTA MATERIALIA PY:2012 TC:5 AU: Payton, E. J.;Aghajani, A.;Otto, F.;Eggeler, G.;Yardley, V. A.;
6:5:12:16 Refinement of orientation relations occurring in phase transformation based on considering only the orientations of the variants
DOI:10.1016/j.scriptamat.2010.09.016 JN:SCRIPTA MATERIALIA PY:2011 TC:14 AU: Humbert, M.;Blaineau, P.;Germain, L.;Gey, N.;
6:5:12:17 Microcracking of high zirconia refractories after t -> m phase transition during cooling: An EBSD study
DOI:10.1016/j.jeurceramsoc.2011.02.033 JN:JOURNAL OF THE EUROPEAN CERAMIC SOCIETY PY:2011 TC:6 AU: Sibil, Arnaud;Douillard, Thierry;Cayron, Cyril;Godin, Nathalie;R'mili, Mohamed;Fantozzi, Gilbert;
6:5:12:18 An alternative way to orient the parent phase in the cubic/orthorhombic martensitic transformation of titanium shape memory alloys
DOI:10.1016/j.scriptamat.2014.04.012 JN:SCRIPTA MATERIALIA PY:2014 TC:0 AU: Bertrand, Emmanuel;Castany, Philippe;Gloriant, Thierry;
6:5:12:19 Variant selection of lenticular martensite by ausforming
DOI:10.1016/j.scriptamat.2012.05.007 JN:SCRIPTA MATERIALIA PY:2012 TC:5 AU: Chiba, T.;Miyamoto, G.;Furuhara, T.;
6:5:12:20 Reconstruction of the Cubic and Tetragonal Parent Grains from Electron Backscatter Diffraction Maps of Monoclinic Zirconia
DOI:10.1111/j.1551-2916.2010.03894.x JN:JOURNAL OF THE AMERICAN CERAMIC SOCIETY PY:2010 TC:3 AU: Cayron, Cyril;Douillard, Thierry;Sibil, Arnaud;Fantozzi, Gilbert;Sao-Jao, Sergio;
6:5:12:21 An approach to prior austenite reconstruction
DOI:10.1016/j.matchar.2012.01.010 JN:MATERIALS CHARACTERIZATION PY:2012 TC:12 AU: Abbasi, Majid;Nelson, Tracy W.;Sorensen, Carl D.;Wei, Lingyun;
6:5:12:22 Automated reconstruction of pre-transformation microstructures in zirconium
DOI:10.1016/j.scriptamat.2009.11.031 JN:SCRIPTA MATERIALIA PY:2010 TC:5 AU: Krishna, K. V. Mani;Tripathi, P.;Hiwarkar, V. D.;Pant, P.;Samajdar, I.;Srivastava, D.;Dey, G. K.;
6:5:12:23 Insight into the phase transformations between ice Ih and ice II from electron backscatter diffraction data
DOI:10.1016/j.scriptamat.2011.09.044 JN:SCRIPTA MATERIALIA PY:2012 TC:6 AU: Prior, David J.;Diebold, Sabrina;Obbard, Rachel;Daghlian, Charles;Goldsby, David L.;Durham, William B.;Baker, Ian;
6:5:12:24 Effect of carbon content on variant pairing of martensite in Fe-C alloys
DOI:10.1016/j.actamat.2012.09.046 JN:ACTA MATERIALIA PY:2012 TC:9 AU: Stormvinter, A.;Miyamoto, G.;Furuhara, T.;Hedstrom, P.;Borgenstam, A.;
6:5:12:25 Microstructure and crystallography of 20MnCr5 steel tempered at different conditions
DOI:10.1007/s10853-010-4668-0 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:3 AU: Wang, Shen Cun;Wu, Yi Wen;Hua, Yi;Li, Zhi Cheng;Zhang, Hong;
6:5:12:26 Comments on "The mechanisms of the fcc-bcc martensitic transformation revealed by pole figures"
DOI:10.1016/j.scriptamat.2010.07.044 JN:SCRIPTA MATERIALIA PY:2011 TC:4 AU: Bhadeshia, H. K. D. H.;
6:5:12:27 Reply to "Comments on 'The mechanisms of the fcc-bcc martensitic transformation revealed by pole figures'"
DOI:10.1016/j.scriptamat.2010.09.004 JN:SCRIPTA MATERIALIA PY:2011 TC:3 AU: Cayron, Cyril;Barcelo, Francoise;de Carlan, Yann;
6:5:12:28 Variant selection of lath martensite and bainite transformation in low carbon steel by ausforming
DOI:10.1016/j.jallcom.2011.12.111 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:1 AU: Miyamoto, Goro;Iwata, Naomichi;Takayama, Naoki;Furuhara, Tadashi;
6:5:12:29 Quantitative analysis of three-dimensional morphology of martensite packets and blocks in iron-carbon-manganese steels
DOI:10.1016/j.jallcom.2012.02.004 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:3 AU: Morito, Shigekazu;Edamatsu, Yuma;Ichinotani, Kenta;Ohba, Takuya;Hayashi, Taisuke;Adachi, Yoshitaka;Furuhara, Tadashi;Miyamoto, Goro;Takayama, Naoki;
6:5:12:30 The effect of processing parameters on the microstructure and mechanical properties of low-Si transformation-induced plasticity steels
DOI:10.1007/s10853-013-8008-z JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:2 AU: Alharbi, Fayez;Gazder, Azdiar A.;Kostryzhev, Andrii;De Cooman, Bruno C.;Pereloma, Elena V.;
6:5:13:1 Overview of constitutive laws, kinematics, homogenization and multiscale methods in crystal plasticity finite-element modeling: Theory, experiments, applications
DOI:10.1016/j.actamat.2009.10.058 JN:ACTA MATERIALIA PY:2010 TC:266 AU: Roters, F.;Eisenlohr, P.;Hantcherli, L.;Tjahjanto, D. D.;Bieler, T. R.;Raabe, D.;
6:5:13:2 Plastic anisotropy of gamma-TiAl revealed by axisymmetric indentation
DOI:10.1016/j.actamat.2010.02.025 JN:ACTA MATERIALIA PY:2010 TC:35 AU: Zambaldi, C.;Raabe, D.;
6:5:13:3 Orientation dependence of shear banding in face-centered-cubic single crystals
DOI:10.1016/j.actamat.2012.03.005 JN:ACTA MATERIALIA PY:2012 TC:17 AU: Jia, N.;Eisenlohr, P.;Roters, F.;Raabe, D.;Zhao, X.;
6:5:13:4 Simulation of shear banding in heterophase co-deformation: Example of plane strain compressed Cu-Ag and Cu-Nb metal matrix composites
DOI:10.1016/j.actamat.2013.04.029 JN:ACTA MATERIALIA PY:2013 TC:21 AU: Jia, N.;Roters, F.;Eisenlohr, P.;Raabe, D.;Zhao, X.;
6:5:13:5 Texture and microstructure evolution during non-crystallographic shear banding in a plane strain compressed Cu-Ag metal matrix composite
DOI:10.1016/j.actamat.2014.05.036 JN:ACTA MATERIALIA PY:2014 TC:2 AU: Jia, N.;Raabe, D.;Zhao, X.;
6:5:13:6 Non-crystallographic shear banding in crystal plasticity FEM simulations: Example of texture evolution in alpha-brass
DOI:10.1016/j.actamat.2011.10.047 JN:ACTA MATERIALIA PY:2012 TC:15 AU: Jia, N.;Roters, F.;Eisenlohr, P.;Kords, C.;Raabe, D.;
6:5:13:7 Simulation of orthogonal micro-cutting of FCC materials based on rate-dependent crystal plasticity finite element model
DOI:10.1016/j.commatsci.2014.01.016 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:1 AU: Tajalli, S. A.;Movahhedy, M. R.;Akbari, J.;
6:5:13:8 Integrated experimental and computational studies of deformation of single crystal copper at high strain rates
DOI:10.1063/1.4903734 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Rawat, S.;Chandra, S.;Chavan, V. M.;Sharma, S.;Warrier, M.;Chaturvedi, S.;Patel, R. J.;
6:5:13:9 Microstructure and microtexture evolution during strain path changes of an initially stable Cu single crystal
DOI:10.1016/j.actamat.2009.12.055 JN:ACTA MATERIALIA PY:2010 TC:17 AU: Paul, H.;Maurice, C.;Driver, J. H.;
6:5:13:10 New insights into the development of microstructure and deformation texture in nickel-60 wt.% cobalt alloy
DOI:10.1016/j.actamat.2014.06.031 JN:ACTA MATERIALIA PY:2014 TC:3 AU: Madhavan, R.;Ray, R. K.;Suwas, S.;
6:5:13:11 Polycrystal model of the mechanical behavior of a Mo-TiC30 vol.% metal-ceramic composite using a three-dimensional microstructure map obtained by dual beam focused ion beam scanning electron microscopy
DOI:10.1016/j.actamat.2011.11.055 JN:ACTA MATERIALIA PY:2012 TC:4 AU: Cedat, D.;Fandeur, O.;Rey, C.;Raabe, D.;
6:5:13:12 Derivation of anisotropic flow curves of ferrite-pearlite pipeline steel via a two-level homogenisation scheme
DOI:10.1016/j.msea.2012.12.064 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:2 AU: Laschet, G.;Fayek, P.;Henke, T.;Quade, H.;Prahl, U.;
6:5:13:13 Orientation dependence of local lattice rotations at precipitates: Example of kappa-Fe3AlC carbides in a Fe3Al-based alloy
DOI:10.1016/j.actamat.2010.08.030 JN:ACTA MATERIALIA PY:2010 TC:4 AU: Kobayashi, Satoru;Zambaldi, Claudio;Raabe, Dierk;
6:5:13:14 Fast, Physically-Based Algorithms for Online Calculations of Texture and Anisotropy during Fabrication of Steel Sheets
DOI:10.1002/adem.201000206 JN:ADVANCED ENGINEERING MATERIALS PY:2010 TC:0 AU: Winning, Myrjam;Raabe, Dierk;
6:5:13:15 Coupled effects of texture, hardening and non-proportionality of strain on ductility in ferritic steel
DOI:10.1016/j.commatsci.2013.03.002 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:1 AU: Erinosho, T. O.;Cocks, A. C. F.;Dunne, F. P. E.;
6:5:13:16 Textural Through-Thickness Inhomogeneity of Interstitial-Free Steel and Its Influence on Plastic Anisotropy Prediction
DOI:10.2320/matertrans.M2014276 JN:MATERIALS TRANSACTIONS PY:2014 TC:0 AU: Yin, Anmin;Yang, Quan;He, Fei;Wang, Xiaochen;Glorieux, Christ;
6:5:13:17 Modeling of large plastic deformation behavior and anisotropy evolution in cold rolled bcc steels using the viscoplastic phi-model-based grain-interaction
DOI:10.1016/j.msea.2011.03.110 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:3 AU: M'Guil, S.;Wen, W.;Ahzi, S.;Gracio, J. J.;
6:5:13:18 A crystal-plasticity FEM study on effects of simplified grain representation and mesh types on mesoscopic plasticity heterogeneities
DOI:10.1016/j.msea.2012.05.089 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:4 AU: Choi, Y. S.;Groeber, M. A.;Turner, T. J.;Dimiduk, D. M.;Woodward, C.;Uchic, M. D.;Parthasarathy, T. A.;
6:5:14:1 Nucleation and thickening of shear bands in nano-scale twin/matrix lamellae of a Cu-Al alloy processed by dynamic plastic deformation
DOI:10.1016/j.actamat.2010.01.049 JN:ACTA MATERIALIA PY:2010 TC:44 AU: Hong, C. S.;Tao, N. R.;Huang, X.;Lu, K.;
6:5:14:2 Strength and ductility of 316L austenitic stainless steel strengthened by nano-scale twin bundles
DOI:10.1016/j.actamat.2011.11.009 JN:ACTA MATERIALIA PY:2012 TC:42 AU: Yan, F. K.;Liu, G. Z.;Tao, N. R.;Lu, K.;
6:5:14:3 Strengthening an austenitic Fe-Mn steel using nanotwinned austenitic grains
DOI:10.1016/j.actamat.2012.03.035 JN:ACTA MATERIALIA PY:2012 TC:18 AU: Wang, H. T.;Tao, N. R.;Lu, K.;
6:5:14:4 Deformation mechanisms in an austenitic single-phase duplex microstructured steel with nanotwinned grains
DOI:10.1016/j.actamat.2014.08.054 JN:ACTA MATERIALIA PY:2014 TC:0 AU: Yan, F. K.;Tao, N. R.;Archie, F.;Gutierrez-Urrutia, I.;Raabe, D.;Lu, K.;
6:5:14:5 Enhanced mechanical properties in a high-manganese austenitic steel through formation of nano grains, nanotwinned austenite grains, nano carbides and TRIP
DOI:10.1016/j.msea.2014.05.015 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Behjati, P.;Kermanpur, A.;Najafizadeh, A.;Baghbadorani, H. Samaei;Jung, J. -G.;Lee, Y. -K.;
6:5:14:6 Strengthening austenitic steels by using nanotwinned austenitic grains
DOI:10.1016/j.scriptamat.2011.12.044 JN:SCRIPTA MATERIALIA PY:2012 TC:18 AU: Lu, K.;Yan, F. K.;Wang, H. T.;Tao, N. R.;
6:5:14:7 Architectured surface layer with a gradient nanotwinned structure in a Fe-Mn austenitic steel
DOI:10.1016/j.scriptamat.2012.05.041 JN:SCRIPTA MATERIALIA PY:2013 TC:9 AU: Wang, H. T.;Tao, N. R.;Lu, K.;
6:5:14:8 Tensile ductility of nanotwinned austenitic grains in an austenitic steel
DOI:10.1016/j.scriptamat.2014.04.008 JN:SCRIPTA MATERIALIA PY:2014 TC:2 AU: Yan, F. K.;Tao, N. R.;Lu, K.;
6:5:14:9 Quantification of the microstructures of high purity nickel subjected to dynamic plastic deformation
DOI:10.1016/j.actamat.2011.11.035 JN:ACTA MATERIALIA PY:2012 TC:13 AU: Luo, Z. P.;Zhang, H. W.;Hansen, N.;Lu, K.;
6:5:14:10 Benefits of Recovery and Partial Recrystallization of Nano-Twinned Austenitic Steels
DOI:10.1002/adem.201300045 JN:ADVANCED ENGINEERING MATERIALS PY:2013 TC:2 AU: Bouaziz, Olivier;Barbier, David;
6:5:14:11 Shear band initiation induced by slip-twin boundary interactions
DOI:10.1016/j.scriptamat.2011.07.013 JN:SCRIPTA MATERIALIA PY:2011 TC:4 AU: Qu, Shaoxing;Zhou, Haofei;Huang, Zhilong;
6:5:14:12 Microstructural characterization of nickel subjected to dynamic plastic deformation
DOI:10.1016/j.scriptamat.2011.11.022 JN:SCRIPTA MATERIALIA PY:2012 TC:7 AU: Luo, Z. P.;Mishin, O. V.;Zhang, Y. B.;Zhang, H. W.;Lu, K.;
6:5:14:13 Effects of heterogeneity on recrystallization kinetics of nanocrystalline copper prepared by dynamic plastic deformation
DOI:10.1016/j.actamat.2014.03.036 JN:ACTA MATERIALIA PY:2014 TC:3 AU: Lin, FengXiang;Zhang, YuBin;Tao, Nairong;Pantleon, Wolfgang;Jensen, Dorte Juul;
6:5:14:14 Atomistic mechanisms of microstructure evolution in nanotwinned polycrystals
DOI:10.1016/j.scriptamat.2011.04.028 JN:SCRIPTA MATERIALIA PY:2011 TC:6 AU: Qu, Shaoxing;Zhou, Haofei;
6:5:14:15 Effect of Process Parameters on a Metallurgical Route Providing Nano-Structured Single Phase Steel with High Work-Hardening
DOI:10.1002/adem.201100164 JN:ADVANCED ENGINEERING MATERIALS PY:2012 TC:5 AU: Bouaziz, Olivier;Barbier, David;Cugy, Philippe;Petigand, Gerard;
6:5:14:16 Tension-induced softening and hardening in gradient nanograined surface layer in copper
DOI:10.1016/j.scriptamat.2014.01.006 JN:SCRIPTA MATERIALIA PY:2014 TC:3 AU: Fang, T. H.;Tao, N. R.;Lu, K.;
6:5:14:17 Strength-ductility combination of nanostructured Cu-Zn alloy with nanotwin bundles
DOI:10.1016/j.scriptamat.2011.03.005 JN:SCRIPTA MATERIALIA PY:2011 TC:7 AU: Xiao, G. H.;Tao, N. R.;Lu, K.;
6:5:15:1 Effect of microstructure on retained austenite stability and work hardening of TRIP steels
DOI:10.1016/j.msea.2011.02.032 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:49 AU: Chiang, J.;Lawrence, B.;Boyd, J. D.;Pilkey, A. K.;
6:5:15:2 High-energy X-ray diffraction study on the temperature-dependent mechanical stability of retained austenite in low-alloyed TRIP steels
DOI:10.1016/j.actamat.2011.10.019 JN:ACTA MATERIALIA PY:2012 TC:30 AU: Blonde, R.;Jimenez-Melero, E.;Zhao, L.;Wright, J. P.;Bruck, E.;van der Zwaag, S.;van Dijk, N. H.;
6:5:15:3 Multi-phase microstructure design of a low-alloy TRIP-assisted steel through a combined computational and experimental methodology
DOI:10.1016/j.actamat.2012.02.007 JN:ACTA MATERIALIA PY:2012 TC:17 AU: Zhu, R.;Li, S.;Karaman, I.;Arroyave, R.;Niendorf, T.;Maier, H. J.;
6:5:15:4 Multi-phase microstructure design of a novel high strength TRIP steel through experimental methodology
DOI:10.1016/j.msea.2014.05.063 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Wang, Chao;Ding, Hua;Cai, Minghui;Rolfe, Bernard;
6:5:15:5 Kinetics of strain-induced transformation of dispersed austenite in low-alloy TRIP steels
DOI:10.1016/j.msea.2014.07.099 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Haidemenopoulos, G. N.;Aravas, N.;Bellas, I.;
6:5:15:6 In situ synchrotron study on the interplay between martensite formation, texture evolution and load partitioning in low-alloyed TRIP steels
DOI:10.1016/j.msea.2011.04.087 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:14 AU: Jimenez-Melero, E.;van Dijk, N. H.;Zhao, L.;Sietsma, J.;Wright, J. P.;van der Zwaag, S.;
6:5:15:7 Development and characterisation of C-Mn-Al-Si-Nb TRIP aided steel
DOI:10.1016/j.msea.2010.11.054 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:18 AU: Bhattacharyya, Tanmay;Singh, Shiv Brat;Das, Sourav;Haldar, Arunansu;Bhattacharjee, Debashish;
6:5:15:8 Phase constitution effect on the ductility of low alloy multiphase transformation induced plasticity steels
DOI:10.1016/j.msea.2013.01.051 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:8 AU: Zhu, R.;Li, S.;Song, M.;Karaman, I.;Arroyave, R.;
6:5:15:9 In situ X-ray microdiffraction study of deformation-induced phase transformation in 304 austenitic stainless steel
DOI:10.1016/j.actamat.2013.11.001 JN:ACTA MATERIALIA PY:2014 TC:6 AU: Li, N.;Wang, Y. D.;Liu, W. J.;An, Z. N.;Liu, J. P.;Su, R.;Li, J.;Liaw, P. K.;
6:5:15:10 Inconsistent effects of mechanical stability of retained austenite on ductility and toughness of transformation-induced plasticity steels
DOI:10.1016/j.msea.2013.04.096 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:12 AU: Zhou, Qian;Qian, Lihe;Tan, Jun;Meng, Jiangying;Zhang, Fucheng;
6:5:15:11 Quantitative assessment of the effects of microstructure on the stability of retained austenite in TRIP steels
DOI:10.1016/j.actamat.2012.12.010 JN:ACTA MATERIALIA PY:2013 TC:16 AU: Zhang, S.;Findley, K. O.;
6:5:15:12 Characterization of microstructures and tensile properties of TRIP-aided steels with different matrix microstructure
DOI:10.1016/j.msea.2014.05.029 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Wang, Chao;Ding, Hua;Cai, Minghui;Rolfe, Bernard;
6:5:15:13 Mechanical stability of individual austenite grains in TRIP steel studied by synchrotron X-ray diffraction during tensile loading
DOI:10.1016/j.msea.2014.09.008 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Blonde, R.;Jimenez-Melero, E.;Zhao, L.;Wright, J. P.;Bruck, E.;van der Zwaag, S.;van Dijk, N. H.;
6:5:15:14 The mechanical stability of retained austenite in low-alloyed TRIP steel under shear loading
DOI:10.1016/j.msea.2013.11.001 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:4 AU: Blonde, R.;Jimenez-Melero, E.;Zhao, L.;Schell, N.;Brueck, E.;van der Zwaag, S.;van Dijk, N. H.;
6:5:15:15 Microstructure evolution in TRIP-aided seamless steel tube during T-shape hydroforming process
DOI:10.1016/j.matchar.2014.05.020 JN:MATERIALS CHARACTERIZATION PY:2014 TC:0 AU: Liu, Jiyuan;Zhang, Zicheng;Manabe, Ken-ichi;Li, Yanmei;Misra, R. D. K.;
6:5:15:16 Micromechanical behavior of TRIP-assisted multiphase steels studied with in situ high-energy X-ray diffraction
DOI:10.1016/j.actamat.2014.05.029 JN:ACTA MATERIALIA PY:2014 TC:2 AU: Fu, B.;Yang, W. Y.;Wang, Y. D.;Li, L. F.;Sun, Z. Q.;Ren, Y.;
6:5:15:17 Microstructure and mechanical properties of a mixed Si-Al TRIP-assisted steel subjected to continuous galvanizing heat treatments
DOI:10.1016/j.msea.2014.04.074 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Mertens, A.;Bellhouse, E. M.;McDermid, J. R.;
6:5:15:18 Thermodynamic analysis of two-stage heat treatment in TRIP steels
DOI:10.1016/j.actamat.2012.07.054 JN:ACTA MATERIALIA PY:2012 TC:3 AU: Li, S.;Zhu, R.;Karaman, I.;Arroyave, R.;
6:5:15:19 Development of a kinetic model for bainitic isothermal transformation in transformation-induced plasticity steels
DOI:10.1016/j.actamat.2013.01.032 JN:ACTA MATERIALIA PY:2013 TC:1 AU: Li, S.;Zhu, R.;Karaman, I.;Arroyave, R.;
6:5:15:20 Role of microstructure in the low cycle fatigue of multi-phase steels
DOI:10.1016/j.msea.2011.11.071 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:13 AU: Hilditch, Timothy;Beladi, Hossein;Hodgson, Peter;Stanford, Nicole;
6:5:15:21 Analysis of banded microstructures in multiphase steels assisted by transformation-induced plasticity
DOI:10.1016/j.commatsci.2013.12.002 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:2 AU: Yadegari, S.;Turteltaub, S.;Suiker, A. S. J.;Kok, P. J. J.;
6:5:15:22 Development and characterisation of model TRIP steel microstructures
DOI:10.1016/j.msea.2013.03.075 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:2 AU: Mark, A. F.;Wang, X.;Essadiqi, E.;Embury, J. D.;Boyd, J. D.;
6:5:15:23 The study on the threshold strain of microvoid formation in TRIP steels during tensile deformation
DOI:10.1016/j.msea.2012.03.065 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:2 AU: Wang, Wurong;Guo, Bimeng;Ji, Yurong;He, Changwei;Wei, Xicheng;
6:5:15:24 Microstructural prediction through artificial neural network (ANN) for development of transformation induced plasticity (TRIP) aided steel
DOI:10.1016/j.msea.2012.11.110 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:3 AU: Bhattacharyya, Tanmay;Singh, Shiv Brat;Sikdar (Dey), Swati;Bhattacharyya, Sandip;Bleck, Wolfgang;Bhattacharjee, Debashish;
6:5:15:25 Effect of Heat Treatment on Microstructure and Mechanical Properties of TRIP Seamless Steel Tube
DOI:10.2320/matertrans.MF201120 JN:MATERIALS TRANSACTIONS PY:2012 TC:0 AU: Zhang, Zicheng;Li, Yanmei;Manabe, Ken-ichi;Zhu, Fuxian;
6:5:15:26 Necking and fracture of advanced high strength steels
DOI:10.1016/j.msea.2010.12.098 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:5 AU: Nikhare, C.;Hodgson, P. D.;Weiss, M.;
6:5:16:1 Determination of elastic strain fields and geometrically necessary dislocation distributions near nanoindents using electron back scatter diffraction
DOI:10.1080/14786430903304145 JN:PHILOSOPHICAL MAGAZINE PY:2010 TC:52 AU: Wilkinson, Angus J.;Randman, David;
6:5:16:2 Geometrically necessary dislocation density distributions in Ti-6Al-4V deformed in tension
DOI:10.1016/j.actamat.2011.07.016 JN:ACTA MATERIALIA PY:2011 TC:29 AU: Littlewood, P. D.;Britton, T. B.;Wilkinson, A. J.;
6:5:16:3 Stress fields and geometrically necessary dislocation density distributions near the head of a blocked slip band
DOI:10.1016/j.actamat.2012.07.004 JN:ACTA MATERIALIA PY:2012 TC:19 AU: Britton, T. Benjamin;Wilkinson, Angus J.;
6:5:16:4 Mapping type III intragranular residual stress distributions in deformed copper polycrystals
DOI:10.1016/j.actamat.2013.06.038 JN:ACTA MATERIALIA PY:2013 TC:5 AU: Jiang, Jun;Britton, T. Benjamin;Wilkinson, Angus J.;
6:5:16:5 Development and application of a novel precession electron diffraction technique to quantify and map deformation structures in highly deformed materials-as applied to ultrafine-grained titanium
DOI:10.1016/j.actamat.2014.06.063 JN:ACTA MATERIALIA PY:2014 TC:3 AU: Ghamarian, Iman;Liu, Yue;Samimi, Peyman;Collins, Peter C.;
6:5:16:6 High resolution electron back-scatter diffraction analysis of thermally and mechanically induced strains near carbide inclusions in a superalloy
DOI:10.1016/j.actamat.2010.09.030 JN:ACTA MATERIALIA PY:2011 TC:26 AU: Karamched, Phani S.;Wilkinson, Angus J.;
6:5:16:7 Electron backscatter diffraction study of dislocation content of a macrozone in hot-rolled Ti-6Al-4V alloy
DOI:10.1016/j.scriptamat.2010.01.010 JN:SCRIPTA MATERIALIA PY:2010 TC:33 AU: Britton, T. Ben;Birosca, Soran;Preuss, Michael;Wilkinson, Angus J.;
6:5:16:8 Evolution of dislocation density distributions in copper during tensile deformation
DOI:10.1016/j.actamat.2013.08.027 JN:ACTA MATERIALIA PY:2013 TC:10 AU: Jiang, J.;Britton, T. B.;Wilkinson, A. J.;
6:5:16:9 Stress partitioning behavior in an fcc alloy evaluated by the in situ/ex situ EBSD-Wilkinson method
DOI:10.1016/j.actamat.2011.03.042 JN:ACTA MATERIALIA PY:2011 TC:19 AU: Ojima, Mayumi;Adachi, Yoshitaka;Suzuki, Seiichi;Tomota, Yo;
6:5:16:10 Crystal plasticity and high-resolution electron backscatter diffraction analysis of full-field polycrystal Ni superalloy strains and rotations under thermal loading
DOI:10.1016/j.actamat.2014.07.036 JN:ACTA MATERIALIA PY:2014 TC:3 AU: Zhang, Tiantian;Collins, David M.;Dunne, Fionn P. E.;Shollock, Barbara A.;
6:5:16:11 Geometrically necessary dislocation density distributions in cyclically deformed Ti-6Al-4V
DOI:10.1016/j.actamat.2012.07.003 JN:ACTA MATERIALIA PY:2012 TC:13 AU: Littlewood, P. D.;Wilkinson, A. J.;
6:5:16:12 Slip band-grain boundary interactions in commercial-purity titanium
DOI:10.1016/j.actamat.2014.05.015 JN:ACTA MATERIALIA PY:2014 TC:7 AU: Guo, Y.;Britton, T. B.;Wilkinson, A. J.;
6:5:16:13 Determination of the complete microscale residual stress tensor at a subsurface carbide particle in a single-crystal superalloy from free-surface EBSD
DOI:10.1016/j.actamat.2012.06.027 JN:ACTA MATERIALIA PY:2012 TC:11 AU: Kartal, M. E.;Dunne, F. P. E.;Wilkinson, A. J.;
6:5:16:14 Measurement of probability distributions for internal stresses in dislocated crystals
DOI:10.1063/1.4901219 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Wilkinson, Angus J.;Tarleton, Edmund;Vilalta-Clemente, Arantxa;Jiang, Jun;Britton, T. Benjamin;Collins, David M.;
6:5:16:15 Quantification of strain and orientation measurement error in cross-correlation EBSD in hexagonal close-packed materials
DOI:10.1016/j.scriptamat.2012.07.036 JN:SCRIPTA MATERIALIA PY:2012 TC:4 AU: Niezgoda, Stephen R.;McCabe, Rodney J.;Tome, Carlos N.;
6:5:16:16 Local distribution of residual stress of Cu in LSI interconnect
DOI:10.1016/j.matlet.2014.08.088 JN:MATERIALS LETTERS PY:2014 TC:0 AU: Sato, Hisashi;Shishido, Nobuyuki;Kamiya, Shoji;Koiwa, Kozo;Omiya, Masaki;Nishida, Masahiro;Suzuki, Takashi;Nakamura, Tomoji;Nokuo, Takeshi;
6:5:16:17 Asymptotic expressions for the nearest and furthest dislocations in a pile-up against a grain boundary
DOI:10.1080/14786435.2010.499859 JN:PHILOSOPHICAL MAGAZINE PY:2010 TC:3 AU: Hall, Cameron L.;
6:5:16:18 Modeling and Simulations of Experimentally-Observed Dislocation Substructures Based on Field Theory of Multiscale Plasticity (FTMP) Combined with TEM and EBSD-Wilkinson Method for FCC and BCC Poly/Single Crystals
DOI:10.2320/matertrans.M2013226 JN:MATERIALS TRANSACTIONS PY:2014 TC:0 AU: Hasebe, T.;Sugiyama, M.;Adachi, H.;Fukutani, S.;Iida, M.;
6:5:16:19 A comparative study of a new microscale technique and conventional bending techniques for evaluating the interface adhesion strength in IC metallization systems
DOI:10.1557/JMR.2010.0258 JN:JOURNAL OF MATERIALS RESEARCH PY:2010 TC:8 AU: Kamiya, Shoji;Shimomura, Hiroshi;Omiya, Masaki;Suzuki, Takashi;
6:5:16:20 Asymptotic analysis of a pile-up of regular edge dislocation walls
DOI:10.1016/j.msea.2011.09.065 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:4 AU: Hall, Cameron L.;
6:5:17:1 Application of cyclic partial phase transformations for identifying kinetic transitions during solid-state phase transformations: Experiments and modeling
DOI:10.1016/j.actamat.2011.07.033 JN:ACTA MATERIALIA PY:2011 TC:28 AU: Chen, Hao;Appolaire, Benoit;van der Zwaag, Sybrand;
6:5:17:2 Analysis of ferrite growth retardation induced by local Mn enrichment in austenite created by prior interface passages
DOI:10.1016/j.actamat.2012.11.011 JN:ACTA MATERIALIA PY:2013 TC:13 AU: Chen, Hao;van der Zwaag, Sybrand;
6:5:17:3 A general mixed-mode model for the austenite-to-ferrite transformation kinetics in Fe-C-M alloys
DOI:10.1016/j.actamat.2014.03.034 JN:ACTA MATERIALIA PY:2014 TC:8 AU: Chen, Hao;van der Zwaag, Sybrand;
6:5:17:4 Analysis of the stagnant stage in diffusional phase transformations starting from austenite-ferrite mixtures
DOI:10.1016/j.commatsci.2011.12.002 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:11 AU: Chen, Hao;Goune, Mohamed;van der Zwaag, Sybrand;
6:5:17:5 Modeling of soft impingement effect during solid-state partitioning phase transformations in binary alloys
DOI:10.1007/s10853-010-4922-5 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:15 AU: Chen, Hao;van der Zwaag, Sybrand;
6:5:17:6 Diffusion processes in a migrating interface: The thick-interface model
DOI:10.1016/j.actamat.2011.04.020 JN:ACTA MATERIALIA PY:2011 TC:17 AU: Svoboda, J.;Gamsjaeger, E.;Fischer, F. D.;Liu, Y.;Kozeschnik, E.;
6:5:17:7 The effect of prior ferrite formation on bainite and martensite transformation kinetics in advanced high-strength steels
DOI:10.1016/j.actamat.2013.06.043 JN:ACTA MATERIALIA PY:2013 TC:4 AU: Zhu, Kangying;Chen, Hao;Masse, Jean-Philippe;Bouaziz, Olivier;Gachet, Gabriel;
6:5:17:8 In situ observation of austenite-ferrite interface migration in a lean Mn steel during cyclic partial phase transformations
DOI:10.1016/j.actamat.2013.01.013 JN:ACTA MATERIALIA PY:2013 TC:8 AU: Chen, Hao;Gamsjaeger, Ernst;Schider, Siegfried;Khanbareh, Hamideh;van der Zwaag, Sybrand;
6:5:17:9 Application of the cyclic phase transformation concept for investigating growth kinetics of solid-state partitioning phase transformations
DOI:10.1016/j.commatsci.2010.06.026 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2010 TC:13 AU: Chen, Hao;van der Zwaag, Sybrand;
6:5:17:10 Application of the cyclic phase transformation concept for determining the effective austenite/ferrite interface mobility
DOI:10.1016/j.commatsci.2013.10.036 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:5 AU: Gamsjaeger, Ernst;Chen, Hao;van der Zwaag, Sybrand;
6:5:17:11 Analysis of transformation stasis during the isothermal bainitic ferrite formation in Fe-C-Mn and Fe-C-Mn-Si alloys
DOI:10.1016/j.actamat.2013.05.034 JN:ACTA MATERIALIA PY:2013 TC:9 AU: Chen, Hao;Zhu, Kangying;Zhao, Lie;van der Zwaag, Sybrand;
6:5:17:12 Investigation of the growth kinetics of gamma -> alpha in Fe-C-X alloys with a thick interface model
DOI:10.1016/j.commatsci.2013.09.047 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:1 AU: Perevoshchikova, Nataliya;Appolaire, Benoit;Teixeira, Julien;Aeby-Gautier, Elisabeth;Denis, Sabine;
6:5:17:13 Influence of austenite deformation on ferrite growth in a Fe-C-Mn alloy
DOI:10.1016/j.msea.2010.03.092 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:13 AU: Li, Zhao-Dong;Yang, Zhi-Gang;Zhang, Chi;Liu, Zhen-Qing;
6:5:17:14 Consideration of the growth mode in isochronal austenite-ferrite transformation of ultra-low-carbon Fe-C alloy
DOI:10.1007/s00339-009-5375-z JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2010 TC:10 AU: Chen, Hao;Liu, Yongchang;Yan, Zesheng;Li, Yanli;Zhang, Lifang;
6:5:17:15 Kinetics of isochronal austenization in modified high Cr ferritic heat-resistant steel
DOI:10.1007/s00339-011-6517-7 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2011 TC:3 AU: Liu, Chenxi;Liu, Yongchang;Zhang, Dantian;Yan, Zesheng;
6:5:17:16 Precipitation kinetics of M23C6 in T/P92 heat-resistant steel by applying soft-impingement correction
DOI:10.1557/jmr.2013.116 JN:JOURNAL OF MATERIALS RESEARCH PY:2013 TC:1 AU: Xu, Linqing;Zhang, Dantian;Liu, Yongchang;Ning, Baoqun;Qiao, Zhixia;Yan, Zesheng;Li, Huijun;
6:5:17:17 Lengthening kinetics of ferrite plates in high-strength low-carbon low alloy steel
DOI:10.1007/s10853-013-7250-8 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:5 AU: Wan, X. L.;Wei, R.;Cheng, L.;Enomoto, M.;Adachi, Y.;
6:5:17:18 In-situ observation on the growth of Widmanstatten sideplates in an Fe-C-Mn steel
DOI:10.1016/j.matchar.2013.11.002 JN:MATERIALS CHARACTERIZATION PY:2014 TC:2 AU: Cheng, L.;Wu, K. M.;Wan, X. L.;Wei, R.;
6:5:17:19 Austenite stabilization through manganese enrichment
DOI:10.1016/j.scriptamat.2010.09.040 JN:SCRIPTA MATERIALIA PY:2011 TC:13 AU: De Moor, Emmanuel;Matlock, David K.;Speer, John G.;Merwin, Matthew J.;
6:5:17:20 A convex hull algorithm for a grid minimization of Gibbs energy as initial step in equilibrium calculations in two-phase multicomponent alloys
DOI:10.1016/j.commatsci.2012.03.050 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:3 AU: Perevoshchikova, Nataliya;Appolaire, Benoit;Teixeira, Julien;Aeby-Gautier, Elisabeth;Denis, Sabine;
6:5:18:1 Effect of annealing temperature on nano/ultrafine grain of Ni-free austenitic stainless steel
DOI:10.1016/j.msea.2013.10.087 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:6 AU: Behjati, P.;Kermanpur, A.;Najafizadeh, A.;Baghbadorani, H. Samaei;
6:5:18:2 Effect of large strain cold rolling and subsequent annealing on microstructure and mechanical properties of an austenitic stainless steel
DOI:10.1016/j.msea.2012.02.101 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:19 AU: Shakhova, I.;Dudko, V.;Belyakov, A.;Tsuzaki, K.;Kaibyshev, R.;
6:5:18:3 Production of nano/submicron grained AISI 304L stainless steel through the martensite reversion process
DOI:10.1016/j.msea.2010.08.002 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:25 AU: Forouzan, Farnoosh;Najafizadeh, Abbas;Kermanpur, Ahmad;Hedayati, Ali;Surkialiabad, Roohallah;
6:5:18:4 Martensite shear phase reversion-induced nanograined/ultrafine-grained Fe-16Cr-10Ni alloy: The effect of interstitial alloying elements and degree of austenite stability on phase reversion
DOI:10.1016/j.msea.2010.08.051 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:20 AU: Misra, R. D. K.;Zhang, Z.;Venkatasurya, P. K. C.;Somani, M. C.;Karjalainen, L. P.;
6:5:18:5 Ultrafine grained high-alloyed austenitic TRIP steel
DOI:10.1016/j.msea.2013.02.008 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:7 AU: Weidner, A.;Mueller, A.;Weiss, A.;Biermann, H.;
6:5:18:6 Deformation, fracture, and wear behaviours of C plus N enhancing alloying austenitic steels
DOI:10.1016/j.msea.2012.08.063 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:6 AU: Kang, J.;Zhang, F. C.;
6:5:18:7 Production of nano/ultrafine grained AISI 201L stainless steel through advanced thermo-mechanical treatment
DOI:10.1016/j.msea.2011.02.093 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:19 AU: Rezaee, A.;Kermanpur, A.;Najafizadeh, A.;Moallemi, M.;
6:5:18:8 Enhanced mechanical properties of type AISI301LN austenitic stainless steel through advanced thermo mechanical process
DOI:10.1016/j.msea.2011.10.080 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:9 AU: Huang, Junxia;Ye, Xiaoning;Gu, Jiaqing;Chen, Xu;Xu, Zhou;
6:5:18:9 Effect of reversion annealing on the formation of nano/ultrafine grained structure in 201 austenitic stainless steel
DOI:10.1016/j.msea.2011.09.099 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:15 AU: Moallemi, Mohammad;Najafizadeh, Abbas;Kermanpur, Ahmad;Rezaee, Ahad;
6:5:18:10 Influence of Ti microalloying on the formation of nanocrystalline structure in the 201L austenitic stainless steel during martensite thermomechanical treatment
DOI:10.1016/j.msea.2013.07.014 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: Sadeghpour, S.;Kermanpur, A.;Najafizadeh, A.;
6:5:18:11 Influence of tensile pre-strain and sensitization on martensite reversion mechanism in austenitic stainless steel
DOI:10.1016/j.matchar.2012.12.012 JN:MATERIALS CHARACTERIZATION PY:2013 TC:2 AU: Lv Jinlong;Luo Hongyun;
6:5:18:12 The effect of nitrogen on the formation of phase reversion-induced nanograined/ultrafine-grained structure and mechanical behavior of a Cr-Ni-N steel
DOI:10.1016/j.msea.2010.11.031 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:10 AU: Misra, R. D. K.;Zhang, Z.;Venkatasurya, P. K. C.;Somani, M. C.;Karjalainen, L. P.;
6:5:18:13 Investigation of the effect of grain size on the strain-induced martensitic transformation in a high-Mn stainless steel using nanoindentation
DOI:10.1016/j.msea.2014.06.055 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Sadeghpour, S.;Kermanpur, A.;Najafizadeh, A.;
6:5:18:14 Temperature dependence of sensitization on tensile pre-strained AISI 304 stainless steels
DOI:10.1016/j.jallcom.2013.11.048 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:0 AU: Lv Jinlong;Luo Hongyun;
6:5:18:15 Formation of nano/ultrafine grain structure in a 201 stainless steel through the repetitive martensite thermomechanical treatment
DOI:10.1016/j.matlet.2012.08.058 JN:MATERIALS LETTERS PY:2012 TC:6 AU: Moallemi, M.;Kermanpur, A.;Najafizadeh, A.;Rezaee, A.;Baghbadorani, H. Samaei;
6:5:18:16 Correlation of austenite stability and ductile-to-brittle transition behavior of high-nitrogen 18Cr-10Mn austenitic steels
DOI:10.1016/j.msea.2011.06.025 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:10 AU: Hwang, Byoungchul;Lee, Tae-Ho;Park, Seong-Jun;Oh, Chang-Seok;Kim, Sung-Joon;
6:5:18:17 Grain size dependence of ductile-to-brittle transition temperature of a high-nitrogen Cr-Mn austenitic steel
DOI:10.1016/j.msea.2011.10.047 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:6 AU: Hwang, Byoungchul;Kim, Sung-Joon;
6:5:18:18 Simulation of the thermomechanical and metallurgical behavior of steels by using ABAQUS software
DOI:10.1016/j.commatsci.2012.10.001 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:3 AU: Yaakoubi, Mahmoud;Kchaou, Mounir;Dammak, Fakhreddine;
6:5:18:19 The kinetics of bainite and martensite formation in steels during cooling
DOI:10.1016/j.msea.2010.06.091 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:3 AU: van Bohemen, S. M. C.;Sietsma, J.;
6:5:18:20 Effects of sensitisation-induced martensitic transformation on the tensile behaviour of 304 austenitic stainless steel
DOI:10.1016/j.msea.2010.09.060 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:6 AU: Lo, K. H.;Zeng, D.;Kwok, C. T.;
6:5:18:21 On the comparison of the abrasive wear behavior of aluminum alloyed and standard Hadfield steels
DOI:10.1016/j.wear.2009.07.010 JN:WEAR PY:2010 TC:7 AU: Abbasi, Majid;Kheirandish, Shahram;Kharrazi, Yousef;Hejazi, Jalal;
6:5:19:1 Investigation of strain-induced martensitic transformation in metastable austenite using nanoindentation
DOI:10.1016/j.scriptamat.2010.05.024 JN:SCRIPTA MATERIALIA PY:2010 TC:30 AU: Ahn, T. -H.;Oh, C. -S.;Kim, D. H.;Oh, K. H.;Bei, H.;George, E. P.;Han, H. N.;
6:5:19:2 Probing deformation processes in near-defect free volume in high strength high ductility nanograined/ultrafine-grained (NG/UFG) metastable austenitic stainless steels
DOI:10.1016/j.scriptamat.2010.07.041 JN:SCRIPTA MATERIALIA PY:2010 TC:18 AU: Misra, R. D. K.;Zhang, Z.;Jia, Z.;Somani, M. C.;Karjalainen, L. P.;
6:5:19:3 Martensitic phase transformation and pop-in in compression of austenitic steel nanoplates observed in situ by transmission electron microscopy
DOI:10.1016/j.matlet.2012.02.014 JN:MATERIALS LETTERS PY:2012 TC:1 AU: Kim, Yong-Jae;Yoo, Byung-Gil;Choi, In-Chul;Seok, Moo-Young;Kim, Ju-Young;Ohmura, Takahito;Jang, Jae-il;
6:5:19:4 Nanoscale deformation experiments on the strain rate sensitivity of phase reversion induced nanograined/ultrafine-grained austenitic stainless steels and comparison with the coarse-grained counterpart
DOI:10.1016/j.msea.2012.04.005 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:6 AU: Misra, R. D. K.;Zhang, Z.;Jia, Z.;Venkatsurya, P. K. C.;Somani, M. C.;Karjalainen, L. P.;
6:5:19:5 The influence of grain size on the strain-induced martensite formation in tensile straining of an austenitic 15Cr-9Mn-Ni-Cu stainless steel
DOI:10.1016/j.msea.2013.04.107 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:13 AU: Kisko, A.;Misra, R. D. K.;Talonen, J.;Karjalainen, L. P.;
6:5:19:6 Relationship between yield point phenomena and the nanoindentation pop-in behavior of steel
DOI:10.1557/jmr.2011.208 JN:JOURNAL OF MATERIALS RESEARCH PY:2012 TC:5 AU: Ahn, Tae-Hong;Oh, Chang-Seok;Lee, Kyooyoung;George, Easo P.;Han, Heung Nam;
6:5:19:7 Nanoindentation/atomic force microscopy analyses of epsilon-martensitic transformation and shape memory effect in Fe-28Mn-6Si-5Cr alloy
DOI:10.1016/j.scriptamat.2011.08.010 JN:SCRIPTA MATERIALIA PY:2011 TC:9 AU: Sekido, K.;Ohmura, T.;Sawaguchi, T.;Koyama, M.;Park, H. W.;Tsuzaki, K.;
6:5:19:8 Nanomechanical insights into the deformation behavior of austenitic alloys with different stacking fault energies and austenitic stability
DOI:10.1016/j.msea.2011.05.068 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:9 AU: Misra, R. D. K.;Zhang, Z.;Jia, Z.;Surya, P. K. C. Venkat;Somani, M. C.;Karjalainen, L. P.;
6:5:19:9 Ultrahigh strength martensite-austenite dual-phase steels with ultrafine structure: The response to indentation experiments
DOI:10.1016/j.msea.2012.10.015 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: Misra, R. D. K.;Venkatsurya, P.;Wu, K. M.;Karjalainen, L. P.;
6:5:19:10 Strain hardening behavior of phase reversion-induced nanograined/ultrafine-grained (NG/UFG) austenitic stainless steel and relationship with grain size and deformation mechanism
DOI:10.1016/j.msea.2014.06.065 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Challa, V. S. A.;Wan, X. L.;Somani, M. C.;Karjalainen, L. P.;Misra, R. D. K.;
6:5:19:11 Strain-induced epsilon-martensite transformation during nanoindentation of high-nitrogen steel
DOI:10.1016/j.msea.2014.01.030 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:4 AU: Ahn, Tae-Hong;Lee, Sung Bo;Park, Kyung-Tae;Oh, Kyu Hwan;Han, Heung Nam;
6:5:19:12 The effects of multi-cyclic thermo-mechanical treatment on the grain refinement and tensile properties of a metastable austenitic steel
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6:5:19:13 Significance of interplay between austenite stability and deformation mechanisms in governing three-stage work hardening behavior of phase-reversion induced nanograined/ultrafine-grained (NG/UFG) stainless steels with high strength-high ductility combination
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6:5:20:1 Phase-field modeling of displacive phase transformations in elastically anisotropic and inhomogeneous polycrystals
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6:5:20:2 Reverse phase transformation of martensite to austenite in stainless steels: a 3D phase-field study
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6:5:20:3 Three-dimensional phase-field modeling of martensitic microstructure evolution in steels
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6:5:20:4 Multi-length scale modeling of martensitic transformations in stainless steels
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6:5:20:5 Stress-assisted martensitic transformations in steels: A 3-D phase-field study
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6:5:20:6 A phase-field study of the physical concepts of martensitic transformations in steels
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6:5:20:7 Strain-induced martensitic transformation in stainless steels: A three-dimensional phase-field study
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6:5:20:8 The simultaneous occurrence of martensitic transformation and reversion of martensite
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6:5:20:9 Martensite formation in stainless steels under transient loading
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6:5:20:10 Three dimensional elasto-plastic phase field simulation of martensitic transformation in polycrystal
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6:5:20:11 Role of magnetic degrees of freedom in a scenario of phase transformations in steel
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6:5:20:12 Effect of external loading on the martensitic transformation - A phase field study
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6:5:20:13 Effect of martensite embryo potency on the martensitic transformations in steels-A 3D phase-field study
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6:5:21:1:1 Simulation of dynamic recrystallization of NiTi shape memory alloy during hot compression deformation based on cellular automaton
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6:5:21:1:2 Modeling the dynamic recrystallization in austenitic stainless steel using cellular automaton method
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6:5:21:1:3 Mesoscale simulation of the high-temperature austenitizing and dynamic recrystallization by coupling a cellular automaton with a topology deformation technique
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6:5:21:1:4 Modelling the dynamic recrystallization in C-Mn micro-alloyed steel during thermo-mechanical treatment using cellular automata
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6:5:21:1:5 Investigation on dynamic recrystallization using a modified cellular automaton
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6:5:21:1:6 Investigation on strain dependence of dynamic recrystallization behavior using an inverse analysis method
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6:5:21:1:7 Interrelation of grain boundary microstructure and texture in a hot rolled Ni-rich NiTi alloy
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6:5:21:2:1 Numerical simulation of beta to alpha phase transformation in heat affected zone during welding of TA15 alloy
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6:5:21:2:2 A microstructure model for recrystallisation and phase transformation during the dual-phase steel annealing cycle
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6:5:21:2:3 Modeling mixed microstructures using a multi-level cellular automata finite element framework
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6:5:21:2:4 Cellular automaton simulation of hot deformation of TRIP steel
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6:5:21:3:1 Prediction of post-dynamic austenite-to-ferrite transformation and reverse transformation in a low-carbon steel by cellular automaton modeling
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6:5:21:3:2 Static recrystallization simulations by coupling cellular automata and crystal plasticity finite element method using a physically based model for nucleation
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6:5:21:3:3 Cellular automata modeling of static recrystallization based on the curvature driven subgrain growth mechanism
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6:5:21:3:4 3D modelling of ferrite and austenite grain coarsening using real-valued cellular automata based on transition function
DOI:10.1007/s10853-013-7346-1 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:3 AU: Vertyagina, Ye.;Mahfouf, M.;Xu, X.;
6:5:21:4:1 Modelling of the microstructure: From classical cellular automata approach to the frontal one
DOI:10.1016/j.commatsci.2010.07.011 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2010 TC:15 AU: Svyetlichnyy, D. S.;
6:5:21:4:2 Reorganization of cellular space during the modeling of the microstructure evolution by frontal cellular automata
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6:5:21:4:3 Modeling of grain refinement by cellular automata
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6:5:21:4:4 A flow stress for the deformation under varying condition-internal and state variable models
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6:5:21:4:5 A new approach for determination of material constants of internal state variable based plasticity models and their uncertainty quantification
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6:5:21:5:1 Interaction between recrystallization and phase transformation during intercritical annealing in a cold-rolled dual-phase steel: A cellular automaton model
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6:5:21:5:2 Microstructure and texture evolution in dual-phase steels: Competition between recovery, recrystallization, and phase transformation
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6:5:21:5:3 Interactions between ferrite recrystallization and austenite formation in high-strength steels
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6:5:22:1 Microstructural characteristics and toughness of the simulated coarse grained heat affected zone of high strength low carbon bainitic steel
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6:5:22:2 Ultrahigh strength and low yield ratio of niobium-microalloyed 900 MPa pipeline steel with nano/ultrafine bainitic lath
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6:5:22:3 Effect of welding heat input on microstructures and toughness in simulated CGHAZ of V-N high strength steel
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6:5:22:4 Analysis of martensite-austenite constituent and its effect on toughness in submerged arc welded joint of low carbon bainitic steel
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6:5:22:5 Structure-mechanical property relationship in low carbon microalloyed steel plate processed using controlled rolling and two-stage continuous cooling
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6:5:22:6 Influence of peak temperature during in-service welding of API X70 pipeline steels on microstructure and fracture energy of the reheated coarse grain heat-affected zones
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6:5:22:7 Analysis of microstructural variation and mechanical behaviors in submerged arc welded joint of high strength low carbon bainitic steel
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6:5:22:8 Effect of welding heat input on microstructure and mechanical properties of simulated HAZ in Cu containing microalloyed steel
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6:5:22:9 Microstructure and mechanical properties of a novel 1000 MPa grade TMCP low carbon microalloyed steel with combination of high strength and excellent toughness
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6:5:22:10 High toughness in the intercritically reheated coarse-grained (ICRCG) heat-affected zone (HAZ) of low carbon microalloyed steel
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6:5:22:11 Microstructure and mechanical properties of TMCP heavy plate microalloyed steel
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6:5:22:12 An analysis of the microstructure of the heat-affected zone of an ultra-low carbon and niobium-bearing acicular ferrite steel using EBSD and its relationship to mechanical properties
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6:5:22:13 Effect of reheat temperature on continuous cooling bainite transformation behavior in low carbon microalloyed steel
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6:5:22:14 Effect of microstructure on low-temperature toughness of a low carbon Nb-V-Ti microalloyed pipeline steel
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6:5:22:15 Microstructural characteristics with various cooling paths and the mechanism of embrittlement and toughening in low-carbon high performance bridge steel
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6:5:22:16 Effect of cooling procedure on microstructures and mechanical properties of hot rolled Nb-Ti bainitic high strength steel
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6:5:22:17 Effect of inter-critically reheating temperature on microstructure and properties of simulated inter-critically reheated coarse grained heat affected zone in X70 steel
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6:5:22:18 Effect of microalloying on precipitate evolution in ferritic welds and implications for toughness
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6:5:22:19 Investigation of abnormal high impact toughness in simulated welding CGHAZ of a 8%Ni 980 MPa high strength steel
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6:5:22:20 Microstructure and toughness of coarse grain heat-affected zone of domestic X70 pipeline steel during in-service welding
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6:5:22:21 Correlation of martensite-austenite constituent and cleavage crack initiation in welding heat affected zone of low carbon bainitic steel
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6:5:22:22 Promoting the coalescence of bainite platelets
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6:5:23:1:1 Microstructural evolution and low temperature impact toughness of a Fe-13%Cr-4%Ni-Mo martensitic stainless steel
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6:5:23:1:2 Reversed austenite in 0Cr13Ni4Mo martensitic stainless steels
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6:5:23:1:3 Investigation on the crystallography of reverted structure and its effect on the properties of low carbon steel
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6:5:23:1:4 Formation of the reversed austenite during intercritical tempering in a Fe-13%Cr-4%Ni-Mo martensitic stainless steel
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6:5:23:1:5 The influence of tempering temperature on the reversed austenite formation and tensile properties in Fe-13%Cr-4%Ni-Mo low carbon martensite stainless steels
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6:5:23:1:6 Improved mechanical properties in Ti-bearing martensitic steel by precipitation and grain refinement
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6:5:23:2:1 In-situ determination of austenite and martensite formation in 13Cr6Ni2Mo supermartensitic stainless steel
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6:5:23:2:2 Role of Nb in low interstitial 13Cr super martensitic stainless steel
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6:5:23:2:3 Microstructural and mechanical characterization of radial friction welded supermartensitic stainless steel joints
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6:5:23:2:4 Microstructure and properties of 13Cr5Ni1Mo0.025Nb0.09V0.06N super martensitic stainless steel
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6:5:23:2:5 Influence of heat treatments on toughness and sensitization of a Ti-alloyed supermartensitic stainless steel
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6:5:23:2:6 Reformed austenite transformation during fatigue crack propagation of 13%Cr-4%Ni stainless steel
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6:5:23:3:1 Cavitation erosion of thermomechanically processed 13/4 martensitic stainless steel
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6:5:23:3:2 Improvement of the cavitation erosion resistance for low-temperature plasma nitrided Ca-6NM martensitic stainless steel
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6:5:23:3:3 Plasma nitriding using high H-2 content gas mixtures for a cavitation erosion resistant steel
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6:5:23:3:4 Cavitation erosion behaviour of niobium
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6:5:23:3:5 Strong evidences of tempered martensite-to-nitrogen-expanded austenite transformation in CA-6NM steel
DOI:10.1016/j.msea.2012.05.075 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:2 AU: Allenstein, A. N.;Cardoso, R. P.;Machado, K. D.;Weber, S.;Pereira, K. M. P.;dos Santos, C. A. L.;Panossian, Z.;Buschinelli, A. J. A.;Brunatto, S. F.;
6:5:23:3:6 Synergy of cavitation and slurry erosion in the slurry pot tester
DOI:10.1016/j.wear.2012.05.025 JN:WEAR PY:2012 TC:5 AU: Amarendra, H. J.;Chaudhari, G. P.;Nath, S. K.;
6:5:23:4:1 Effect of delta ferrite on impact properties of low carbon 13Cr-4Ni martensitic stainless steel
DOI:10.1016/j.msea.2010.01.085 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:28 AU: Wang, P.;Lu, S. P.;Xiao, N. M.;Li, D. Z.;Li, Y. Y.;
6:5:23:4:2 Effect of carbon content on microstructure and mechanical properties of hot-rolled low carbon 12Cr-Ni stainless steel
DOI:10.1016/j.msea.2010.08.023 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:3 AU: Zheng, H.;Ye, X. N.;Li, J. D.;Jiang, L. Z.;Liu, Z. Y.;Wang, G. D.;Wang, B. S.;
6:5:23:4:3 Effect of delta ferrite on impact property of hot-rolled 12Cr-Ni steel
DOI:10.1016/j.msea.2013.07.015 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: Alkan, G.;Chae, D.;Kim, S. -J.;
6:5:23:4:4 Study on the static and dynamic fracture mechanism of different casing-drilling steel grades
DOI:10.1016/j.matchar.2012.02.016 JN:MATERIALS CHARACTERIZATION PY:2012 TC:3 AU: Xu, Tianhan;Jin, Zhihao;Feng, Yaorong;Song, Shengyin;Wang, Danghui;
6:5:24:1 Simulation of discontinuous dynamic recrystallization in pure Cu using a probabilistic cellular automaton
DOI:10.1016/j.commatsci.2010.04.012 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2010 TC:31 AU: Hallberg, Hakan;Wallin, Mathias;Ristinmaa, Matti;
6:5:24:2 A two-site mean field model of discontinuous dynamic recrystallization
DOI:10.1016/j.msea.2011.06.023 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:13 AU: Bernard, P.;Bag, S.;Huang, K.;Loge, R. E.;
6:5:24:3 Approaches to Modeling of Recrystallization
DOI:10.3390/met1010016 JN:METALS PY:2011 TC:13 AU: Hallberg, Hakan;
6:5:24:4 Microstructure evolution influenced by dislocation density gradients modeled in a reaction-diffusion system
DOI:10.1016/j.commatsci.2012.09.016 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:4 AU: Hallberg, Hakan;Ristinmaa, Matti;
6:5:24:5 Precise generation of complex statistical Representative Volume Elements (RVEs) in a finite element context
DOI:10.1016/j.commatsci.2012.04.011 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:8 AU: Hitti, K.;Laure, P.;Coupez, T.;Silva, L.;Bernacki, M.;
6:5:24:6 Level set framework for the finite-element modelling of recrystallization and grain growth in polycrystalline materials
DOI:10.1016/j.scriptamat.2010.11.032 JN:SCRIPTA MATERIALIA PY:2011 TC:18 AU: Bernacki, M.;Loge, R. E.;Coupez, T.;
6:5:24:7 Simulations of anisotropic grain growth: Efficient algorithms and misorientation distributions
DOI:10.1016/j.actamat.2012.12.023 JN:ACTA MATERIALIA PY:2013 TC:11 AU: Elsey, Matt;Esedoglu, Selim;Smereka, Peter;
6:5:24:8 Development of a level set methodology to simulate grain growth in the presence of real secondary phase particles and stored energy - Application to a nickel-base superalloy
DOI:10.1016/j.commatsci.2014.03.054 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:6 AU: Agnoli, Andrea;Bozzolo, Nathalie;Loge, Roland;Franchet, Jean-Michel;Laigo, Johanne;Bernacki, Marc;
6:5:24:9 Annealing twin development during recrystallization and grain growth in pure nickel
DOI:10.1016/j.msea.2014.01.018 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:13 AU: Jin, Y.;Lin, B.;Bernacki, M.;Rohrer, G. S.;Rollett, A. D.;Bozzolo, N.;
6:5:24:10 Modeling of discontinuous dynamic recrystallization of a near-alpha titanium alloy IMI834 during isothermal hot compression by combining a cellular automaton model with a crystal plasticity finite element method
DOI:10.1016/j.commatsci.2013.08.004 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:3 AU: Wu, Chuan;Yang, He;Li, Hong Wei;
6:5:24:11 A perceptive comparison of the cellular automata and Monte Carlo techniques in application to static recrystallization modeling in polycrystalline materials
DOI:10.1016/j.commatsci.2012.08.047 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:19 AU: Sieradzki, Lukasz;Madej, Lukasz;
6:5:24:12 The effect of solute on discontinuous dynamic recrystallization
DOI:10.1016/j.actamat.2012.08.021 JN:ACTA MATERIALIA PY:2012 TC:12 AU: Cram, D. G.;Fang, X. Y.;Zurob, H. S.;Brechet, Y. J. M.;Hutchinson, C. R.;
6:5:24:13 Assessment of simplified 2D grain growth models from numerical experiments based on a level set framework
DOI:10.1016/j.commatsci.2014.05.060 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:2 AU: Cruz-Fabiano, A. L.;Loge, R.;Bernacki, M.;
6:5:24:14 The effects of deformation and microstructure inhomogeneities in the Accumulative Angular Drawing (AAD)
DOI:10.1016/j.msea.2013.03.024 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:5 AU: Muszka, Krzysztof;Madej, Lukasz;Majta, Janusz;
6:5:24:15 Microstructure evolution during dynamic discontinuous recrystallization in particle-containing Cu
DOI:10.1016/j.commatsci.2013.12.021 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:3 AU: Hallberg, Hakan;Svendsen, Bob;Kayser, Tobias;Ristinmaa, Matti;
6:5:24:16 Multi scale cellular automata and finite element based model for cold deformation and annealing of a ferritic-pearlitic microstructure
DOI:10.1016/j.commatsci.2013.04.020 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:12 AU: Madej, L.;Sieradzki, L.;Sitko, M.;Perzynski, K.;Radwanski, K.;Kuziak, R.;
6:5:24:17 Micro structure and texture evolution during super plastic deformation of Mg-Re extruded alloy
DOI:10.1016/j.jallcom.2012.12.072 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:2 AU: Li, Li;
6:5:24:18 Large-scale simulations and parameter study for a simple recrystallization model
DOI:10.1080/14786435.2010.546377 JN:PHILOSOPHICAL MAGAZINE PY:2011 TC:7 AU: Elsey, Matt;Esedoglu, Selim;Smereka, Peter;
6:5:24:19 Modelling of deformation inhomogeneity in the angular accumulative drawing process-multiscale approach
DOI:10.1016/j.msea.2012.09.003 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:3 AU: Muszka, K.;
6:5:24:20 Quantitative analysis of dynamic recrystallization behavior using a grain boundary evolution based kinetic model
DOI:10.1016/j.msea.2010.05.032 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:13 AU: Fan, X. G.;Yang, H.;Sun, Z. C.;Zhang, D. W.;
6:5:25:1 Correlation between stacking fault energy and deformation microstructure in high-interstitial-alloyed austenitic steels
DOI:10.1016/j.actamat.2010.01.056 JN:ACTA MATERIALIA PY:2010 TC:66 AU: Lee, Tae-Ho;Shin, Eunjoo;Oh, Chang-Seok;Ha, Heon-Young;Kim, Sung-Joon;
6:5:25:2 Design of a novel Mn-based 1 GPa duplex stainless TRIP steel with 60% ductility by a reduction of austenite stability
DOI:10.1016/j.actamat.2011.04.011 JN:ACTA MATERIALIA PY:2011 TC:55 AU: Herrera, C.;Ponge, D.;Raabe, D.;
6:5:25:3 TRIP aided deformation of a near-Ni-free, Mn-N bearing duplex stainless steel
DOI:10.1016/j.msea.2011.12.037 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:13 AU: Choi, Jeom Yong;Ji, Jung Hoon;Hwang, Si Woo;Park, Kyung-Tae;
6:5:25:4 Strain induced martensitic transformation of Fe-20Cr-5Mn-0.2Ni duplex stainless steel during cold rolling: Effects of nitrogen addition
DOI:10.1016/j.msea.2011.04.038 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:20 AU: Choi, Jeom Yong;Ji, Jung Hoon;Hwang, Si Woo;Park, Kyung-Tae;
6:5:25:5 Effect of kinematic stability of initial orientation on deformation heterogeneity and ductile failure in duplex stainless steel during uniaxial tension
DOI:10.1016/j.actamat.2013.12.020 JN:ACTA MATERIALIA PY:2014 TC:0 AU: Jeong, C. U.;Woo, W.;Choi, J. Y.;Choi, S-H;
6:5:25:6 A structure created by intersecting epsilon martensite variant plates in a high-manganese steel
DOI:10.1080/14786435.2011.608734 JN:PHILOSOPHICAL MAGAZINE PY:2011 TC:10 AU: Zhang, X.;Sawaguchi, T.;Ogawa, K.;Yin, F.;Zhao, X.;
6:5:25:7 Effect of annealing temperature on transformation induced plasticity effect of a lean duplex stainless steel
DOI:10.1016/j.matchar.2013.02.003 JN:MATERIALS CHARACTERIZATION PY:2013 TC:6 AU: Zhang, Wei;Hu, Jincheng;
6:5:25:8 Effects of twin intersection on the tensile behavior in high nitrogen austenitic stainless steel
DOI:10.1016/j.matchar.2014.01.025 JN:MATERIALS CHARACTERIZATION PY:2014 TC:4 AU: Shin, Jong-Ho;Lee, Jong-Wook;
6:5:25:9 Influence of nitrogen alloying on properties of Fe-18Cr-12Mn-XN austenitic stainless steels
DOI:10.1016/j.msea.2013.08.053 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: Behjati, P.;Kermanpur, A.;Najafizadeh, A.;
6:5:25:10 Effects of nitrogen content on TRIP of Fe-20Cr-5Mn-xN duplex stainless steel
DOI:10.1016/j.msea.2011.12.025 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:12 AU: Choi, Jeom Yong;Ji, Jung Hoon;Hwang, Si Woo;Park, Kyung-Tae;
6:5:25:11 Impact of nanodiffusion on the stacking fault energy in high-strength steels
DOI:10.1016/j.actamat.2014.04.062 JN:ACTA MATERIALIA PY:2014 TC:4 AU: Hickel, T.;Sandloebes, S.;Marceau, R. K. W.;Dick, A.;Bleskov, I.;Neugebauer, J.;Raabe, D.;
6:5:25:12 Temperature dependence of intersection reactions of epsilon martensite plates in an Fe-30Mn-4Si-2Al TRIP/TWIP steel
DOI:10.1016/j.jallcom.2011.12.109 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:3 AU: Zhang, Xin;Sawaguchi, Takahiro;Ogawa, Kazuyuki;Yin, Fuxing;Zhao, Xiang;
6:5:25:13 In situ and ex situ neutron diffraction study on deformation behavior of high-nitrogen, Ni-free duplex stainless steel
DOI:10.1016/j.scriptamat.2012.03.043 JN:SCRIPTA MATERIALIA PY:2012 TC:3 AU: Lee, Tae-Ho;Ha, Heon-Young;Kang, Jun-Yun;Hwang, Byoungchul;Woo, Wanchuk;Shin, Eunjoo;
6:5:25:14 An intersecting-shear model for strain-induced martensitic transformation
DOI:10.1016/j.actamat.2013.08.046 JN:ACTA MATERIALIA PY:2013 TC:3 AU: Lee, Tae-Ho;Ha, Heon-Young;Kang, Jun-Yun;Moon, Joonoh;Lee, Chang-Hoon;Park, Seong-Jun;
6:5:25:15 Nitride precipitation in salt-bath nitrided interstitial-free steel
DOI:10.1016/j.matchar.2010.06.011 JN:MATERIALS CHARACTERIZATION PY:2010 TC:2 AU: Lee, Tae-Ho;Oh, Chang-Seok;Lee, Min-Ku;Han, Sang-Won;
6:5:25:16 On the cryogenic magnetic transition and martensitic transformation of the austenite phase of 7MoPLUS duplex stainless steel
DOI:10.1016/j.jmmm.2010.02.034 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2010 TC:6 AU: Lo, K. H.;Lai, J. K. L.;
6:5:26:1 Flow stress analysis for determining the critical condition of dynamic ferrite transformation in 6Ni-0.1C steel
DOI:10.1016/j.actamat.2012.09.043 JN:ACTA MATERIALIA PY:2013 TC:14 AU: Park, Nokeun;Shibata, Akinobu;Terada, Daisuke;Tsuji, Nobuhiro;
6:5:26:2 Occurrence of dynamic ferrite transformation in low-carbon steel above Ae(3)
DOI:10.1016/j.scriptamat.2012.12.010 JN:SCRIPTA MATERIALIA PY:2013 TC:9 AU: Park, Nokeun;Khamsuk, Sunisa;Shibata, Akinobu;Tsuji, Nobuhiro;
6:5:26:3 Role of mechanical activation in the dynamic transformation of austenite
DOI:10.1016/j.actamat.2013.06.054 JN:ACTA MATERIALIA PY:2013 TC:5 AU: Jonas, John J.;Ghosh, Chiradeep;
6:5:26:4 Thermodynamics of dynamic transformation of hot deformed austenite in four steels of increasing carbon contents
DOI:10.1016/j.msea.2013.10.077 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:5 AU: Ghosh, Chiradeep;Basabe, Vladimir V.;Jonas, John J.;
6:5:26:5 Effect of strain path on dynamic strain-induced transformation in a microalloyed steel
DOI:10.1016/j.actamat.2013.11.062 JN:ACTA MATERIALIA PY:2014 TC:6 AU: Sun, L.;Muszka, K.;Wynne, B. P.;Palmiere, E. J.;
6:5:26:6 Effect of austenite grain size on kinetics of dynamic ferrite transformation in low carbon steel
DOI:10.1016/j.scriptamat.2012.12.021 JN:SCRIPTA MATERIALIA PY:2013 TC:6 AU: Park, N.;Khamsuk, S.;Shibata, A.;Tsuji, N.;
6:5:26:7 The effect of strain induced ferrite transformation on the microstructural evolutions and mechanical properties of a TRIP-assisted steel
DOI:10.1016/j.msea.2014.04.044 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:5 AU: Mohamadizadeh, A.;Zarei-Hanzaki, A.;Heshmati-Manesh, S.;Imandoust, A.;
6:5:26:8 The effect of strain path reversal on high-angle boundary formation by grain subdivision in a model austenitic steel
DOI:10.1016/j.scriptamat.2010.10.004 JN:SCRIPTA MATERIALIA PY:2011 TC:12 AU: Sun, L.;Muszka, K.;Wynne, B. P.;Palmiere, E. J.;
6:5:26:9 Dynamic Strain-Induced Ferrite Transformation during Hot Compression of Low Carbon Si-Mn Steels
DOI:10.2320/matertrans.M2011117 JN:MATERIALS TRANSACTIONS PY:2011 TC:5 AU: Cai, Ming-Hui;Ding, Hua;Lee, Young-Kook;
6:5:26:10 The dynamic transformation of deformed austenite at temperatures above the Ae(3)
DOI:10.1016/j.actamat.2013.01.006 JN:ACTA MATERIALIA PY:2013 TC:15 AU: Ghosh, Chiradeep;Basabe, Vladimir V.;Jonas, John J.;Kim, Young-Min;Jung, In-Ho;Yue, Stephen;
6:5:26:11 Study of deformation-induced phase transformation in plain low carbon steel at low strain rate
DOI:10.1016/j.msea.2010.04.095 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:9 AU: Chung, J. H.;Park, J. K.;Kim, T. H.;Kim, K. H.;Ok, S. Y.;
6:5:26:12 Study on the ferrite grain refinement during intercritical deformation of a microalloyed steel
DOI:10.1016/j.msea.2010.01.075 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:11 AU: Eghbali, B.;
6:5:26:13 Physical simulation of hot deformation and microstructural evolution of AISI 1016 steel using processing maps
DOI:10.1016/j.msea.2013.08.057 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:2 AU: Rajput, S. K.;Dikovits, M.;Chaudhari, G. P.;Poletti, C.;Warchomicka, F.;Pancholi, V.;Nath, S. K.;
6:5:26:14 The rotation axes and angles involved in the formation of self-accommodating plates of Widmanstatten ferrite
DOI:10.1016/j.actamat.2014.03.059 JN:ACTA MATERIALIA PY:2014 TC:2 AU: Jonas, John J.;He, Youliang;Langelaan, Gijs;
6:5:26:15 Effects of varying twist and twist rate sensitivities on the interpretation of torsion testing data
DOI:10.1016/j.msea.2013.10.069 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Jonas, John J.;Montheillet, Frank;Toth, Laszlo S.;Ghosh, Chiradeep;
6:5:26:16 On the interactions between strain path reversal and dynamic recrystallisation in 316L stainless steel studied by hot torsion
DOI:10.1016/j.msea.2013.01.045 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:2 AU: Sun, L.;Muszka, K.;Wynne, B. P.;Palmiere, E. J.;
6:5:26:17 Thermodynamic and kinetic analysis of dynamic strain-induced transformation during hot deformation in plain carbon steels
DOI:10.1016/j.msea.2011.07.045 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:3 AU: Luo, Haiwen;
6:5:26:18 The equivalent strain in high pressure torsion
DOI:10.1016/j.msea.2014.04.046 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Jonas, John J.;Ghosh, Chiradeep;Toth, Laszlo S.;
6:5:26:19 Dynamic Strain Induced Transformation of Austenite to Ferrite during High Temperature Extrusion of Low Carbon Steel
DOI:10.2320/matertrans.M2010287 JN:MATERIALS TRANSACTIONS PY:2011 TC:1 AU: Shaban, M.;Gozalzadeh, S.;Eghbali, B.;
6:5:26:20 On the ferrite and bainite transformation in isothermally deformed 22MnB5 steels
DOI:10.1016/j.msea.2012.04.091 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:8 AU: Min, Junying;Lin, Jianping;Min, Yong'an;Li, Fangfang;
6:5:27:1 Effect of double quenching and tempering heat treatment on the microstructure and mechanical properties of a novel 5Cr steel processed by electro-slag casting
DOI:10.1016/j.msea.2014.09.063 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Liu, Jian;Yu, Hao;Zhou, Tao;Song, Chenghao;Zhang, Kai;
6:5:27:2 An approach to define the effective lath size controlling yield strength of bainite
DOI:10.1016/j.msea.2010.06.061 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:22 AU: Zhu, Kangying;Bouaziz, Olivier;Oberbillig, Carla;Huang, Mingxin;
6:5:27:3 The effect of heat treatment on mechanical properties and corrosion behavior of AISI420 martensitic stainless steel
DOI:10.1016/j.jallcom.2010.12.174 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:32 AU: Isfahany, A. Nasery;Saghafian, H.;Borhani, G.;
6:5:27:4 A remarkable role of niobium precipitation in refining microstructure and improving toughness of A QT-treated 20CrMo47NbV steel with ultrahigh strength
DOI:10.1016/j.msea.2014.06.040 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Ming, Li;Wang, Qingfeng;Wang, Huibin;Zhang, Chuanyou;Wei, Zhang;Guo, Aimin;
6:5:27:5 Effect of normalizing temperature on the strength of 9Cr-3W-3Co martensitic heat resistant steel
DOI:10.1016/j.msea.2013.12.068 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Yan, Peng;Liu, Zhengdong;Bao, Hansheng;Weng, Yuqing;Liu, Wei;
6:5:27:6 Effect of martensitic morphology on mechanical properties of an as-quenched and tempered 25CrMo48V steel
DOI:10.1016/j.msea.2011.11.078 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:13 AU: Zhang, Chuanyou;Wang, Qingfeng;Ren, Juanxia;Li, Ruixin;Wang, Mingzhi;Zhang, Fucheng;Sun, Kaiming;
6:5:27:7 The influence of heat treatment and resulting microstructures on the thermophysical properties of martensitic steels
DOI:10.1007/s10853-013-7665-2 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:2 AU: Wilzer, Jens;Luedtke, Fabian;Weber, Sebastian;Theisen, Werner;
6:5:27:8 Temperature-dependent thermal conductivities of non-alloyed and high-alloyed heat-treatable steels in the temperature range between 20 and 500 degrees C
DOI:10.1007/s10853-014-8183-6 JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:0 AU: Wilzer, Jens;Kuepferle, Jakob;Weber, Sebastian;Theisen, Werner;
6:5:27:9 On the effect of silicon on toughness in recent high quality hot work steels
DOI:10.1016/j.msea.2011.02.065 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:7 AU: Mesquita, R. A.;Kestenbach, H-J;
6:5:27:10 Effect of austenite grain structure on the strength and toughness of direct-quenched martensite
DOI:10.1016/j.jallcom.2012.03.030 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:6 AU: Kaijalainen, Antti J.;Suikkanen, Pasi P.;Limnell, Teijo J.;Karjalainen, Leo P.;Komi, Jukka I.;Porter, David A.;
6:5:27:11 Effect of microstructural evolution on high-temperature strength of 9Cr-3W-3Co martensitic heat resistant steel under different aging conditions
DOI:10.1016/j.msea.2013.09.033 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: Yan, Peng;Liu, Zhengdong;Bao, Hansheng;Weng, Yuqing;Liu, Wei;
6:5:27:12 Characterization of the microstructures and mechanical properties of 25CrMo48V martensitic steel tempered at different times
DOI:10.1016/j.msea.2012.08.049 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: Wang, Qingfeng;Zhang, Chuanyou;Li, Ruixin;Gao, Jianzhong;Wang, Mingzhi;Zhang, Fucheng;
6:5:27:13 Magnetic cluster expansion model for high-temperature magnetic properties of iron and iron-chromium alloys
DOI:10.1063/1.3556900 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:8 AU: Lavrentiev, M. Yu.;Dudarev, S. L.;Nguyen-Manh, D.;
6:5:27:14 Influence of the microstructure on fatigue and fracture toughness properties of large heat-treated mold steels
DOI:10.1016/j.msea.2012.08.113 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:6 AU: Firrao, D.;Matteis, P.;Spena, P. Russo;Gerosa, R.;
6:5:27:15 Effect of silicon on ultra-low temperature toughness of Nb-Ti microalloyed cryogenic pressure vessel steels
DOI:10.1016/j.matchar.2013.06.013 JN:MATERIALS CHARACTERIZATION PY:2013 TC:2 AU: Qiu, J. A.;Wu, K. M.;Li, J. H.;Hodgson, P. D.;Hou, T. P.;Ding, Q. F.;
6:5:27:16 Influence of silicon on secondary hardening of 5 wt% Cr steels
DOI:10.1016/j.msea.2012.06.060 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:4 AU: Mesquita, Rafael Agnelli;Kestenbach, Hans-Juergen;
6:5:27:17 Corrosion Resistance of ASSAB Stavax ESR Stainless Steel by Heat and Cold Treatment
DOI:10.2320/matertrans.M2012377 JN:MATERIALS TRANSACTIONS PY:2013 TC:0 AU: Han, Lee-Long;Lin, Chun-Ming;Shih, Yih-Shiun;
6:5:27:18 Microstructural characterization and impact toughness of a jackup rig rack steel treated by intercritical heat treatment
DOI:10.1016/j.msea.2013.09.004 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:1 AU: Jiang, Jinxing;Wu, Huibin;Liang, Jinming;Tang, Di;
6:5:27:19 Measurement of bainite packet size and its influence on cleavage fracture in a medium carbon bainitic steel
DOI:10.1016/j.msea.2011.09.001 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:7 AU: Rancel, Lucia;Gomez, Manuel;Medina, Sebastian F.;Gutierrez, Isabel;
6:5:27:20 Effect of microstructure evolution on strength and impact toughness of G18CrMo2-6 heat-resistant steel during tempering
DOI:10.1016/j.msea.2014.03.013 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Li, Zhenjiang;Xiao, Namin;Li, Dianzhong;Zhang, Junyong;Luo, Yongjian;Zhang, Ruixue;
6:5:28:1 Study of internal lattice strain distributions in stainless steel using a full-field elasto-viscoplastic formulation based on fast Fourier transforms
DOI:10.1016/j.actamat.2012.02.014 JN:ACTA MATERIALIA PY:2012 TC:21 AU: Kanjarla, A. K.;Lebensohn, R. A.;Balogh, L.;Tome, C. N.;
6:5:28:2 Characterization of the microstructure in random and textured polycrystals and single crystals by diffraction line profile analysis
DOI:10.1016/j.msea.2010.08.059 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:28 AU: Ribarik, Gabor;Ungar, Tamas;
6:5:28:3 Investigation of deformation and microstructural evolution in Grade 91 ferritic-martensitic steel by in situ high-energy X-rays
DOI:10.1016/j.actamat.2013.10.003 JN:ACTA MATERIALIA PY:2014 TC:12 AU: Wang, Leyun;Li, Meimei;Almer, Jonathan;
6:5:28:4 Assessment of dislocation density in asymmetrically cyclic loaded non-conventional stainless steel using X-ray diffraction profile analysis
DOI:10.1016/j.msea.2014.01.043 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Kishor, Rajat;Sahu, Lopamudra;Dutta, Krishna;Mondal, A. K.;
6:5:28:5 Burgers vector population, dislocation types and dislocation densities in single grains extracted from a polycrystalline commercial-purity Ti specimen by X-ray line-profile analysis
DOI:10.1016/j.scriptamat.2010.03.016 JN:SCRIPTA MATERIALIA PY:2010 TC:18 AU: Ungar, Tamas;Ribarik, Gabor;Balogh, Levente;Salem, Ayman A.;Semiatin, S. Lee;Vaughan, Gavin B. M.;
6:5:28:6 On the measure of dislocation densities from diffraction line profiles: A comparison with discrete dislocation methods
DOI:10.1016/j.actamat.2011.10.037 JN:ACTA MATERIALIA PY:2012 TC:10 AU: Balogh, L.;Capolungo, L.;Tome, C. N.;
6:5:28:7 Dislocation evolution during tensile deformation in ferritic-martensitic steels revealed by high-energy X-rays
DOI:10.1016/j.actamat.2014.05.026 JN:ACTA MATERIALIA PY:2014 TC:5 AU: Li, Meimei;Wang, Leyun;Almer, Jonathan D.;
6:5:28:8 Slip systems and dislocation densities in individual grains of polycrystalline aggregates of plastically deformed CoTi and CoZr alloys
DOI:10.1016/j.actamat.2014.03.024 JN:ACTA MATERIALIA PY:2014 TC:2 AU: Ungar, Tamas;Ribarik, Gabor;Zilahi, Gyula;Mulay, Rupalee;Lienert, Ulrich;Balogh, Levente;Agnew, Sean;
6:5:28:9 Orientation-dependent evolution of the dislocation density in grain populations with different crystallographic orientations relative to the tensile axis in a polycrystalline aggregate of stainless steel
DOI:10.1016/j.actamat.2013.11.012 JN:ACTA MATERIALIA PY:2014 TC:4 AU: Ungar, Tamas;Stoica, Alexandru D.;Tichy, Geza;Wang, Xun-Li;
6:5:28:10 Dislocation density and sub-grain size evolution of 2CrMoNiWV during low cycle fatigue at elevated temperatures
DOI:10.1016/j.actamat.2011.12.031 JN:ACTA MATERIALIA PY:2012 TC:7 AU: Mayer, T.;Balogh, L.;Solenthaler, C.;Gubler, E. Mueller;Holdsworth, S. R.;
6:5:28:11 Dislocation structure evolution induced by irradiation and plastic deformation in the Zr-2.5Nb nuclear structural material determined by neutron diffraction line profile analysis
DOI:10.1016/j.actamat.2012.06.062 JN:ACTA MATERIALIA PY:2012 TC:10 AU: Balogh, Levente;Brown, Donald W.;Mosbrucker, Paula;Long, Fei;Daymond, Mark R.;
6:5:28:12 Hard slip mechanisms in B2 CoTi
DOI:10.1016/j.actamat.2011.11.061 JN:ACTA MATERIALIA PY:2012 TC:4 AU: Mulay, R. P.;Agnew, S. R.;
6:5:28:13 Preparation and structural characterization of ZnO and CeO2 nanocomposite powders as 'active catalytic supports'
DOI:10.1016/j.powtec.2014.07.006 JN:POWDER TECHNOLOGY PY:2014 TC:2 AU: Barrios, Celina E.;Baltanas, Miguel A.;Bolmaro, Raul;Bonivardi, Adrian L.;
6:5:28:14 Grain interaction effect on the stability of the {110}< 1 1 2 > "brass" orientation in an aluminum multi-crystal
DOI:10.1016/j.scriptamat.2010.01.003 JN:SCRIPTA MATERIALIA PY:2010 TC:5 AU: Ray, Atish;Diak, B. J.;
6:5:29:1 Kinetic description for solid-state transformation using an approach of summation/product transition
DOI:10.1007/s10853-014-8221-4 JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:1 AU: Jiang, Yi-Hui;Liu, Feng;Sun, Bao;Song, Shao-Jie;Zhang, Zhong-Hua;
6:5:29:2 Nucleation, growth and impingement modes deduced from isothermally and isochronally conducted phase transformations: Calorimetric analysis of the crystallization of amorphous Zr50Al10Ni40
DOI:10.1016/j.actamat.2010.08.019 JN:ACTA MATERIALIA PY:2010 TC:12 AU: Liu, F.;Nitsche, H.;Sommer, F.;Mittemeijer, E. J.;
6:5:29:3 Kinetics of solid-state transformation subjected to anisotropic effect: Model and application
DOI:10.1016/j.actamat.2011.02.001 JN:ACTA MATERIALIA PY:2011 TC:10 AU: Song, S. J.;Liu, F.;Jiang, Y. H.;Wang, H. F.;
6:5:29:4 Structural modification and phase transformation kinetics: crystallization of amorphous Fe40Ni40P14B6 eutectic alloy
DOI:10.1007/s10853-013-7768-9 JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:2 AU: Gu, Bin;Liu, Feng;Chen, Yu-Zeng;Jiang, Yi-Hui;Ma, Ya-Zhu;
6:5:29:5 An analytic approach to the effect of anisotropic growth on diffusion-controlled transformation kinetics
DOI:10.1007/s10853-012-6504-1 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:3 AU: Song, S. J.;Liu, F.;Jiang, Y. H.;
6:5:29:6 Impact of soft impingement on the kinetics of diffusion-controlled growth of immiscible alloys
DOI:10.1016/j.commatsci.2011.03.015 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:8 AU: Tomellini, Massimo;
6:5:29:7 Kinetics of dissolution-precipitation reaction at the surface of small particles: modelling and application
DOI:10.1007/s10853-011-5858-0 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:1 AU: Tomellini, Massimo;
6:5:29:8 Soft impingement in diffusion-controlled growth of binary alloys: moving boundary effect in one-dimensional system
DOI:10.1007/s10853-013-7361-2 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:1 AU: Tomellini, Massimo;
6:5:29:9 Analysis of elastic-plastic accommodation due to volume misfit upon solid-state phase transformation
DOI:10.1016/j.actamat.2013.10.039 JN:ACTA MATERIALIA PY:2014 TC:2 AU: Song, S. J.;Liu, F.;Zhang, Z. H.;
6:5:29:10 Determination of activation energies for nucleation and growth from isothermal differential scanning calorimetry data
DOI:10.1016/j.jnoncrysol.2012.02.030 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2012 TC:1 AU: Jiang, Yi-Hui;Liu, Feng;Song, Shao-Jie;Sun, Bao;
6:5:29:11 An extended analytical model for solid-state phase transformation upon continuous heating and cooling processes: Application in gamma/alpha transformation
DOI:10.1016/j.actamat.2012.03.042 JN:ACTA MATERIALIA PY:2012 TC:5 AU: Jiang, Y. -H.;Liu, F.;Song, S. -J.;
6:5:29:12 Failure of Kissinger(-like) methods for determination of the activation energy of phase transformations in the vicinity of the equilibrium phase-transformation temperature
DOI:10.1007/s10853-010-4693-z JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:10 AU: Baumann, Wolfgang;Leineweber, Andreas;Mittemeijer, Eric Jan;
6:5:29:13 On the kinetics of nucleation and growth reactions in inhomogeneous systems
DOI:10.1007/s10853-009-3992-8 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:5 AU: Tomellini, Massimo;
6:5:29:14 Generalized additivity rule and isokinetics in diffusion-controlled growth
DOI:10.1007/s10853-013-7964-7 JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:0 AU: Song, S. J.;Liu, F.;Jiang, Y. H.;
6:5:29:15 Normalized treatment for isothermally conducted phase transformation with variable kinetic parameters
DOI:10.1016/j.jnoncrysol.2013.01.056 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2013 TC:0 AU: Jiang, Yihui;Liu, Feng;Song, Shaojie;Sun, Bao;
6:5:29:16 Application of recipes for isothermal and isochronal solid-state transformations
DOI:10.1016/j.jnoncrysol.2010.04.034 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2010 TC:4 AU: Xu, Jun-Feng;Liu, Feng;Song, Shao-Jie;Zhang, Ke;
6:5:29:17 Effect of thermodynamics on transformation kinetics; analysis of recipes
DOI:10.1016/j.jnoncrysol.2013.06.002 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2013 TC:0 AU: Jiang, Yi-Hui;Liu, Feng;Song, Shao-Jie;Sun, Bao;
6:5:29:18 Effect of replacement of Ni by Co on thermal stability of Fe40Co40P14B6 metallic glass
DOI:10.1016/j.jnoncrysol.2010.03.005 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2010 TC:3 AU: Popov, V. V.;Tkatch, V. I.;Rassolov, S. G.;Aronin, A. S.;
6:5:30:1 Influence of chemical composition and magnetic effects on the elastic properties of fcc Fe-Mn alloys
DOI:10.1016/j.actamat.2010.11.013 JN:ACTA MATERIALIA PY:2011 TC:21 AU: Gebhardt, T.;Music, D.;Ekholm, M.;Abrikosov, I. A.;von Appen, J.;Dronskowski, R.;Wagner, D.;Mayer, J.;Schneider, J. M.;
6:5:30:2 Elastic properties of fcc Fe-Mn-X (X = Al, Si) alloys studied by theory and experiment
DOI:10.1016/j.actamat.2011.01.054 JN:ACTA MATERIALIA PY:2011 TC:23 AU: Gebhardt, Thomas;Music, Denis;Kossmann, Daniel;Ekholm, Marcus;Abrikosov, Igor A.;Vitos, Levente;Schneider, Jochen M.;
6:5:30:3 Elastic properties of face-centred cubic Fe-Mn-C studied by nanoindentation and ab initio calculations
DOI:10.1016/j.actamat.2012.07.038 JN:ACTA MATERIALIA PY:2012 TC:10 AU: Reeh, S.;Music, D.;Gebhardt, T.;Kasprzak, M.;Jaepel, T.;Zaefferer, S.;Raabe, D.;Richter, S.;Schwedt, A.;Mayer, J.;Wietbrock, B.;Hirt, G.;Schneider, J. M.;
6:5:30:4 Combinatorial thin film materials science: From alloy discovery and optimization to alloy design
DOI:10.1016/j.tsf.2012.04.062 JN:THIN SOLID FILMS PY:2012 TC:16 AU: Gebhardt, Thomas;Music, Denis;Takahashi, Tetsuya;Schneider, Jochen M.;
6:5:30:5 Structural and magnetic ground-state properties of gamma-FeMn alloys from ab initio calculations
DOI:10.1103/PhysRevB.84.104423 JN:PHYSICAL REVIEW B PY:2011 TC:8 AU: Ekholm, M.;Abrikosov, I. A.;
6:5:30:6 Multifold Seebeck increase in RuO2 films by quantum-guided lanthanide dilute alloying
DOI:10.1063/1.4864078 JN:APPLIED PHYSICS LETTERS PY:2014 TC:3 AU: Music, Denis;Basse, Felix H. -U.;Han, Liang;Devender;Borca-Tasciuc, Theo;Gengler, Jamie J.;Voevodin, Andrey A.;Ramanath, Ganpati;Schneider, Jochen M.;
6:5:30:7 Elastic properties of fcc Fe-Mn-X (X=Cr, Co, Ni, Cu) alloys from first-principles calculations
DOI:10.1103/PhysRevB.87.224103 JN:PHYSICAL REVIEW B PY:2013 TC:0 AU: Reeh, S.;Music, D.;Ekholm, M.;Abrikosov, I. A.;Schneider, J. M.;
6:5:30:8 Yttria-stabilized zirconia-based composites with adaptive thermal conductivity
DOI:10.1016/j.compscitech.2010.08.010 JN:COMPOSITES SCIENCE AND TECHNOLOGY PY:2010 TC:14 AU: Gengler, Jamie J.;Muratore, Christopher;Roy, Ajit K.;Hu, Jianjun;Voevodin, Andrey A.;Roy, Sukesh;Gord, James R.;
6:5:30:9 Synthesis and thermoelectric properties of RuO2 nanorods
DOI:10.1063/1.3452380 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:11 AU: Music, Denis;Basse, Felix H. -U.;Hassdorf, Ralf;Schneider, Jochen M.;
6:5:30:10 On the solubility of yttrium in RuO(2)
DOI:10.1063/1.3633234 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:3 AU: Music, Denis;Zumdick, Naemi A.;Hallstedt, Bengt;Schneider, Jochen M.;
6:5:30:11 Hierarchical structures produced using unbalanced magnetron sputtering for photocatalytic degradation of Rhodamine 6G dye
DOI:10.1007/s11051-013-2180-6 JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2013 TC:0 AU: Polychronopoulou, K.;Aouadi, S. M.;Sirota, B.;Stone, D. S.;Wang, L.;Kohli, P.;McCarroll, M. E.;
6:5:31:1 Orientation dependence of the substructure characteristics in a Ni-30Fe austenitic model alloy deformed in hot plane strain compression
DOI:10.1016/j.actamat.2011.11.048 JN:ACTA MATERIALIA PY:2012 TC:15 AU: Taylor, A. S.;Cizek, P.;Hodgson, P. D.;
6:5:31:2 Microband evolution during large plastic strains of stable {110} < 1 1 2 > Al and Al-Mn crystals
DOI:10.1016/j.actamat.2010.01.034 JN:ACTA MATERIALIA PY:2010 TC:24 AU: Albou, A.;Driver, J. H.;Maurice, C.;
6:5:31:3 The three-dimensional nature of microbands in a channel die compressed Goss-oriented Ni single crystal
DOI:10.1016/j.scriptamat.2010.10.020 JN:SCRIPTA MATERIALIA PY:2011 TC:13 AU: Afrin, N.;Quadir, M. Z.;Bassman, L.;Driver, J. H.;Albou, A.;Ferry, M.;
6:5:31:4 Dislocation content of geometrically necessary boundaries aligned with slip planes in rolled aluminium
DOI:10.1080/14786435.2013.805270 JN:PHILOSOPHICAL MAGAZINE PY:2013 TC:3 AU: Hong, Chuanshi;Huang, Xiaoxu;Winther, Grethe;
6:5:31:5 Microtexture tracking in hot-deformed polycrystalline aluminium: Experimental results
DOI:10.1016/j.actamat.2009.11.007 JN:ACTA MATERIALIA PY:2010 TC:17 AU: Quey, R.;Piot, D.;Driver, J. H.;
6:5:31:6 Evolution of orientations and deformation structures within individual grains in cold rolled columnar grained nickel
DOI:10.1016/j.actamat.2011.05.019 JN:ACTA MATERIALIA PY:2011 TC:4 AU: Wu, G. L.;Godfrey, A.;Winther, G.;Jensen, D. Juul;Liu, Q.;
6:5:31:7 In-situ EBSD study of the active slip systems and lattice rotation behavior of surface grains in aluminum alloy during tensile deformation
DOI:10.1016/j.msea.2013.05.046 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:7 AU: Chen, P.;Mao, S. C.;Liu, Y.;Wang, F.;Zhang, Y. F.;Zhang, Z.;Han, X. D.;
6:5:31:8 3D microband boundary alignments and transitions in a cold rolled commercial purity aluminum alloy
DOI:10.1016/j.matchar.2013.02.002 JN:MATERIALS CHARACTERIZATION PY:2013 TC:1 AU: George, C.;Soe, B.;King, K.;Quadir, M. Z.;Ferry, M.;Bassman, L.;
6:5:31:9 Microtexture tracking in hot-deformed polycrystalline aluminium: Comparison with simulations
DOI:10.1016/j.actamat.2009.12.014 JN:ACTA MATERIALIA PY:2010 TC:11 AU: Quey, R.;Piot, D.;Driver, J. H.;
6:5:31:10 Plastic deformation of submicron-sized crystals studied by in-situ Kikuchi diffraction and dislocation imaging
DOI:10.1016/j.matchar.2012.04.019 JN:MATERIALS CHARACTERIZATION PY:2012 TC:1 AU: Zhang, Xiaodan;Godfrey, Andrew;Winther, Grethe;Hansen, Niels;Huang, Xiaoxu;
6:5:31:11 Spatial orientations and structural irregularities associated with the formation of microbands in a cold deformed Goss oriented Ni single crystal
DOI:10.1016/j.actamat.2012.08.003 JN:ACTA MATERIALIA PY:2012 TC:6 AU: Afrin, N.;Quadir, M. Z.;Xu, W.;Ferry, M.;
6:5:31:12 The initial stages of formation of low angle boundaries within lamellar bands during accumulative roll bonding of aluminum
DOI:10.1016/j.scriptamat.2011.02.032 JN:SCRIPTA MATERIALIA PY:2011 TC:4 AU: Quadir, M. Z.;Ferry, M.;Munroe, P. R.;
6:5:31:13 A disclination-based approach for mesoscopic statistical modeling of grain subdivision in niobium
DOI:10.1016/j.commatsci.2013.03.039 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:1 AU: Seefeldt, M.;
6:5:31:14 Microtexture tracking of sub-boundary evolution during hot deformation of aluminium
DOI:10.1016/j.matchar.2011.10.005 JN:MATERIALS CHARACTERIZATION PY:2011 TC:5 AU: Quey, R.;Driver, J. H.;
6:5:31:15 Deformation banding in a Nb polycrystal deformed by successive compression tests
DOI:10.1016/j.actamat.2012.04.008 JN:ACTA MATERIALIA PY:2012 TC:1 AU: Zhu, Liang;Seefeldt, Marc;Verlinden, Bert;
6:5:31:16 Dislocations, boundaries and slip systems in cube grains of rolled aluminium
DOI:10.1016/j.scriptamat.2011.05.005 JN:SCRIPTA MATERIALIA PY:2011 TC:6 AU: Wei, Y. L.;Godfrey, A.;Liu, W.;Liu, Q.;Huang, X.;Hansen, N.;Winther, G.;
6:5:31:17 Orientation preferences of extended sub-granular dislocation boundaries
DOI:10.1080/14786435.2012.671546 JN:PHILOSOPHICAL MAGAZINE PY:2012 TC:1 AU: Mahesh, Sivasambu;
6:5:32:1 Designing quadplex (four-phase) microstructures in an ultrahigh carbon steel
DOI:10.1016/j.msea.2014.06.023 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Zhang, H.;Ponge, D.;Raabe, D.;
6:5:32:2 Enhanced superplasticity in an Al-alloyed multicomponent Mn-Si-Cr-C steel
DOI:10.1016/j.actamat.2013.10.034 JN:ACTA MATERIALIA PY:2014 TC:4 AU: Zhang, H.;Pradeep, K. G.;Mandal, S.;Ponge, D.;Choi, P.;Tasan, C. C.;Raabe, D.;
6:5:32:3 New insights into the austenitization process of low-alloyed hypereutectoid steels: Nucleation analysis of strain-induced austenite formation
DOI:10.1016/j.actamat.2014.07.073 JN:ACTA MATERIALIA PY:2014 TC:0 AU: Zhang, H.;Pradeep, K. G.;Mandal, S.;Ponge, D.;Raabe, D.;
6:5:32:4 Superplastic martensitic Mn-Si-Cr-C steel with 900% elongation
DOI:10.1016/j.actamat.2011.05.055 JN:ACTA MATERIALIA PY:2011 TC:5 AU: Zhang, H.;Bai, B.;Raabe, D.;
6:5:32:5 Superplastic Mn-Si-Cr-C duplex and triplex steels: Interaction of microstructure and void formation
DOI:10.1016/j.msea.2014.05.061 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Zhang, H.;Ponge, D.;Raabe, D.;
6:5:32:6 Superplastic behavior during warm deformation of martensite in medium carbon steel
DOI:10.1016/j.scriptamat.2009.12.001 JN:SCRIPTA MATERIALIA PY:2010 TC:9 AU: Zhang, H.;Zhang, L.;Cheng, X.;Xu, L.;Bai, B.;
6:5:32:7 Superplastic characteristic of Mn-Si-Cr alloyed ultrahigh carbon steel realized through a novel process
DOI:10.1016/j.actamat.2010.07.037 JN:ACTA MATERIALIA PY:2010 TC:6 AU: Zhang, Han;Zhang, Lei;Cheng, Xiaole;Bai, Bingzhe;
6:5:32:8 A novel approach to measure grain boundary segregation in bulk polycrystalline materials in dependence of the boundaries' five rotational degrees of freedom
DOI:10.1016/j.scriptamat.2014.02.016 JN:SCRIPTA MATERIALIA PY:2014 TC:9 AU: Mandal, S.;Pradeep, K. G.;Zaefferer, S.;Raabe, D.;
6:5:32:9 An ultrahigh strength steel with ultrafine-grained microstructure produced through superplastic forming
DOI:10.1016/j.msea.2010.06.027 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:2 AU: Zhang, Han;Cheng, Xiaole;Zhang, Lei;Bai, Bingzhe;
6:5:32:10 Warm deformation behavior of medium carbon steel with different initial microstructures
DOI:10.1016/j.msea.2012.02.057 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:1 AU: Zhao, X.;Jing, T. F.;
6:5:33:1:1 Layer-stacking irregularities in C36-type Nb-Cr and Ti-Cr Laves phases and their relation with polytypic phase transformations
DOI:10.1080/14786435.2010.482068 JN:PHILOSOPHICAL MAGAZINE PY:2010 TC:13 AU: Aufrecht, J.;Baumann, W.;Leineweber, A.;Duppel, V.;Mittemeijer, E. J.;
6:5:33:1:2 The absence of a stable hexagonal Laves phase modification (NbCr2) in the Nb-Cr system
DOI:10.1016/j.scriptamat.2009.11.002 JN:SCRIPTA MATERIALIA PY:2010 TC:12 AU: Aufrecht, J.;Leineweber, A.;Senyshyn, A.;Mittemeijer, E. J.;
6:5:33:1:3 A study on the influence of Mo, Al and Si additions on the microstructure of annealed dual phase Cr-Ta alloys
DOI:10.1007/s10853-012-7114-7 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:2 AU: Bhowmik, Ayan;Stone, Howard J.;
6:5:33:1:4 Transformation-dislocation dipoles in Laves phases: A high-resolution transmission electron microscopy analysis
DOI:10.1557/JMR.2010.0265 JN:JOURNAL OF MATERIALS RESEARCH PY:2010 TC:3 AU: Aufrecht, J.;Leineweber, A.;Duppel, V.;Mittemeijer, E. J.;
6:5:33:1:5 The ternary Cr-Al-Nb phase diagram: Experimental investigations of isothermal sections at 1150, 1300 and 1450 degrees C
DOI:10.1016/j.jallcom.2011.10.053 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:2 AU: Prymak, O.;Stein, F.;
6:5:33:1:6 The liquidus surface of the Cr-Al-Nb system and re-investigation of the Cr-Nb and Al-Cr phase diagrams
DOI:10.1016/j.jallcom.2014.02.045 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:5 AU: Stein, F.;He, C.;Wossack, I.;
6:5:33:1:7 Reply to comments on the absence of a stable hexagonal Laves phase modification (NbCr2) in the Nb-Cr system
DOI:10.1016/j.scriptamat.2011.01.035 JN:SCRIPTA MATERIALIA PY:2011 TC:2 AU: Leineweber, A.;Aufrecht, J.;Senyshyn, A.;Mittemeijer, E. J.;
6:5:33:1:8 The electrochemical properties of MgNi-x wt% TiNi0.56Co0.44 (x=0, 10, 30, 50) composite alloys
DOI:10.1007/s10853-009-4057-8 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:5 AU: Huang, Hongxia;Huang, Kelong;Chen, Dongyang;Liu, Suqin;Zhuang, Shuxin;
6:5:33:1:9 Comments on "The absence of a stable hexagonal Laves phase modification (NbCr2) in the Nb-Cr system" Reply
DOI:10.1016/j.scriptamat.2011.01.032 JN:SCRIPTA MATERIALIA PY:2011 TC:4 AU: Nie, Xiao-wu;
6:5:33:1:10 Solid solubility by anti-site atoms in the C36-TiCr2 Laves phase revealed by single-crystal X-ray diffractometry
DOI:10.1016/j.jallcom.2010.06.117 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:0 AU: Baumann, Wolfgang;Leineweber, Andreas;
6:5:33:1:11 The influence of plastic deformation on polytypic phase transformations in TiCr2 Laves phases
DOI:10.1016/j.scriptamat.2010.07.020 JN:SCRIPTA MATERIALIA PY:2010 TC:0 AU: Baumann, Wolfgang;Leineweber, Andreas;Mittemeijer, Eric Jan;
6:5:33:2:1 Role of crystal defects on brittleness of C15 Cr2Nb Laves phase
DOI:10.1016/j.actamat.2012.01.030 JN:ACTA MATERIALIA PY:2012 TC:7 AU: Yang, Z. Q.;Chisholm, M. F.;Yang, B.;Ma, X. L.;Wang, Y. J.;Zhuo, M. J.;Pennycook, S. J.;
6:5:33:2:2 Undulating Slip in Laves Phase and Implications for Deformation in Brittle Materials
DOI:10.1103/PhysRevLett.106.165505 JN:PHYSICAL REVIEW LETTERS PY:2011 TC:8 AU: Zhang, Wei;Yu, Rong;Du, Kui;Cheng, Zhiying;Zhu, Jing;Ye, Hengqiang;
6:5:33:2:3 Ab initio study of stacking faults and deformation mechanism in C15 Laves phases Cr2X (X = Nb, Zr, Hf)
DOI:10.1016/j.matchemphys.2013.09.056 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:0 AU: Ma, Li;Pan, Rong-Kai;Zhou, Si-Chen;Luo, Tao-Peng;Wu, Dong-Hai;Fan, Tou-Wen;Tang, Bi-Yu;
6:5:33:2:4 Atomic-scale processes revealing dynamic twin boundary strengthening mechanisms in face-centered cubic materials
DOI:10.1016/j.scriptamat.2012.08.032 JN:SCRIPTA MATERIALIA PY:2012 TC:1 AU: Yang, Z. Q.;Chisholm, M. F.;He, L. L.;Pennycook, S. J.;Ye, H. Q.;
6:5:33:3:1 Plastic deformation of the C14 Laves phase (Fe,Ni)(2)Nb
DOI:10.1016/j.scriptamat.2012.12.019 JN:SCRIPTA MATERIALIA PY:2013 TC:1 AU: Takata, N.;Armaki, H. Ghassemi;Terada, Y.;Takeyama, M.;Kumar, K. S.;
6:5:33:3:2 Microstructure and mechanical properties of Cr-Ta-Si Laves phase-based alloys at elevated temperatures
DOI:10.1080/14786435.2014.971086 JN:PHILOSOPHICAL MAGAZINE PY:2014 TC:0 AU: Bhowmik, Ayan;Neumeier, Steffen;Barnard, Jon S.;Zenk, Christopher H.;Goeken, Mathias;Rae, Catherine M. F.;Stone, Howard J.;
6:5:33:4:1 Effect of Mo, Al and Si on the microstructure and mechanical properties of Cr-Cr2Ta based alloys
DOI:10.1016/j.jallcom.2012.03.070 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:8 AU: Bhowmik, Ayan;Jones, C. Neil;Edmonds, Ian M.;Stone, Howard J.;
6:5:33:4:2 Diffusion bonding of Ti-2.5Al-2.5Mo-2.5Zr and Co-Cr-Mo alloys
DOI:10.1016/j.jallcom.2011.04.098 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:8 AU: He, Guo;Liu, Honghua;Tan, Qingbiao;Ni, Jiahua;
6:5:33:4:3 Experimental determination of the phase equilibria in the Co-Cr-Ta ternary system
DOI:10.1016/j.jallcom.2014.04.029 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:0 AU: Zhao, C. C.;Yang, S. Y.;Liu, X. J.;Wang, C. P.;
6:5:34:1 Microstructures and hardness of as-quenched martensites (0.1-0.5%C)
DOI:10.1016/j.actamat.2011.05.061 JN:ACTA MATERIALIA PY:2011 TC:33 AU: Hutchinson, Bevis;Hagstrom, Joacim;Karlsson, Oskar;Lindell, David;Tornberg, Malm;Lindberg, Fredrik;Thuvander, Mattias;
6:5:34:2 Supersaturated alpha-iron in vapour-deposited Fe-C thin films
DOI:10.1007/s10853-012-6641-6 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:4 AU: Weck, A.;Sinclair, C. W.;Scott, C. P.;Maunder, C.;
6:5:34:3 Experimental and atomistic study of the elastic properties of alpha ' Fe-C martensite
DOI:10.1016/j.actamat.2012.05.038 JN:ACTA MATERIALIA PY:2012 TC:7 AU: Gunkelmann, Nina;Ledbetter, Hassel;Urbassek, Herbert M.;
6:5:34:4 Molecular dynamics study of the ordering of carbon in highly supersaturated alpha-Fe
DOI:10.1103/PhysRevB.81.224204 JN:PHYSICAL REVIEW B PY:2010 TC:9 AU: Sinclair, C. W.;Perez, M.;Veiga, R. G. A.;Weck, A.;
6:5:34:5 Phase transitions in an Fe system containing a bcc/fcc phase boundary: An atomistic study
DOI:10.1103/PhysRevB.87.104108 JN:PHYSICAL REVIEW B PY:2013 TC:7 AU: Wang, Binjun;Urbassek, Herbert M.;
6:5:34:6 Molecular dynamics study of the alpha-gamma phase transition in Fe induced by shear deformation
DOI:10.1016/j.actamat.2013.05.045 JN:ACTA MATERIALIA PY:2013 TC:6 AU: Wang, Binjun;Urbassek, Herbert M.;
6:5:34:7 Friedel vs. Labusch: the strong/weak pinning transition in solute strengthened metals
DOI:10.1080/14786435.2013.776718 JN:PHILOSOPHICAL MAGAZINE PY:2013 TC:3 AU: Leyson, G. P. M.;Curtin, W. A.;
6:5:34:8 Effect of carbon-supersaturation upon the carbon diffusion in 9Cr-1Mo ferrite steel
DOI:10.1016/j.matlet.2013.11.085 JN:MATERIALS LETTERS PY:2014 TC:2 AU: Cermak, Jiri;Kral, Lubomir;
6:5:34:9 Free energies of austenite and martensite Fe-C alloys: an atomistic study
DOI:10.1080/14786435.2013.870359 JN:PHILOSOPHICAL MAGAZINE PY:2014 TC:1 AU: Sak-Saracino, Emilia;Urbassek, Herbert M.;
6:5:34:10 Atom probe tomography analysis of the white etching layer in a rail track surface
DOI:10.1016/j.actamat.2010.02.030 JN:ACTA MATERIALIA PY:2010 TC:10 AU: Takahashi, J.;Kawakami, K.;Ueda, M.;
6:5:34:11 Molecular-dynamics study of the alpha <-> gamma phase transition in Fe-C
DOI:10.1016/j.commatsci.2013.09.069 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:3 AU: Wang, Binjun;Sak-Saracino, Emilia;Gunkelmann, Nina;Urbassek, Herbert M.;
6:5:34:12 Atomistic dynamics of the bcc <-> fcc phase transition in iron: Competition of homo- and heterogeneous phase growth
DOI:10.1016/j.commatsci.2013.08.005 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:2 AU: Wang, Binjun;Urbassek, Herbert M.;
6:5:34:13 Interactions between carbon solutes and dislocations in bcc iron
DOI:10.1016/j.actamat.2010.06.024 JN:ACTA MATERIALIA PY:2010 TC:7 AU: Hanlumyuang, Y.;Gordon, P. A.;Neeraj, T.;Chrzan, D. C.;
6:5:34:14 Comments on "Atomistic modeling of an Fe system with a small concentration of C"
DOI:10.1016/j.commatsci.2013.09.048 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:4 AU: Veiga, R. G. A.;Becquart, C. S.;Perez, M.;
6:5:34:15 The kinetics of softening and microstructure evolution of martensite in Fe-C-Mn steel during tempering at 300 degrees C
DOI:10.1016/j.msea.2012.09.078 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:2 AU: Ohlund, C. Emmy I. C.;Schlangen, Erik;Offerman, S. Erik;
6:5:35:1 Stability of (Ti, M)C (M = Nb, V, Mo and W) carbide in steels using first-principles calculations
DOI:10.1016/j.actamat.2011.09.051 JN:ACTA MATERIALIA PY:2012 TC:40 AU: Jang, Jae Hoon;Lee, Chang-Hoon;Heo, Yoon-Uk;Suh, Dong-Woo;
6:5:35:2 Microstructure characterization of nanometer carbides heterogeneous precipitation in Ti-Nb and Ti-Nb-Mo steel
DOI:10.1016/j.matchar.2013.11.016 JN:MATERIALS CHARACTERIZATION PY:2014 TC:6 AU: Chen, Chih Yuan;Chen, Chien Chon;Yang, Jer Ren;
6:5:35:3 Strengthening mechanism of hot rolled Ti and Nb microalloyed HSLA steels containing Mo and W with various coiling temperature
DOI:10.1016/j.msea.2012.09.098 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:14 AU: Park, Dae-Bum;Huh, Moo-Young;Shim, Jae-Hyeok;Suh, Jin-Yoo;Lee, Kyu-Ho;Jung, Woo-Sang;
6:5:35:4 Carbide precipitation in austenite of a Ti-Mo-containing low-carbon steel during stress relaxation
DOI:10.1016/j.msea.2013.02.056 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:6 AU: Wang, Zhenqiang;Sun, Xinjun;Yang, Zhigang;Yong, Qilong;Zhang, Chi;Li, Zhaodong;Weng, Yuqing;
6:5:35:5 Quantitative three-dimensional characterization of pearlite spheroidization
DOI:10.1016/j.actamat.2010.05.023 JN:ACTA MATERIALIA PY:2010 TC:17 AU: Wang, Yuan-Tsung;Adachi, Yoshitaka;Nakajima, Kiyomi;Sugimoto, Yoshimasa;
6:5:35:6 Growth characteristics and mechanism of carbides precipitated in WC-Fe composite coatings by laser induction hybrid rapid cladding
DOI:10.1016/j.jallcom.2010.06.115 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:13 AU: Zhou, Shengfeng;Zeng, Xiaoyan;
6:5:35:7 The effect of size of Cu precipitation on the mechanical properties of microalloyed steel
DOI:10.1016/j.msea.2012.06.069 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:3 AU: Hu, Lijuan;Zhao, Shi-Jin;Liu, Qingdong;
6:5:35:8 Automated extraction of symmetric microstructure features in serial sectioning images
DOI:10.1016/j.matchar.2010.10.008 JN:MATERIALS CHARACTERIZATION PY:2010 TC:2 AU: Tschopp, M. A.;Groeber, M. A.;Simmons, J. P.;Rosenberger, A. H.;Woodward, C.;
6:5:35:9 A micro-alloyed ferritic steel strengthened by nanoscale precipitates
DOI:10.1016/j.msea.2011.07.065 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:13 AU: Shen, Y. F.;Wang, C. M.;Sun, X.;
6:5:35:10 Compositional evolution of microalloy carbonitrides in a Mo-bearing microalloyed steel
DOI:10.1016/j.scriptamat.2012.09.027 JN:SCRIPTA MATERIALIA PY:2013 TC:4 AU: Enloe, C. M.;Findley, K. O.;Parish, C. M.;Miller, M. K.;De Cooman, B. C.;Speer, J. G.;
6:5:35:11 Isothermal treatment influence on nanometer-size carbide precipitation of titanium-bearing low carbon steel
DOI:10.1016/j.matlet.2010.10.022 JN:MATERIALS LETTERS PY:2011 TC:13 AU: Wang, Tzu-Pin;Kao, Fang-Hsin;Wang, Shing-Hoa;Yang, Jer-Ren;Huang, Ching-Yuan;Chen, Hsueh-Ren;
6:5:35:12 Twinned formation in weld metal of titanium bearing nano precipitated high strength steel
DOI:10.1016/j.matchemphys.2012.08.060 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:0 AU: Hsu, Ping-Wei;Kao, Fang-Hsin;Wang, Shing-Hoa;Yang, Jer-Ren;Chang, Horng-Yi;Wang, Yao-Ming;Lin, Qian-Xuan;
6:5:35:13 Symmetry-based automated extraction of microstructural features: Application to dendritic cores in single-crystal Ni-based superalloys
DOI:10.1016/j.scriptamat.2009.10.038 JN:SCRIPTA MATERIALIA PY:2010 TC:4 AU: Tschopp, M. A.;Groeber, M. A.;Fahringer, R.;Simmons, J. P.;Rosenberger, A. H.;Woodward, C.;
6:5:35:14 Structural characterization of nano-scale precipitates in Cu bearing extra-low-carbon steels
DOI:10.1016/j.jallcom.2011.04.071 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:1 AU: Lee, Taeg-Woo;Kim, Sung-Il;Hong, Moon-Hi;Kim, Won-Yong;Lim, Sung-Hwan;
6:5:35:15 Copper bearing microalloyed ultrahigh strength steel on a pilot scale: Microstructure and properties
DOI:10.1016/j.msea.2011.06.085 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:2 AU: Ghosh, S. K.;Bandyopadhyay, P. S.;Kundu, S.;Chatterjee, S.;
6:5:35:16 Experimental verification of tailor welded joining partners for hot stamping and analytical modeling of TWBs rheological constitutive in austenitic state
DOI:10.1016/j.msea.2013.07.059 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:0 AU: Tang, Bingtao;Yuan, Zhengjun;Cheng, Gang;Huang, Lili;Zheng, Wei;Xie, Hui;
6:5:36:1 The effect of pre-straining at intermediate temperatures on the mechanical behavior of high-bainite dual phase (HBDP) steels
DOI:10.1016/j.msea.2012.02.080 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:3 AU: Farnoush, Hamidreza;Fatmehsari, Davoud Haghshenas;Ekrami, Aliakbar;
6:5:36:2 Impact properties of tempered bainite-ferrite dual phase steels
DOI:10.1016/j.msea.2010.05.015 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:12 AU: Saeidi, N.;Ekrami, A.;
6:5:36:3 Effect of heat-treatment on-line process temperature on the microstructure and tensile properties of a low carbon Nb-microalloyed steel
DOI:10.1016/j.msea.2014.04.027 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Fan, Lei;Wang, Tongliang;Fu, Zhibin;Zhang, Shuming;Wang, Qingfeng;
6:5:36:4 Effect of non-isothermal deformation of austenite on phase transformation and microstructure of 22SiMn2TiB steel
DOI:10.1016/j.msea.2011.12.088 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:9 AU: Shi, Zengmin;Liu, Kai;Wang, Maoqiu;Shi, Jie;Dong, Han;Pu, Jian;Chi, Bo;Zhang, Yisheng;Jian, Li;
6:5:36:5 Enhanced mechanical properties of a hot stamped advanced high-strength steel treated by quenching and partitioning process
DOI:10.1016/j.scriptamat.2010.12.037 JN:SCRIPTA MATERIALIA PY:2011 TC:24 AU: Liu, Heping;Lu, Xianwen;Jin, Xuejun;Dong, Han;Shi, Jie;
6:5:36:6 Thermo-mechanical properties of ultra high strength steel 22SiMn2TiB at elevated temperature
DOI:10.1016/j.msea.2011.01.053 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:15 AU: Shi, Zengmin;Liu, Kai;Wang, Maoqiu;Shi, Jie;Dong, Han;Pu, Jian;Chi, Bo;Zhang, Yisheng;Li, Jian;
6:5:36:7 Influence of martensite volume fraction on tensile properties of triple phase ferrite-bainite-martensite steels
DOI:10.1016/j.msea.2011.09.108 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:10 AU: Zare, Ahmad;Ekrami, A.;
6:5:36:8 Effect of martensite volume fraction on work hardening behavior of triple phase (TP) steels
DOI:10.1016/j.msea.2011.02.021 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:9 AU: Zare, Ahmad;Ekrami, A.;
6:5:36:9 The effect of dynamic strain aging on room temperature mechanical properties of high martensite dual phase (HMDP) steel
DOI:10.1016/j.msea.2012.04.082 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:3 AU: Shahriary, M. S.;Koohbor, B.;Ahadi, K.;Ekrami, A.;Khakian-Qomi, M.;Izadyar, T.;
6:5:36:10 Application of response surface methodology to drive GTN model parameters and determine the FLD of tailor welded blank
DOI:10.1016/j.commatsci.2011.08.020 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:12 AU: Abbasi, M.;Bagheri, B.;Ketabchi, M.;Haghshenas, D. F.;
6:5:36:11 Investigation into the effects of weld zone and geometric discontinuity on the formability reduction of tailor welded blanks
DOI:10.1016/j.commatsci.2012.02.039 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:5 AU: Abbasi, Mahmoud;Ketabchi, M.;Ramazani, A.;Abbasi, Mohammad;Prahl, U.;
6:5:36:12 The effect of strain rate and deformation temperature on the characteristics of isothermally hot compressed boron-alloyed steel
DOI:10.1016/j.msea.2012.01.060 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:13 AU: Abbasi, M.;Saeed-Akbari, A.;Naderi, M.;
6:5:36:13 Microstructural evolution and mechanical properties of high strength microalloyed steels: Ultra Fast Cooling (UFC) versus Accelerated Cooling (ACC)
DOI:10.1016/j.msea.2013.05.016 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:5 AU: Tang, S.;Liu, Z. Y.;Wang, G. D.;Misra, R. D. K.;
6:5:36:14 Investigation on hot forming limits of high strength steel 22MnB5
DOI:10.1016/j.commatsci.2010.05.018 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2010 TC:20 AU: Min, Junying;Lin, Jianping;Li, Jiayue;Bao, Wenhua;
6:5:36:15 Martensitic microstructural transformations from the hot stamping, quenching and partitioning process
DOI:10.1016/j.matchar.2010.12.003 JN:MATERIALS CHARACTERIZATION PY:2011 TC:17 AU: Liu, Heping;Jin, Xuejun;Dong, Han;Shi, Jie;
6:5:36:16 Fatigue crack propagation behaviour of steels with different microstructures
DOI:10.1016/j.msea.2012.04.103 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:1 AU: Xu, Tianhan;Feng, Yaorong;Song, Shengyin;Wang, Danghui;
6:5:36:17 Influence of microstructure on strain-controlled fatigue and fracture behavior of ultra high strength alloy steel AerMet 100
DOI:10.1016/j.msea.2014.01.094 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Manigandan, K.;Srivatsan, T. S.;Tammana, Deepthi;Poorganji, Behrang;Vasudevan, Vijay K.;
6:5:37:1 Observation of the microstructure in the adiabatic shear band of 7075 aluminum alloy
DOI:10.1016/j.msea.2010.02.024 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:18 AU: Li, D. H.;Yang, Y.;Xu, T.;Zheng, H. G.;Zhu, Q. S.;Zhang, Q. M.;
6:5:37:2 On the characteristics of substructure development through dynamic recrystallization
DOI:10.1016/j.actamat.2010.02.026 JN:ACTA MATERIALIA PY:2010 TC:17 AU: Beladi, Hossein;Cizek, Pavel;Hodgson, Peter D.;
6:5:37:3 The mechanism of metadynamic softening in austenite after complete dynamic recrystallization
DOI:10.1016/j.scriptamat.2009.10.022 JN:SCRIPTA MATERIALIA PY:2010 TC:10 AU: Beladi, H.;Cizek, P.;Hodgson, P. D.;
6:5:37:4 Microstructure evolution of adiabatic shear bands in AM60B magnesium alloy under ballistic impact
DOI:10.1016/j.msea.2010.06.013 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:16 AU: Zhen, L.;Zou, D. L.;Xu, C. Y.;Shao, W. Z.;
6:5:37:5 Effect of initial temperature on dynamic recrystallization of tungsten and matrix within adiabatic shear band of tungsten heavy alloy
DOI:10.1016/j.msea.2011.04.080 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:3 AU: Guo Wenqi;Liu Jinxu;Yang Jia;Li Shukui;
6:5:37:6 The kinetics of dynamic and static softening during multistage hot deformation of 7150 aluminum alloy
DOI:10.1016/j.msea.2012.05.039 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:4 AU: Jiang, Fulin;Zhang, Hui;Li, Luoxing;Chen, Jianghua;
6:5:37:7 Ultrafine ferrite formation through isothermal static phase transformation
DOI:10.1016/j.actamat.2011.03.043 JN:ACTA MATERIALIA PY:2011 TC:7 AU: Beladi, Hossein;Timokhina, Ilana B.;Mukherjee, Subrata;Hodgson, Peter D.;
6:5:37:8 Dynamic recrystallization in high-purity aluminum single crystal under frictionless deformation mode at room temperature
DOI:10.1557/jmr.2013.265 JN:JOURNAL OF MATERIALS RESEARCH PY:2013 TC:1 AU: Choi, Yong Seok;Kim, Kyung Il;Oh, Kyu Hwan;Han, Heung Nam;Kang, Suk Hoon;Jang, Jinsung;Han, Jun Hyun;
6:5:37:9 New insight into the mechanism of metadynamic softening in austenite
DOI:10.1016/j.actamat.2010.11.012 JN:ACTA MATERIALIA PY:2011 TC:10 AU: Beladi, Hossein;Cizek, Pavel;Hodgson, Peter D.;
6:5:37:10 A novel thermomechanical approach to produce a fine ferrite and low-temperature bainitic composite microstructure
DOI:10.1016/j.actamat.2013.08.029 JN:ACTA MATERIALIA PY:2013 TC:2 AU: Beladi, H.;Timokhina, I. B.;Xiong, X. Y.;Hodgson, P. D.;
6:5:37:11 Adiabatic shear failure of aluminum matrix composites and microstructural characteristics of transformed bands
DOI:10.1016/j.msea.2013.12.025 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Zhu, Dezhi;Zheng, Zhenxin;Chen, Qi;
6:5:37:12 Metallographic characterisation of Al6061-T6 aluminium plates subjected to ballistic impact
DOI:10.1016/j.msea.2014.04.064 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Manes, A.;Pagani, M.;Saponara, M.;Mombelli, D.;Mapelli, C.;Giglio, M.;
6:5:37:13 Adiabatic shear banding in AISI 1045 steel during high speed machining: Mechanisms of microstructural evolution
DOI:10.1016/j.msea.2011.10.071 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:9 AU: Duan, C. Z.;Zhang, L. C.;
6:5:37:14 Strain-induced dissolution of Cu-Mg co-clusters and dynamic recrystallization near a fatigue crack tip of an underaged Al-Cu-Mg alloy during cyclic loading at ambient temperature
DOI:10.1016/j.scriptamat.2011.03.012 JN:SCRIPTA MATERIALIA PY:2011 TC:3 AU: Bai, Song;Liu, Zhiyi;Zhou, Xuanwei;Gu, Yanxia;Yu, Dier;
6:5:37:15 Microstructural changes in high interstitial stainless austenitic steels due to ballistic impact
DOI:10.1016/j.msea.2011.02.062 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:1 AU: Berns, Hans;Riedner, Sascha;Gavriljuk, Valentin;Petrov, Yuri;Weihrauch, Achim;
6:5:38:1 The influence of strain rate on the microstructure transition of 304 stainless steel
DOI:10.1016/j.actamat.2011.03.005 JN:ACTA MATERIALIA PY:2011 TC:29 AU: Chen, A. Y.;Ruan, H. H.;Wang, J.;Chan, H. L.;Wang, Q.;Li, Q.;Lu, J.;
6:5:38:2 A research on the microstructure evolution of austenite stainless steel by surface mechanical attrition treatment
DOI:10.1016/j.msea.2014.08.049 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Liu, S.;Gao, S. Y.;Zhou, Y. F.;Xing, X. L.;Hou, X. R.;Yang, Y. L.;Yang, Q. X.;
6:5:38:3 Microstructure Defects Contributing to the Energy Absorption in CrMnNi TRIP Steels
DOI:10.1002/adem.201200327 JN:ADVANCED ENGINEERING MATERIALS PY:2013 TC:7 AU: Borisova, Daria;Klemm, Volker;Martin, Stefan;Wolf, Steffen;Rafaja, David;
6:5:38:4 In situ X-ray diffraction study of stacking fault formation in the near-surface region of transformation induced plasticity steels
DOI:10.1016/j.tsf.2012.07.067 JN:THIN SOLID FILMS PY:2013 TC:12 AU: Rafaja, David;Krbetschek, Christina;Borisova, Daria;Schreiber, Gerhard;Klemm, Volker;
6:5:38:5 Ballistic performance of nanocrystalline and nanotwinned ultrafine crystal steel
DOI:10.1016/j.actamat.2011.11.029 JN:ACTA MATERIALIA PY:2012 TC:11 AU: Frontan, Jaime;Zhang, Yuming;Dao, Ming;Lu, Jian;Galvez, Francisco;Jerusalem, Antoine;
6:5:38:6 Assessment of the thermodynamic dimension of the stacking fault energy
DOI:10.1080/14786435.2014.944606 JN:PHILOSOPHICAL MAGAZINE PY:2014 TC:0 AU: Geissler, D.;Freudenberger, J.;Kauffmann, A.;Martin, S.;Rafaja, D.;
6:5:38:7 Deformation induced thermoremanent magnetisation in an FeMnNiCr antiferromagnetic alloy
DOI:10.1016/j.jallcom.2010.12.158 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:4 AU: Geissler, D.;Mueller, K. -H.;Freudenberger, J.;Nenkov, K.;Krautz, M.;Eickemeyer, J.;Schultz, L.;
6:5:38:8 Constitutive modelling of the rate dependent flow stress of cast high-alloyed metastable austenitic TRIP/TWIP steel
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6:5:38:9 Parabolic microstrain-like line broadening induced by random twin faulting
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6:5:38:10 Broadening and shifting of Bragg reflections of nanoscale-microtwinned LT-Ni3Sn2
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6:5:38:11 Chemical nano-scale homogeneity of austenitic CrMnCN steels in relation to electronic and magnetic properties
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6:5:38:12 Interaction of Lomer-Cottrell locks with screw dislocations
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6:5:39:1 Interphase precipitation of nanometer-sized carbides in a titanium-molybdenum-bearing low-carbon steel
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6:5:39:2 Interphase precipitation in niobium-microalloyed steels
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6:5:39:3 Effects of alpha/gamma orientation relationship on VC interphase precipitation in low-carbon steels
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6:5:39:4 Development of Ti and Mo micro-alloyed hot-rolled high strength sheet steel by controlling thermomechanical controlled processing schedule
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6:5:39:5 Interphase precipitation in vanadium-alloyed steels: Strengthening contribution and morphological variability with austenite to ferrite transformation
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6:5:39:6 Influence of cooling paths on microstructural characteristics and precipitation behaviors in a low carbon V-Ti microalloyed steel
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6:5:39:7 Role of rolling temperature in the precipitation hardening characteristics of Ti-Mo microalloyed hot-rolled high strength steel
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6:5:39:8 Three-dimensional atom probe microscopy study of interphase precipitation and nanoclusters in thermomechanically treated titanium-molybdenum steels
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6:5:39:9 Effects of rolling temperature on the microstructure and mechanical properties of Ti-Mo microalloyed hot-rolled high strength steel
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6:5:39:10 Effect of the strain reversal on austenite-ferrite phase transformation in a Nb-microalloyed steel
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6:5:39:11 A model for interphase precipitation based on finite interface solute drag theory
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6:5:39:12 Strain-induced precipitation kinetics of Nb(C,N) and precipitates evolution in austenite of Nb-Ti micro-alloyed steels
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6:5:39:13 The transition from interphase-precipitated carbides to fibrous carbides in a vanadium-containing medium-carbon steel
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6:5:40:1 Microstructure and strengthening mechanisms in cold-drawn pearlitic steel wire
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6:5:40:2 Evolution of cementite morphology in pearlitic steel wire during wet wire drawing
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6:5:40:3 A multiscale approach for the deformation mechanism in pearlite microstructure: Numerical evaluation of elasto-plastic deformation in fine lamellar structures
DOI:10.1016/j.msea.2013.09.032 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:6 AU: Ohashi, Tetsuya;Roslan, Lidyana;Takahashi, Kohsuke;Shimokawa, Tomotsugu;Tanaka, Masaki;Higashida, Kenji;
6:5:40:4 A multiscale approach for the deformation mechanism in pearlite microstructure: Atomistic study of the role of the heterointerface on ductility
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6:5:40:5 Hierarchical structures in cold-drawn pearlitic steel wire
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6:5:40:6 Hall-Petch and dislocation strengthening in graded nanostructured steel
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6:5:40:7 A multiscale approach for the deformation mechanism in pearlite microstructure: Experimental measurements of strain distribution using a novel technique of precision markers
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6:5:40:8 Brittle-to-ductile transitions and its relation to the deformability of cementite in fully pearlitic steels
DOI:10.1016/j.msea.2014.06.007 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Sirithanakorn, Thiti;Tanaka, Masaki;Higashida, Kenji;
6:5:40:9 Microstructure and Mechanical Properties in Progressively Drawn Pearlitic Steel
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6:5:40:10 Significant enhancement of strength in a lamellar-type nanostructured maraging steel subjected to equal-channel angular pressing for 12 passes
DOI:10.1016/j.msea.2012.04.014 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:1 AU: Yang, M. X.;Yang, G.;Liu, Z. D.;Wang, C.;Huang, C. X.;
6:5:40:11 Experimental investigation and fatigue life prediction for 7475-T7351 aluminum alloy with and without shot peening-induced residual stresses
DOI:10.1016/j.actamat.2011.03.013 JN:ACTA MATERIALIA PY:2011 TC:19 AU: Gao, Y. K.;Wu, X. R.;
6:5:40:12 Analysis of the variation in nanohardness of pearlitic steel: Influence of the interplay between ferrite crystal orientation and cementite morphology
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6:5:41:1 Precipitation behavior during thin slab thermomechanical processing and isothermal aging of copper-bearing niobium-microalloyed high strength structural steels: The effect on mechanical properties
DOI:10.1016/j.msea.2011.08.047 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:18 AU: Misra, R. D. K.;Jia, Z.;O'Malley, R.;Jansto, S. J.;
6:5:41:2 Regulation of Cu precipitation by intercritical tempering in a HSLA steel
DOI:10.1557/jmr.2014.66 JN:JOURNAL OF MATERIALS RESEARCH PY:2014 TC:1 AU: Liu, Qing-Dong;Gu, Jian-Feng;Li, Chuan-Wei;
6:5:41:3 Direct observation of Cu interphase precipitation in continuous cooling transformation by atom probe tomography
DOI:10.1080/14786435.2013.853137 JN:PHILOSOPHICAL MAGAZINE PY:2014 TC:1 AU: Liu, Qingdong;Li, Chuanwei;Gu, Jianfeng;Liu, Wenqing;
6:5:41:4 Particle strengthening in fcc crystals with prolate and oblate precipitates
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6:5:41:5 Correlation of Cu precipitation with austenite-ferrite transformation in a continuously cooled multicomponent steel: An atom probe tomography study
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6:5:41:6 A model for precipitation strengthening in multi-particle systems
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6:5:41:7 Computer simulation of the yield strength evolution in Cu-precipitation strengthened ferritic steel
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6:5:41:8 A critical consideration of magnetism and composition of (bcc) Cu precipitates in (bcc) Fe
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6:5:41:9 The effect of coiling temperature on the microstructure and mechanical properties of a niobium-titanium microalloyed steel processed via thin slab casting
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6:5:41:10 Consideration of particle-strengthening mechanism of copper-precipitation-strengthened steels by atom probe tomography analysis
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6:5:41:11 Precipitate strengthening of non-spherical precipitates extended in < 100 > or {100} direction in fcc crystals
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6:5:42:1:1 Relation of ductile-to-brittle transition temperature to phosphorus grain boundary segregation for a Ti-stabilized interstitial free steel
DOI:10.1016/j.msea.2011.08.002 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:7 AU: Chen, X. -M.;Song, S. -H.;Weng, L. -Q.;Liu, S. -J.;Wang, K.;
6:5:42:1:2 Tin-induced hot ductility degradation and its suppression by phosphorus for a Cr-Mo low-alloy steel
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6:5:42:1:3 Phosphorus-induced hot ductility enhancement of 1Cr-0.5Mo low alloy steel
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6:5:42:1:4 Enhanced hot ductility of a Cr-Mo low alloy steel by rare earth cerium
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6:5:42:1:5 Effect of microstructural features on the hot ductility of 2.25Cr-1Mo steel
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6:5:42:1:6 Effects of phosphorus and sulfur on the thermoplasticity of high manganese austenitic steel
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6:5:42:2:1 Solute grain boundary segregation during high temperature plastic deformation in a Cr-Mo low alloy steel
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6:5:42:2:2 Grain boundary segregation of antimony in heat affected zones during welding thermal cycles for a Cr-Mo low alloy steel
DOI:10.1016/j.matlet.2013.01.042 JN:MATERIALS LETTERS PY:2013 TC:0 AU: Zheng, L.;Song, S. -H.;Yuan, Z. -X.;
6:5:42:2:3 Solute diffusion during high-temperature plastic deformation in alloys
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6:5:42:2:4 A study of deformation-induced phosphorus grain boundary segregation in an interstitial free steel
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6:5:42:2:5 Plastic deformation-induced phosphorus segregation to ferrite grain boundaries in an interstitial free steel
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6:5:42:3:1 Combined hardening and non-hardening embrittlement of an interstitial free steel
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6:5:42:3:2 Effect of non-equilibrium grain-boundary segregation of phosphorus on the intermediate-temperature ductility minimum of an Fe-17Cr alloy
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6:5:42:3:3 Graphical representation for isothermal kinetics of non-equilibrium grain-boundary segregation
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6:5:42:4:1 Combined effects of phosphorus segregation and partial intergranular fracture on the ductile-brittle transition temperature in structural alloy steels
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6:5:42:4:2 Intergranular Segregation in the Pressure Vessel Steel of a Commercial Nuclear Reactor Studied by Atom Probe Tomography
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6:5:42:5:1 Mechanism of fatigue failure in interstitial-free and interstitial-free high-strength steel sheets
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6:5:42:5:2 High-Cycle Fatigue Properties of Automobile Cold-Rolled Steel Sheet with Stress Variation
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6:5:43:1 Analysis of two-phase ceramic composites using micromechanical models
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6:5:43:2 FEM modelling of the combined effect of grain boundaries and second phase particles on the flow stress of nanocrystalline metals
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6:5:43:3 An integrated scheme for crystal plasticity analysis: Virtual grain structure generation
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6:5:43:4 Micromechanical modelling of ceramic based composites with statistically representative synthetic microstructures
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6:5:43:5 Controlled Poisson Voronoi tessellation for virtual grain structure generation: a statistical evaluation
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6:5:43:6 Extended finite element modeling of crack propagation in ceramic tool materials by considering the microstructural features
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6:5:43:7 FEM simulations of tensile deformation and fracture analysis for CuW alloys at mesoscopic level
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6:5:43:8 A controlled Poisson Voronoi tessellation for grain and cohesive boundary generation applied to crystal plasticity analysis
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6:5:43:9 Crack propagation simulation in microstructure of ceramic tool materials
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6:5:43:10 Microstructure-level modeling and simulation of the flexural behavior of ceramic tool materials
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6:5:43:11 Study on the effect of temperature rise on grain refining during fabrication of nanocrystalline copper under explosive loading
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6:5:43:12 Arbitrary crack propagation in multi-phase materials using the finite volume method
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6:5:44:1 Quantitative research on effects of Nb on hot deformation behaviors of high-Nb microalloyed steels
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6:5:44:2 Strain-induced precipitation in a Ti micro-alloyed HSLA steel
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6:5:44:3 Recrystallization and strain accumulation behaviors of high Nb-bearing line pipe steel in plate and strip rolling
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6:5:44:4 Microstructure and mechanical properties of C-Mn-Al-Si hot-rolled TRIP steels with and without Nb based on dynamic transformation
DOI:10.1016/j.msea.2012.01.012 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:6 AU: Fu, B.;Yang, W. Y.;Lu, M. Y.;Feng, Q.;Li, L. F.;Sun, Z. Q.;
6:5:44:5 Effect of Nb on the stability of retained austenite in hot-rolled TRIP steels based on dynamic transformation
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6:5:44:6 Strain-induced precipitation and softening behaviors of high Nb microalloyed steels
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6:5:44:7 Precipitation behavior of nanoscale cementite in 0.17% carbon steel during ultra fast cooling (UFC) and thermomechanical treatment (TMT)
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6:5:44:8 Investigation on the microstructure and toughness of coarse grained heat affected zone in X-100 multi-phase pipeline steel with high Nb content
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6:5:44:9 The microstructure and properties of high performance steels with low yield-to-tensile ratio
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6:5:44:10 Influence of prior austenite grain size on martensite-austenite constituent and toughness in the heat affected zone of 700 MPa high strength linepipe steel
DOI:10.1016/j.msea.2014.07.100 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:4 AU: Li, Xueda;Ma, Xiaoping;Subramanian, S. V.;Shang, Chengjia;Misra, R. D. K.;
6:5:44:11 Structure-mechanical property relationship in a high strength microalloyed steel with low yield ratio: The effect of tempering temperature
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6:5:44:12 The necessity of dynamic precipitation for the occurrence of no-recrystallization temperature in Nb-microalloyed steel
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6:5:44:13 Microstructures and mechanical properties of hot-rolled Nb-microalloyed TRIP steels by different thermo-mechanical processes
DOI:10.1016/j.msea.2014.03.051 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Feng, Qingxiao;Li, Longfei;Yang, Wangyue;Sun, Zuqing;
6:5:44:14 Effect of bainitic transformation temperature on the mechanical behavior of cold-rolled TRIP steels studied with in-situ high-energy X-ray diffraction
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6:5:44:15 Modelling the strain-induced precipitation kinetics of vanadium carbonitride during hot working of precipitation-hardened Ferritic-Pearlitic steels
DOI:10.1016/j.actamat.2014.03.016 JN:ACTA MATERIALIA PY:2014 TC:1 AU: Mukherjee, Monideepa;Prahl, Ulrich;Bleck, Wolfgang;
6:5:44:16 The effect of chemical composition and austenite conditioning on the transformation behavior of microalloyed steels
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6:5:45:1 Strengthening from Nb-rich clusters in a Nb-microalloyed steel
DOI:10.1016/j.scriptamat.2012.01.029 JN:SCRIPTA MATERIALIA PY:2012 TC:17 AU: Xie, Kelvin Y.;Zheng, Tianxiao;Cairney, Julie M.;Kaul, Harold;Williams, James G.;Barbaro, Frank J.;Killmore, Chris R.;Ringer, Simon P.;
6:5:45:2 Recrystallization-precipitation interaction during austenite hot deformation of a Nb microalloyed steel
DOI:10.1016/j.msea.2011.03.087 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:27 AU: Vervynckt, S.;Verbeken, K.;Thibaux, P.;Houbaert, Y.;
6:5:45:3 Effect of deformation temperature on niobium clustering, precipitation and austenite recrystallisation in a Nb-Ti microalloyed steel
DOI:10.1016/j.msea.2013.05.068 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: Kostryzhev, Andrii G.;Al Shahrani, Abdullah;Zhu, Chen;Ringer, Simon P.;Pereloma, Elena V.;
6:5:45:4 Low temperature precipitation kinetics of niobium nitride platelets in Fe
DOI:10.1016/j.matlet.2011.03.110 JN:MATERIALS LETTERS PY:2011 TC:6 AU: Deschamps, A.;Danoix, F.;De Geuser, F.;Epicier, T.;Leitner, H.;Perez, M.;
6:5:45:5 Evolution of strain-induced precipitates in a model austenitic Fe-30Ni-Nb steel and their effect on the flow behaviour
DOI:10.1016/j.actamat.2014.07.035 JN:ACTA MATERIALIA PY:2014 TC:1 AU: Poddar, Debasis;Cizek, Pavel;Beladi, Hossein;Hodgson, Peter D.;
6:5:45:6 First-principles study of the stability of NbC and NbN precipitates under coherency strains in alpha-iron
DOI:10.1016/j.commatsci.2010.04.020 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2010 TC:6 AU: Tingaud, D.;Maugis, P.;
6:5:45:7 Experimental evaluation of the particle size dependence of the dislocation-particle interaction force in TiC-precipitation-strengthened steel
DOI:10.1016/j.scriptamat.2012.08.005 JN:SCRIPTA MATERIALIA PY:2012 TC:4 AU: Kobayashi, Y.;Takahashi, J.;Kawakami, K.;
6:5:45:8 The effect of clustering on the mobility of dislocations during aging in Nb-microalloyed strip cast steels: In situ heating TEM observations
DOI:10.1016/j.scriptamat.2013.06.007 JN:SCRIPTA MATERIALIA PY:2013 TC:2 AU: Shrestha, Sachin L.;Xie, Kelvin Y.;Ringer, Simon P.;Carpenter, Kristin R.;Smith, David R.;Killmore, Chris R.;Cairney, Julie M.;
6:5:45:9 Effect of austenite deformation temperature on Nb clustering and precipitation in microalloyed steel
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6:5:45:10 Cluster strengthening of Nb-microalloyed ultra-thin cast strip steels produced by the CASTRIP (R) process
DOI:10.1016/j.msea.2013.01.021 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: Shrestha, Sachin L.;Xie, Kelvin Y.;Zhu, Chen;Ringer, Simon P.;Killmore, Chris;Carpenter, Kristin;Kaul, Harold;Williams, James G.;Cairney, Julie M.;
6:5:45:11 Atomic-scale imaging and analysis of single layer GP zones in a model steel
DOI:10.1007/s10853-011-6008-4 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:3 AU: Danoix, F.;Epicier, T.;Vurpillot, F.;Blavette, D.;
6:5:45:12 First-principles study of structure, vacancy formation, and strength of bcc Fe/V4C3 interface
DOI:10.1007/s10853-011-5426-7 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:3 AU: Nakamura, Kaoru;Ohnuma, Toshiharu;Ogata, Takashi;
6:5:46:1 Characterization of microstructural strengthening in the heat-affected zone of a blast-resistant naval steel
DOI:10.1016/j.actamat.2010.06.031 JN:ACTA MATERIALIA PY:2010 TC:31 AU: Yu, Xinghua;Caron, Jeremy L.;Babu, S. S.;Lippold, John C.;Isheim, Dieter;Seidman, David N.;
6:5:46:2 First-principles prediction of partitioning of alloying elements between cementite and ferrite
DOI:10.1016/j.actamat.2010.07.049 JN:ACTA MATERIALIA PY:2010 TC:21 AU: Ande, Chaitanya Krishna;Sluiter, Marcel H. F.;
6:5:46:3 Carbide precipitation kinetics in austenite of a Nb-Ti-V microalloyed steel
DOI:10.1016/j.msea.2011.03.086 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:24 AU: Jung, Jae-Gil;Park, June-Soo;Kim, Jiyoung;Lee, Young-Kook;
6:5:46:4 First principles study of Al and Ni segregation to the alpha-Fe/Cu (100) coherent interface and their effects on the interfacial cohesion
DOI:10.1016/j.commatsci.2012.06.036 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:4 AU: Xie, Yao-Ping;Zhao, Shi-Jin;
6:5:46:5 Cu precipitation kinetics during martensite tempering in a medium C steel
DOI:10.1016/j.jallcom.2012.11.108 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:6 AU: Jung, Jae-Gil;Jung, Minsu;Lee, Sang-Min;Shin, Eunjoo;Shin, Han-Chul;Lee, Young-Kook;
6:5:46:6 Atomistic interaction between silicon and manganese in pearlitic steel: Combined atom probe tomography and first-principle calculations
DOI:10.1016/j.matlet.2014.07.057 JN:MATERIALS LETTERS PY:2014 TC:0 AU: Tu, Yiyou;Mao, Zugang;Zhang, Qun;Zhou, Xuefeng;Fang, Feng;Jiang, Jianqing;
6:5:46:7 Solubility of carbon in tetragonal ferrite in equilibrium with austenite
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6:5:46:8 The kinetics of Nb(C,N) precipitation during the isothermal austenite to ferrite transformation in a low-carbon Nb-microalloyed steel
DOI:10.1016/j.actamat.2013.08.052 JN:ACTA MATERIALIA PY:2013 TC:1 AU: Kim, J.;Jung, J. -G.;Kim, D. -H.;Lee, Y. -K.;
6:5:46:9 Precipitation behaviors of carbides and Cu during continuous heating for tempering in Cu-bearing medium C martensitic steel
DOI:10.1007/s10853-013-7914-4 JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:0 AU: Jung, Jae-Gil;Jung, Minsu;Kang, Singon;Lee, Young-Kook;
6:5:46:10 Role of Surfaces and Interfaces in Controlling the Mechanical Properties of Metallic Alloys
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6:5:46:11 Characterization of microstructural strengthening in the heat-affected-zone of a blast-resistant naval steel (vol 58, pg 5596, 2010)
DOI:10.1016/j.actamat.2010.12.057 JN:ACTA MATERIALIA PY:2011 TC:2 AU: Yu, Xinghua;Caron, J. L.;Babu, S. S.;Lippold, John. C.;Isheim, Dieter;Seidman, David N.;
6:5:46:12 Strength increase in the coarse-grained heat-affected zone of a high-strength, blast-resistant steel after post-weld heat treatment
DOI:10.1016/j.msea.2013.07.064 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:1 AU: Yue, Xin;Feng, Xiuli;Lippold, John C.;
6:5:46:13 Small-angle neutron scattering study on the cold rolled steel sheets
DOI:10.1007/s00339-010-5685-1 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2010 TC:1 AU: Shin, Eunjoo;Choi, Shi-Hoon;Seong, Baek-Seok;Lee, Hu-Chul;Lee, Kye Hong;
6:5:47:1 Effect of hot rolling temperature on grain size and precipitation hardening in a Ti-microalloyed low-carbon martensitic steel
DOI:10.1016/j.msea.2012.06.015 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:4 AU: Han, Y.;Shi, J.;Xu, L.;Cao, W. Q.;Dong, H.;
6:5:47:2 Effect of vanadium and titanium modification on the microstructure and mechanical properties of a microalloyed HSLA steel
DOI:10.1016/j.msea.2009.10.049 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:39 AU: Show, B. K.;Veerababu, R.;Balamuralikrishnan, R.;Malakondaiah, G.;
6:5:47:3 Fine-scale precipitation and mechanical properties of thin slab processed titanium-niobium bearing high strength steels
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6:5:47:4 TiC precipitation induced effect on microstructure and mechanical properties in low carbon medium manganese steel
DOI:10.1016/j.msea.2011.10.037 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:11 AU: Han, Y.;Shi, J.;Xu, L.;Cao, W. Q.;Dong, H.;
6:5:47:5 Microstructural characterization and mechanical properties of microalloyed powder metallurgy steels
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6:5:47:6 Strengthening mechanisms in a pipeline microalloyed steel with a complex microstructure
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6:5:47:7 Yield strength enhancement of martensitic steel through titanium addition
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6:5:47:8 Effect of Nb, Ti and cold deformation on microstructure and mechanical properties of austenitic stainless steels
DOI:10.1016/j.msea.2010.02.064 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:8 AU: Farahat, Ahmed Ismail Zaky;El-Bitar, T. A.;
6:5:47:9 Effect of nanoprecipitates and grain size on the mechanical properties of advanced structural steels
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6:5:47:10 Microstructure characteristics and fatigue properties of welded HSLA with and without buffer layer
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6:5:47:11 Enhancing mechanical properties of a low-carbon microalloyed cast steel by controlled heat treatment
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6:5:47:12 Effect of niobium and rolling parameters on the mechanical properties and microstructure of dual phase steels
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6:5:47:13 Elemental segregation and subsequent precipitation during solidification of continuous cast Nb-V-Ti high-strength low-alloy steels
DOI:10.1016/j.matchar.2014.06.008 JN:MATERIALS CHARACTERIZATION PY:2014 TC:2 AU: Zheng, Shuguo;Davis, Claire;Strangwood, Martin;
6:5:47:14 Residual stress-induced deformation and fatigue crack growth in weld-repaired high-strength low-alloy steel with soft buffer layer
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6:5:48:1 Influence of directional strength-to-stiffness on the elastic-plastic transition of fcc polycrystals under uniaxial tensile loading
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6:5:48:2 The effect of prior deformation on subsequent microplasticity and damage evolution in an austenitic stainless steel at elevated temperature
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6:5:48:3 Macro and intergranular stress responses of austenitic stainless steel to 90 degrees strain path changes
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6:5:48:4 A framework for generating synthetic diffraction images from deforming polycrystals using crystal-based finite element formulations
DOI:10.1016/j.commatsci.2013.03.019 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:8 AU: Wong, Su Leen;Park, Jun-Sang;Miller, Matthew P.;Dawson, Paul R.;
6:5:48:5 Three-dimensional observation and image-based modelling of thermal strains in polycrystalline alumina
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6:5:48:6 Dislocation-based plasticity model and micro-beam Laue diffraction analysis of polycrystalline Ni foil: A forward prediction
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6:5:48:7 Evolution of the crystal stress distributions in face-centered cubic polycrystals subjected to cyclic loading
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6:5:48:8 Automatic parallel generation of finite element meshes for complex spatial structures
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6:5:48:9 A method for measuring single-crystal elastic moduli using high-energy X-ray diffraction and a crystal-based finite element model
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6:5:48:10 A micromechanical analysis of the coupled thermomechanical superelastic response of textured and untextured polycrystalline NiTi shape memory alloys
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6:5:48:11 Quantitative analysis of crystal scale deformation heterogeneity during cyclic plasticity using high-energy X-ray diffraction and finite-element simulation
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6:5:48:12 Diffraction post-processing of 3D dislocation dynamics simulations for direct comparison with micro-beam Laue experiments
DOI:10.1016/j.matlet.2012.08.052 JN:MATERIALS LETTERS PY:2012 TC:3 AU: Hofmann, Felix;Keegan, Sinead;Korsunsky, Alexander M.;
6:5:48:13 Grain orientation dependence of lattice strains and intergranular damage rates in polycrystals under cyclic loading
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6:5:49:1 Twinning and martensite in a 304 austenitic stainless steel
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6:5:49:2 Twinning and martensitic transformations in nickel-enriched 304 austenitic steel during tensile and indentation deformations
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6:5:49:3 Effect of stress triaxiality and Lode angle on the kinetics of strain-induced austenite-to-martensite transformation
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6:5:49:4 Strain-induced martensite formation in austenitic stainless steel
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6:5:49:5 Relation between microstructures of martensite and prior austenite in 12 wt% Cr ferritic steel
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6:5:49:6 Influence of Texture and Grain Size on Martensitic Transformations Occurring During Low-Cycle Fatigue of a Fine-Grained Austenitic Stainless Steel
DOI:10.1002/adem.201000079 JN:ADVANCED ENGINEERING MATERIALS PY:2010 TC:3 AU: Poulon, Angeline;Brochet, Stephanie;Glez, Jean-Christophe;Mithieux, Jean-Denis;Vogt, Jean-Bernard;
6:5:49:7 An etching characterization method for revealing the plastic deformation zone in a SUS303 stainless steel
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6:5:49:8 Mechanical properties and corrosion resistance of steel X210CrW12 after semi-solid processing and heat treatment
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6:5:49:9 Identical Area Observations of Deformation-Induced Martensitic Transformation in SUS304 Austenitic Stainless Steel
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6:5:49:10 Fatigue mechanisms in an austenitic steel under cyclic loading: Experiments and atomistic simulations
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6:5:49:11 Effect of annealing on microstructure, phase composition and mechanical properties of thixo-cast 100Cr6 steel
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6:5:50:1 Characterization of adiabatic shear bands in the zirconium alloy impacted by split Hopkinson pressure bar at a strain rate of 6000 s(-1)
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6:5:50:2 Effects of different aging statuses and strain rate on the adiabatic shear susceptibility of 2195 aluminum-lithium alloy
DOI:10.1016/j.msea.2012.03.067 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:2 AU: Yang, Y.;Tan, G. Y.;Chen, P. X.;Zhang, Q. M.;
6:5:50:3 Effects of microstructure on the adiabatic shearing behaviors of titanium alloy
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6:5:50:4 Characterization of adiabatic shear bands in AM60B magnesium alloy under ballistic impact
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6:5:50:5 Effects of pre-notches on the self-organization behaviors of shear bands in aluminum alloy
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6:5:50:6 Effect of phase composition on self-organization of shear bands in Ti-1300 titanium alloy
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6:5:50:7 Effect of microstructure on adiabatic shear band bifurcation in Ti-6Al-4V alloys under ballistic impact
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6:5:50:8 Effects of electric pulse heat treatment on microstructures and dynamic deformation behaviors of Ti6441 alloys
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6:5:50:9 Effect of orientation on self-organization of shear bands in 7075 aluminum alloy
DOI:10.1016/j.msea.2010.12.050 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:4 AU: Yang, Y.;Zheng, H. G.;Shi, Z. J.;Zhang, Q. M.;
6:5:50:10 Hot deformation behavior and processing maps of Ti-1300 alloy
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6:5:50:11 Influence of adiabatic shear bands intersection on the ballistic impact of Ti-6A1-4V alloys with three microstructures
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6:5:50:12 Modified preparation technique of TEM sample for various TEM analyses of structural materials
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6:5:51:1 Stress distribution among constituting phases within the austenite microstructure: Mechanics and metallurgical approaches using 2-D model of stainless steel compact tension specimen
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6:5:51:2 Re-visiting the 'rule of mixture' used in materials with multiple constituting phases: A technical note on morphological considerations in austenite case study
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6:5:51:3 The microstructure and mechanical properties of ball-milled stainless steel powder: The effect of hot-pressing vs. laser sintering
DOI:10.1016/j.actamat.2011.08.004 JN:ACTA MATERIALIA PY:2011 TC:4 AU: Nachum, S.;Fleck, N. A.;
6:5:51:4 Three-dimensional modeling to compute plastic zone in front of crack in compact tension sample of multiphase material
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6:5:51:5 Influence of ferrite fraction within martensite matrix on fatigue crack propagation: An experimental verification with dual phase steel
DOI:10.1016/j.msea.2012.05.085 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:6 AU: Idris, Roslinda;Prawoto, Yunan;
6:5:51:6 Extending the rule of mixture to the sub unit-cell level
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6:5:51:7 Computational approach using Johnson-Cook model on dual phase steel
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6:5:51:8 Investigation on cracking mechanism of austenite stainless steel during in situ tension in transmission electron microscope
DOI:10.1016/j.msea.2010.09.093 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:3 AU: Zhang, Peng;Hu, Hongyan;Liu, Yuanyuan;Zhang, Yue;Fang, Yuan;Ren, Xuejun;Liao, Bo;Yang, Qingxiang;
6:5:51:9 Effects of microstructure on fatigue crack growth behavior in cold-rolled dual phase steels
DOI:10.1016/j.msea.2014.06.002 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:5 AU: Li, Shengci;Kang, Yonglin;Kuang, Shuang;
6:5:51:10 Diffusion phenomena in the alpha-Si3N4-solid solution and 304L stainless steel static interaction couple
DOI:10.1016/j.ceramint.2010.11.021 JN:CERAMICS INTERNATIONAL PY:2011 TC:1 AU: Chakraborty, G.;Bandyopadhyay, S.;Haldar, B.;Das, R.;
6:5:51:11 Wire ropes: Computational, mechanical, and metallurgical properties under tension loading
DOI:10.1016/j.commatsci.2011.12.034 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:2 AU: Prawoto, Yunan;Mazlan, Raimee B.;
6:5:52:1 In situ observation of the formation of intragranular acicular ferrite at non-metallic inclusions in C-Mn steel
DOI:10.1016/j.actamat.2009.10.043 JN:ACTA MATERIALIA PY:2010 TC:41 AU: Zhang, Di;Terasaki, Hidenori;Komizo, Yu-ichi;
6:5:52:2 In-Situ observation of primary gamma ' melting in Ni-base superalloy using confocal laser scanning microscopy
DOI:10.1016/j.matchar.2011.05.001 JN:MATERIALS CHARACTERIZATION PY:2011 TC:7 AU: Attallah, M. M.;Terasaki, H.;Moat, R. J.;Bray, S. E.;Komizo, Y.;Preuss, M.;
6:5:52:3 Improvement of impact toughness of AWS E6010 weld metal by adding TiO2 nanoparticles to the electrode coating
DOI:10.1016/j.msea.2011.07.035 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:13 AU: Fattahi, M.;Nabhani, N.;Vaezi, M. R.;Rahimi, E.;
6:5:52:4 The formation mechanisms of interlocked microstructures in low-carbon high-strength steel weld metals
DOI:10.1016/j.matchar.2012.02.007 JN:MATERIALS CHARACTERIZATION PY:2012 TC:12 AU: Wan, X. L.;Wang, H. H.;Cheng, L.;Wu, K. M.;
6:5:52:5 A new approach to quantitative analysis of bainitic transformation in a superbainite steel
DOI:10.1016/j.scriptamat.2013.01.033 JN:SCRIPTA MATERIALIA PY:2013 TC:6 AU: Xu, Guang;Liu, Feng;Wang, Li;Hu, Haijiang;
6:5:52:6 Grain refinement by cold deformation and recrystallization of bainite and acicular ferrite structures of C-Mn steels
DOI:10.1016/j.msea.2010.10.064 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:5 AU: Nedjad, S. Hossein;Moghaddam, Y. Zahedi;Vazirabadi, A. Mamdouh;Shirazi, H.;Ahmadabadi, M. Nili;
6:5:52:7 Thermodynamics of precipitation and textural development in batch-annealed interstitial-free high-strength steels
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6:5:52:8 Variation of carbon concentration in proeutectoid ferrite during austenitization in hypoeutectoid steel
DOI:10.1016/j.matchar.2014.05.009 JN:MATERIALS CHARACTERIZATION PY:2014 TC:0 AU: Jung, Minsu;Cho, Wontae;Park, Jihye;Jung, Jae-Gil;Lee, Young-Kook;
6:5:52:9 Residual stress, micro-hardness and tensile properties of ANSI 304 stainless steel thick sheet by fiber laser welding
DOI:10.1016/j.msea.2012.11.001 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:6 AU: Zhang, L.;Lu, J. Z.;Luo, K. Y.;Feng, A. X.;Dai, F. Z.;Zhong, J. S.;Luo, M.;Zhang, Y. K.;
6:5:52:10 Mechanical Properties and Phases Derived from TiO2 Nanopowder Inoculation in Low Carbon Steel Matrix
DOI:10.2320/matertrans.M2013073 JN:MATERIALS TRANSACTIONS PY:2013 TC:0 AU: Amondarain, Z.;Arribas, M.;Arana, J. L.;Lopez, G. A.;
6:5:52:11 Microstructural evaluation of austenite reversion during intercritical annealing of Fe-Ni-Mn martensitic steel
DOI:10.1016/j.jallcom.2012.02.015 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:1 AU: Shirazi, H.;Miyamoto, G.;Nedjad, S. Hossein;Ghasemi-Nanesa, H.;Ahmadabadi, M. Nil;Furuhara, T.;
6:5:52:12 In-situ observations of solutal melting using laser scanning confocal microscopy: The Cu/Ni model system
DOI:10.1016/j.matchar.2014.99.004 JN:MATERIALS CHARACTERIZATION PY:2014 TC:1 AU: Deillon, L.;Zollinger, J.;Daloz, D.;Zaloznik, M.;Combeau, H.;
6:5:52:13 Effect of cooling rate on phase transformation in the low-carbon boron-treated steel
DOI:10.1007/s10853-012-6444-9 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:0 AU: Zhang, Di;Shintaku, Yoshiaki;Suzuki, Shuichi;Komizo, Yu-ichi;
6:5:52:14 Effects of thermo-mechanical treatment and microalloying with Cr, Nb and Ti on phase transformation in C-Mn steel strips produced by compact strip production process
DOI:10.1016/j.msea.2011.08.030 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:2 AU: Zhu, Y. Z.;Liang, D. M.;Li, J. C.;Xu, J. P.;Xue, Z. L.;
6:5:53:1 Thermal fatigue testing of Inconel 617 and Stellite 6 alloys as potential tooling materials for thixoforming of steels
DOI:10.1016/j.msea.2009.11.021 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:39 AU: Birol, Yucel;
6:5:53:2 Thermal fatigue testing of Stellite 6-coated hot work tool steel
DOI:10.1016/j.msea.2010.06.015 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:28 AU: Birol, Yucel;
6:5:53:3 A novel C-free Co-based alloy for high temperature tooling applications
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6:5:53:4 High temperature sliding wear behaviour of Inconel 617 and Stellite 6 alloys
DOI:10.1016/j.wear.2010.07.005 JN:WEAR PY:2010 TC:14 AU: Birol, Yucel;
6:5:53:5 Nitriding of Co-Cr-Mo alloy in nitrogen
DOI:10.1016/j.matchemphys.2014.02.023 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:1 AU: Tang, Ning;Li, Yunping;Koizumi, Yuichiro;Chiba, Akihiko;
6:5:53:6 Response to thermal cycling of duplex-coated hot work tool steels at elevated temperatures
DOI:10.1016/j.msea.2011.08.038 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:1 AU: Birol, Yucel;
6:5:53:7 Abrasive wear performance of AlCrN-coated hot work tool steel at elevated temperatures under three-body regime
DOI:10.1016/j.wear.2010.10.069 JN:WEAR PY:2011 TC:8 AU: Birol, Yucel;Isler, Duygu;
6:5:53:8 Thermal cycling of AlTiN- and AlTiON-coated hot work tool steels at elevated temperatures
DOI:10.1016/j.msea.2011.02.076 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:8 AU: Birol, Yucel;Isler, Duygu;
6:5:53:9 Thermal Fatigue Behavior of Nitrocarburized and Low Pressure Nitrided Modified JIS SKD61 Hot Work Mold Steel
DOI:10.2320/matertrans.M2013035 JN:MATERIALS TRANSACTIONS PY:2013 TC:1 AU: Yeh, Shu-Hung;Chiu, Liu-Ho;Lo, Wan-Chung;Huang, Chien-Lung;
6:5:53:10 The Effect of Arc Current on the Microstructure and Wear Characteristics of Stellite12 Coatings Deposited by PTA on Duplex Stainless Steel
DOI:10.2320/matertrans.M2013103 JN:MATERIALS TRANSACTIONS PY:2013 TC:0 AU: Deng, Dewei;Lu, Jun;Li, Xiaona;
6:5:54:1 Effects of vacancy-solute clusters on diffusivity in metastable Fe-C alloys
DOI:10.1103/PhysRevB.82.134112 JN:PHYSICAL REVIEW B PY:2010 TC:17 AU: Kabir, Mukul;Lau, Timothy T.;Lin, Xi;Yip, Sidney;Van Vliet, Krystyn J.;
6:5:54:2 Stability of vacancy-hydrogen clusters in nickel from first-principles calculations
DOI:10.1016/j.actamat.2014.06.021 JN:ACTA MATERIALIA PY:2014 TC:2 AU: Tanguy, Doeme;Wang, Yu;Connetable, Damien;
6:5:54:3 Vacancy-carbon complexes in bcc iron: Correlation between carbon content, vacancy concentration and diffusion coefficient
DOI:10.1016/j.scriptamat.2013.08.001 JN:SCRIPTA MATERIALIA PY:2013 TC:3 AU: Kresse, T.;Borchers, C.;Kirchheim, R.;
6:5:54:4 Influence of supersaturated carbon on the diffusion of Ni in ferrite determined by atom probe tomography
DOI:10.1016/j.scriptamat.2013.05.039 JN:SCRIPTA MATERIALIA PY:2013 TC:4 AU: Kresse, T.;Li, Y. J.;Boll, T.;Borchers, C.;Choi, P.;Al-Kassab, T.;Raabe, D.;Kirchheim, R.;
6:5:54:5 On the formation of vacancies in alpha-ferrite of a heavily cold-drawn pearlitic steel wire
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6:5:54:6 Effect of annealing on point defect population in cold-drawn pearlitic steel wires
DOI:10.1016/j.scriptamat.2014.04.016 JN:SCRIPTA MATERIALIA PY:2014 TC:1 AU: Borchers, C.;Lehmberg, A.;Deutges, M.;Cizek, J.;Kirchheim, R.;
6:5:54:7 Carbon diffusion in carbon-supersaturated ferrite and austenite
DOI:10.1016/j.jallcom.2013.10.058 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:3 AU: Cermak, J.;Kral, L.;
6:5:54:8 Real-time structural analysis of quenching and partitioning (Q&P) in an experimental martensitic steel
DOI:10.1016/j.jallcom.2013.01.205 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:3 AU: Bigg, Timothy D.;Edmonds, David V.;Eardley, Edwin S.;
6:5:55:1 Orientation informed nanoindentation of alpha-titanium: Indentation pileup in hexagonal metals deforming by prismatic slip
DOI:10.1557/jmr.2011.334 JN:JOURNAL OF MATERIALS RESEARCH PY:2012 TC:17 AU: Zambaldi, Claudio;Yang, Yiyi;Bieler, Thomas R.;Raabe, Dierk;
6:5:55:2 Orientation-dependent indentation response of magnesium single crystals: Modeling and experiments
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6:5:55:3 Characterization of deformation anisotropies in an alpha-Ti alloy by nanoindentation and electron microscopy
DOI:10.1016/j.actamat.2013.05.005 JN:ACTA MATERIALIA PY:2013 TC:9 AU: Kwon, J.;Brandes, M. C.;Phani, P. Sudharshan;Pilchak, A. P.;Gao, Y. F.;George, E. P.;Pharr, G. M.;Mills, M. J.;
6:5:55:4 Determination of hardness and elastic modulus inverse pole figures of a polycrystalline commercially pure titanium by coupling nanoindentation and EBSD techniques
DOI:10.1016/j.msea.2014.06.098 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Fizanne-Michel, C.;Cornen, M.;Castany, P.;Peron, I.;Gloriant, T.;
6:5:55:5 In-service materials support for safety critical applications - A case study of a high strength Ti-alloy using advanced experimental and modelling techniques
DOI:10.1016/j.msea.2014.01.031 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:4 AU: Rugg, D.;Britton, T. B.;Gong, J.;Wilkinson, A. J.;Bagot, P. A. J.;
6:5:55:6 The effect of oxygen and stress state on the yield behavior of commercially pure titanium
DOI:10.1016/j.msea.2012.04.058 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:11 AU: Brandes, M. C.;Baughman, M.;Mills, M. J.;Williams, J. C.;
6:5:56:1 Cavitation erosion of several oxy-fuel sprayed coatings tested in deionized water and artificial seawater
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6:5:56:2 Cavitation erosion of martensitic and austenitic stainless steel welded coatings
DOI:10.1016/j.wear.2010.12.081 JN:WEAR PY:2011 TC:14 AU: Santa, J. F.;Blanco, J. A.;Giraldo, J. E.;Toro, A.;
6:5:56:3 Influence of cold-work on the cavitation erosion resistance and on the damage mechanisms in high-nitrogen austenitic stainless steels
DOI:10.1016/j.wear.2011.01.063 JN:WEAR PY:2011 TC:8 AU: Mesa, D. H.;Garzon, C. M.;Tschiptschin, A. P.;
6:5:56:4 Cavitation erosion resistance of low temperature plasma nitrided martensitic stainless steel
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6:5:56:5 Cavitation erosion resistance of high interstitial CrMnCN austenitic stainless steels
DOI:10.1016/j.wear.2012.12.050 JN:WEAR PY:2013 TC:4 AU: Niederhofer, P.;Huth, S.;
6:5:56:6 The electroplated Pd-Co alloy film on 316L stainless steel and the corrosion resistance in boiling acetic acid and formic acid mixture with stirring
DOI:10.1016/j.apsusc.2014.10.013 JN:APPLIED SURFACE SCIENCE PY:2014 TC:4 AU: Li, Sirui;Zuo, Yu;Tang, Yuming;Zhao, Xuhui;
6:5:56:7 An experimental parameter of cavitation erosion resistance for TiN coatings
DOI:10.1016/j.wear.2010.10.065 JN:WEAR PY:2011 TC:11 AU: Krella, Alicia;
6:5:56:8 Effects of strain induced martensitic transformation on the cavitation erosion resistance and incubation time of Fe-Cr-Ni-C alloys
DOI:10.1016/j.wear.2011.08.011 JN:WEAR PY:2012 TC:11 AU: Park, Myung Chul;Kim, Ki Nam;Shin, Gyeong Su;Kim, Seon Jin;
6:5:56:9 Surface modification by gas nitriding for improving cavitation erosion resistance of CP-Ti
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6:5:56:10 Electrochemical responses to degradation of the surface layer nano-mechanical properties of stainless steels under cavitation
DOI:10.1016/j.matchemphys.2013.01.038 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2013 TC:1 AU: Yong, Xingyue;Li, Dongliang;Shen, Hanjie;
6:5:56:11 Cavitation erosion of TiN and CrN coatings deposited on different substrates
DOI:10.1016/j.wear.2012.11.049 JN:WEAR PY:2013 TC:2 AU: Krella, Alicja;
6:5:56:12 Chemical characterization of a high nitrogen stainless steel by optimized electron probe microanalysis
DOI:10.1016/j.scriptamat.2010.06.021 JN:SCRIPTA MATERIALIA PY:2010 TC:5 AU: Toro, A.;Tschiptschin, A. P.;
6:5:56:13 Damage mechanism of cavitation erosion in austenite -> martensite phase transformable Fe-Cr-C-Mn/Ni alloys
DOI:10.1016/j.wear.2013.12.015 JN:WEAR PY:2014 TC:4 AU: Park, Myung Chul;Shin, Gyeong Su;Yun, Jae Yong;Heo, Ji Haeng;Kim, Dae Il;Kim, Seon Jin;
6:5:57:1:1 Effect of crystallographic texture on the anisotropy of Charpy impact behavior in pipeline steel
DOI:10.1016/j.msea.2012.11.055 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:6 AU: Zong, C.;Zhu, G.;Mao, W.;
6:5:57:1:2 Role of delamination and crystallography on anisotropy of Charpy toughness in API-X80 steel
DOI:10.1016/j.msea.2012.03.079 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:21 AU: Joo, M. S.;Suh, D. -W.;Bae, J. H.;Bhadeshia, H. K. D. H.;
6:5:57:1:3 Microstructure, texture, property relationship in thermo-mechanically processed ultra-low carbon microalloyed steel for pipeline application
DOI:10.1016/j.msea.2013.08.054 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:5 AU: Shukla, R.;Ghosh, S. K.;Chakrabarti, D.;Chatterjee, S.;
6:5:57:1:4 Influences of crystallography and delamination on anisotropy of Charpy impact toughness in API X100 pipeline steel
DOI:10.1016/j.msea.2014.03.121 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Yang, Xiao-Long;Xu, Yun-Bo;Tan, Xiao-Dong;Wu, Di;
6:5:57:1:5 Experiments to separate the effect of texture on anisotropy of pipeline steel
DOI:10.1016/j.msea.2012.07.033 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:13 AU: Joo, M. S.;Suh, D. -W.;Bae, J. H.;Mourino, N. Sanchez;Petrov, R.;Kestens, L. A. I.;Bhadeshia, H. K. D. H.;
6:5:57:1:6 Texture and mechanical properties of API X100 steel manufactured under various thermomechanical cycles
DOI:10.1016/j.msea.2011.09.072 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:17 AU: Nafisi, S.;Arafin, M. A.;Collins, L.;Szpunar, J.;
6:5:57:2:1 Understanding mechanical property anisotropy in high strength niobium-microalloyed linepipe steels
DOI:10.1016/j.msea.2012.06.078 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:7 AU: Venkatsurya, P. K. C.;Jia, Z.;Misra, R. D. K.;Mulholland, M. D.;Manohar, M.;Hartmann, J. E., Jr.;
6:5:57:2:2 Toward interplay between substructure evolution, dislocation configuration, and yield strength in a microalloyed steel
DOI:10.1016/j.msea.2013.12.032 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Venkatsurya, P. K. C.;Misra, R. D. K.;Mulholland, M. D.;Manohar, M.;Hartmann, J. E.;
6:5:57:2:3 Effect of microstructure on the mechanical properties and texture in high strength 560 MPa linepipe steels
DOI:10.1016/j.msea.2013.03.040 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:2 AU: Venkatsurya, P. K. C.;Misra, R. D. K.;Mulholland, M. D.;Manohar, M.;Hartmann, J. E., Jr.;
6:5:57:3:1 Comparative study of fracture appearance in crack tip opening angle testing of gas pipeline steels
DOI:10.1016/j.msea.2012.08.078 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:1 AU: Hashemi, S. H.;
6:5:57:3:2 Effects of finish rolling temperature on inverse fracture occurring during drop weight tear test of API X80 pipeline steels
DOI:10.1016/j.msea.2012.02.019 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:6 AU: Sung, Hyo Kyung;Sohn, Seok Su;Shin, Sang Yong;Lee, Sunghak;Kim, Nack J.;Chon, Seung Hwan;Yoo, Jang Yong;
6:5:57:3:3 Interpretation and significance of reverse chevron-shaped markings on fracture surfaces of API X100 pipeline steels
DOI:10.1016/j.msea.2012.04.108 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:3 AU: Sowards, Jeffrey W.;McCowan, Chris N.;Drexler, Elizabeth S.;
6:5:58:1 Mechanisms of anisotropy of mechanical properties of alpha-titanium in tension conditions
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6:5:58:2 On the critical strain for the onset of plastic instability in an austenitic FeMnC steel
DOI:10.1016/j.msea.2012.01.094 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:10 AU: Roth, A.;Lebedkina, T. A.;Lebyodkin, M. A.;
6:5:58:3 Strain-rate fluctuations during macroscopically uniform deformation of a solution-strengthened alloy
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6:5:58:4 Surface strain evolution of ultrafme-grained aluminum alloy laminates under tension - Microscale plastic instabilities and the Portevin-Le Chatelier effect
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6:5:58:5 Advanced imaging for early prediction and characterization of zone of Luders band nucleation associated with pre-yield microstrain
DOI:10.1016/j.msea.2012.10.082 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:1 AU: Nagarajan, Srinivasan;Raghu, N.;Venkatraman, B.;
6:5:58:6 Study on local zones constituting to band growth associated with inhomogeneous plastic deformation
DOI:10.1016/j.matlet.2013.04.014 JN:MATERIALS LETTERS PY:2013 TC:0 AU: Nagarajan, Srinivasan;Narayanaswamy, Raghu;Balasubramaniam, Venkatraman;
6:5:58:7 Work-hardening stages and deformation mechanism maps during tensile deformation of commercially pure titanium
DOI:10.1016/j.commatsci.2013.03.028 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:3 AU: Becker, Hanka;Pantleon, Wolfgang;
6:5:58:8 Investigation of PLC band nucleation in AA5754
DOI:10.1016/j.msea.2012.01.082 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:7 AU: Feng, X.;Fischer, G.;Zielke, R.;Svendsen, B.;Tillmann, W.;
6:5:59:1 Sliding wear resistance and worn surface microstructure of nanostructured bainitic steel
DOI:10.1016/j.wear.2012.02.008 JN:WEAR PY:2012 TC:10 AU: Yang, J.;Wang, T. S.;Zhang, B.;Zhang, F. C.;
6:5:59:2 Wear of nano-structured carbide-free bainitic steels under dry rolling-sliding conditions
DOI:10.1016/j.wear.2012.11.064 JN:WEAR PY:2013 TC:18 AU: Leiro, A.;Vuorinen, E.;Sundin, K. G.;Prakash, B.;Sourmail, T.;Smanio, V.;Caballero, F. G.;Garcia-Mateo, C.;Elvira, Roberto;
6:5:59:3 Three-body abrasive wear of fine pearlite, nanostructured bainite and martensite
DOI:10.1016/j.wear.2013.09.008 JN:WEAR PY:2013 TC:6 AU: Das Bakshi, S.;Shipway, P. H.;Bhadeshia, H. K. D. H.;
6:5:59:4 Dry rolling/sliding wear of nanostructured bainite
DOI:10.1016/j.wear.2014.04.020 JN:WEAR PY:2014 TC:3 AU: Das Bakshi, S.;Leiro, A.;Prakash, B.;Bhadeshia, H. K. D. H.;
6:5:59:5 Degradation of nanostructured bainitic steel under rolling contact fatigue
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6:5:59:6 Wear property of low-temperature bainite in the surface layer of a carburized low carbon steel
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6:5:59:7 Tribological behaviour of carbide-free bainitic steel under dry rolling/sliding conditions
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6:5:60:1 Stability and properties of alloyed epsilon-(Fe1-xMx)(3)N nitrides (M = Cr, Ni, Mo, V, Co, Nb, Mn, Ti and Cu): A first-principles calculations
DOI:10.1016/j.jallcom.2014.07.069 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:1 AU: Zhang, C. S.;Yan, M. F.;You, Y.;Che, H. T.;Zhang, F. Y.;Bai, B.;Chen, L.;Long, Z.;Li, R. W.;
6:5:60:2 First-principles study on the elastic and electronic properties of hexagonal epsilon-Fe3N
DOI:10.1016/j.commatsci.2012.09.012 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:7 AU: Shi, Yao-Jun;Du, Yu-Lei;Chen, Guang;
6:5:60:3 Stability of Ir-Fe alloys and nitrides Ir-Fe-N through first principles models
DOI:10.1016/j.commatsci.2011.12.027 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:4 AU: dos Santos, Antonio Vanderlei;
6:5:60:4 gamma '-ZnFe3N thin films: A proposal for a moderately ductile, corrosion-protective coating on steel
DOI:10.1016/j.scriptamat.2011.05.012 JN:SCRIPTA MATERIALIA PY:2011 TC:6 AU: Takahashi, Tetsuya;Music, Denis;Schneider, Jochen M.;
6:5:60:5 Effect of N distribution on elastic and electronic properties of hexagonal epsilon-Fe6Nx by first-principles calculations
DOI:10.1016/j.jmmm.2013.11.002 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2014 TC:4 AU: Chen, H. T.;Yan, M. F.;You, Y.;
6:5:60:6 Ternary Metastable Nitrides epsilon-Fe2TMN (TM = Co, Ni): High-Pressure, High-Temperature Synthesis, Crystal Structure, Thermal Stability, and Magnetic Properties
DOI:10.1021/cm3031297 JN:CHEMISTRY OF MATERIALS PY:2012 TC:5 AU: Guo, Kai;Rau, Dieter;Toffoletti, Lorenzo;Mueller, Carola;Burkhardt, Ulrich;Schnelle, Walter;Niewa, Rainer;Schwarz, Ulrich;
6:5:60:7 Synthesis, magnetic and Mossbauer study of epsilon-FexN (2 < x < 3) nanowires
DOI:10.1016/j.matlet.2011.06.071 JN:MATERIALS LETTERS PY:2011 TC:5 AU: Kurian, Sajith;Gajbhiye, N. S.;
6:5:60:8 Influence of the chemical surface structure on the nanoscale friction in plasma nitrided and post-oxidized ferrous alloy
DOI:10.1063/1.4894803 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Freislebem, Marcia;Menezes, Caren M.;Cemin, Felipe;Costi, Fernanda B.;Ferreira, Patricia A.;Aguzzoli, Cesar;Baumvol, Israel J. R.;Alvarez, Fernando;Figueroa, Carlos A.;
6:5:60:9 Magnetic and Mossbauer study of epsilon-Fe (y) N (2 < y < 3) nanoparticles
DOI:10.1007/s11051-009-9793-9 JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2010 TC:4 AU: Kurian, Sajith;Gajbhiye, N. S.;
6:5:61:1 Strain hardening and heterogeneous deformation during twinning in Hadfield steel
DOI:10.1016/j.actamat.2009.10.054 JN:ACTA MATERIALIA PY:2010 TC:26 AU: Efstathiou, C.;Sehitoglu, H.;
6:5:61:2 Grain size effect on high-speed deformation of Hadfield steel
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6:5:61:3 alpha '-Martensite formation in deep-drawn Mn-based TWIP steel
DOI:10.1007/s10853-012-6345-y JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:7 AU: van Tol, R. T.;Kim, J. K.;Zhao, L.;Sietsma, J.;De Cooman, B. C.;
6:5:61:4 Deformed Microstructure and Hardness of Hadfield High Manganese Steel
DOI:10.2320/matertrans.M2011121 JN:MATERIALS TRANSACTIONS PY:2011 TC:2 AU: Qian, Lihe;Feng, Xiaoyong;Zhang, Fucheng;
6:5:61:5 Kinetics of austenite decomposition in manganese-based steel
DOI:10.1016/j.actamat.2013.10.037 JN:ACTA MATERIALIA PY:2014 TC:1 AU: van Tol, R. T.;Zhao, L.;Sietsma, J.;
6:5:61:6 Magnetic detection of small fractions of ferromagnetic martensite within the paramagnetic austenite matrix of TWIP steel
DOI:10.1007/s10853-012-6902-4 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:2 AU: Zhao, Lie;van Dijk, Niels H.;Lefering, Anton J. E.;Sietsma, Jilt;
6:5:61:7 Simultaneously improving the strength and ductility of coarse-grained Hadfield steel with increasing strain rate
DOI:10.1016/j.scriptamat.2011.12.005 JN:SCRIPTA MATERIALIA PY:2012 TC:5 AU: Liu, F. C.;Yang, Z. N.;Zheng, C. L.;Zhang, F. C.;
6:5:61:8 The crystallographic mechanism for deformation induced martensitic transformation observed by high resolution transmission electron microscope
DOI:10.1016/j.matlet.2012.09.086 JN:MATERIALS LETTERS PY:2013 TC:4 AU: Zhang Weina;Liu Zhenyu;Zhang Zhibo;Wang Guodong;
6:5:62:1 An assessment of the contributing factors to the superior properties of a nanostructured steel using in situ high-energy X-ray diffraction
DOI:10.1016/j.actamat.2009.12.028 JN:ACTA MATERIALIA PY:2010 TC:13 AU: Cheng, S.;Wang, Y. D.;Choo, H.;Wang, X. -L.;Almer, J. D.;Liaw, P. K.;Lee, Y. K.;
6:5:62:2 A synchrotron X-ray diffraction study on the phase transformation kinetics and texture evolution of a TRIP steel subjected to torsional loading
DOI:10.1016/j.actamat.2012.08.040 JN:ACTA MATERIALIA PY:2012 TC:7 AU: Cakmak, Ercan;Choo, Hahn;An, Ke;Ren, Yang;
6:5:62:3 Radial distribution of martensitic phase transformation in a metastable stainless steel under torsional deformation: A synchrotron X-ray diffraction study
DOI:10.1016/j.matlet.2011.06.065 JN:MATERIALS LETTERS PY:2011 TC:6 AU: Cakmak, Ercan;Choo, Hahn;An, Ke;Ren, Yang;
6:5:62:4 Effect of martensitic phase transformation on the hardening behavior and texture evolution in a 304L stainless steel under compression at liquid nitrogen temperature
DOI:10.1016/j.msea.2013.09.093 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:5 AU: Cakmak, Ercan;Vogel, Sven C.;Choo, Hahn;
6:5:62:5 3D Mapping of Crystallographic Phase Distribution using Energy-Selective Neutron Tomography
DOI:10.1002/adma.201400192 JN:ADVANCED MATERIALS PY:2014 TC:5 AU: Woracek, Robin;Penumadu, Dayakar;Kardjilov, Nikolay;Hilger, Andre;Boin, Mirko;Banhart, John;Manke, Ingo;
6:5:62:6 Method to determine hkl strains and shear moduli under torsion using neutron diffraction
DOI:10.1063/1.4712043 JN:APPLIED PHYSICS LETTERS PY:2012 TC:3 AU: Woracek, R.;Bunn, J. R.;Penumadu, D.;Hubbard, C. R.;
6:5:62:7 Neutron Bragg-edge-imaging for strain mapping under in situ tensile loading
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6:5:62:8 Energetic materials for nanocrystalline stainless steel production
DOI:10.1016/j.jallcom.2011.11.139 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:2 AU: Farinha, Ana Rita;Tavares, Bruno;Mendes, Ricardo;Vieira, Maria Teresa;
6:5:62:9 Residual strain evolution in steel samples: tension versus torsion
DOI:10.1007/s00339-010-5616-1 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2010 TC:2 AU: Bunn, J. R.;Penumadu, D.;Hubbard, C. R.;
6:5:62:10 Explosive consolidation of 316L stainless steel powder - Effect of phase composition
DOI:10.1016/j.apt.2014.08.012 JN:ADVANCED POWDER TECHNOLOGY PY:2014 TC:0 AU: Farinha, A. R.;Vieira, M. T.;Mendes, R.;
6:5:63:1 Strain mapping near a triple junction in strained Ni-based alloy using EBSD and biaxial nanogauges
DOI:10.1016/j.actamat.2011.01.051 JN:ACTA MATERIALIA PY:2011 TC:20 AU: Clair, A.;Foucault, M.;Calonne, O.;Lacroute, Y.;Markey, L.;Salazar, M.;Vignal, V.;Finot, E.;
6:5:63:2 Cryomilling effect on the mechanical alloying behaviour of ferritic oxide dispersion strengthened powder with Y2O3
DOI:10.1016/j.jallcom.2013.04.165 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:4 AU: Kim, Jeoung Han;Lee, Jae Hoon;Min, Jeon Yeong;Kim, Seong Woong;Park, Chan Hee;Yeom, Jong Taek;Byun, Thak Sang;
6:5:63:3 Early-stage detection of surface stress corrosion cracking at the subgranular level
DOI:10.1016/j.scriptamat.2014.03.010 JN:SCRIPTA MATERIALIA PY:2014 TC:0 AU: Clair, Aurelie;Foucault, Marc;Calonne, Olivier;Finot, Eric;
6:5:63:4 The effect of the crystallographic texture on intergranular stress corrosion crack paths
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6:5:63:5 Analysis of the strengthening mechanisms in pipeline steels as a function of the hot rolling parameters
DOI:10.1016/j.msea.2014.02.066 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:4 AU: Olalla, V. Carretero;Bliznuk, V.;Sanchez, N.;Thibaux, R.;Kestens, L. A. I.;Petrov, R. H.;
6:5:63:6 Characterisation of oxygen and hydrogen migration through oxide scales formed on nickel-base alloys in PWR primary medium conditions
DOI:10.1016/j.ssi.2012.10.012 JN:SOLID STATE IONICS PY:2013 TC:5 AU: Jambon, Fanny;Marchetti, Loic;Jomard, Francois;Chene, Jacques;
6:5:63:7 Optical modeling of nickel-base alloys oxidized in pressurized water reactor
DOI:10.1016/j.tsf.2012.07.133 JN:THIN SOLID FILMS PY:2012 TC:1 AU: Clair, A.;Foucault, M.;Calonne, O.;Finot, E.;
6:5:63:8 Texture Dependent Mechanical Anisotropy of X80 Pipeline Steel
DOI:10.1002/adem.201000065 JN:ADVANCED ENGINEERING MATERIALS PY:2010 TC:6 AU: Mourino, N. Sanchez;Petrov, R.;Bae, J. -ho;Kim, K.;Kestens, Leo A. I.;
6:5:63:9 X-ray microtomography observation of subsurface stress corrosion crack interactions in a pipeline low carbon steel
DOI:10.1016/j.scriptamat.2014.01.038 JN:SCRIPTA MATERIALIA PY:2014 TC:2 AU: Gamboa, Erwin;Giuliani, Michael;Lavigne, Olivier;
6:5:63:10 Plastic and elastic strains in short and long cracks in Alloy 600 studied by polychromatic X-ray microdiffraction and electron backscatter diffraction
DOI:10.1016/j.actamat.2012.06.060 JN:ACTA MATERIALIA PY:2012 TC:4 AU: Chao, Jing;Fuller, Marina L. Suominen;Sherry, Nathaniel;Qin, Jinhui;McIntyre, N. Stewart;Ulaganathan, Jaganathan;Carcea, Anatolie G.;Newman, Roger C.;Kunz, Martin;Tamura, Nobumichi;
6:5:63:11 Effect of Shear Strain on the Microstructural Evolution of a Low Carbon Steel during Warm Deformation
DOI:10.2320/matertrans.MB200916 JN:MATERIALS TRANSACTIONS PY:2010 TC:2 AU: Kang, Joo-Hee;Inoue, Tadanobu;Torizuka, Shiro;
6:5:64:1 Influence of thermomechanical processing and heat treatments on tensile and Charpy impact properties of B and Cu bearing high-strength low-alloy steels
DOI:10.1016/j.msea.2010.03.106 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:24 AU: Hwang, Byoungchul;Lee, Chang Gil;
6:5:64:2 Grain boundary characterization and energetics of superalloys
DOI:10.1016/j.msea.2010.07.062 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:17 AU: Sangid, Michael D.;Sehitoglu, Huseyin;Maier, Hans J.;Niendorf, Thomas;
6:5:64:3 The role of deformation temperature and strain on grain boundary engineering of Inconel 600
DOI:10.1016/j.msea.2014.02.078 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Li, B.;Tin, Sammy;
6:5:64:4 Mechanical properties and strain-hardening behavior of Mg alloy AZ31B-H24 thin sheet
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6:5:64:5 Determination of the maximum strain-hardening exponent
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6:5:64:6 Effect of simulated welding thermal cycle on microstructure and mechanical properties of X90 pipeline steel
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6:5:64:7 Microstructural characteristics and impact fracture behavior of a high-strength low-alloy steel treated by intercritical heat treatment
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6:5:64:8 Effect of carbon content on the recrystallization of a single crystal nickel-based superalloy
DOI:10.1016/j.matlet.2013.07.073 JN:MATERIALS LETTERS PY:2013 TC:9 AU: Wang, L.;Xie, G.;Lou, L. H.;
6:5:64:9 Localized recrystallization during creep in nickel-based superalloys GTD444 and Rene N5
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6:5:64:10 Effect of direct quenching on the microstructure and mechanical properties of the lean-chemistry HSLA-100 steel plates
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6:5:65:1 Mechanical properties and nanostructures in a duplex stainless steel subjected to equal channel angular pressing
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6:5:65:2 Microstructure evolution and martensitic transformation behaviors of 9Cr-1.8W-0.3Mo ferritic heat-resistant steel during quenching and partitioning treatment
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6:5:65:3 Effects of Different Substrates on Microstructures and Mechanical Properties of a Bimodal Bulk Nano/Micro Grained 1020 Carbon Steels Prepared by Aluminothermic Reaction Casting
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6:5:65:4 The improvement of ductility in nano/ultrafine grained low carbon steels via high temperature short time annealing
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6:5:65:5 Microstructure and mechanical properties of duplex stainless steel subjected to hydrostatic extrusion
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6:5:65:6 Effect of intercritical temperature on quenching and partitioning steels originated from martensitic pre-microstructure
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6:5:65:7 Effects of carbon content on the formation of nano/ultrafine grained low-carbon steel treated by martensite process
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6:5:66:1 A new effect of retained austenite on ductility enhancement in high-strength quenching-partitioning-tempering martensitic steel
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6:5:66:2 Niobium-containing quenching and partitioning processed ultrahigh strength martensite-austenite dual phase steels
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6:5:66:3 The effect of chemical composition on grain structure and texture evolution of hot rough rolled carbon steels
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6:5:66:4 A new effect of retained austenite on ductility enhancement in high strength bainitic steel
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6:5:66:5 A novel bainitic steel comparable to maraging steel in mechanical properties
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6:5:66:6 Extremely fine pearlite by continuous cooling transformation
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6:5:66:7 Influence of metastable retained austenite on macro and micromechanical properties of steel processed by the Q&P process
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6:5:66:8 Ultrahigh strength-ductility steel treated by a novel quenching-partitioning-tempering process
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6:5:67:1 Selective appearance of epsilon-martensitic transformation and dynamic strain aging in Fe-Mn-C austenitic steels
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6:5:67:2 Si content dependence on shape memory and tensile properties in Fe-Mn-Si-C alloys
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6:5:67:3 Influence of Dislocation Separation on Dynamic Strain Aging in a Fe-Mn-C Austenitic Steel
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6:5:67:4 Effect of deformation temperature on tensile properties in a pre-cooled Fe-Mn-C austenitic steel
DOI:10.1016/j.msea.2012.06.095 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:3 AU: Koyama, Motomichi;Sawaguchi, Takahiro;Tsuzaki, Kaneaki;
6:5:67:5 Microstructure characteristic and its effect on mechanical and shape memory properties in a Fe-17Mn-8Si-0.3C alloy
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6:5:67:6 Shape memory effect in Fe-Mn-Ni-Si-C alloys with low Mn contents
DOI:10.1016/j.msea.2011.03.059 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:5 AU: Min, X. H.;Sawaguchi, T.;Ogawa, K.;Maruyama, T.;Yin, F. X.;Tsuzaki, K.;
6:5:67:7 Continuous Transition of Deformation Modes in Fe-30Mn-5Si-1Al Alloy
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6:5:67:8 An attempt to lower Mn content of Fe-17Mn-6Si-0.3C shape memory alloy
DOI:10.1016/j.jallcom.2012.02.140 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:1 AU: Min, X. H.;Sawaguchi, T.;Ogawa, K.;Maruyama, T.;Yin, F. X.;Tsuzaki, K.;
6:5:68:1 Load partitioning between single bulk grains in a two-phase duplex stainless steel during tensile loading
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6:5:68:2 Temperature-dependent mechanical properties of an austenitic-ferritic stainless steel studied by in situ tensile loading in a scanning electron microscope (SEM)
DOI:10.1016/j.msea.2013.04.060 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:5 AU: Guo, En-Yu;Wang, Ming-Yue;Jing, Tao;Chawla, Nikhilesh;
6:5:68:3 Micromechanics of high-temperature damage in dual-phase stainless steel
DOI:10.1016/j.actamat.2009.09.041 JN:ACTA MATERIALIA PY:2010 TC:14 AU: Chehab, B.;Brechet, Y.;Veron, M.;Jacques, P. J.;Parry, G.;Mithieux, J. -D.;Glez, J. -C.;Pardoen, T.;
6:5:68:4 Grain-resolved elastic strains in deformed copper measured by three-dimensional X-ray diffraction
DOI:10.1016/j.matchar.2011.04.020 JN:MATERIALS CHARACTERIZATION PY:2011 TC:23 AU: Oddershede, Jette;Schmidt, Soren;Poulsen, Henning Friis;Margulies, Lawrence;Wright, Jonathan;Moscicki, Marcin;Reimers, Walter;Winther, Grethe;
6:5:68:5 Crystal stress distribution evolution of elastoplastically deforming polycrystals over crystal orientation space
DOI:10.1016/j.commatsci.2013.03.031 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:1 AU: Han, Tong-Seok;Chung, Sang-Yeop;Lee, Byeongchan;
6:5:68:6 Investigation of crystal stress dependence on lattice orientation, loading direction, and grain interactions in a plastically deforming crystal embedded within a polycrystal aggregate
DOI:10.1016/j.msea.2012.05.038 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:1 AU: Han, Tong-Seok;Chung, Sang-Yeop;Cho, Jae-Hyung;
6:5:68:7 The three dimensional X-ray diffraction technique
DOI:10.1016/j.matchar.2012.07.012 JN:MATERIALS CHARACTERIZATION PY:2012 TC:7 AU: Jensen, D. Juul;Poulsen, H. F.;
6:5:68:8 Comparison of strain/stress behaviour of a duplex stainless steel between mesoscopic and macroscopic scales by neutron measurements extended to necking range
DOI:10.1016/j.tsf.2012.07.065 JN:THIN SOLID FILMS PY:2013 TC:0 AU: Francois, M.;Panicaud, B.;Le Joncour, L.;Baczmanski, A.;Paradowska, A.;Wronski, S.;Gadalinska, E.;
6:5:68:9 Performance of volume average scale linking in a strongly-coupled two-scale finite element methodology for polycrystalline solids
DOI:10.1016/j.commatsci.2011.01.037 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:2 AU: Han, Tong-Seok;
6:5:68:10 Dependence of crystal stress evolution on the vertices of the single crystal yield surface and the effect from the intergranular misorientation during plastic deformation
DOI:10.1016/j.commatsci.2012.05.064 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:2 AU: Han, Tong-Seok;Chung, Sang-Yeop;
6:5:69:1 Martensite start temperature and the austenite grain-size
DOI:10.1007/s10853-009-4044-0 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:16 AU: Guimaraes, J. R. C.;Rios, P. R.;
6:5:69:2 Effect of austenite microstructure and cooling rate on transformation characteristics in a low carbon Nb-V microalloyed steel
DOI:10.1016/j.msea.2010.11.078 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:36 AU: Olasolo, M.;Uranga, P.;Rodriguez-Ibabe, J. M.;Lopez, B.;
6:5:69:3 Martensite transformation kinetics in 9Cr-1.7W-0.4Mo-Co ferritic steel
DOI:10.1016/j.jallcom.2014.05.060 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:1 AU: Gao, Qiuzhi;Wang, Cong;Qu, Fu;Wang, Yingling;Qiao, Zhixia;
6:5:69:4 Martensite transformation in the modified high Cr ferritic heat-resistant steel during continuous cooling
DOI:10.1557/jmr.2012.308 JN:JOURNAL OF MATERIALS RESEARCH PY:2012 TC:5 AU: Gao, Qiuzhi;Liu, Yongchang;Di, Xinjie;Yu, Liming;Yan, Zesheng;
6:5:69:5 Dependency of martensite start temperature on prior austenite grain size and its influence on welding-induced residual stresses
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6:5:69:6 Martensite transformation in bulk and polycrystalline austenite
DOI:10.1007/s10853-014-8093-7 JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:0 AU: Guimaraes, J. R. C.;Rios, P. R.;
6:5:69:7 The isochronal delta -> gamma transformation of high Cr ferritic heat-resistant steel during cooling
DOI:10.1007/s10853-011-5656-8 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:3 AU: Gao, Qiuzhi;Liu, Yongchang;Di, Xinjie;Dong, Zhizhong;Yan, Zesheng;
6:5:69:8 Micromechanism of cleavage fracture at the lower shelf transition temperatures of a C-Mn steel
DOI:10.1016/j.msea.2010.04.063 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:3 AU: Chen, J. H.;Li, G.;Cao, R.;Fang, X. Y.;
6:5:69:9 Effect of cooling rate after controlled forging on properties of low carbon multi-microalloyed steels
DOI:10.1016/j.msea.2011.11.101 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:3 AU: El-Bitar, T.;Fouad, N.;Zaky, A. I.;El-Rady, S. A.;
6:5:70:1 Effect of crystallographic texture on the cleavage fracture mechanism and effective grain size of ferritic steel
DOI:10.1016/j.scriptamat.2014.02.007 JN:SCRIPTA MATERIALIA PY:2014 TC:3 AU: Ghosh, A.;Kundu, S.;Chakrabarti, D.;
6:5:70:2 Tensile properties of an acicular ferrite and martensite/austenite constituent steel with varying cooling rates
DOI:10.1016/j.msea.2013.10.037 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Fan, Lei;Zhou, Dehui;Wang, Tongliang;Li, Shurui;Wang, Qingfeng;
6:5:70:3 Cleavage initiation in steel: Competition between large grains and large particles
DOI:10.1016/j.msea.2012.11.019 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:10 AU: Ghosh, A.;Ray, A.;Chakrabarti, D.;Davis, C. L.;
6:5:70:4 Generalization of the existing relations between microstructure and yield stress from ferrite-pearlite to high strength steels
DOI:10.1016/j.msea.2012.10.012 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:12 AU: Iza-Mendia, A.;Gutierrez, I.;
6:5:70:5 Effect of microstructure on the impact toughness of Nb-microalloyed steel: Generalisation of existing relations from ferrite-pearlite to high strength microstructures
DOI:10.1016/j.msea.2013.02.006 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: Gutierrez, I.;
6:5:70:6 Effect of microstructural parameters, microtexture and matrix strain on the Charpy impact properties of low carbon HSLA steel containing MnS inclusions
DOI:10.1016/j.msea.2014.06.091 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Ghosh, A.;Sahoo, S.;Ghosh, M.;Ghosh, R. N.;Chakrabarti, D.;
6:5:70:7 Strength and toughness tradeoffs for an ultrafine-grain size ferrite/cementite steel produced by warm-rolling and annealing
DOI:10.1016/j.msea.2011.07.067 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:5 AU: Zhao, Ming-Chun;Huang, Xiao-Fang;Li, Jing-Li;Zeng, Tian-Yi;Zhao, Ying-Chao;Atrens, Andrej;
6:5:70:8 The ductile to brittle transition for C-Mn steel with an ultrafine grain ferrite/cementite microstructure
DOI:10.1016/j.msea.2011.06.005 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:3 AU: Zhao, Ming-Chun;Li, Jing-Li;Zeng, Tian-Yi;Huang Xiaofang;Zhao, Ying-Chao;Atrens, Andrej;
6:5:70:9 Identification of the effective grain size responsible for the ductile to brittle transition temperature for steel with an ultrafine grain size ferrite/cementite microstructure with a bimodal ferrite grain size distribution
DOI:10.1016/j.msea.2011.02.027 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:4 AU: Zhao, Ming-Chun;Zeng, Tian-Yi;Li, Jing-Li;Huang Xiaofang;Zhao, Ying-Chao;Atrens, Andrej;
6:5:71:1 In situ synchrotron X-ray diffraction and dilatometric study of austenite formation in a multi-component steel: Influence of initial microstructure and heating rate
DOI:10.1016/j.actamat.2014.07.042 JN:ACTA MATERIALIA PY:2014 TC:0 AU: Esin, V. A.;Denand, B.;Le Bihan, Qu.;Dehmas, M.;Teixeira, J.;Geandier, G.;Denis, S.;Sourmail, T.;Aeby-Gautier, E.;
6:5:71:2 Dilatometric analysis of cementite dissolution in hypereutectoid steels containing Cr
DOI:10.1016/j.scriptamat.2011.04.018 JN:SCRIPTA MATERIALIA PY:2011 TC:12 AU: Chae, Jae-Yong;Jang, Jae-Hoon;Zhang, Guohong;Kim, Kwan-Ho;Lee, Jae Seung;Bhadeshia, H. K. D. H.;Suh, Dong-Woo;
6:5:71:3 Effects of Mn, Si and Cr addition on reverse transformation at 1073 K from spheroidized cementite structure in Fe-0.6 mass% C alloy
DOI:10.1016/j.actamat.2010.04.045 JN:ACTA MATERIALIA PY:2010 TC:19 AU: Miyamoto, G.;Usuki, H.;Li, Z. -D.;Furuhara, T.;
6:5:71:4 Effects of Mn, Si and Cr addition on the dissolution and coarsening of pearlitic cementite during intercritical austenitization in Fe-1mass%C alloy
DOI:10.1016/j.matchar.2013.04.007 JN:MATERIALS CHARACTERIZATION PY:2013 TC:3 AU: Zhang, Guo-Hong;Chae, Jae-Yong;Kim, Kwan-Ho;Suh, Dong Woo;
6:5:71:5 Growth of austenite from as-quenched martensite during intercritical annealing in an Fe-0.1C-3Mn-1.5Si alloy
DOI:10.1016/j.actamat.2012.10.019 JN:ACTA MATERIALIA PY:2013 TC:8 AU: Wei, R.;Enomoto, M.;Radian, R.;Zurob, H. S.;Purdy, G. R.;
6:5:71:6 Difference in transformation behavior between ferrite and austenite formations in medium manganese steel
DOI:10.1016/j.actamat.2013.10.067 JN:ACTA MATERIALIA PY:2014 TC:3 AU: Nakada, N.;Mizutani, K.;Tsuchiyama, T.;Takaki, S.;
6:5:71:7 Effects of alloying elements on the kinetics of austenitization from pearlite in Fe-C-M alloys
DOI:10.1080/14786435.2012.744484 JN:PHILOSOPHICAL MAGAZINE PY:2013 TC:2 AU: Xia, Yuan;Enomoto, Masato;Yang, Zhigang;Li, Zhaodong;Zhang, Chi;
6:5:71:8 Experimental measurement of Young's modulus from a single crystalline cementite
DOI:10.1016/j.scriptamat.2014.03.013 JN:SCRIPTA MATERIALIA PY:2014 TC:2 AU: Koo, Bon-Woong;Chang, Young Jin;Hong, Seung Pyo;Kang, Chan Soon;Jeong, Shin Woong;Nam, Won-Jong;Park, Il-Jeong;Lee, Young-Kook;Oh, Kyu Hwan;Kim, Young-Woon;
6:5:72:1 Fatigue behavior of ultrafine-grained and coarse-grained Cr-Ni austenitic stainless steels
DOI:10.1016/j.msea.2011.01.106 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:10 AU: Hamada, A. S.;Karjalainen, L. P.;Surya, P. K. C. Venkata;Misra, R. D. K.;
6:5:72:2 Synthesis of hcp-Co and mixture of hcp/fcc-Co crystals: Insight into their Congo red removal ability
DOI:10.1557/jmr.2014.73 JN:JOURNAL OF MATERIALS RESEARCH PY:2014 TC:0 AU: Wang, Lixia;Zhao, Lijun;Wang, Min;
6:5:72:3 Comparison of corrosion properties of passive films formed on phase reversion induced nano/ultrafine-grained 321 stainless steel
DOI:10.1016/j.apsusc.2013.04.108 JN:APPLIED SURFACE SCIENCE PY:2013 TC:1 AU: Lv Jinlong;Luo Hongyun;
6:5:72:4 Calculation of the surface energy of fcc-metals with the empirical electron surface model
DOI:10.1016/j.apsusc.2010.04.108 JN:APPLIED SURFACE SCIENCE PY:2010 TC:12 AU: Fu, Baoqin;Liu, Wei;Li, Zhilin;
6:5:72:5 Chemical banding revealed by chemical etching in a cold-rolled metastable stainless steel
DOI:10.1016/j.matchar.2013.07.018 JN:MATERIALS CHARACTERIZATION PY:2013 TC:3 AU: Celada, C.;Toda-Caraballo, I.;Kim, B.;San Martin, D.;
6:5:72:6 Iushi zhongguo effect of nano/ultrafine grain on passive film properties of metastable austenitic stainless steels with and without loading
DOI:10.1016/j.matchemphys.2013.02.015 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2013 TC:0 AU: Lv Jinlong;Luo Hongyun;
6:5:72:7 Formation of ultrafine grained microstructure in the austenitic stainless steel and its impact on tensile properties
DOI:10.1016/j.msea.2010.11.034 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:11 AU: Kumar, B. Ravi;Sharma, Sailaja;Mahato, B.;
6:5:73:1:1 Effects of Thermally Induced Cyclic gamma <-> epsilon Transformation on Shape Memory Effect of a Quenched FeMnSiCrNi Alloy
DOI:10.1002/adem.201200358 JN:ADVANCED ENGINEERING MATERIALS PY:2013 TC:2 AU: Yang, Qin;Yu, Qinxu;Peng, Huabei;Wen, Yuhua;
6:5:73:1:2 A Novel Training-Free Cast Fe-Mn-Si-Cr-Ni Shape Memory Alloy Based on Formation of Martensite in a Domain-Specific Manner
DOI:10.1002/adem.201000200 JN:ADVANCED ENGINEERING MATERIALS PY:2011 TC:8 AU: Wen, Yuhua;Peng, Huabei;Wang, Chaoping;Yu, Qinxu;Li, Ning;
6:5:73:1:3 Thermo-Mechanical Properties of an Fe-Mn-Si-Cr-Ni-VC Shape Memory Alloy with Low Transformation Temperature
DOI:10.1002/adem.201100129 JN:ADVANCED ENGINEERING MATERIALS PY:2012 TC:6 AU: Leinenbach, Christian;Kramer, Hendrik;Bernhard, Christian;Eifler, Dietmar;
6:5:73:1:4 Temperature dependence of critical stress and pseudoelasticity in a Fe-Mn-Si-Cr pre-rolled alloy
DOI:10.1016/j.jallcom.2010.04.123 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:9 AU: Baruj, A.;Bertolino, G.;Troiani, H. E.;
6:5:73:1:5 Phase transformation behavior under uniaxial deformation of an Fe-Mn-Si-Cr-Ni-VC shape memory alloy
DOI:10.1016/j.msea.2013.06.002 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:9 AU: Lee, W. J.;Weber, B.;Feltrin, G.;Czaderski, C.;Motavalli, M.;Leinenbach, C.;
6:5:73:1:6 Factors affecting recovery stress in Fe-Mn-Si-Cr-Ni-C shape memory alloys
DOI:10.1016/j.msea.2010.10.068 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:4 AU: Wang, C. P.;Wen, Y. H.;Peng, H. B.;Xu, D. Q.;Li, N.;
6:5:73:1:7 Pseudoelasticity of thermo-mechanically treated Fe-Mn-Si-Cr-Ta alloys
DOI:10.1016/j.jallcom.2012.02.029 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:2 AU: Lin, Hsin-Chih;Wu, Shyi-Kaan;Peng, Yu-Ting;Cheng, Ta-Chien;Lin, Kun-Ming;
6:5:73:2:1 Texture evolution and fcc/hcp transformation in Fe-Mn-Si-Cr alloys by tensile deformation
DOI:10.1016/j.msea.2010.06.041 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:5 AU: Kwon, Eui Pyo;Fujieda, Shun;Shinoda, Kozo;Suzuki, Shigeru;
6:5:73:2:2 Reasons for incomplete shape recovery in polycrystalline Fe-Mn-Si shape memory alloys
DOI:10.1016/j.scriptamat.2012.03.015 JN:SCRIPTA MATERIALIA PY:2012 TC:12 AU: Min, Xiaohua;Sawaguchi, Takahiro;Zhang, Xin;Tsuzaki, Kaneaki;
6:5:73:2:3 Microscopic residual stress evolution during deformation process of an Fe-Mn-Si-Cr shape memory alloy investigated using white X-ray microbeam diffraction
DOI:10.1016/j.msea.2013.01.064 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: Kwon, E. P.;Sato, S.;Fujieda, S.;Shinoda, K.;Kajiwara, K.;Sato, M.;Suzuki, S.;
6:5:73:3:1 Thermodynamic calculation of stacking fault energy of the Fe-Mn-Si-C high manganese steels
DOI:10.1016/j.msea.2014.01.046 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Xiong, Renlong;Peng, Huabei;Si, Haitao;Zhang, Wanhu;Wen, Yuhua;
6:5:73:3:2 A novel training-free cast Fe-18Mn-5.5Si-9.5Cr-4Ni shape memory alloy with lathy delta ferrite
DOI:10.1016/j.scriptamat.2009.10.004 JN:SCRIPTA MATERIALIA PY:2010 TC:11 AU: Wen, Y. H.;Peng, H. B.;Sun, P. P.;Liu, G.;Li, N.;
6:5:74:1 A dislocation density-based crystal plasticity constitutive model for prismatic slip in alpha-titanium
DOI:10.1016/j.actamat.2011.07.053 JN:ACTA MATERIALIA PY:2011 TC:13 AU: Alankar, Alankar;Eisenlohr, Philip;Raabe, Dierk;
6:5:74:2 EBSD characterization of twinning in cold-rolled CP-Ti
DOI:10.1016/j.matchar.2013.07.008 JN:MATERIALS CHARACTERIZATION PY:2013 TC:4 AU: Li, X.;Duan, Y. L.;Xu, G. F.;Peng, X. Y.;Dai, C.;Zhang, L. G.;Li, Z.;
6:5:74:3 A semi-phenomenological constitutive model for hcp materials as exemplified by alpha titanium
DOI:10.1016/j.scriptamat.2012.03.037 JN:SCRIPTA MATERIALIA PY:2012 TC:9 AU: Ahn, Dong-Hyun;Kim, Hyoung Seop;Estrin, Yuri;
6:5:74:4 A study of the hot and cold deformation of twin-roll cast magnesium alloy AZ31
DOI:10.1080/14786435.2013.853884 JN:PHILOSOPHICAL MAGAZINE PY:2014 TC:5 AU: Askari, Hesam;Young, John;Field, David;Kridli, Ghassan;Li, Dongsheng;Zbib, Hussein;
6:5:74:5 Consolidation of Amorphous Al80Fe10Ti5Ni5 Powders by Hot Pressing
DOI:10.1155/2012/814915 JN:JOURNAL OF NANOMATERIALS PY:2012 TC:0 AU: Tavoosi, M.;Karimzadeh, F.;Enayati, M. H.;Kim, H. S.;
6:5:74:6 EBSD study on crystallographic texture and microstructure development of cold-rolled FePd alloy
DOI:10.1016/j.matchar.2014.04.006 JN:MATERIALS CHARACTERIZATION PY:2014 TC:3 AU: Lin, Hung-Pin;Ng, Tin-San;Kuo, Jui-Chao;Chen, Yen-Chun;Chen, Chun-Liang;Ding, Shi-Xuan;
6:5:74:7 Explicit incorporation of cross-slip in a dislocation density-based crystal plasticity model
DOI:10.1080/14786435.2012.685964 JN:PHILOSOPHICAL MAGAZINE PY:2012 TC:7 AU: Alankar, Alankar;Field, David P.;Zbib, Hussein M.;
6:5:74:8 A semi-phenomenological constitutive model for hcp materials as exemplified by alpha titanium (vol 67, pg 121, 2012)
DOI:10.1016/j.scriptamat.2012.08.002 JN:SCRIPTA MATERIALIA PY:2012 TC:0 AU: Ahn, Dong-Hyun;Kim, Hyoung Seop;Estrin, Yuri;
6:5:74:9 Effect of cold deformation on the recrystallization behavior of FePd alloy at the ordering temperature using electron backscatter diffraction
DOI:10.1016/j.matchar.2014.05.018 JN:MATERIALS CHARACTERIZATION PY:2014 TC:2 AU: Lin, Hung-Pin;Chen, Yen-Chun;Chen, Delphic;Kuo, Jui-Chao;
6:5:75:1:1 Material and velocity effects on cavitation erosion pitting
DOI:10.1016/j.wear.2011.09.006 JN:WEAR PY:2012 TC:15 AU: Franc, Jean-Pierre;Riondet, Michel;Karimi, Ayat;Chahine, Georges L.;
6:5:75:1:2 Scaling study of cavitation pitting from cavitating jets and ultrasonic horns
DOI:10.1016/j.wear.2012.07.025 JN:WEAR PY:2012 TC:7 AU: Jayaprakash, Arvind;Choi, Jin-Keun;Chahine, Georges L.;Martin, Farrel;Donnelly, Martin;Franc, Jean-Pierre;Karimi, Ayat;
6:5:75:1:3 Scaling of cavitation erosion progression with cavitation intensity and cavitation source
DOI:10.1016/j.wear.2012.01.008 JN:WEAR PY:2012 TC:7 AU: Choi, Jin-Keun;Jayaprakash, Arvind;Chahine, Georges L.;
6:5:75:1:4 Relationship between space and time characteristics of cavitation impact pressures and resulting pits in materials
DOI:10.1007/s10853-013-8002-5 JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:0 AU: Choi, Jin-Keun;Jayaprakash, Arvind;Kapahi, Anil;Hsiao, Chao-Tsung;Chahine, Georges L.;
6:5:75:2:1 Influence of grain orientation on the local deformation mode induced by cavitation erosion in a CuSnNi alloy
DOI:10.1016/j.wear.2014.04.010 JN:WEAR PY:2014 TC:1 AU: Stella, Jorge;Pohl, Michael;Bock, Claudia;Kunze, Ulrich;
6:5:75:2:2 Evaluation of the hydrodynamic pressure of cavitation impacts from stress-strain analysis and geometry of individual pits
DOI:10.1016/j.wear.2012.04.009 JN:WEAR PY:2012 TC:5 AU: Carnelli, Davide;Karimi, Ayat;Franc, Jean-Pierre;
6:5:75:2:3 Application of spherical nanoindentation to determine the pressure of cavitation impacts from pitting tests
DOI:10.1557/jmr.2011.259 JN:JOURNAL OF MATERIALS RESEARCH PY:2012 TC:5 AU: Carnelli, Davide;Karimi, Ayat;Franc, Jean-Pierre;
6:5:75:2:4 Study of cavitation erosion and adhesive wear in CuSnNi alloys produced by different casting processes
DOI:10.1016/j.wear.2013.04.015 JN:WEAR PY:2013 TC:2 AU: Stella, Jorge;Gerke, Lorenz;Pohl, Michael;
6:5:75:3:1 Prediction method for cavitation erosion based on measurement of bubble collapse impact loads
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6:5:75:3:2 Laser comminution of submerged samples
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6:5:75:3:3 Mass loss simulation in cavitation erosion: Fatigue criterion approach
DOI:10.1016/j.wear.2013.01.118 JN:WEAR PY:2013 TC:0 AU: Patella, Regiane Fortes;Choffat, Thierry;Reboud, Jean-Luc;Archer, Antoine;
6:5:76:1 A unified physically based crystal plasticity model for FCC metals over a wide range of temperatures and strain rates
DOI:10.1016/j.msea.2012.12.001 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:6 AU: Zhang, Haiming;Dong, Xianghuai;Du, Dapeng;Wang, Qian;
6:5:76:2 A new microstructural model based on dislocation generation and consumption mechanisms through severe plastic deformation
DOI:10.1016/j.commatsci.2010.11.012 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:5 AU: Hosseini, E.;Kazeminezhad, M.;
6:5:76:3 Modeling of grain boundary transmission, emission, absorption and overall crystalline behavior in Sigma 1, Sigma 3, and Sigma 17b bicrystals
DOI:10.1557/jmr.2011.192 JN:JOURNAL OF MATERIALS RESEARCH PY:2011 TC:3 AU: Shi, Jibin;Zikry, Mohammed A.;
6:5:76:4 Crystal plasticity-based forming limit prediction for FCC materials under non-proportional strain-path
DOI:10.1016/j.msea.2010.06.063 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:6 AU: Yang, Mei;Dong, Xianghuai;Zhou, Rui;Cao, Jian;
6:5:76:5 Microstructure evolution of 2195 Al-Li alloy subjected to high-strain-rate deformation
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6:5:76:6 An effective semi-implicit integration scheme for rate dependent crystal plasticity using explicit finite element codes
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6:5:76:7 Numerical procedures for predicting localization in sheet metals using crystal plasticity
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6:5:77:1 The modeling scheme to evaluate the influence of microstructure features on microcrack formation of DP-steel: The artificial microstructure model and its application to predict the strain hardening behavior
DOI:10.1016/j.commatsci.2014.04.011 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:1 AU: Vajragupta, N.;Wechsuwanmanee, P.;Lian, J.;Sharaf, M.;Muenstermann, S.;Ma, A.;Hartmaier, A.;Bleck, W.;
6:5:77:2 Modeling the microstructure influence on fatigue life variability in structural steels
DOI:10.1016/j.commatsci.2014.05.059 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:0 AU: Sharaf, M.;Kucharczyk, P.;Vajragupta, N.;Muenstermann, S.;Hartmaier, A.;Bleck, W.;
6:5:77:3 Cyclic slip irreversibility and fatigue life: A microstructure-based analysis
DOI:10.1016/j.actamat.2012.10.029 JN:ACTA MATERIALIA PY:2013 TC:8 AU: Mughrabi, Hael;
6:5:77:4 Modeling and characterization of two-phase composites by Voronoi diagram in the Laguerre geometry based on random close packing of spheres
DOI:10.1016/j.commatsci.2009.11.028 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2010 TC:13 AU: Wu, Yugong;Zhou, Weibin;Wang, Bu;Yang, Fan;
6:5:77:5 Effect of hot-rolling processing on texture and r-value of annealed dual-phase steels
DOI:10.1016/j.msea.2009.11.016 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:13 AU: Han, Seong-Ho;Choi, Shi-Hoon;Choi, Jae-Kwon;Seong, Hwan-Goo;Kim, In-Bae;
6:5:77:6 Effect of Al and Mo on the textures and microstructures of dual phase steels
DOI:10.1016/j.msea.2011.09.071 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:6 AU: Kang, Jun-Yun;Lee, Hu-Chul;Han, Seong Ho;
6:5:77:7 Modelling the micromorphology of heat treated Ti6Al4V forgings by means of spatial tessellations feasible for FEM analyses of microscale residual stresses
DOI:10.1016/j.commatsci.2011.03.035 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:3 AU: Regener, B.;Krempaszky, C.;Werner, E.;Stockinger, M.;
6:5:77:8 Three-dimensional modelling of rail steel microstructure and crack growth
DOI:10.1016/j.wear.2010.10.044 JN:WEAR PY:2011 TC:5 AU: Franklin, F. J.;Gahlot, A.;Fletcher, D. I.;Garnham, J. E.;Davis, C.;
6:5:77:9 Determination of plastic material properties by analysis of residual imprint geometry of indentation
DOI:10.1557/jmr.2012.212 JN:JOURNAL OF MATERIALS RESEARCH PY:2012 TC:3 AU: Schmaling, Benjamin;Hartmaier, Alexander;
6:5:78:1 Scaling laws for dislocation microstructures in monotonic and cyclic deformation of fcc metals
DOI:10.1016/j.pmatsci.2011.01.006 JN:PROGRESS IN MATERIALS SCIENCE PY:2011 TC:25 AU: Sauzay, M.;Kubin, L. P.;
6:5:78:2 Universal strain-temperature dependence of dislocation structures at the nanoscale
DOI:10.1016/j.scriptamat.2011.10.012 JN:SCRIPTA MATERIALIA PY:2012 TC:2 AU: Landau, P.;Mordehai, D.;Venkert, A.;Makov, G.;
6:5:78:3 Universal strain-temperature dependence of dislocation structure evolution in face-centered-cubic metals
DOI:10.1016/j.actamat.2011.04.064 JN:ACTA MATERIALIA PY:2011 TC:6 AU: Landau, P.;Makov, G.;Shneck, R. Z.;Venkert, A.;
6:5:78:4 On the dynamically stored energy of cold work in pure single crystal and polycrystalline copper
DOI:10.1016/j.actamat.2012.03.029 JN:ACTA MATERIALIA PY:2012 TC:7 AU: Rittel, D.;Kidane, A. A.;Alkhader, M.;Venkert, A.;Landau, P.;Ravichandran, G.;
6:5:78:5 Microstructural self-organization triggered by twin boundaries during dry sliding wear
DOI:10.1016/j.actamat.2012.08.037 JN:ACTA MATERIALIA PY:2012 TC:2 AU: Cai, W.;Bellon, P.;
6:5:78:6 A statistical analysis of strain hardening: The percolation limit and the Taylor equation
DOI:10.1016/j.actamat.2012.08.008 JN:ACTA MATERIALIA PY:2012 TC:1 AU: Schouwenaars, R.;
6:5:78:7 Stage I surface crack formation in thermal fatigue: A predictive multi-scale approach
DOI:10.1016/j.msea.2010.09.019 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:6 AU: Osterstock, S.;Robertson, C.;Sauzay, M.;Aubin, V.;Degallaix, S.;
6:5:78:8 Temporal statistics and coarse graining of dislocation ensembles
DOI:10.1080/14786435.2010.497472 JN:PHILOSOPHICAL MAGAZINE PY:2010 TC:3 AU: Deng, Jie;El-Azab, Anter;
6:5:79:1 Plastic deformation and creep damage evaluations of type 316 austenitic stainless steels by EBSD
DOI:10.1016/j.matchar.2010.05.006 JN:MATERIALS CHARACTERIZATION PY:2010 TC:20 AU: Yoda, Rika;Yokomaku, Toshinori;Tsuji, Nobuhiro;
6:5:79:2 Deformation and strain hardening of different steels in impact dominated systems
DOI:10.1016/j.matchar.2014.01.020 JN:MATERIALS CHARACTERIZATION PY:2014 TC:2 AU: Rojacz, H.;Mozdzen, G.;Winkelmann, H.;
6:5:79:3 Analysis of shot-peening and residual stress relaxation in the nickel-based superalloy RR1000
DOI:10.1016/j.actamat.2013.01.031 JN:ACTA MATERIALIA PY:2013 TC:8 AU: Foss, B. J.;Gray, S.;Hardy, M. C.;Stekovic, S.;McPhail, D. S.;Shollock, B. A.;
6:5:79:4 Crystallographic orientation dependence of epsilon martensite transformation during tensile deformation of polycrystalline 30% Mn austenitic steel
DOI:10.1016/j.msea.2013.03.071 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: Ueji, Rintaro;Takagi, Yoshinori;Tsuchida, Noriyuki;Shinagawa, Kazunari;Tanaka, Yasuhiro;Mizuguchi, Takashi;
6:5:79:5 Assessment of surface hardening effects from shot peening on a Ni-based alloy using electron backscatter diffraction techniques
DOI:10.1016/j.actamat.2011.04.025 JN:ACTA MATERIALIA PY:2011 TC:19 AU: Child, D. J.;West, G. D.;Thomson, R. C.;
6:5:79:6 The effect of the cementite phase on the surface hardening of carbon steels by shot peening
DOI:10.1016/j.msea.2010.05.083 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:12 AU: Lee, W. B.;Cho, K. T.;Kim, K. H.;Moon, K. I.;Lee, Y.;
6:5:80:1 Effect of boron on the microstructure and mechanical properties of carbidic austempered ductile iron
DOI:10.1016/j.msea.2011.09.034 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:9 AU: Peng, Yun-Cheng;Jin, Hui-Jin;Liu, Jin-Hai;Li, Guo-Lu;
6:5:80:2 Effect of B and B plus Nb on the bainitic transformation in low carbon steels
DOI:10.1016/j.msea.2011.02.022 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:14 AU: Zhu, Kangying;Oberbillig, Carla;Musik, Celine;Loison, Didier;Iung, Thierry;
6:5:80:3 Variations of microstructure and properties of 690 MPa grade low carbon bainitic steel after tempering
DOI:10.1016/j.msea.2012.07.113 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:4 AU: Feng, Rui;Li, Shengli;Li, Zhenshun;Tian, Lei;
6:5:80:4 Effect of phosphorous and boron addition on microstructural evolution and Charpy impact properties of high-phosphorous-containing plain carbon steels
DOI:10.1016/j.msea.2012.11.102 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: Hong, Seokmin;Shin, Sang Yong;Lee, Junghoon;Lee, Chang-Hoon;Lee, Sunghak;
6:5:80:5 Effects of cooling rate, austenitizing temperature and austenite deformation on the transformation behavior of high-strength boron steel
DOI:10.1016/j.msea.2012.03.047 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:6 AU: Mun, Dong Jun;Shin, Eun Joo;Choi, Young Won;Lee, Jae Sang;Koo, Yang Mo;
6:5:80:6 Austenitizing temperature and hardenability of low-carbon boron steels
DOI:10.1016/j.scriptamat.2011.03.003 JN:SCRIPTA MATERIALIA PY:2011 TC:10 AU: Hwang, Byoungchul;Suh, Dong-Woo;Kim, Sung-Joon;
6:5:80:7 Effects of boron addition on tensile and Charpy impact properties in high-phosphorous steels
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6:5:80:8 Effects of composition and microstructure on behaviors of electrical resistivity during continuous heating above room temperature in Mg-based alloys
DOI:10.1016/j.jallcom.2009.11.136 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:4 AU: Yakubtsov, I. A.;
6:5:80:9 Effect of titanium on the ductilization of Fe-B alloys with high boron content
DOI:10.1016/j.matlet.2010.03.013 JN:MATERIALS LETTERS PY:2010 TC:10 AU: Liu, Ying;Li, Binghong;Li, Jun;He, Lin;Gao, Shengji;Nieh, T. G.;
6:5:81:1 Low-temperature bainite in low-carbon steel
DOI:10.1016/j.msea.2013.11.089 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:5 AU: Long, X. Y.;Zhang, F. C.;Kang, J.;Lv, B.;Shi, X. B.;
6:5:81:2 Effects of composition and microstructure on the abrasive wear performance of quenched wear resistant steels
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6:5:81:3 Effects of carbon equivalent and cooling rate on tensile and Charpy impact properties of high-strength bainitic steels
DOI:10.1016/j.msea.2011.10.015 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:8 AU: Sung, Hyo Kyung;Shin, Sang Yong;Hwang, Byoungchul;Lee, Chang Gil;Kim, Nack J.;Lee, Sunghak;
6:5:81:4 The influence of aluminium on the ferrite formation and microstructural development in hot rolled dual-phase steel
DOI:10.1016/j.matchar.2011.11.016 JN:MATERIALS CHARACTERIZATION PY:2012 TC:11 AU: Mein, A.;Fourlaris, G.;Crowther, D.;Evans, P. J.;
6:5:81:5 Surface deformation of steels in impact-abrasion: The effect of sample angle and test duration
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6:5:81:6 Characterization and quantification methods of complex BCC matrix microstructures in advanced high strength steels
DOI:10.1007/s10853-012-6756-9 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:4 AU: Zhu, Kangying;Barbier, David;Iung, Thierry;
6:5:81:7 Combinatorial optimization of carbide-free bainitic nanostructures
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6:5:81:8 Low temperature bainite in steel with 0.26 wt% C
DOI:10.1016/j.msea.2010.08.037 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:7 AU: Soliman, Mohamed;Mostafa, Hanaa;El-Sabbagh, Ahmed S.;Palkowski, Heinz;
6:5:81:9 Fabrication of the ultrafine-grained ferrite with good resistance to grain growth and evaluation of its tensile properties
DOI:10.1016/j.msea.2013.09.026 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Hamzeh, M.;Kermanpur, A.;Najafizadeh, A.;
6:5:81:10 Critical isothermal temperature and optimum mechanical behaviour of high Si-containing bainitic steels
DOI:10.1016/j.msea.2012.08.083 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:3 AU: Misra, A.;Sharma, S.;Sangal, S.;Upadhyaya, A.;Mondal, K.;
6:5:81:11 Effects of auto-tempering behaviour of martensite on mechanical properties of ultra high strength steel sheets
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6:5:82:1 Improved toughness and ductility in ferrite/acicular ferrite dual-phase steel through intercritical heat treatment
DOI:10.1016/j.msea.2013.10.006 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Shi, Lei;Yan, Zesheng;Liu, Yongchang;Zhang, Cheng;Qiao, Zhixia;Ning, Baoqun;Li, Huijun;
6:5:82:2 Effect of tempering on microstructure and mechanical properties of a non-quenched bainitic steel
DOI:10.1016/j.msea.2010.02.010 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:10 AU: Luo, Yi;Peng, Jin-min;Wang, Hong-bin;Wu, Xiao-chun;
6:5:82:3 Microstructures and Mechanical Properties of Austempering Cr-Mo (SCM 435) Alloy Steel
DOI:10.2320/matertrans.M2012317 JN:MATERIALS TRANSACTIONS PY:2013 TC:0 AU: Chen, Cheng-Yi;Hung, Fei-Yi;Lui, Truan-Sheng;Chen, Li-Hui;
6:5:82:4 Material development for grade X80 heavy-wall hot induction bends
DOI:10.1016/j.msea.2011.10.017 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:5 AU: Wang, Xu;Xiao, Fu-ren;Fu, Yan-hong;Chen, Xiao-wei;Liao, Bo;
6:5:82:5 Effect of dissolution and precipitation of Nb on the formation of acicular ferrite/bainite ferrite in low-carbon HSLA steels
DOI:10.1016/j.matchar.2013.08.005 JN:MATERIALS CHARACTERIZATION PY:2013 TC:3 AU: Chen, Yan;Zhang, Dantian;Liu, Yongchang;Li, Huijun;Xu, Dakun;
6:5:82:6 Effect of volume fraction of bainite on microstructure and mechanical properties of X80 pipeline steel with excellent deformability
DOI:10.1016/j.msea.2011.10.035 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:8 AU: Zhang, Xiaoyong;Gao, Huilin;Zhang, Xueqin;Yang, Yan;
6:5:82:7 Toughness variations in nanostructured bainitic steels
DOI:10.1016/j.msea.2012.03.098 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:13 AU: Avishan, Behzad;Yazdani, Sasan;Nedjad, Syamak Hossein;
6:5:82:8 Prediction of Tempered Martensite Hardness Incorporating the Composition-Dependent Tempering Parameter in Low Alloy Steels
DOI:10.2320/matertrans.M2014004 JN:MATERIALS TRANSACTIONS PY:2014 TC:1 AU: Kang, Singon;Lee, Seok-Jae;
6:5:82:9 Static strain aging behavior of an X100 pipeline steel
DOI:10.1016/j.msea.2012.04.095 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:0 AU: Zhao, Wengui;Chen, Meng;Chen, Shaohui;Qu, Jinbo;
6:5:82:10 Prediction of hardness of the tempered martensitic rim of TMT rebars
DOI:10.1016/j.msea.2012.02.041 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:2 AU: Mukherjee, Monideepa;Dutta, Chaitali;Haldar, Arunansu;
6:5:82:11 Microstructure and Charpy impact properties of ferrite-martensite dual phase API X70 linepipe steel
DOI:10.1016/j.msea.2014.01.052 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Sami, Zidelmel;Tahar, Sahraoui;Mohamed, Hadji;
6:5:83:1 Assessment of local deformation using EBSD: Quantification of local damage at grain boundaries
DOI:10.1016/j.matchar.2012.02.001 JN:MATERIALS CHARACTERIZATION PY:2012 TC:12 AU: Kamaya, Masayuki;
6:5:83:2 Quantifying the mesoscopic shear strains in plane strain compressed polycrystalline zirconium
DOI:10.1016/j.actamat.2014.01.023 JN:ACTA MATERIALIA PY:2014 TC:2 AU: Keskar, N.;Mukherjee, S.;Krishna, K. V. Mani;Srivastava, D.;Dey, G. K.;Pant, P.;Doherty, R. D.;Samajdar, I.;
6:5:83:3 Estimating local dislocation content near a grain boundary in hot deformed AA 3104 aluminum alloy
DOI:10.1016/j.msea.2011.10.067 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:2 AU: Liu, W. C.;Zhai, P. P.;Man, C-S;
6:5:83:4 Grain fragmentation and twinning in deformed Zircaloy 2: Response to positron lifetime measurements
DOI:10.1016/j.msea.2009.10.066 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:6 AU: Sahoo, S. K.;Hiwarkar, V. D.;Krishna, K. V. Mani;Samajdar, I.;Pant, P.;Pujari, P. K.;Dey, G. K.;Srivastav, D.;Tiwari, R.;Banerjee, S.;
6:5:83:5 Twinning during recrystallization cooling in alpha-Zr alloy
DOI:10.1016/j.msea.2013.04.010 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:1 AU: Chai, Linjiang;Luan, Baifeng;Murty, Korukonda L.;Liu, Qing;
6:5:83:6 A Smoothing Filter for Misorientation Mapping Obtained by EBSD
DOI:10.2320/matertrans.MAW201005 JN:MATERIALS TRANSACTIONS PY:2010 TC:4 AU: Kamaya, Masayuki;
6:5:83:7 Fatigue Damage Evaluation Using Electron Backscatter Diffraction
DOI:10.2320/matertrans.M2011014 JN:MATERIALS TRANSACTIONS PY:2011 TC:1 AU: Kamaya, Masayuki;Kuroda, Masatoshi;
6:5:83:8 Effect of predeformation on microstructural evolution of a Zr alloy during 550-700 degrees C aging after beta quenching
DOI:10.1016/j.actamat.2013.02.001 JN:ACTA MATERIALIA PY:2013 TC:5 AU: Chai, Linjiang;Luan, Baifeng;Murty, Korukonda L.;Liu, Qing;
6:5:84:1 Prediction of bulk tensile behavior of dual phase stainless steels using constituent behavior from micropillar compression experiments
DOI:10.1016/j.msea.2011.11.062 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:16 AU: Stewart, J. L.;Jiang, L.;Williams, J. J.;Chawla, N.;
6:5:84:2 Nanoindentation and microstructure analysis of resistance spot welded dual phase steel
DOI:10.1016/j.matlet.2009.10.040 JN:MATERIALS LETTERS PY:2010 TC:28 AU: Baltazar Hernandez, V. H.;Panda, S. K.;Kuntz, M. L.;Zhou, Y.;
6:5:84:3 A study on heat affected zone softening in resistance spot welded dual phase steel by nanoindentation
DOI:10.1007/s10853-009-4141-0 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:30 AU: Baltazar Hernandez, Victor Hugo;Panda, Sushanta Kumar;Okita, Yasuaki;Zhou, Norman Y.;
6:5:84:4 Microstructure-properties correlation in fiber laser welding of dual-phase and HSLA steels
DOI:10.1016/j.msea.2014.04.034 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Saha, D. C.;Westerbaan, D.;Nayak, S. S.;Biro, E.;Gerlich, A. P.;Zhou, Y.;
6:5:84:5 Decoupling of the softening processes during rapid tempering of a martensitic steel
DOI:10.1016/j.msea.2014.07.102 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Biro, Elliot;McDermid, Joseph R.;Vignier, Samuel;Zhou, Y. Norman;
6:5:84:6 Microstructure and fatigue performance of butt-welded joints in advanced high-strength steels
DOI:10.1016/j.msea.2014.01.007 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Ahiale, Godwin Kwame;Oh, Yong-Jun;
6:5:85:1 Effect of pre-straining on low-temperature mechanical behavior of AISI 304L
DOI:10.1016/j.msea.2012.02.044 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:7 AU: Kim, Jeong-Hyeon;Park, Woong-Sup;Chun, Min-Sung;Kim, Jong-Joo;Bae, Jun-Hong;Kim, Myung-Hyun;Lee, Jae-Myung;
6:5:85:2 Prestrain-dependent viscoplastic damage model for austenitic stainless steel and implementation to ABAQUS user-defined material subroutine
DOI:10.1016/j.commatsci.2012.08.021 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:6 AU: Kim, Jeong-Hyeon;Lee, Chi-Seung;Kim, Myung-Hyun;Lee, Jae-Myung;
6:5:85:3 Comparative study on mechanical behavior of low temperature application materials for ships and offshore structures: Part I-Experimental investigations
DOI:10.1016/j.msea.2011.04.032 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:14 AU: Park, Woong Sup;Chun, Min Sung;Han, Myung Soo;Kim, Myung Hyun;Lee, Jae Myung;
6:5:85:4 The enhancement of transformation induced plasticity effect on austenitic stainless steels by cyclic tensile loading and unloading
DOI:10.1016/j.matlet.2011.02.066 JN:MATERIALS LETTERS PY:2011 TC:9 AU: Xu, Yong;Zhang, Shihong;Song, Hongwu;Cheng, Ming;Zhang, Haiqu;
6:5:85:5 Structural variations ahead of crack tip during monotonic and cyclic fracture tests of AISI 304LN stainless steel
DOI:10.1016/j.msea.2012.10.074 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:5 AU: Roy, H.;Ray, A.;Barat, K.;Hochmuth, C.;Sivaprasad, S.;Tarafder, S.;Glatzel, U.;Ray, K. K.;
6:5:85:6 Temperature and strain rate dependent constitutive model of TRIP steels for low-temperature applications
DOI:10.1016/j.commatsci.2011.02.002 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:6 AU: Yoo, Seong-Won;Lee, Chi-Seung;Park, Woong-Sup;Kim, Myung-Hyun;Lee, Jae-Myung;
6:5:85:7 Comparative study on mechanical behavior of low temperature application materials for ships and offshore structures: Part II - Constitutive model
DOI:10.1016/j.msea.2011.06.040 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:3 AU: Park, Woong-Sup;Lee, Chi-Seung;Chun, Min-Sung;Kim, Myung-Hyun;Lee, Jae-Myung;
6:5:85:8 In situ X-ray diffraction study of martensitic transformation in austenitic stainless steel during cyclic tensile loading and unloading
DOI:10.1016/j.scriptamat.2012.07.021 JN:SCRIPTA MATERIALIA PY:2012 TC:8 AU: Xu, Y.;Zhang, S. H.;Cheng, M.;Song, H. W.;
6:5:85:9 Low temperature tensile deformation and acoustic emission signal characteristics of AISI 304LN stainless steel
DOI:10.1016/j.msea.2013.12.067 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Barat, K.;Bar, H. N.;Mandal, D.;Roy, H.;Sivaprasad, S.;Tarafder, S.;
6:5:85:10 Numerical evaluation for debonding failure phenomenon of adhesively bonded joints at cryogenic temperatures
DOI:10.1016/j.compscitech.2011.09.007 JN:COMPOSITES SCIENCE AND TECHNOLOGY PY:2011 TC:5 AU: Lee, Chi-Seung;Chun, Min-Sung;Kim, Myung-Hyun;Lee, Jae-Myung;
6:5:86:1 Effect of V on intragranular ferrite nucleation of high Ti bearing steel
DOI:10.1016/j.scriptamat.2013.02.037 JN:SCRIPTA MATERIALIA PY:2013 TC:11 AU: Hu, J.;Du, L. X.;Wang, J. J.;
6:5:86:2 Austenite grain growth and microstructure control in simulated heat affected zones of microalloyed HSLA steel
DOI:10.1016/j.msea.2014.06.106 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Zhang, Lei;Kannengiesser, Thomas;
6:5:86:3 Cellular activity of bioactive nanograined/ultrafine-grained materials
DOI:10.1016/j.actbio.2009.12.017 JN:ACTA BIOMATERIALIA PY:2010 TC:9 AU: Misra, R. D. K.;Thein-Han, W. W.;Mali, S. A.;Somani, M. C.;Karjalainen, L. P.;
6:5:86:4 PCL Nanopillars Versus Nanofibers: A Contrast in Progenitor Cell Morphology, Proliferation, and Fate Determination
DOI:10.1002/adem.201180086 JN:ADVANCED ENGINEERING MATERIALS PY:2012 TC:1 AU: Prasad, Ashok;Berger, Dustin;Popat, Ketul;
6:5:86:5 A nanograined/ultrafine-grained low-carbon microalloyed steel processed by warm rolling
DOI:10.1016/j.msea.2014.03.064 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Hu, Jun;Du, Lin-Xiu;Xie, Hui;Yu, Peng;Misra, R. D. K.;
6:5:86:6 Effect of nanocarbides and interphase hardness deviation on stretch-flangeability in 998 MPa hot-rolled steels
DOI:10.1016/j.matchemphys.2013.03.041 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2013 TC:2 AU: Chun, Eun Joon;Do, Hyeonghyeop;Kim, Seongju;Nam, Dae-Geun;Park, Yong-Ho;Kang, Namhyun;
6:5:86:7 Investigation on grain refinement and precipitation strengthening applied in high speed wire rod containing vanadium
DOI:10.1016/j.msea.2013.10.068 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Wu, Da-yong;Xiao, Fu-ren;Wang, Bin;Liu, Jia-ling;Liao, Bo;
6:5:86:8 First-principles calculation of the interaction of Mn with ZrO2 and its effect on the formation of ferrite in high-strength low-alloy steels
DOI:10.1016/j.scriptamat.2013.11.028 JN:SCRIPTA MATERIALIA PY:2014 TC:3 AU: Li, Y.;Wan, X. L.;Cheng, L.;Wu, K. M.;
6:5:87:1 Evolution of microstructure and precipitation state during thermomechanical processing of a X80 microalloyed steel
DOI:10.1016/j.msea.2011.02.087 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:26 AU: Gomez, Manuel;Valles, Pilar;Medina, Sebastian F.;
6:5:87:2 Strength-hardness statistical correlation in API X65 steel
DOI:10.1016/j.msea.2010.10.089 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:16 AU: Hashemi, S. H.;
6:5:87:3 Effect of niobium clustering and precipitation on strength of an NbTi-microalloyed ferritic steel
DOI:10.1016/j.msea.2014.03.140 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Kostryzhev, A. G.;Al Shahrani, A.;Zhu, C.;Cairney, J. M.;Ringer, S. P.;Killmore, C. R.;Pereloma, E. V.;
6:5:87:4 Microstructure and mechanical properties of a thick-section high-strength steel welded joint by novel double-sided hybrid fibre laser-arc welding
DOI:10.1016/j.msea.2013.05.077 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: Chen, Yanbin;Feng, Jiecai;Li, Liqun;Chang, Shuai;Ma, Guolong;
6:5:87:5 Relationship between hydrogen-induced cracking and type I sulfide stress cracking of high-strength linepipe steel
DOI:10.1016/j.scriptamat.2009.10.028 JN:SCRIPTA MATERIALIA PY:2010 TC:15 AU: Kim, Wan Keun;Jung, Hwan Gyo;Park, Gyu Tae;Koh, Seong Ung;Kim, Kyoo Young;
6:5:87:6 Effect of Ti-based inclusions and acicular ferrite on the corrosion performance of multipass weld metals
DOI:10.1016/j.matchemphys.2014.03.006 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:0 AU: Fattahi, M.;Nabhani, N.;Rafiee, E.;Nasibi, M.;Ahmadi, E.;Fattahi, Y.;
6:5:87:7 Effect of Cu and Ni on sulfide film formation and corrosion behavior of pressure vessel steel in acid sour environment
DOI:10.1016/j.apsusc.2014.06.003 JN:APPLIED SURFACE SCIENCE PY:2014 TC:0 AU: Kim, Sung Jin;Jung, Hwan Gyo;Park, Gyu Tae;Kim, Kyoo Young;
6:5:87:8 Characteristics of Resistance Spot Welding for 1 GPa Grade Twin Induced Plasticity Steel
DOI:10.2320/matertrans.M2012167 JN:MATERIALS TRANSACTIONS PY:2012 TC:3 AU: Yu, Jiyoung;Shim, Junghyun;Rhee, Sehun;
6:5:88:1 A study of the heterogeneity of plastic deformation in IF steel by EBSD
DOI:10.1016/j.msea.2012.03.068 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:16 AU: Allain-Bonasso, Nathalie;Wagner, Francis;Berbenni, Stephane;Field, David P.;
6:5:88:2 Coupled effects of grain size and orientation on properties of nanocrystalline materials
DOI:10.1016/j.commatsci.2012.01.021 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:4 AU: Wang, Ying;Zhou, Jianqiu;Shen, T. D.;Hui, David;Zhang, Shu;
6:5:88:3 Automatic correlation of grains from two different EBSD maps
DOI:10.1016/j.matchar.2011.04.012 JN:MATERIALS CHARACTERIZATION PY:2011 TC:4 AU: Wagner, F.;Allain-Bonasso, N.;Berbenni, S.;
6:5:88:4 A new method to determine plastic deformation at the grain scale
DOI:10.1016/j.matchar.2014.03.007 JN:MATERIALS CHARACTERIZATION PY:2014 TC:0 AU: Wagner, F.;Ouarem, A.;Gu, C. F.;Allain-Bonasso, N.;Toth, L. S.;
6:5:88:5 On the Roles of Grain Size Dispersion and Microscale Hall-Petch Relation on the Plastic Behavior of Polycrystalline Metals
DOI:10.2320/matertrans.MA201307 JN:MATERIALS TRANSACTIONS PY:2014 TC:0 AU: Berbenni, Stephane;Wagner, Francis;Allain-Bonasso, Nathalie;
6:5:88:6 Identification of sub-grains and low angle boundaries beyond the angular resolution of EBSD maps
DOI:10.1016/j.matchar.2014.10.007 JN:MATERIALS CHARACTERIZATION PY:2014 TC:0 AU: Germain, L.;Kratsch, D.;Salib, M.;Gey, N.;
6:5:89:1 On the characterization of recrystallized fraction using electron backscatter diffraction: A direct comparison to local hardness in an IF steel using nanoindentation
DOI:10.1016/j.msea.2010.08.063 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:19 AU: Dziaszyk, S.;Payton, E. J.;Friedel, F.;Marx, V.;Eggeler, G.;
6:5:89:2 Effect of the initial grain size on grain refinement in Ti-2Al-2.5Zr alloy subjected to multi-impact process
DOI:10.1016/j.msea.2012.06.019 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:3 AU: Chen, Wei;Xiao, Lin;Sun, Qiaoyan;Sun, Jun;
6:5:89:3 The radial hardness-profile and the microstructure of railroad car axle materials treated by surface rolling, determined by novel examination methods
DOI:10.1016/j.msea.2013.10.090 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Berecz, Tibor;Balogh, Levente;Meszaros, Istvan;Steinbach, Agoston;
6:5:89:4 Deformation-induced microstructure refinement in primary alpha phase-containing Ti-10V-2Fe-3Al alloy
DOI:10.1016/j.msea.2010.07.054 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:8 AU: Chen, Wei;Sun, Qiaoyan;Xiao, Lin;Sun, Jun;
6:5:89:5 Effect of partial recrystallization on the grain size and grain boundary structure of austenitic steel
DOI:10.1016/j.matchar.2011.09.003 JN:MATERIALS CHARACTERIZATION PY:2012 TC:4 AU: Szabo, Peter J.;
6:5:89:6 Effect of initial microstructure on ultrafine grain formation through warm deformation in medium-carbon steels
DOI:10.1016/j.scriptamat.2011.05.018 JN:SCRIPTA MATERIALIA PY:2011 TC:9 AU: Hase, Kazukuni;Tsuji, Nobuhiro;
6:5:89:7 On the influence of small quantities of Bi and Sb on the evolution of microstructure during swaging and heat treatments in copper
DOI:10.1016/j.jallcom.2010.12.173 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:5 AU: Otto, F.;Frenzel, J.;Eggeler, G.;
6:5:89:8 Thermal stability of bulk nanocrystalline Ti-10V-2Fe-3Al alloy
DOI:10.1016/j.msea.2012.01.001 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:1 AU: Chen, Wei;Sun, Qiaoyan;Xiao, Lin;Sun, Jun;
6:5:90:1 Powder metallurgical nanostructured medium carbon bainitic steel: Kinetics, structure, and in situ thermal stability studies
DOI:10.1016/j.msea.2012.06.043 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:8 AU: Lonardelli, I.;Bortolotti, M.;van Beek, W.;Girardini, L.;Zadra, M.;Bhadeshia, H. K. D. H.;
6:5:90:2 Preparation of nanostructured bainite in medium-carbon alloy steel
DOI:10.1016/j.msea.2013.01.046 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:6 AU: Zhang, M.;Wang, T. S.;Wang, Y. H.;Yang, J.;Zhang, F. C.;
6:5:90:3 Static fracture toughness of fail-safe steel
DOI:10.1016/j.scriptamat.2011.06.025 JN:SCRIPTA MATERIALIA PY:2011 TC:7 AU: Inoue, Tadanobu;Kimura, Yuuji;Ochiai, Shojiro;
6:5:90:4 High-cycle bending fatigue behaviour of nanostructured bainitic steel
DOI:10.1016/j.scriptamat.2011.11.033 JN:SCRIPTA MATERIALIA PY:2012 TC:12 AU: Yang, J.;Wang, T. S.;Zhang, B.;Zhang, F. C.;
6:5:90:5 Austenite deformation behavior and the effect of ausforming process on martensite starting temperature and ausformed martensite microstructure in medium-carbon Si-Al-rich alloy steel
DOI:10.1016/j.msea.2013.11.097 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Zhang, M.;Wang, Y. H.;Zheng, C. L.;Zhang, F. C.;Wang, T. S.;
6:5:90:6 Martensitic transformation behaviour of deformed supercooled austenite
DOI:10.1016/j.scriptamat.2012.10.016 JN:SCRIPTA MATERIALIA PY:2013 TC:6 AU: Wang, T. S.;Zhang, M.;Wang, Y. H.;Yang, J.;Zhang, F. C.;
6:5:90:7 Tempforming in medium-carbon low-alloy steel
DOI:10.1016/j.jallcom.2011.12.123 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:1 AU: Kimura, Yuuji;Inoue, Tadanobu;Tsuzaki, Kaneaki;
6:5:90:8 Influence of the microstructure on the tensile and impact properties of a 14Cr ODS steel bar
DOI:10.1016/j.msea.2012.07.051 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:5 AU: Garcia-Junceda, A.;Hernandez-Mayoral, M.;Serrano, M.;
6:5:91:1 Structural stability and electronic structures of (111) twin boundaries in the rock-salt MnS
DOI:10.1016/j.jallcom.2013.08.073 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:1 AU: Xue, Y. B.;Zhou, Y. T.;Chen, D.;Ma, X. L.;
6:5:91:2 Identification of MnCr2O4 nano-octahedron in catalysing pitting corrosion of austenitic stainless steels
DOI:10.1016/j.actamat.2010.05.043 JN:ACTA MATERIALIA PY:2010 TC:28 AU: Zheng, S. J.;Wang, Y. J.;Zhang, B.;Zhu, Y. L.;Liu, C.;Hu, P.;Ma, X. L.;
6:5:91:3 Surface effects on stacking fault and twin formation in fcc nanofilms: A first-principles study
DOI:10.1016/j.commatsci.2011.06.026 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:6 AU: Datta, A.;Srirangarajan, A.;Waghmare, U. V.;Ramamurty, U.;To, A. C.;
6:5:91:4 Microstructure observation and quantification of the liquid fraction of M2 steel grade in the semi-solid state, combining confocal laser scanning microscopy and X-ray microtomography
DOI:10.1016/j.actamat.2013.11.075 JN:ACTA MATERIALIA PY:2014 TC:2 AU: Gu, G. C.;Pesci, R.;Langlois, L.;Becker, E.;Bigot, R.;Guo, M. X.;
6:5:91:5 Analysis of the isothermal crystallization of CaSiO3 in a CaO-Al2O3-SiO2 melt through in situ observations
DOI:10.1016/j.jeurceramsoc.2011.03.038 JN:JOURNAL OF THE EUROPEAN CERAMIC SOCIETY PY:2011 TC:3 AU: Heulens, J.;Blanpain, B.;Moelans, N.;
6:5:91:6 In-situ observation of isothermal CaSiO3 crystallization in CaO-Al2O3-SiO2 melts: A study of the effects of temperature and composition
DOI:10.1016/j.jcrysgro.2014.05.002 JN:JOURNAL OF CRYSTAL GROWTH PY:2014 TC:0 AU: Liu, Jing-Jing;Chen, Gong;Yan, Peng-Cheng;Planpain, Bart;Moelans, Nele;Guo, Muxing;
6:5:91:7 In situ observation of the dissolution phenomena of SiC particle in CaO-SiO2-MnO slag
DOI:10.1016/j.jeurceramsoc.2010.07.020 JN:JOURNAL OF THE EUROPEAN CERAMIC SOCIETY PY:2010 TC:20 AU: Park, Joo Hyun;Park, Jin Gyun;Min, Dong Joon;Lee, Young E.;Kang, Youn-Bae;
6:5:91:8 Thermodynamics of Inclusion Formation and Its Influence on the Corrosion ehavior of Cu Bearing Duplex Stainless Steels
DOI:10.2320/matertrans.M2010355 JN:MATERIALS TRANSACTIONS PY:2011 TC:1 AU: Jeon, Soon-Hyeok;Kim, Soon-Tae;Lee, In-Sung;Park, Joo-Hyun;Kim, Kwang-Tae;Kim, Ji-Soo;Park, Yong-Soo;
6:5:91:9 Quantification and localization of the liquid zone of partially remelted M2 tool steel using X-ray microtomography and scanning electron microscopy
DOI:10.1016/j.actamat.2011.10.039 JN:ACTA MATERIALIA PY:2012 TC:7 AU: Gu, G. C.;Pesci, R.;Becker, E.;Langlois, L.;Bigot, R.;Scheel, M.;
6:5:92:1 Effects of the tribo-oxide and matrix on dry sliding wear characteristics and mechanisms of a cast steel
DOI:10.1016/j.wear.2010.04.028 JN:WEAR PY:2010 TC:31 AU: Wang, S. Q.;Wei, M. X.;Zhao, Y. T.;
6:5:92:2 Wear behaviour of nanocrystallised Hadfield steel
DOI:10.1016/j.wear.2012.11.038 JN:WEAR PY:2013 TC:3 AU: Feng, X. Y.;Zhang, F. C.;Yang, Z. N.;Zhang, M.;
6:5:92:3 Relations between oxidative wear and Cr content of steels
DOI:10.1016/j.wear.2011.08.005 JN:WEAR PY:2011 TC:7 AU: Wei, M. X.;Wang, S. Q.;Chen, K. M.;Cui, X. H.;
6:5:92:4 Dry sliding wear behaviour of medium carbon steel against an alumina disk
DOI:10.1016/j.wear.2010.12.007 JN:WEAR PY:2011 TC:19 AU: Kumar, Shiv;Bhattacharyya, Ashish;Mondal, Dipak Kumar;Biswas, Koushik;Maity, Joydeep;
6:5:92:5 High speed pounding: A novel technique for the preparation of a thick surface layer with a hardness gradient distribution on Hadfield steel
DOI:10.1016/j.scriptamat.2010.11.043 JN:SCRIPTA MATERIALIA PY:2011 TC:4 AU: Zhang, F. C.;Yang, Z. N.;Qian, L. H.;Liu, F. C.;Lv, B.;Zhang, M.;
6:5:92:6 Tribo-layer and its role in dry sliding wear of Ti-6Al-4V alloy
DOI:10.1016/j.wear.2012.11.063 JN:WEAR PY:2013 TC:16 AU: Mao, Y. S.;Wang, L.;Chen, K. M.;Wang, S. Q.;Cui, X. H.;
6:5:92:7 Comparative research on wear characteristics of spheroidal graphite cast iron and carbon steel
DOI:10.1016/j.wear.2011.08.015 JN:WEAR PY:2012 TC:3 AU: Wei, M. X.;Wang, S. Q.;Cui, X. H.;
6:5:92:8 Mild-to-severe wear transition and transition region of oxidative wear in steels
DOI:10.1016/j.wear.2012.08.017 JN:WEAR PY:2013 TC:2 AU: Wang, S. Q.;Wang, L.;Zhao, Y. T.;Sun, Y.;Yang, Z. R.;
6:5:92:9 Interface adhesion during sliding wear in cast iron after hot deformation
DOI:10.1016/j.wear.2012.11.027 JN:WEAR PY:2013 TC:3 AU: Zhang, Q.;Jiang, Z. Y.;Wei, D. B.;Zhu, H. T.;Chen, Z. X.;Han, J. T.;Xie, G. L.;
6:5:92:10 A phenomenological model of the third body particles circulation in a high temperature contact
DOI:10.1016/j.wear.2012.08.019 JN:WEAR PY:2013 TC:1 AU: Lepesant, P.;Boher, C.;Berthier, Y.;Rezai-Aria, F.;
6:5:93:1 Improving creep strength of 316L stainless steel by alloying with nitrogen
DOI:10.1016/j.msea.2011.12.044 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:27 AU: Mathew, M. D.;Laha, K.;Ganesan, V.;
6:5:93:2 Quantitative measurements of small scaled grain sliding in ultra-fine grained Al-Zn alloys produced by friction stir processing
DOI:10.1016/j.matchar.2010.06.017 JN:MATERIALS CHARACTERIZATION PY:2010 TC:6 AU: Hu, C. M.;Lai, C. M.;Kao, P. W.;Ho, N. J.;Huang, J. C.;
6:5:93:3 Quantitative analysis of grain boundary sliding by atomic force microscopy for early detection of intergranular damage
DOI:10.1016/j.msea.2012.07.063 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:3 AU: Lenci, M.;Wolski, K.;
6:5:93:4 Statistical analysis of the Portevin-Le Chatelier effect in Inconel 718 at high temperature
DOI:10.1016/j.msea.2014.09.075 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Maj, P.;Zdunek, J.;Gizynski, M.;Mizera, J.;Kurzydlowski, K. J.;
6:5:93:5 Activation energy for serrated flow in type 316L(N) austenitic stainless steel
DOI:10.1016/j.msea.2014.02.083 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Choudhary, B. K.;
6:5:93:6 Evaluation of the effect of nitrogen on creep properties of 316LN stainless steel from impression creep tests
DOI:10.1016/j.msea.2012.05.017 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:3 AU: Naveena;Vijayanand, V. D.;Ganesan, V.;Laha, K.;Mathew, M. D.;
6:5:93:7 Microstructural analysis of the < 111 > and < 110 > nickel single crystals subjected to severe plastic deformation by hydroextrusion
DOI:10.1016/j.msea.2012.11.093 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: Zdunek, J.;Mizera, J.;Wasik, K.;Kurzydlowski, K. J.;
6:5:93:8 The study of stress application and corrosion cracking on Ni-16 Cr-9 Fe (Alloy 600) C-ring samples by polychromatic X-ray microdiffraction
DOI:10.1016/j.actamat.2011.10.040 JN:ACTA MATERIALIA PY:2012 TC:5 AU: Chao, Jing;Fuller, Marina L. Suominen;McIntyre, N. Stewart;Carcea, Anatolie G.;Newman, Roger C.;Kunz, Martin;Tamura, Nobumichi;
6:5:93:9 Microstructural evolution during creep of 316LN stainless steel multi-pass weld joints
DOI:10.1016/j.msea.2014.03.138 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Vijayanand, V. D.;Laha, K.;Parameswaran, P.;Ganesan, V.;Mathew, M. D.;
6:5:94:1 Comprehensive study on the sintering behavior of yttria nano-powder in contact with electrolytic iron using the rapid solidification processing technique
DOI:10.1016/j.ceramint.2013.12.109 JN:CERAMICS INTERNATIONAL PY:2014 TC:1 AU: Verhiest, K.;Mullens, S.;Paul, J.;De Graeve, I.;De Wispelaere, N.;Claessens, S.;DeBremaecker, A.;Verbeken, K.;
6:5:94:2 Advances in the development of corrosion and creep resistant nano-yttria dispersed ferritic/martensitic alloys using the rapid solidification processing technique
DOI:10.1016/j.ceramint.2014.06.023 JN:CERAMICS INTERNATIONAL PY:2014 TC:1 AU: Verhiest, K.;Mullens, S.;De Graeve, I.;De Wispelaere, N.;Claessens, S.;De Bremaecker, A.;Verbeken, K.;
6:5:94:3 Annealing behavior of ferritic-martensitic 9%Cr-ODS-Eurofer steel
DOI:10.1016/j.msea.2010.02.051 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:18 AU: Sandim, H. R. Z.;Renzetti, R. A.;Padilha, A. F.;Raabe, D.;Klimenkov, M.;Lindau, R.;Moeslang, A.;
6:5:94:4 X-ray evaluation of dislocation density in ODS-Eurofer steel
DOI:10.1016/j.msea.2011.11.051 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:9 AU: Renzetti, R. A.;Sandim, H. R. Z.;Bolmaro, R. E.;Suzuki, P. A.;Moeslang, A.;
6:5:94:5 Experimental study on the contact angle formation of solidified iron-chromium droplets onto yttria ceramic substrates for the yttria/ferrous alloy system with variable chromium content
DOI:10.1016/j.ceramint.2013.07.137 JN:CERAMICS INTERNATIONAL PY:2014 TC:3 AU: Verhiest, K.;Mullens, S.;Paul, J.;De Graeve, I.;De Wispelaere, N.;Claessens, S.;DeBremaecker, A.;Verbeken, K.;
6:5:94:6 Annealing effects on microstructure and coercive field of ferritic-martensitic ODS Eurofer steel
DOI:10.1016/j.msea.2010.10.051 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:9 AU: Renzetti, R. A.;Sandim, H. R. Z.;Sandim, M. J. R.;Santos, A. D.;Moeslang, A.;Raabe, D.;
6:5:94:7 Formulation and preparation of low-concentrated yttria colloidal dispersions
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6:5:95:1 Microstructural effects on adiabatic shear band formation
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6:5:95:2 Factors Influencing Tensile Ductility of OFHC Cu Having Different Ultrafine Grained Structures
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6:5:95:3 Microstructure evolution of adiabatic shear bands and mechanisms of saw-tooth chip formation in machining Ti6Al4V
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6:5:95:4 Effect of discharge voltage on the deformation of Ti Grade 1 rivet in electromagnetic riveting
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6:5:95:5 Microstructural heterogeneity and dynamic shear localization
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6:5:95:6 Prolonged work hardening range in high manganese TRIP steel during adiabatic shear band formation
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6:5:95:7 On the dynamic character of localized failure
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6:5:95:8 Dynamic tensile extrusion behavior of coarse grained and ultrafine grained OFHC Cu
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6:5:95:9 Tensile failure of 4130 steel having different ultrafine grained structures
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6:5:96:1 Microstructure and mechanical properties of laser-welded joints of TWIP and TRIP steels
DOI:10.1016/j.msea.2009.11.050 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:30 AU: Mujica, L.;Weber, S.;Pinto, H.;Thomy, C.;Vollertsen, F.;
6:5:96:2 Effect of silicon on the solidification cracking behavior and metastable carbide formation in austenitic high Mn steel welds
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6:5:96:3 Different aspect of pitting corrosion and interphase corrosion in the weld heat-affected zone of high-nitrogen Fe-18Cr-10Mn-N steel
DOI:10.1016/j.matchemphys.2013.07.052 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2013 TC:4 AU: Moon, Joonoh;Ha, Heon-Young;Lee, Tae-Ho;Lee, Changhee;
6:5:96:4 Effect of thermo-mechanical cycling on the microstructure and strength of lath martensite in the weld CGHAZ of HSLA steel
DOI:10.1016/j.msea.2011.06.067 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:12 AU: Moon, Joonoh;Kim, Seong-Ju;Lee, Changhee;
6:5:96:5 Induction-assisted laser beam welding of a thermomechanically rolled HSLA S500MC steel: A microstructure and residual stress assessment
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6:5:96:6 Friction stir lap welded advanced high strength steels: Microstructure and mechanical properties
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6:5:96:7 Heat-affected zone liquation crack on resistance spot welded TWIP steels
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6:5:97:1 Continuum modeling of dislocation plasticity: Theory, numerical implementation, and validation by discrete dislocation simulations
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6:5:97:2 Effects of dislocation mechanics on diffusion-induced stresses within a spherical insertion particle electrode
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6:5:97:3 Dislocation density distribution around an indent in single-crystalline nickel: Comparing nonlocal crystal plasticity finite-element predictions with experiments
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6:5:97:4 Numerical implementation of a 3D continuum theory of dislocation dynamics and application to micro-bending
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6:5:97:5 Comments on "Effects of dislocation mechanics on diffusion-induced stresses within a spherical insertion particle electrode"
DOI:10.1039/c4ta01983k JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:2 AU: Yang, Fuqian;
6:5:97:6 Modeling microbending of thin films through discrete dislocation dynamics, continuum dislocation theory, and gradient plasticity
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6:5:97:7 Reply to the 'Comment on "Effects of dislocation mechanics on diffusion-induced stress within a spherical insertion particle electrode"' by F. Yang, J-Mater. Chem. A, 2014, 2, DOI: 10.1039/c4ta01983k
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6:5:98:1 Effect of strain rate on microstructure of polycrystalline oxygen-free high conductivity copper severely deformed at liquid nitrogen temperature
DOI:10.1016/j.actamat.2010.09.009 JN:ACTA MATERIALIA PY:2010 TC:8 AU: Zhang, B.;Shim, V. P. W.;
6:5:98:2 Localized amorphism after high-strain-rate deformation in TWIP steel
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6:5:98:3 Microstructural refinement in alloys and intermetallics by severe plastic deformation
DOI:10.1016/j.jallcom.2011.10.069 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:2 AU: Morris, D. G.;Munoz-Morris, M. A.;
6:5:98:4 Phase-field simulation of static recrystallization considering nucleation from subgrains and nucleus growth with incubation period
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6:5:98:5 Recrystallization in Fe3Al following rolling to high levels of strain
DOI:10.1016/j.msea.2010.09.018 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:4 AU: Morris, D. G.;Munoz-Morris, M. A.;Gutierrez-Urrutia, I.;
6:5:98:6 On the generation of nanograins in pure copper through uniaxial single compression
DOI:10.1080/14786435.2010.484405 JN:PHILOSOPHICAL MAGAZINE PY:2010 TC:1 AU: Zhang, B.;Shim, V. P. W.;
6:5:99:1 Modeling of polycrystals with gradient crystal plasticity: A comparison of strategies
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6:5:99:2 Investigation of the deformation behavior of Fe-3%Si sheet metal with large grains via crystal plasticity and finite-element modeling
DOI:10.1016/j.commatsci.2011.03.042 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:12 AU: Klusemann, Benjamin;Svendsen, Bob;Vehoff, Horst;
6:5:99:3 Two models for gradient inelasticity based on non-convex energy
DOI:10.1016/j.commatsci.2012.01.037 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:5 AU: Klusemann, Benjamin;Bargmann, Swantje;Svendsen, Bob;
6:5:99:4 Application of non-convex rate dependent gradient plasticity to the modeling and simulation of inelastic microstructure development and inhomogeneous material behavior
DOI:10.1016/j.commatsci.2013.04.016 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:2 AU: Klusemann, Benjamin;Yalcinkaya, Tuncay;Geers, M. G. D.;Svendsen, Bob;
6:5:99:5 An image morphing method for 3D reconstruction and FE-analysis of pore networks in thermal spray coatings
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6:5:100:1 Banded structure in Dual Phase steels in relation with the austenite-to-ferrite transformation mechanisms
DOI:10.1007/s10853-011-5671-9 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:9 AU: Krebs, Benoit;Germain, Lionel;Hazotte, Alain;Goune, Mohamed;
6:5:100:2 Application of interrupted cooling experiments to study the mechanism of bainitic ferrite formation in steels
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6:5:100:3 Variant selection of bainite on the surface of allotriomorphic ferrite in a low carbon steel
DOI:10.1016/j.matchar.2012.02.009 JN:MATERIALS CHARACTERIZATION PY:2012 TC:5 AU: Guo, Hui;Gao, Xiangxi;Bai, Yin;Enomoto, Masato;Yang, Shanwu;He, Xinlai;
6:5:100:4 Variant selection of grain boundary alpha by special prior beta grain boundaries in titanium alloys
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6:5:100:5 Dual orientation and variant selection during diffusional transformation of austenite to allotriomorphic ferrite
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6:5:100:6 Do bainitic and Widmanstatten ferrite grow with different mechanisms?
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6:5:100:7 Tensile and compressive test in nanocrystalline and ultrafine carbon steel
DOI:10.1007/s10853-010-4600-7 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:4 AU: Rodriguez-Baracaldo, R.;Benito, J. A.;Cabrera, J. M.;
6:5:100:8 Design and characterization of a lamellar nanostructure in a low C steel
DOI:10.1007/s10853-010-5150-8 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:3 AU: Allain, S.;Goune, M.;Bouaziz, O.;Kassir, E.;Barges, P.;Jantzen, L.;
6:5:101:1 Effects of acicular ferrite on charpy impact properties in heat affected zones of oxide-containing API X80 linepipe steels
DOI:10.1016/j.msea.2011.01.031 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:20 AU: Sung, Hyo Kyung;Shin, Sang Yong;Cha, Wooyeol;Oh, Kyungshik;Lee, Sunghak;Kim, Nack J.;
6:5:101:2 A comprehensive study on the microstructure of high strength low alloy pipeline welds
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6:5:101:3 Microstructure and tensile properties of the sub-micro and nano-structured Al produced by laser surface melting
DOI:10.1016/j.msea.2010.08.008 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:5 AU: Cui, X. G.;Cui, C. Y.;Cheng, X. N.;Xu, X. J.;Lu, J. Z.;Hu, J. D.;Wang, Y. M.;
6:5:101:4 Microstructural characterization of an as-quenched HSLA-100 plate steel via transmission electron microscopy
DOI:10.1016/j.matchar.2013.01.002 JN:MATERIALS CHARACTERIZATION PY:2013 TC:5 AU: Thompson, S. W.;
6:5:101:5 Laser-induced surface oxidation of (Ni/Ti)/Si system with picosecond laser pulses
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6:5:101:6 Microstructural evolution and mechanical behaviour of surface hardened low carbon hot rolled steel
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6:5:101:7 Precipitates in two Zr-bearing HSLA steel plates
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6:5:102:1 Bake hardening of ultra-fine grained low carbon steel produced by constrained groove pressing
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6:5:102:2 Microstructural characterization and thermodynamic analysis of precipitates in ultra-low-carbon bake hardened steel
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6:5:102:3 Bake hardening of nanograin AA7075 aluminum alloy
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6:5:102:4 Effect of bainitic transformation on bake hardening in TRIP assisted steel
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6:5:102:5 Using response surface methodology to optimize the strain aging response of AA5052
DOI:10.1016/j.msea.2010.07.088 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:7 AU: Dehghani, Kamran;Nekahi, Atiye;Mirzaie, Mohammad Ali Mohammad;
6:5:103:1 Validation of a numerical method based on Fast Fourier Transforms for heterogeneous thermoelastic materials by comparison with analytical solutions
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6:5:103:2 Interplay of martensitic phase transformation and plastic slip in polycrystals
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6:5:103:3 Stress localization in BCC polycrystals and its implications on the probability of brittle fracture
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6:5:103:4 Orientation stress field analysis in polycrystalline bcc steel using neutron diffraction
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6:5:103:5 Experimental characterization of the intragranular strain field in columnar ice during transient creep
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6:5:103:6 FFT-based methods for the mechanics of composites: A general variational framework
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6:5:103:7 Non-linear extension of FFT-based methods accelerated by conjugate gradients to evaluate the mechanical behavior of composite materials
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6:5:103:8 Residual stress field in steel samples during plastic deformation and recovery processes
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6:5:103:9 Wavelet analysis of micro scale strains
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6:5:104:1 Micromechanical modeling of the work-hardening behavior of single- and dual-phase steels under two-stage loading paths
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6:5:104:2 Two stage deformation modeling for DP 780 steel sheet using crystal plasticity
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6:5:104:3 Discussion on the microstructural transients during strain reversal based on the effective equivalent strain concept
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6:5:104:4 A boundary smoothing algorithm for image-based modeling and its application to micromechanical analysis of multi-phase materials
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6:5:104:5 Modelling anisotropic hardening of an ultra low carbon high strength steel using crystal plasticity
DOI:10.1016/j.msea.2012.08.111 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:3 AU: Verma, Rahul K.;Kumar, Abhay;Manikandan, G.;Kuwabara, Toshihiko;
6:5:105:1 Lattice strain measurements using synchrotron diffraction to calibrate a micromechanical modeling in a ferrite-cementite steel
DOI:10.1016/j.msea.2012.10.086 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:2 AU: Taupin, V.;Pesci, R.;Berbenni, S.;Berveiller, S.;Ouahab, R.;Bouaziz, O.;
6:5:105:2 Analysis of particle induced dislocation structures using three-dimensional dislocation dynamics and strain gradient plasticity
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6:5:105:3 On particle size effects: An internal length mean field approach using field dislocation mechanics
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6:5:105:4 Size effects on the hardening of channel-type microstructures: A field dislocation mechanics-based approach
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6:5:105:5 Homogenization of multicoated inclusion-reinforced linear elastic composites with eigenstrains: Application to thermoelastic behavior
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6:5:105:6 New micromechanical approach of the coated inclusion problem: Exact solution and applications
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6:5:106:1 A molecular dynamics simulation study of the velocities, mobility and activation energy of an austenite-ferrite interface in pure Fe
DOI:10.1016/j.actamat.2012.04.023 JN:ACTA MATERIALIA PY:2012 TC:15 AU: Song, H.;Hoyt, J. J.;
6:5:106:2 An atomistic simulation study of the migration of an austenite ferrite interface in pure Fe
DOI:10.1016/j.actamat.2012.10.028 JN:ACTA MATERIALIA PY:2013 TC:9 AU: Song, H.;Hoyt, J. J.;
6:5:106:3 Mesoscale computational study of the nanocrystallization of amorphous Ge via a self-consistent atomistic phase-field model
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6:5:106:4 Simulation of the massive austenite-ferrite transformation under uniaxial loading
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6:5:106:5 Mobility of the austenite-ferrite interface under various states of loading
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6:5:107:1 Phase transformations in the nitrocarburizing surface of carbon steels revisited by microstructure and property characterizations
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6:5:107:2 Phase transformations and induced volume changes in a nitrided ternary Fe-3%Cr-0.345%C alloy
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6:5:107:3 Elastic properties of gamma '-Fe4N probed by nanoindentation and ab initio calculation
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6:5:107:4 Influence of magnetic ordering on the elastic properties of PdFe3N
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6:5:107:5 Normal and excess nitrogen uptake by iron-based Fe-Cr-Al alloys: the role of the Cr/Al atomic ratio
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6:5:108:2 Recrystallization induced plasticity in austenite and ferrite
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6:5:108:3 Multi-stage thermomechanical behavior of AISI 410 martensitic steel
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6:5:108:4 Phase-field simulation study of the migration of recrystallization boundaries
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6:5:108:5 Mesoscopic Modeling of Primary Recrystallization of AA1050 with Curvature-Driven Interface Migration Effect
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6:5:108:6 Surface recrystallization of a gamma-TiAl alloy induced by shot peening and subsequent annealing treatments
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6:5:108:7 Cellular Automata Modeling of Grain Coarsening and Refinement during the Dynamic Recrystallization of Pure Copper
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6:5:109:1 Texture inheritance of cold drawn pearlite steel wires after austenitization
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6:5:109:2 Aging behavior and delamination in cold drawn and post-deformation annealed hyper-eutectoid steel wires
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6:5:109:3 Revealing microstructural and mechanical characteristics of cold-drawn pearlitic steel wires undergoing simulated galvanization treatment
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6:5:109:4 Change in carbon state by low-temperature aging in heavily drawn pearlitic steel wires
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6:5:109:5 Spheroidization of medium carbon steel fabricated by continuous shear drawing
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6:5:109:6 Texture development in cool deformed microalloyed steels
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6:5:109:7 Deformation of dual-structure medium carbon steel in cold drawing
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6:5:109:8 Deformation of cementite in cold drawn pearlitic steel wire
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6:5:110:1 Microstructure Changes in TRIP Steel/Mg-PSZ Composites Induced by Low Compressive Deformation
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6:5:110:2 Orientation relationships between phases arising during compression testing in ZrO2-TRIP-steel composites
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6:5:110:3 Influence of Matrix Strength and Volume Fraction of Mg-PSZ on the Cyclic Deformation Behavior of Hot Pressed TRIP/TWIP-Matrix Composite Materials
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6:5:110:4 Interface Phenomena Responsible for Bonding between TRIP Steel and Partially Stabilised Zirconia as Revealed by TEM
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6:5:110:5 Understanding the influence of particle size on strain versus fatigue life, and fracture behavior of aluminum alloy composites produced by spray deposition
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6:5:111:1 Local characterization of austenite and ferrite phases in duplex stainless steel using MFM and nanoindentation
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6:5:111:2 Electro-mechanical coupling of semiconductor film grown on stainless steel by oxidation
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6:5:111:3 Characterization of passive film on 2205 duplex stainless steel in sodium thiosulphate solution
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6:5:111:4 Microstructure-mechanical and chemical behavior relationships in passive thin films
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6:5:111:5 Effect of cold working and isothermal aging on the precipitation of sigma phase in 2205 duplex stainless steel
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6:5:111:6 Influence of the microstructure on the plastic behaviour of duplex stainless steels
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6:5:111:7 The electrochemical behaviour of 316L austenitic stainless steel in Cl- containing environment under different H2S partial pressures
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6:5:112:1 Polycrystalline elastic constants of in situ cementite (Fe3C)
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6:5:112:2 Mathematical modeling of residual stresses and distortions induced by gas nitriding of 32CrMoV13 steel
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6:5:112:3 Comments on "Austenite stability of ultrafine-grained transformation-induced plasticity steel with Mn partitioning" by S. Lee, SJ Lee and BC De Cooman, Scripta Materialia 65 (2011) 225-228
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6:5:112:4 Lattice expansion of carbon-stabilized expanded austenite
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6:5:112:5 The nonlinear lattice expansion of iron alloys in the range 100-1600 K
DOI:10.1016/j.scriptamat.2013.05.009 JN:SCRIPTA MATERIALIA PY:2013 TC:4 AU: van Bohemen, S. M. C.;
6:5:112:6 Austenite in multiphase microstructures quantified by analysis of thermal expansion
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6:5:112:7 Assessment of elastic anisotropy and incipient plasticity in Fe3C by nanoindentation
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6:5:113:1 Dynamic recrystallization of a biomedical Co-Cr-W-based alloy under hot deformation
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6:5:113:2 Internal length scale and grain boundary yield strength in gradient models of polycrystal plasticity: How do they relate to the dislocation microstructure?
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6:5:113:3 Interpreting the softening of nanomaterials through gradient plasticity
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6:5:113:4 Comparison of 304 stainless steel and Ni-30 wt.% Fe as potential model alloys to study the behaviour of austenite during thermomechanical processing
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6:5:113:5 Effect of precipitation condition, prestrain and temperature on the fatigue behaviour of wrought nickel-based superalloys in the VHCF range
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6:5:113:6 Low cycle fatigue and creep-fatigue behavior of Ni-based alloy 230 at 850 degrees C
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6:5:114:1 In situ room temperature tensile deformation of a 1% CrMoV bainitic steel using synchrotron and neutron diffraction
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6:5:114:2 First-principles study of the ideal strength of Fe3C cementite
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6:5:114:3 Microstructure and temperature dependence of intergranular strains on diffractometric macroscopic residual stress analysis
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6:5:114:4 Effect of macroscopic relaxation on residual stress analysis by diffraction methods
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6:5:114:5 Interphase microstress measurements in IN 718 by cold neutron diffraction
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6:5:114:6 The influence of quench sensitivity on residual stresses in the aluminium alloys 7010 and 7075
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6:5:115:1 Investigation of plastic deformation heterogeneities in duplex steel by EBSD
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6:5:115:2 Texture, misorientation and mechanical anisotropy in a deformed dual phase stainless steel weld joint
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6:5:115:3 Contribution to crystallographic slip assessment by means of topographic measurements achieved with atomic force microscopy
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6:5:115:4 Texture, microstructure and anisotropic properties in annealed 2205 duplex stainless steel welds
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6:5:115:5 Self-consistent modeling of rolling textures in an austenitic-ferritic duplex steel
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6:5:115:6 Microstructure evolution and grain refinement in asymmetrically rolled aluminium
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6:5:115:7 Effect of hot deformation mode on the microstructure evolution of lean duplex stainless steel 2101
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6:5:116:1:1 Microscopic study on the relationship between AE signal and wear amount
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6:5:116:1:2 Modelling acoustic emissions generated by sliding friction
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6:5:116:1:3 Analysis of experimentally generated friction related acoustic emission signals
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6:5:116:1:4 Correlation between features of acoustic emission signals and mechanical wear mechanisms
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6:5:116:2:1 An investigation on the mechanical property changing mechanism of high speed steel by pulsed magnetic treatment
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6:5:116:2:2 Residual stress reduction by combined treatment of pulsed magnetic field and pulsed current
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6:5:116:2:3 Role of external magnetic field during friction of ferromagnetic materials
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6:5:116:2:4 Effects of pulsed magnetic annealing on Goss texture development in the primary recrystallization of grain-oriented electrical steel
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6:5:117:1 Three-dimensional morphology of grain boundary Widmanstatten ferrite in a low carbon low alloy steel
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6:5:117:2 The effect of isothermal holding on the microstructures and mechanical properties of a low carbon alloy steel
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6:5:117:3 Microstructure and properties of pipeline steel with a ferrite/martensite dual-phase microstructure
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6:5:117:4 Effect of acicular ferrite formation on grain refinement in the coarse-grained region of heat-affected zone
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6:5:117:5 Effects of pre-strain on the mechanical properties of API 5L X65 pipe
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6:5:117:6 Three-dimensional analysis of ferrite allotrimorphs nucleated on grain boundary faces, edges and corners
DOI:10.1016/j.matchar.2010.02.013 JN:MATERIALS CHARACTERIZATION PY:2010 TC:3 AU: Cheng, L.;Wan, X. L.;Wu, K. M.;
6:5:117:7 Load bearing capacity of API X65 pipe with dent defect under internal pressure and in-plane bending
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6:5:118:1 Effects of sample geometry and loading rate on tensile ductility of TRIP800 steel
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6:5:118:2 Microstructure and dynamic tensile behavior of DP600 dual phase steel joint by laser welding
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6:5:118:3 Predicting the influence of pore characteristics on ductility of thin-walled high pressure die casting magnesium
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6:5:118:4 Strain rate dependent tensile behavior of advanced high strength steels: Experiment and constitutive modeling
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6:5:118:5 Mechanical behaviour of dual-phase high-strength steel under high strain rate tensile loading
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6:5:119:1 Dislocation drag at the nanoscale
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6:5:119:2 Inhomogeneous deformation behavior in intercrystalline regions in polycrystalline Ni
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6:5:119:3 Correlation of precipitation state in a nickel-base superalloy on fatigue damage:A local approach of crack initiation resulting from the localization of plastic deformation on slip band
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6:5:119:4 The role of crystal orientation and surface proximity in the self-similar behavior of deformed Cu single crystals
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6:5:119:5 The effect of grain size on the localization of plastic deformation in shear bands
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6:5:119:6 Comment on "Lattice Resistance to Dislocation Motion at the Nanoscale''
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6:5:120:1 Cold-rolling and inter-critical annealing of low-carbon steel: Effect of initial microstructure and heating-rate
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6:5:120:2 Effect of heating rate on microstructure and mechanical properties of TRIP-aided multiphase steel
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6:5:120:3 Effect of heating rate on ferrite recrystallization and austenite formation of cold-roll dual phase steel
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6:5:120:4 Effect of bimodal distribution in ferrite grain sizes on the tensile properties of low-carbon steels
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6:5:121:1 Deformation mechanisms induced under high cycle fatigue tests in a metastable austenitic stainless steel
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6:5:121:2 Simulation of slip band evolution in duplex Ti-6Al-4V
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6:5:121:3 Simulation of irreversible damage accumulation in the very high cycle fatigue (VHCF) regime using the boundary element method
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6:5:121:4 A macroscopic model to simulate the mechanically induced martensitic transformation in metastable austenitic stainless steels
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6:5:121:5 Numerical investigations of the free surface effect in three-dimensional polycrystalline aggregates
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6:5:121:6 The mechanical behaviour of metastable austenitic steels in pure bending
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6:5:121:7 Thermodynamic-Mechanical Modeling of Strain-Induced alpha '-Martensite Formation in Austenitic Cr-Mn-Ni As-Cast Steel
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6:5:122:1 3D EBSD characterization of deformation structures in commercial purity aluminum
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6:5:122:2 Three-dimensional investigation of recrystallization nucleation in a particle-containing Al alloy
DOI:10.1016/j.scriptamat.2012.05.006 JN:SCRIPTA MATERIALIA PY:2012 TC:13 AU: Zhang, Yonghao;Jensen, Dorte Juul;Zhang, Yubin;Lin, Fengxiang;Zhang, Zhiqing;Liu, Qing;
6:5:122:3 A method to correct coordinate distortion in EBSD maps
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6:5:122:4 Oriented growth during recrystallization revisited in three dimensions
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6:5:123:1 Deformation-induced martensitic transformation behavior in cold-rolled and cold-drawn type 316 stainless steels
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6:5:123:2 Evolution of magnetic phase at low aging temperature in a heavily cold-drawn stainless steel fiber
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6:5:123:3 Thermomagnetic characterization in AISI 316L austenitic stainless steel fibers with various true strains
DOI:10.1016/j.jmmm.2012.11.008 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2013 TC:2 AU: Yang, Shun-Tung;Shyr, Tien-Wei;Hwang, Weng-Sing;Ko, Cheng-Nan;
6:5:123:4 Phase transformations and micro cracks induced by hydrogen in cold-rolled and annealed AISI 304 stainless steels
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6:5:123:5 Effect of reversion of strain induced martensite on microstructure and mechanical properties in an austenitic stainless steel
DOI:10.1007/s10853-011-5253-x JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:4 AU: Ghosh, S. K.;Mallick, P.;Chattopadhyay, P. P.;
6:5:124:1 Role of discrete intragranular slip on lattice rotations in polycrystalline Ni: Experimental and micromechanical studies
DOI:10.1016/j.actamat.2010.04.033 JN:ACTA MATERIALIA PY:2010 TC:11 AU: Perrin, C.;Berbenni, S.;Vehoff, H.;Berveiller, M.;
6:5:124:2 Grain size effects on plastic strain and dislocation density tensor fields in metal polycrystals
DOI:10.1016/j.commatsci.2011.02.043 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:12 AU: Cordero, N. M.;Forest, S.;Busso, E. P.;Berbenni, S.;Cherkaoui, M.;
6:5:124:3 Effects of grain size distribution and stress heterogeneity on yield stress of polycrystals: A numerical approach
DOI:10.1016/j.commatsci.2013.04.061 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:3 AU: Lavergne, F.;Brenner, R.;Sab, K.;
6:5:124:4 Grain size and workpiece dimension effects on material flow in an open-die micro-forging/extrusion process
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6:5:124:5 Microstructure generation of severely deformed materials using Voronoi diagram in Laguerre geometry: Full algorithm
DOI:10.1016/j.commatsci.2011.04.021 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:2 AU: Jafari, R.;Kazeminezhad, M.;
6:5:125:1 Transformation potential predictions for the stress-induced austenite to martensite transformation in steel
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6:5:125:2 Diffraction study of the retained austenite content in TRIP steels
DOI:10.1016/j.msea.2011.01.030 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:5 AU: Gnaeupel-Herold, T.;Creuziger, A.;
6:5:125:3 Strain path's influence on the elastic behaviour of the TRIP 700 steel
DOI:10.1016/j.msea.2012.09.087 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:3 AU: Mendiguren, J.;Cortes, F.;Galdos, L.;Berveiller, S.;
6:5:125:4 Influence of austenitic orientation on martensitic transformations in a compressed high manganese steel
DOI:10.1016/j.jallcom.2011.05.015 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:7 AU: Liu, T. -Y.;Yang, P.;Meng, L.;Lu, F. -Y.;
6:5:125:5 Strain direction dependency of martensitic transformation in austenitic stainless steels: The effect of gamma-texture
DOI:10.1016/j.msea.2013.02.036 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: Hilkhuijsen, P.;Geijselaers, H. J. M.;Bor, T. C.;Perdahcioglu, E. S.;Van der Boogaard, A. H.;Akkerman, R.;
6:5:125:6 The influence of austenite texture on the martensitic transformation of an austenitic stainless steel
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6:5:125:7 In-situ synchrotron diffraction and digital image correlation technique for characterizations of retained austenite stability in low-alloyed transformation induced plasticity steel
DOI:10.1016/j.scriptamat.2010.08.007 JN:SCRIPTA MATERIALIA PY:2010 TC:8 AU: Brauser, S.;Kromm, A.;Kannengiesser, Th.;Rethmeier, M.;
6:5:126:1 Influence of reverted austenite on static and dynamic mechanical properties of a PH 13-8 Mo maraging steel
DOI:10.1016/j.msea.2009.11.046 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:11 AU: Schnitzer, Ronald;Zickler, Gerald A.;Lach, Erhardt;Clemens, Helmut;Zinner, Silvia;Lippmann, Thomas;Leitner, Harald;
6:5:126:2 Reverted austenite in PH 13-8 Mo maraging steels
DOI:10.1016/j.matchemphys.2010.02.058 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2010 TC:9 AU: Schnitzer, Ronald;Radis, Rene;Noehrer, Matthias;Schober, Michael;Hochfellner, Rainer;Zinner, Silvia;Povoden-Karadeniz, E.;Kozeschnik, Ernst;Leitner, Harald;
6:5:126:3 Application of Photons and Neutrons for the Characterization and Development of Advanced Steels
DOI:10.1002/adem.201000294 JN:ADVANCED ENGINEERING MATERIALS PY:2011 TC:0 AU: Eidenberger, Elisabeth;Schnitzer, Ronald;Zickler, Gerald A.;Schober, Michael;Bischof, Michael;Staron, Peter;Leitner, Harald;Schreyer, Andreas;Clemens, Helmut;
6:5:126:4 Strengthening behavior of Fe-Cr-Ni-Al-(Ti) maraging steels
DOI:10.1016/j.msea.2011.03.058 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:6 AU: Leitner, H.;Schober, M.;Schnitzer, R.;Zinner, S.;
6:5:127:1 Microstructural Evolution and Mechanical Response of the Surface of 18CrNiMo7-6 Steel after Multistep Shot Peening during Annealing
DOI:10.2320/matertrans.M2013287 JN:MATERIALS TRANSACTIONS PY:2013 TC:0 AU: Fu, Peng;Jiang, Chuanhai;Ji, Vincent;
6:5:127:2 Surface Layer Characteristics of S30432 Austenite Stainless Steel after Shot Peening
DOI:10.2320/matertrans.M2011390 JN:MATERIALS TRANSACTIONS PY:2012 TC:10 AU: Zhan, K.;Jiang, C. H.;Wu, X. Y.;Ji, Vincent;
6:5:127:3 Effect of shot peening on the microstructure of laser hardened 17-4PH
DOI:10.1016/j.apsusc.2010.07.015 JN:APPLIED SURFACE SCIENCE PY:2010 TC:10 AU: Wang, Zhou;Jiang, Chuanhai;Gan, Xiaoyan;Chen, Yanhua;
6:5:127:4 XRD investigation of microstructure strengthening mechanism of shot peening on laser hardened 17-4PH
DOI:10.1016/j.msea.2011.03.098 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:10 AU: Wang, Zhou;Luan, Weizhi;Huang, Junjie;Jiang, Chuanhai;
6:5:127:5 Uniformity of residual stress distribution on the surface of S30432 austenitic stainless steel by different shot peening processes
DOI:10.1016/j.matlet.2013.02.147 JN:MATERIALS LETTERS PY:2013 TC:9 AU: Zhan, K.;Jiang, C. H.;Ji, V.;
6:5:128:1 Statistics of crystallization kinetics in nanoscale systems
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6:5:128:2 The kinetics of grain-boundary nucleated phase transformations: Simulations and modelling
DOI:10.1016/j.actamat.2011.05.054 JN:ACTA MATERIALIA PY:2011 TC:9 AU: Jaegle, E. A.;Mittemeijer, E. J.;
6:5:128:3 Transformation kinetics for surface and bulk nucleation
DOI:10.1016/j.actamat.2010.01.012 JN:ACTA MATERIALIA PY:2010 TC:18 AU: Villa, Elena;Rios, Paulo R.;
6:5:128:4 Simultaneous and sequential transformations
DOI:10.1016/j.actamat.2010.11.030 JN:ACTA MATERIALIA PY:2011 TC:5 AU: Rios, Paulo R.;Villa, Elena;
6:5:128:5 Incorporating diffuse-interface nuclei in phase-field simulations
DOI:10.1016/j.scriptamat.2010.02.028 JN:SCRIPTA MATERIALIA PY:2010 TC:12 AU: Heo, Tae Wook;Zhang, Lei;Du, Qiang;Chen, Long-Qing;
6:5:129:1 Ultrafine grain effect on pearlitic transformation in hypereutectoid steel
DOI:10.1557/jmr.2012.397 JN:JOURNAL OF MATERIALS RESEARCH PY:2013 TC:3 AU: Lian, Fu Liang;Liu, Hong Ji;Sun, Jun Jie;Sun, Xue Jiao;Guo, Sheng Wu;Liu, Yong Ning;Du, Lin Xiu;
6:5:129:2 Martensitic Transformation in Ultrafine-Grained Stainless Steel AISI 304L Under Monotonic and Cyclic Loading
DOI:10.3390/met2010056 JN:METALS PY:2012 TC:1 AU: Boehner, Andreas;Niendorf, Thomas;Amberger, Doris;Hoeppel, Heinz Werner;Goeken, Mathias;Maier, Hans Juergen;
6:5:129:3 Carbon diffusivity in multi-component austenite
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6:5:129:4 Microstructure of warm rolling and pearlitic transformation of ultrafine-grained GCr15 steel
DOI:10.1016/j.matchar.2014.07.011 JN:MATERIALS CHARACTERIZATION PY:2014 TC:1 AU: Sun, Jun-Jie;Lian, Fu-Liang;Liu, Hong-Ji;Jiang, Tao;Guo, Sheng-Wu;Du, Lin-Xiu;Liu, Yong-Ning;
6:5:129:5 In Situ SEM Observation and Analysis of Martensitic Transformation During Short Fatigue Crack Propagation in Metastable Austenitic Steel
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6:5:129:6 Comparison of two finite element simulation codes used to model the carburizing of steel
DOI:10.1016/j.commatsci.2012.10.007 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:0 AU: Lee, Seok-Jae;Matlock, David K.;Van Tyne, Chester J.;
6:5:130:1 Embrittlement of a zinc coated high manganese TWIP steel
DOI:10.1016/j.msea.2012.02.049 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:7 AU: Beal, Coline;Kleber, Xavier;Fabregue, Damien;Bouzekri, Mohamed;
6:5:130:2 Transitory Embrittlement of Polycrystalline Silver by Liquid Gallium
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6:5:130:3 Liquid zinc embrittlement of twinning-induced plasticity steel
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6:5:130:4 Microstructure of liquid metal embrittlement cracks on Zn-coated 22MnB5 press-hardened steel
DOI:10.1016/j.scriptamat.2014.07.008 JN:SCRIPTA MATERIALIA PY:2014 TC:0 AU: Cho, Lawrence;Kang, Heeseung;Lee, Changwook;De Cooman, Bruno C.;
6:5:130:5 Interaction of liquid and solid gallium with thin silver films: Synchronized spreading and penetration
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6:5:130:6 Evaluation of Surface Crack in Resistance Spot Welds of Zn-Coated Steel
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6:5:131:1 Enhanced stability of retained austenite and consequent work hardening rate through pre-quenching prior to quenching and partitioning in a Q-P microalloyed steel
DOI:10.1016/j.msea.2014.05.074 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Zhang, Jun;Ding, Hua;Misra, R. D. K.;Wang, Chao;
6:5:131:2 Low-alloy duplex, directly quenched transformation-induced plasticity steel
DOI:10.1016/j.scriptamat.2011.06.036 JN:SCRIPTA MATERIALIA PY:2011 TC:8 AU: Yi, H. L.;Ryu, J. H.;Bhadeshia, H. K. D. H.;Yen, H. W.;Yang, J. R.;
6:5:131:3 Work hardening behaviors of a low carbon Nb-microalloyed Si-Mn quenching-partitioning steel with different cooling styles after partitioning
DOI:10.1016/j.msea.2013.07.046 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:2 AU: Zhang, Jun;Ding, Hua;Wang, Chao;Zhao, Jingwei;Ding, Ting;
6:5:131:4 Dual-phase hot-press forming alloy
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6:5:131:5 Work hardening induced by martensite during transformation-induced plasticity in plain carbon steel
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6:5:132:1:1 Modelling of microstructure evolution during hot rolling of a high-Nb HSLA steel
DOI:10.1007/s10853-010-4229-6 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:7 AU: Xu, Yun Bo;Yu, Yong Mei;Xiao, Bao Liang;Liu, Zhen Yu;Wang, Guo Dong;
6:5:132:1:2 Effect of deformation temperature on microstructure and mechanical behaviour of warm working vanadium microalloyed steels
DOI:10.1007/s10853-011-5285-2 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:0 AU: Garcia-Mateo, C.;Lopez, B.;Rodriguez-Ibabe, J. M.;
6:5:132:1:3 Prediction of no-recrystallization temperature by simulation of multi-pass flow stress curves from single-pass curves
DOI:10.1007/s10853-010-4681-3 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:1 AU: Solhjoo, Soheil;Ebrahimi, R.;
6:5:132:2:1 Effects of V and Nb on static recrystallisation of austenite and precipitate size in microalloyed steels
DOI:10.1007/s10853-010-4616-z JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:9 AU: Medina, S. F.;Gomez, M.;Gomez, P. P.;
6:5:132:2:2 Effects of heat treatment process and niobium addition on the microstructure and mechanical properties of low carbon steel weld metal
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6:5:132:2:3 Modeling of deleterious phase precipitation during isothermal treatments in superduplex stainless steel
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6:5:132:2:4 Effect of Mn and P on precipitation behavior and solute distribution in ultra-low carbon bake hardening steels
DOI:10.1007/s10853-010-5175-z JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:1 AU: Wang, Hua;Zhu, Naqiong;Shi, Wen;Li, Lin;Liu, Rendong;
6:5:133:1 Ferrite hardening response in a low alloy ferrite-martensite dual phase steel
DOI:10.1016/j.jallcom.2013.11.183 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:4 AU: Fereiduni, E.;Banadkouki, S. S. Ghasemi;
6:5:133:2 Reliability/unreliability of mixture rule in a low alloy ferrite-martensite dual phase steel
DOI:10.1016/j.jallcom.2013.05.209 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:4 AU: Fereiduni, E.;Banadkouki, S. S. Ghasemi;
6:5:133:3 Effect of prior austenite carbon partitioning on martensite hardening variation in a low alloy ferrite-martensite dual phase steel
DOI:10.1016/j.msea.2014.09.041 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Banadkouki, S. S. Ghasemi;Fereiduni, E.;
6:5:134:1 Effect of cooling rate on microstructure and mechanical properties of gray cast iron
DOI:10.1016/j.msea.2010.09.087 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:10 AU: Behnam, M. M. Jabbari;Davami, P.;Varahram, N.;
6:5:134:2 Development of as-cast dual matrix structure (DMS) ductile iron
DOI:10.1016/j.msea.2012.12.033 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:6 AU: Murcia, S. C.;Paniagua, M. A.;Ossa, E. A.;
6:5:134:3 The effects of solidification on the microstructure and mechanical properties of modified ductile Ni-resist iron with a high manganese content
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6:5:134:4 Numerical modeling of coupled heat transfer and phase transformation for solidification of the gray cast iron
DOI:10.1016/j.commatsci.2012.10.034 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:1 AU: Jabbari, Masoud;Hosseinzadeh, Azin;
6:5:134:5 Microstructural and mechanical properties (hardness) investigations of Al-alloyed ductile cast iron
DOI:10.1016/j.jallcom.2010.04.003 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:3 AU: Shayesteh-Zeraati, A.;Naser-Zoshki, H.;Kiani-Rashid, A. R.;
6:5:134:6 Microstructure and mechanical properties of modified ductile Ni-resist with higher manganese content
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6:5:135:1 Martensitic transformation and stress partitioning in a high-carbon steel
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6:5:135:2 Kinetics of anomalous multi-step formation of lath martensite in steel
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6:5:135:3 A comparison of dilatometry and in-situ neutron diffraction in tracking bulk phase transformations in a martensitic stainless steel
DOI:10.1016/j.matchar.2013.05.002 JN:MATERIALS CHARACTERIZATION PY:2013 TC:1 AU: Christien, F.;Telling, M. T. F.;Knight, K. S.;
6:5:135:4 Substructures of martensite in Fe-1C-17Cr stainless steel
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6:5:135:5 A popular metastable omega phase in body-centered cubic steels
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6:5:136:1 Deformation behaviour at macro- and nano-length scales: The development of orientation gradients
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6:5:136:2 Orientation dependent mechanical properties of commercially pure (cp) titanium
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6:5:136:3 Texture evolution and operative mechanisms during large-strain deformation of nanocrystalline nickel
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6:5:136:4 Texture transition in cold-rolled nickel-40 wt.% cobalt alloy
DOI:10.1016/j.actamat.2014.03.066 JN:ACTA MATERIALIA PY:2014 TC:5 AU: Madhavan, R.;Ray, R. K.;Suwas, S.;
6:5:137:1 Strain induced decomposition and precipitation of carbides in a molybdenum-hafnium-carbon alloy
DOI:10.1016/j.jallcom.2013.06.086 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:1 AU: Poehl, C.;Lang, D.;Schatte, J.;Leitner, H.;
6:5:137:2 Solid solution hardening of molybdenum-hafnium alloys: Experiments and Modeling
DOI:10.1016/j.msea.2012.09.004 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:2 AU: Poehl, C.;Schatte, J.;Leitner, H.;
6:5:137:3 Visualization of solute distributions in dendritic and spheroidized Al grains characterized by both color etching method and electron probe microanalysis
DOI:10.1007/s10853-013-7812-9 JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:0 AU: Gao, Li;Harada, Yohei;Kumai, Shinji;
6:5:137:4 Correlation between grain orientation and the shade of color etching
DOI:10.1016/j.matchar.2010.05.005 JN:MATERIALS CHARACTERIZATION PY:2010 TC:11 AU: Szabo, Peter J.;Kardos, I.;
6:5:137:5 Metallographic characterization of the molybdenum based alloy MHC by a color etching technique
DOI:10.1016/j.matchar.2013.01.001 JN:MATERIALS CHARACTERIZATION PY:2013 TC:3 AU: Poehl, C.;Schatte, J.;Leitner, H.;
6:5:137:6 Solid solution softening of polycrystalline molybdenum-hafnium alloys
DOI:10.1016/j.jallcom.2013.04.138 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:0 AU: Poehl, C.;Schatte, J.;Leitner, H.;
6:5:138:1 Cleavage fracture toughness of tempered martensitic Ni-Cr-Mo low alloy steel with different martensite fraction
DOI:10.1016/j.msea.2011.11.043 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:8 AU: Lee, Ki-Hyoung;Park, Sang-Gyu;Kim, Min-Chul;Lee, Bong-Sang;
6:5:138:2 Effect of normalization temperatures on ductile-brittle transition temperature of a modified 9Cr-1Mo steel
DOI:10.1016/j.msea.2014.09.021 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Chatterjee, Arya;Chakrabarti, D.;Moitra, A.;Mitra, R.;Bhaduri, A. K.;
6:5:138:3 Analysis of the master curve approach on the fracture toughness properties of SA508 Gr.4N Ni-Mo-Cr low alloy steels for reactor pressure vessels
DOI:10.1016/j.msea.2010.02.063 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:6 AU: Lee, Ki-Hyoung;Kim, Min-Chul;Lee, Bong-Sang;Wee, Dang-Moon;
6:5:138:4 Evaluation of microstructural parameters controlling cleavage fracture toughness in Mn-Mo-Ni low alloy steels
DOI:10.1016/j.msea.2012.12.024 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:7 AU: Lee, Ki-Hyoung;Kim, Min-Chul;Yang, Won-Jon;Lee, Bong-Sang;
6:5:138:5 Characterization of transition behavior in SA508 Gr.4N Ni-Cr-Mo low alloy steels with microstructural alteration by Ni and Cr contents
DOI:10.1016/j.msea.2011.09.012 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:6 AU: Lee, Ki-Hyoung;Park, Sang-gyu;Kim, Min-Chul;Lee, Bong-Sang;Wee, Dang-Moon;
6:5:138:6 Effects of boundary characteristics on resistance to temper embrittlement and segregation behavior of Ni-Cr-Mo low alloy steel
DOI:10.1016/j.msea.2012.10.078 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:1 AU: Park, Sang-Gyu;Lee, Ki-Hyoung;Kim, Min-Chul;Lee, Bong-Sang;
6:5:139:1 Cementite-free martensitic steels: A new route to develop high strength/high toughness grades by modifying the conventional precipitation sequence during tempering
DOI:10.1016/j.actamat.2012.07.030 JN:ACTA MATERIALIA PY:2012 TC:6 AU: Delagnes, D.;Pettinari-Sturmel, F.;Mathon, M. H.;Danoix, R.;Danoix, F.;Bellot, C.;Lamesle, P.;Grellier, A.;
6:5:139:2 Tempering of a martensitic stainless steel: Investigation by in situ synchrotron X-ray diffraction
DOI:10.1016/j.actamat.2014.07.050 JN:ACTA MATERIALIA PY:2014 TC:0 AU: Beneteau, Adeline;Aeby-Gautier, Elisabeth;Geandier, Guillaume;Weisbecker, Patrick;Redjaimia, Abdelkrim;Appolaire, Benoit;
6:5:139:3 Experimental investigation and thermodynamic modeling of molybdenum and vanadium-containing carbide hardened iron-based alloys
DOI:10.1016/j.jallcom.2012.12.119 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:2 AU: Cabrol, E.;Bellot, C.;Lamesle, P.;Delagnes, D.;Povoden-Karadeniz, E.;
6:5:139:4 Small-angle neutron scattering of multiphase secondary hardening steels
DOI:10.1007/s10853-011-5982-x JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:2 AU: Perrut, Mikael;Mathon, Marie-Helene;Delagnes, Denis;
6:5:139:5 Precipitation of aluminum nitride in a high strength maraging steel with low nitrogen content
DOI:10.1016/j.matchar.2014.11.001 JN:MATERIALS CHARACTERIZATION PY:2014 TC:1 AU: Jeanmaire, G.;Dehmas, M.;Redjaiemia, A.;Puech, S.;Fribourg, G.;
6:5:140:1 In situ characterization of backstress effects on the austenite-to-bainite phase transformation
DOI:10.1016/j.scriptamat.2012.05.027 JN:SCRIPTA MATERIALIA PY:2012 TC:3 AU: Holzweissig, M. J.;Canadinc, D.;Maier, H. J.;
6:5:140:2 Pre-deformation-transformation plasticity relationship during martensitic transformation
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6:5:140:3 In-situ characterization of transformation plasticity during an isothermal austenite-to-bainite phase transformation
DOI:10.1016/j.matchar.2012.01.007 JN:MATERIALS CHARACTERIZATION PY:2012 TC:7 AU: Holzweissig, M. J.;Canadinc, D.;Maier, H. J.;
6:5:140:4 Evolution of transformation plasticity in austenite-to-bainite phase transformation: A multi parameter problem
DOI:10.1016/j.msea.2012.02.004 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:4 AU: Lambers, H. -G.;Canadinc, D.;Maier, H. J.;
6:5:141:1 A quantitative atom probe study of the Nb excess at prior austenite grain boundaries in a Nb microalloyed strip-cast steel
DOI:10.1016/j.actamat.2012.06.013 JN:ACTA MATERIALIA PY:2012 TC:6 AU: Felfer, Peter J.;Killmore, Chris R.;Williams, Jim G.;Carpenter, Kristin R.;Ringer, Simon P.;Cairney, Julie M.;
6:5:141:2 Atom probe crystallography: Atomic-scale 3-D orientation mapping
DOI:10.1016/j.scriptamat.2012.02.022 JN:SCRIPTA MATERIALIA PY:2012 TC:19 AU: Araullo-Peters, Vicente J.;Gault, Baptiste;Shrestha, Sachin L.;Yao, Lan;Moody, Michael P.;Ringer, Simon P.;Cairney, Julie M.;
6:5:141:3 Grain-boundary structure and segregation behavior in a nickel-base stainless alloy
DOI:10.1016/j.scriptamat.2012.02.014 JN:SCRIPTA MATERIALIA PY:2012 TC:11 AU: Baik, Sung-Il;Olszta, M. J.;Bruemmer, S. M.;Seidman, David N.;
6:5:141:4 The anatomy of grain boundaries: Their structure and atomic-level solute distribution
DOI:10.1016/j.scriptamat.2013.07.013 JN:SCRIPTA MATERIALIA PY:2013 TC:8 AU: Yao, L.;Ringer, S. P.;Cairney, J. M.;Miller, M. K.;
6:5:141:5 Atom probe microscopy characterization of as quenched Zr-0.8 wt% Fe and Zr-0.15 wt% Cr binary alloys
DOI:10.1016/j.matlet.2012.09.059 JN:MATERIALS LETTERS PY:2013 TC:2 AU: Gault, Baptiste;Felfer, Peter J.;Ivermark, Maria;Bergqvist, Hans;Cairney, Julie M.;Ringer, Simon P.;
6:5:142:1 Magnetic Barkhausen emission in lightly deformed AISI 1070 steel
DOI:10.1016/j.jmmm.2011.07.014 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2012 TC:3 AU: Capo Sanchez, J.;de Campos, M. F.;Padovese, L. R.;
6:5:142:2 Change in magnetic properties of a cold rolled and thermally aged Fe-Cu alloy
DOI:10.1063/1.3356227 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:2 AU: Park, D. G.;Ryu, K. S.;Kobayashi, S.;Takahashi, S.;Cheong, Y. M.;
6:5:142:3 Microstructure dependence of Barkhausen voltage pulse width in steel
DOI:10.1063/1.3694017 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:0 AU: Inaguma, T.;Sakamoto, H.;Hasegawa, M.;
6:5:142:4 Quantitative Nondestructive Evaluation of Plastic Deformation in Carbon Steel Based on Electromagnetic Methods
DOI:10.2320/matertrans.M2014173 JN:MATERIALS TRANSACTIONS PY:2014 TC:0 AU: Chen, Hong-En;Xie, Shejuan;Chen, Zhenmao;Takagi, Toshiyuki;Uchimoto, Tetsuya;Yoshihara, Kensuke;
6:5:142:5 The effect of precipitate size on magnetic domain behavior in grain-oriented electrical steels
DOI:10.1063/1.3334201 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:2 AU: Turner, Steven;Moses, Anthony;Hall, Jeremy;Jenkins, Keith;
6:5:142:6 A Numerical Method for Simulation of Nonlinear Eddy Current Testing Signals Based on Transient A(r) Formulation
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6:5:143:1 Carbides and mechanical properties in a Fe-Cr-Ni-Mo high-strength steel with different V contents
DOI:10.1016/j.msea.2013.09.030 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:3 AU: Wen, Tao;Hu, Xiaofeng;Song, Yuanyuan;Yan, Desheng;Rong, Lijian;
6:5:143:2 Microstructural and mechanical behavior of 4.5Cr-2W-0.25V-0.1C steel
DOI:10.1016/j.msea.2009.10.042 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:8 AU: Asadabad, Mohsen Asadi;Kheirandish, Shahram;Novinrooz, Abdul Javad;
6:5:143:3 Development of high strength and ductile ultra fine grained dual phase steel with nano sized carbide precipitates in a V-Nb microalloyed steel
DOI:10.1016/j.msea.2012.12.084 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:3 AU: Rao, M. Papa;Sarma, V. Subramanya;Sankaran, S.;
6:5:143:4 Effects of Magnesium on Wear Resistance of H13 Steel
DOI:10.2320/matertrans.M2014086 JN:MATERIALS TRANSACTIONS PY:2014 TC:0 AU: Wang, Liangliang;Li, Jing;Ning, Bo;Li, Yongyong;
6:5:144:1 Hydrogen trapping by VC precipitates and structural defects in a high strength Fe-Mn-C steel studied by small-angle neutron scattering
DOI:10.1016/j.msea.2011.12.080 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:10 AU: Malard, B.;Remy, B.;Scott, C.;Deschamps, A.;Chene, J.;Dieudonne, T.;Mathon, M. H.;
6:5:144:2 Modeling the role of hydrogen interstitial concentration on internal stress fields in iron matrix
DOI:10.1007/s10853-009-4157-5 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:2 AU: Uslu, Mehmet Can;Canadinc, Demircan;
6:5:144:3 Effect of hydrogen on ductility of high strength 3Ni-Cr-Mo-V steels
DOI:10.1016/j.msea.2013.11.058 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:6 AU: Liu, Yan;Wang, Maoqiu;Liu, Guoquan;
6:5:144:4 The effect of hydrogen release at room temperature on the ductility of steel wire rods for pre-stressed concrete
DOI:10.1016/j.msea.2010.04.042 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:4 AU: Carneiro Filho, C. J.;Mansur, M. B.;Modenesi, P. J.;Gonzalez, B. M.;
6:5:145:1 Crystal-plasticity based thermo-mechanical modeling of Al-components in integrated circuits
DOI:10.1016/j.commatsci.2014.03.020 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:1 AU: Meier, Felix;Schwarz, Cornelia;Werner, Ewald;
6:5:145:2 Numerical study of mesoscale surface roughening in aluminum polycrystals under tension
DOI:10.1016/j.msea.2012.12.004 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:6 AU: Romanova, V. A.;Balokhonov, R. R.;Schmauder, S.;
6:5:145:3 Numerical analysis of mesoscale surface roughening in a coated plate
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6:5:145:4 Crystal-plasticity based thermo-mechanical modeling of Al-components in integrated circuits (vol 94, pg 122, 2014)
DOI:10.1016/j.commatsci.2014.07.010 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:0 AU: Meier, Felix;Schwarz, Cornelia;Werner, Ewald;
6:5:145:5 Investigation of the fatigue behavior of Al thin films with different microstructure
DOI:10.1016/j.msea.2010.08.046 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:6 AU: Heinz, Walther;Pippan, Reinhard;Dehm, Gerhard;
6:5:146:1 Validity of strain-induced martensite transformation in enhancing fracture behavior of Cr-Ni weld metal at different temperatures and in different stress states
DOI:10.1016/j.msea.2013.08.022 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:0 AU: Qiu, H.;Wang, L. N.;Zuo, H.;Hiraoka, K.;
6:5:146:2 Enhancement of fracture toughness of high-strength Cr-Ni weld metals by strain-induced martensite transformation
DOI:10.1016/j.msea.2013.05.012 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:2 AU: Qiu, H.;Wang, L. N.;Qi, J. G.;Zuo, H.;Hiraoka, K.;
6:5:146:3 Optimization of the content of retained austenite in Fe-(0.01-0.045)C-14Cr-(4-9)Ni weld metals for strength-ductility balance
DOI:10.1016/j.msea.2012.12.020 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:3 AU: Qiu, H.;Wang, L. N.;Zuo, H.;Arakane, G.;Hiraoka, K.;
6:5:146:4 Integration of Temperature, Stress State, and Strain Rate for the Ductility of Ductile Metals
DOI:10.2320/matertrans.M2012389 JN:MATERIALS TRANSACTIONS PY:2013 TC:1 AU: Qiu, Hai;
6:5:147:1 Increase of martensite start temperature after small deformation of austenite
DOI:10.1016/j.msea.2014.04.108 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: He, B. B.;Xu, W.;Huang, M. X.;
6:5:147:2 In situ observations and crystallographic analysis of martensitic transformation in steel
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6:5:147:3 Influence of hot plastic deformation and cooling rate on martensite and bainite start temperatures in 22MnB5 steel
DOI:10.1016/j.msea.2012.01.018 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:22 AU: Nikravesh, M.;Naderi, M.;Akbari, G. H.;
6:5:147:4 Effect of heat treatment temperature on the mechanical properties of low-temperature high strength maraging steel
DOI:10.1016/j.msea.2014.02.024 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Hou, Hua;Li, Haifeng;Jin, Yuchun;Wang, Xinran;Wen, Zhiqin;
6:5:148:1 FEM simulation of void coalescence in FCC crystals
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6:5:148:2 Finite element analysis of void growth behavior in nickel-based single crystal superalloys
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6:5:148:3 The effects of load condition on void coalescence in FCC single crystals
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6:5:148:4 XFEM simulation of the effects of microstructure on the intergranular fracture in high strength aluminum alloy
DOI:10.1016/j.commatsci.2013.12.008 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:0 AU: Liu, Wenhui;He, Zhentao;Yao, Wei;Li, Maohua;Tang, Jianguo;
6:5:149:1 Modeling the electrical resistivity of deformation processed metal-metal composites
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6:5:149:2 A dislocation-based, strain-gradient-plasticity strengthening model for deformation processed metal-metal composites
DOI:10.1007/s10853-013-7982-5 JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:1 AU: Tian, Liang;Russell, Alan;Anderson, Iver;
6:5:149:3 The microstructure-strength relationship in a deformation processed Al-Ca composite
DOI:10.1016/j.msea.2013.01.062 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: Tian, Liang;Kim, Hyongjune;Anderson, Iver;Russell, Alan;
6:5:150:1 Effects of cathodic current density and temperature on morphology and microstructure of iridium coating prepared by electrodeposition in molten salt under the air atmosphere
DOI:10.1016/j.apsusc.2012.11.041 JN:APPLIED SURFACE SCIENCE PY:2013 TC:9 AU: Zhu, Li'an;Bai, Shuxin;Zhang, Hong;Ye, Yicong;
6:5:150:2 Effect of direct current density on microstructure of tungsten coating electroplated from Na2WO4-WO3-NaPO3 system
DOI:10.1016/j.apsusc.2014.09.031 JN:APPLIED SURFACE SCIENCE PY:2014 TC:1 AU: Jiang, Fan;Zhang, Yingchun;Sun, Ningbo;Liu, Zhi'ang;
6:5:150:3 Thermal fatigue testing of CuCrZr alloy for high temperature tooling applications
DOI:10.1007/s10853-010-4542-0 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:3 AU: Birol, Yucel;
6:5:150:4 Laminar iridium coating produced by pulse current electrodeposition from chloride molten salt
DOI:10.1016/j.apsusc.2013.06.064 JN:APPLIED SURFACE SCIENCE PY:2013 TC:6 AU: Zhu, Li'an;Bai, Shuxin;Zhang, Hong;Ye, Yicong;
6:5:151:1 An improved model for bainite formation at isothermal temperatures
DOI:10.1016/j.scriptamat.2010.09.009 JN:SCRIPTA MATERIALIA PY:2011 TC:8 AU: Sidhu, G.;Bhole, S. D.;Chen, D. L.;Essadiqi, E.;
6:5:151:2 A phase-field model for bainitic transformation
DOI:10.1016/j.commatsci.2013.04.044 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:1 AU: Arif, T. T.;Qin, R. S.;
6:5:151:3 Comment on "An improved model for bainite formation at isothermal temperatures"
DOI:10.1016/j.scriptamat.2011.05.015 JN:SCRIPTA MATERIALIA PY:2011 TC:0 AU: van Bohemen, S. M. C.;Hanlon, D. N.;
6:5:151:4 Reply to comments on "An improved model for bainite formation at isothermal temperatures"
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6:5:152:1 Comparative study of eddy current and Barkhausen noise nondestructive testing methods in microstructural examination of ferrite-martensite dual-phase steel
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6:5:152:2 Effect of water quenching process on the microstructure and magnetic property of cold rolled dual phase steel
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6:5:152:3 Magnetic nondestructive technology for detection of tempered martensite embrittlement
DOI:10.1016/j.jmmm.2012.07.029 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2012 TC:5 AU: Kashefi, Mehrdad;Rafsanjani, Ali;Kahrobaee, Saeed;Alaee, Moeen;
6:5:153:1 Experimental characterization of microstructure development during loading path changes in bcc sheet steels
DOI:10.1007/s10853-012-6780-9 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:4 AU: Clausmeyer, T.;Gerstein, G.;Bargmann, S.;Svendsen, B.;van den Boogaard, A. H.;Zillmann, B.;
6:5:153:2 The effect of cyclic bending on the mechanical properties and dislocation structures of drawn steel bars
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6:5:153:3 Study on the dislocation sub-structures of Al-Mg-Si alloys fatigued under non-proportional loadings
DOI:10.1007/s10853-010-4487-3 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:3 AU: Ding, Xiang-qun;He, Guo-qiu;Chen, Cheng-shu;
6:5:153:4 Experimental characterization and modeling of the hardening behavior of the sheet steel LH800
DOI:10.1016/j.msea.2009.12.013 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:17 AU: Noman, M.;Clausmeyer, T.;Barthel, C.;Svendsen, B.;Huetink, J.;van Riel, M.;
6:5:154:1 Kinetics of austenitization under uniaxial compressive stress in Fe-2.96 at.% Ni alloy
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6:5:154:2 Reverse alpha' -> gamma transformation mechanisms of martensitic Fe-Mn and age-hardenable Fe-Mn-Pd alloys upon fast and slow continuous heating
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6:5:154:3 Kinetics of bainitic transformation and transformation plasticity in a high strength quenched and tempered structural steel
DOI:10.1016/j.msea.2012.08.034 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:8 AU: Dutta, R. K.;Amirthalingam, M.;Hermans, M. J. M.;Richardson, I. M.;
6:5:155:1 The influence of the austempering temperature on the transformation behavior and properties of ultra-high-strength TRIP-aided bainitic-ferritic sheet steel
DOI:10.1016/j.msea.2014.06.090 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Zhao, Z. Z.;Yin, H. X.;Zhao, A. M.;Gong, Z. Q.;He, J. G.;Tong, T. T.;Hu, H. J.;
6:5:155:2 Effect of retained austenite phase on springback of cold-rolled TRIP steel sheets
DOI:10.1016/j.msea.2011.09.077 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:4 AU: Kim, Sungil;Lee, Youngseog;
6:5:155:3 The influence of Nb on transformation behavior and mechanical properties of TRIP-assisted bainitic-ferritic sheet steels
DOI:10.1016/j.msea.2013.08.023 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: Hausmann, K.;Krizan, D.;Spiradek-Hahn, K.;Pichler, A.;Werner, E.;
6:5:156:1 Residual stresses and structural changes generated at different steps of the manufacturing of gears: Effect of banded structures
DOI:10.1016/j.msea.2011.03.004 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:4 AU: Garcia Navas, V.;Gonzalo, O.;Quintana, I.;Pirling, T.;
6:5:156:2 High pressure gas quenching: Distortion analysis in gears after heat treatment
DOI:10.1016/j.msea.2012.08.047 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:0 AU: Atraszkiewicz, R.;Januszewicz, B.;Kaczmarek, L.;Stachurski, W.;Dybowski, K.;Rzepkowski, A.;
6:5:157:1 Investigation of secondary hardening in Co-35Ni-20Cr-10Mo alloy using analytical scanning transmission electron microscopy
DOI:10.1016/j.actamat.2013.10.005 JN:ACTA MATERIALIA PY:2014 TC:4 AU: Sorensen, D.;Li, B. Q.;Gerberich, W. W.;Mkhoyan, K. A.;
6:5:157:2 Influence of Cold-Working and Subsequent Heat-Treatment on Young's Modulus and Strength of Co-Ni-Cr-Mo Alloy
DOI:10.2320/matertrans.M2009327 JN:MATERIALS TRANSACTIONS PY:2010 TC:5 AU: Otomo, Takuma;Matsumoto, Hiroaki;Nomura, Naoyuki;Chiba, Akihiko;
6:5:158:1 Deformation characteristics of low carbon steel subjected to dynamic impact loading
DOI:10.1016/j.msea.2011.06.069 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:3 AU: Visser, W.;Sun, Y.;Gregory, O.;Plume, G.;Rousseau, C-E.;Ghonem, H.;
6:5:158:2 Microstructural characterization of pipe bomb fragments
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6:6:1:1 Constitutive descriptions for hot compressed 2124-T851 aluminum alloy over a wide range of temperature and strain rate
DOI:10.1016/j.commatsci.2010.08.003 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2010 TC:84 AU: Lin, Y. C.;Xia, Yu-Chi;Chen, Xiao-Min;Chen, Ming-Song;
6:6:1:2 A phenomenological constitutive model for high temperature flow stress prediction of Al-Cu-Mg alloy
DOI:10.1016/j.msea.2011.12.023 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:37 AU: Lin, Y. C.;Li, Qi-Fei;Xia, Yu-Chi;Li, Lei-Ting;
6:6:1:3 Characterization of hot deformation behavior of 410 martensitic stainless steel using constitutive equations and processing maps
DOI:10.1016/j.msea.2010.05.079 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:52 AU: Momeni, A.;Dehghani, K.;
6:6:1:4 Plastic deformation of structural steels under hot-working conditions
DOI:10.1016/j.msea.2012.08.097 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:5 AU: Puchi-Cabrera, E. S.;Guerin, J. D.;Barbier, D.;Dubar, M.;Lesage, J.;
6:6:1:5 The flow behavior modeling of cast A356 aluminum alloy at elevated temperatures considering the effect of strain
DOI:10.1016/j.msea.2011.12.076 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:51 AU: Haghdadi, N.;Zarei-Hanzaki, A.;Abedi, H. R.;
6:6:1:6 A new mathematical model for predicting flow stress of typical high-strength alloy steel at elevated high temperature
DOI:10.1016/j.commatsci.2009.06.026 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2010 TC:43 AU: Lin, Y. C.;Liu, Ge;
6:6:1:7 Hot compressive deformation behavior of 7075 Al alloy under elevated temperature
DOI:10.1007/s10853-011-5904-y JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:21 AU: Lin, Y. C.;Li, Lei-Ting;Fu, Yan-Xiang;Jiang, Yu-Qiang;
6:6:1:8 A comparative study on constitutive relationship of as-cast 904L austenitic stainless steel during hot deformation based on Arrhenius-type and artificial neural network models
DOI:10.1016/j.commatsci.2012.07.028 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:22 AU: Han, Ying;Qiao, Guanjun;Sun, JiaPeng;Zou, Dening;
6:6:1:9 A modified Johnson-Cook model for tensile behaviors of typical high-strength alloy steel
DOI:10.1016/j.msea.2010.07.061 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:48 AU: Lin, Y. C.;Chen, Xiao-Min;Liu, Ge;
6:6:1:10 A comparative study on Arrhenius-type constitutive model and artificial neural network model to predict high-temperature deformation behaviour in Aermet100 steel
DOI:10.1016/j.msea.2011.03.017 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:43 AU: Ji, Guoliang;Li, Fuguo;Li, Qinghua;Li, Huiqu;Li, Zhi;
6:6:1:11 A new method to predict the metadynamic recrystallization behavior in 2124 aluminum alloy
DOI:10.1016/j.commatsci.2011.02.004 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:16 AU: Lin, Y. C.;Li, Lei-Ting;Xia, Yu-Chi;
6:6:1:12 A combined Johnson-Cook and Zerilli-Armstrong model for hot compressed typical high-strength alloy steel
DOI:10.1016/j.commatsci.2010.06.004 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2010 TC:27 AU: Lin, Y. C.;Chen, Xiao-Min;
6:6:1:13 Strain dependent rate equation to predict elevated temperature flow behavior of modified 9Cr-1Mo (P91) steel
DOI:10.1016/j.msea.2010.10.036 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:28 AU: Samantaray, Dipti;Phaniraj, C.;Mandal, Sumantra;Bhaduri, A. K.;
6:6:1:14 Physically based constitutive analysis to predict flow stress of medium carbon and vanadium microalloyed steels
DOI:10.1016/j.msea.2014.02.068 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Wei, Hai-lian;Liu, Guo-quan;Zhang, Ming-he;
6:6:1:15 Constitutive equations for high temperature flow stress prediction of Al-14Cu-7Ce alloy
DOI:10.1016/j.msea.2011.01.076 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:31 AU: Li, Wei;Li, Hai;Wang, Zhixiu;Zheng, Ziqiao;
6:6:1:16 Constitutive equations for elevated temperature flow behavior of commercial purity aluminum
DOI:10.1016/j.msea.2012.02.090 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:31 AU: Ashtiani, H. R. Rezaei;Parsa, M. H.;Bisadi, H.;
6:6:1:17 Strain-dependent constitutive analysis of extruded AZ61 Mg alloy under hot compression
DOI:10.1016/j.msea.2012.12.025 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:11 AU: Liao, Ching-hao;Wu, Horng-yu;Lee, Shyong;Zhu, Feng-jun;Liu, Hsu-cheng;Wu, Cheng-tao;
6:6:1:18 Analysis and mathematical modelling of elevated temperature flow behaviour of austenitic stainless steels
DOI:10.1016/j.msea.2010.11.011 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:32 AU: Samantaray, Dipti;Mandal, Sumantra;Bhaduri, A. K.;Venugopal, S.;Sivaprasad, P. V.;
6:6:1:19 Modelling of the hot deformation behaviour of a titanium alloy using constitutive equations and artificial neural network
DOI:10.1016/j.commatsci.2014.05.040 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:10 AU: Zhao, Jingwei;Ding, Hua;Zhao, Wenjuan;Huang, Mingli;Wei, Dongbin;Jiang, Zhengyi;
6:6:1:20 The prediction of hot deformation behavior in Fe-21Mn-2.5Si-1.5Al transformation-twinning induced plasticity steel
DOI:10.1016/j.msea.2012.06.014 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:22 AU: Marandi, A.;Zarei-Hanzaki, A.;Haghdadi, N.;Eskandari, M.;
6:6:1:21 Constitutive modelling for high temperature behavior of 1Cr12Ni3Mo2VNbN martensitic steel
DOI:10.1016/j.msea.2011.03.050 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:25 AU: Xiao, Yan-Hong;Guo, Cheng;
6:6:1:22 Modeling the hot deformation behavior of Al alloy 3003
DOI:10.1016/j.jallcom.2013.03.022 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:6 AU: Guo, Junhang;Zhao, Shengdun;Murakami, Ri-ichi;Ding, Rixian;Fan, Shuqin;
6:6:1:23 Prediction of the hot deformation behavior for Aermet100 steel using an artificial neural network
DOI:10.1016/j.commatsci.2010.02.031 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2010 TC:22 AU: Ji, Guoliang;Li, Fuguo;Li, Qinghua;Li, Huiqu;Li, Zhi;
6:6:1:24 Modeling the hot-deformation behavior of Ni-60wt%-Ti-40wt% intermetallic alloy
DOI:10.1016/j.jallcom.2009.09.187 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:27 AU: Khamei, A. A.;Dehghani, K.;
6:6:1:25 A comparative study on Arrhenius-type constitutive equations and artificial neural network model to predict high-temperature deformation behaviour in 12Cr3WV steel
DOI:10.1016/j.commatsci.2012.05.053 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:17 AU: Xiao, X.;Liu, G. Q.;Hu, B. F.;Zheng, X.;Wang, L. N.;Chen, S. J.;Ullah, A.;
6:6:1:26 Modeling the constitutive relationship of Cr20Ni25Mo4Cu superaustenitic stainless steel during elevated temperature
DOI:10.1016/j.msea.2012.01.036 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:10 AU: Han, Ying;Qiao, Guanjun;Sun, Yu;Zou, Dening;
6:6:1:27 The effect of thermomechanical parameters on the eutectic silicon characteristics in a non-modified cast A356 aluminum alloy
DOI:10.1016/j.msea.2012.04.010 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:19 AU: Haghdadi, N.;Zarei-Hanzaki, A.;Abedi, H. R.;Sabokpa, O.;
6:6:1:28 Prediction of the flow stress of A16061 at hot deformation conditions
DOI:10.1016/j.msea.2011.02.004 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:8 AU: Gan Chunlei;Xue Yongdong;Wang Mengjun;
6:6:1:29 A new relationship between the stress multipliers of Garofalo equation for constitutive analysis of hot deformation in modified 9Cr-1Mo (P91) steel
DOI:10.1016/j.msea.2011.04.025 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:31 AU: Phaniraj, C.;Samantaray, Dipti;Mandal, Sumantra;Bhaduri, A. K.;
6:6:1:30 Constitutive description of high temperature flow behavior of Sanicro-28 super-austenitic stainless steel
DOI:10.1016/j.msea.2013.09.036 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:15 AU: Mirzaei, A.;Zarei-Hanzaki, A.;Haghdadi, N.;Marandi, A.;
6:6:1:31 Modeling of flow stress for magnesium alloy during hot deformation
DOI:10.1016/j.msea.2010.01.035 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:28 AU: Qin, Yin-Jiang;Pan, Qing-Lin;He, Yun-Bin;Li, Wen-Bin;Liu, Xiao-Yan;Fan, Xi;
6:6:1:32 High temperature deformation behavior and optimal hot processing parameters of Al-Si eutectic alloy
DOI:10.1016/j.msea.2013.03.059 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:5 AU: Hu, H. E.;Wang, Xin-yun;Deng, Lei;
6:6:1:33 Constitutive analysis for hot deformation behaviour of novel bimetal consisting of pearlitic steel and low carbon steel
DOI:10.1016/j.msea.2013.10.096 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Gao, X. J.;Jiang, Z. Y.;Wei, D. B.;Li, H. J.;Jiao, S. H.;Xu, J.;Zhang, X. M.;Han, J. T.;Chen, D. F.;
6:6:1:34 Deformation behavior and microstructural evolution of as-cast 904L austenitic stainless steel during hot compression
DOI:10.1016/j.msea.2012.12.043 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:19 AU: Han, Ying;Liu, Guiwu;Zou, Dening;Liu, Rong;Qiao, Guanjun;
6:6:1:35 A comparative study on modified Zerilli-Armstrong, Arrhenius-type and artificial neural network models to predict high-temperature deformation behavior in T24 steel
DOI:10.1016/j.msea.2011.12.108 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:18 AU: Li, Hong-Ying;Wang, Xiao-Feng;Wei, Dong-Dong;Hu, Ji-Dong;Li, Yang-Hua;
6:6:1:36 Evolution of activation energy during hot deformation of AA7150 aluminum alloy
DOI:10.1016/j.msea.2013.01.080 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:16 AU: Shi, Cangji;Mao, Weimin;Chen, X-Grant;
6:6:1:37 Constitutive modeling of hot deformation behavior of H62 brass
DOI:10.1016/j.msea.2011.04.090 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:22 AU: Xiao, Yan-Hong;Guo, Cheng;Guo, Xiao-Yan;
6:6:1:38 Comparative investigation on the modified Zerilli-Armstrong model and Arrhenius-type model to predict the elevated-temperature flow behaviour of 7050 aluminium alloy
DOI:10.1016/j.commatsci.2013.01.010 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:10 AU: Li, Jiang;Li, Fuguo;Cai, Jun;Wang, Ruiting;Yuan, Zhanwei;Ji, Guoliang;
6:6:1:39 Hot deformation behavior of 2026 aluminum alloy during compression at elevated temperature
DOI:10.1016/j.msea.2009.09.042 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:45 AU: Huang, Xudong;Zhang, Hui;Han, Yi;Wu, Wenxiang;Chen, Jianghua;
6:6:1:40 The flow behaviors of CLAM steel at high temperature
DOI:10.1016/j.msea.2014.01.038 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Wang, Wen-Tao;Guo, Xun-Zhong;Huang, Bo;Tao, Jie;Li, Hui-Guan;Pei, Wen-Jiao;
6:6:1:41 Modeling of flow stress of bainitic and martensitic functionally graded steels under hot compression
DOI:10.1016/j.msea.2011.11.077 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:17 AU: Abolghasemzadeh, M.;Pour, H. Samareh Salavati;Berto, F.;Alizadeh, Y.;
6:6:1:42 Two flowing stress models for hot deformation of XC45 steel at high temperature
DOI:10.1016/j.msea.2011.11.047 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:13 AU: Chai, Rong-xia;Guo, Cheng;Yu, Li;
6:6:1:43 Hot deformation and processing maps of DC cast Al-15%Si alloy
DOI:10.1016/j.msea.2013.04.015 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:7 AU: Wang, Chunxia;Yu, Fuxiao;Zhao, Dazhi;Zhao, Xiang;Zuo, Liang;
6:6:1:44 Hot compressive flow stress modeling of homogenized AZ61 Mg alloy using strain-dependent constitutive equations
DOI:10.1016/j.msea.2013.03.005 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:7 AU: Wu, Horng-yu;Yang, Jie-chen;Zhu, Feng-jun;Wu, Cheng-tao;
6:6:1:45 Prediction of hot deformation behaviour of Fe-25Mn-3Si-3Al TWIP steel
DOI:10.1016/j.msea.2011.07.073 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:14 AU: Li, Dejun;Feng, Yaorong;Yin, Zhifu;Shangguan, Fengshou;Wang, Ke;Liu, Qiang;Hu, Feng;
6:6:1:46 High temperature deformation behavior of two as-cast high-manganese TWIP steels
DOI:10.1016/j.msea.2013.06.014 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:2 AU: Khosravifard, A.;Hamada, A. S.;Moshksar, M. M.;Ebrahimi, R.;Porter, D. A.;Karjalainen, L. P.;
6:6:1:47 Constitutive modeling for hot deformation behavior of T24 ferritic steel
DOI:10.1016/j.commatsci.2011.08.031 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:27 AU: Li, Hong-Ying;Wei, Dong-Dong;Hu, Ji-Dong;Li, Yang-Hua;Chen, Shao-Lin;
6:6:1:48 Effect of hot extrusion on mechanical properties and microstructure of near eutectic Al-12.0%Si-0.2%Mg alloy
DOI:10.1016/j.msea.2010.07.068 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:14 AU: Ding Ke;Liao Hengcheng;Jin Qiumin;Tang Yun;
6:6:1:49 Constitutive modeling for hot deformation behavior of ZA27 alloy
DOI:10.1007/s10853-012-6427-x JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:7 AU: Li, H. Y.;Liu, Y.;Lu, X. C.;Su, X. J.;
6:6:1:50 A modified Johnson-Cook constitutive model for Mg-Gd-Y alloy extended to a wide range of temperatures
DOI:10.1016/j.commatsci.2010.07.018 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2010 TC:21 AU: Hou, Qing Yu;Wang, Jing Tao;
6:6:1:51 Modeling of the hot flow behavior of advanced ultra-high strength steels (A-UHSS) microalloyed with boron
DOI:10.1016/j.msea.2014.04.105 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:4 AU: Mejia, I.;Altamirano, G.;Bedolla-Jacuinde, A.;Cabrera, J. M.;
6:6:1:52 A modified Johnson-Cook model for 30Cr2Ni4MoV rotor steel over a wide range of temperature and strain rate
DOI:10.1007/s10853-010-5167-z JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:11 AU: Wang, Y. P.;Han, Chun-jie;Wang, Can;Li, Shi-ke;
6:6:1:53 Constitutive equation to predict elevated temperature flow stress of V150 grade oil casing steel
DOI:10.1016/j.msea.2011.09.097 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:14 AU: Li, Hong-Ying;Li, Yang-Hua;Wei, Dong-Dong;Liu, Jiao-Jiao;Wang, Xiao-Feng;
6:6:1:54 A modified Johnson Cook model for elevated temperature flow behavior of T24 steel
DOI:10.1016/j.msea.2013.04.041 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:11 AU: Li, Hong-Ying;Wang, Xiao-Feng;Duan, Jun-Ying;Liu, Jiao-Jiao;
6:6:1:55 Constitutive descriptions for hot compressed low-pressure rotor steel at elevated high temperature
DOI:10.1007/s10853-011-5281-6 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:1 AU: Fang, Xiao-Ling;Jiang, Ding-Jian;
6:6:1:56 Constitutive flow behavior and hot workability of powder metallurgy processed 20 vol.%SiCP/2024Al composite
DOI:10.1016/j.msea.2010.08.080 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:21 AU: Shao, J. C.;Xiao, B. L.;Wang, Q. Z.;Ma, Z. Y.;Liu, Y.;Yang, K.;
6:6:1:57 On the calibration strategies of the Johnson-Cook strength model: Discussion and applications to experimental data
DOI:10.1016/j.msea.2014.05.006 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Gambirasio, Luca;Rizzi, Egidio;
6:6:1:58 Wear characteristics of nano TiAlN-coated carbide tools in ultra-high speed machining of AerMet100
DOI:10.1016/j.wear.2012.04.005 JN:WEAR PY:2012 TC:10 AU: Su, Guosheng;Liu, Zhanqiang;
6:6:1:59 Analysis of Garofalo equation parameters for an ultrahigh carbon steel
DOI:10.1007/s10853-010-4610-5 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:5 AU: Castellanos, Jesus;Rieiro, Ignacio;Carsi, Manuel;Ruano, Oscar A.;
6:6:1:60 Resisting stress for constitutive analysis of hot deformation in modified 9Cr-1Mo (P91) steel
DOI:10.1016/j.msea.2012.09.053 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:1 AU: Samantaray, Dipti;Phaniraj, C.;Bhaduri, A. K.;Mandal, Sumantra;Albert, S. K.;
6:6:1:61 A neural network model for prediction of static recrystallization kinetics under non-isothermal conditions
DOI:10.1016/j.commatsci.2010.06.021 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2010 TC:7 AU: Salehi, M. Seyed;Serajzadeh, S.;
6:6:1:62 A constitutive model for predicting flow stress of Al18B4O33w/AZ91D composite during hot compression and its validation
DOI:10.1016/j.commatsci.2011.03.020 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:15 AU: Wang, Zhenjun;Qi, Lehua;Zhou, Jiming;Guan, Juntao;Liu, Jian;
6:6:1:63 Hot deformation behavior of hot extruded Al-6Mg alloy
DOI:10.1016/j.msea.2011.12.067 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:10 AU: Mostafaei, M. A.;Kazeminezhad, M.;
6:6:1:64 Constitutive flow stress formulation, model validation and FE cutting simulation for AA7075-T6 aluminum alloy
DOI:10.1016/j.msea.2014.03.033 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:5 AU: Paturi, Uma Maheshwera Reddy;Narala, Suresh Kumar Reddy;Pundir, Rajdeep Singh;
6:6:1:65 Constitutive modeling and microstructure change of Ti-6Al-4V during the hot tensile deformation
DOI:10.1016/j.jallcom.2012.07.048 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:15 AU: Xiao, J.;Li, D. S.;Li, X. Q.;Deng, T. S.;
6:6:1:66 Study on the material characteristic and process parameters of the open-die warm extrusion process of spline shaft with 42CrMo steel
DOI:10.1016/j.jallcom.2013.03.209 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:2 AU: Li, Yongyi;Zhao, Shengdun;Fan, Shuqin;Yan, Guanhai;
6:6:1:67 Constitutive description of a low C-Mn steel deformed under hot-working conditions
DOI:10.1016/j.msea.2010.12.042 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:3 AU: Puchi-Cabrera, E. S.;Staia, Mariana H.;
6:6:1:68 Studies on the influence of grain refining and modification on microstructure and mechanical properties of forged A356 alloy
DOI:10.1016/j.msea.2011.02.086 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:10 AU: Mallapur, D. G.;Udupa, K. Rajendra;Kori, S. A.;
6:6:1:69 Dynamic constitutive behavior of Hastelloy X under thermo-mechanical loads
DOI:10.1007/s10853-011-5414-y JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:5 AU: Abotula, Sandeep;Shukla, Arun;Chona, Ravi;
6:6:1:70 A combined Johnson-Cook and Zerilli-Armstrong model for hot compressed typical high-strength alloy steel (vol 49, pg 628, 2010)
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6:6:1:71 High temperature compression behavior of the solid phase resulting from drained compression of a semi-solid 6061 alloy
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6:6:2:1:10 Microstructure and mechanical properties of a novel beta titanium metallic composite by selective laser melting
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6:6:2:1:15 Physical properties and microstructures of Fe3Al matrix laser amorphous-nanocrystals reinforced coating
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6:6:2:1:16 Rapid in situ fabrication of Fe/SiC bulk nanocomposites by selective laser melting directly from a mixed powder of microsized Fe and SiC
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6:6:2:1:17 Densification behavior of gas and water atomized 316L stainless steel powder during selective laser melting
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6:6:2:1:19 Microstructure characteristics and formation mechanisms of in situ WC cemented carbide based hardmetals prepared by Selective Laser Melting
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6:6:2:2:1 Microstructural characterization of laser melting deposited Ti-5Al-5Mo-5V-1Cr-1Fe near beta titanium alloy
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6:6:2:2:2 Microstructure and tensile properties of laser melting deposited Ti-5Al-5Mo-5V-1Cr-1Fe near beta titanium alloy
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6:6:2:2:3 Subtransus triplex heat treatment of laser melting deposited Ti-5Al-5Mo-5V-1Cr-1Fe near beta titanium alloy
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6:6:2:2:5 Effect of heat treatment on microstructure and mechanical properties of laser deposited Ti60A alloy
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6:6:2:2:6 Effect of annealing temperature on the notch impact toughness of a laser melting deposited titanium alloy Ti-4Al-1.5Mn
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6:6:2:2:7 Development of a pre-heat treatment for obtaining discontinuous grain boundary alpha in laser melting deposited Ti-5Al-5Mo-5V-1Cr-1Fe alloy
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6:6:2:2:8 Microstructure evolution and layer bands of laser melting deposition Ti-6.5Al-3.5Mo-1.5Zr-0.3Si titanium alloy
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6:6:2:2:9 The effect of laser scanning path on microstructures and mechanical properties of laser solid formed nickel-base superalloy Inconel 718
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6:6:2:2:10 Microstructure and mechanical properties of laser melting deposited 1Cr12Ni2WMoVNb steel
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6:6:2:2:11 Microstructure and mechanical properties of rapid directionally solidified Ni-base superalloy Rene'41 by laser melting deposition manufacturing
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6:6:2:2:12 Effect of heat treatment on microstructure and mechanical properties of laser melting deposited 1Cr12Ni2WMoVNb steel
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6:6:2:2:13 Microstructure of additive layer manufactured Ti-6Al-4V after exceptional post heat treatments
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6:6:2:2:14 Fretting wear behavior of laser-nitrided Ti-5Al-5Mo-5V-1Cr-1Fe alloy fabricated by laser melting deposition
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6:6:2:2:15 Microstructure and high cycle fatigue fracture surface of a Ti-5Al-5Mo-5V-1Cr-1Fe titanium alloy
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6:6:2:2:16 Fatigue crack nucleation and growth behaviors of laser melting deposited Ti-6Al-2Zr-Mo-V
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6:6:2:2:17 Effect of heat treatment on microstructure and mechanical properties of laser melting deposited Ni-base superalloy Rene ' 41
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6:6:2:2:18 Thermal expansion and lattice parameters of shaped metal deposited Ti-6Al-4V
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6:6:2:3:3 Microstructure and mechanical behaviour of Ti-6Al-7Nb alloy produced by selective laser melting
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6:6:2:3:4 Effect of the build orientation on the mechanical properties and fracture modes of SLM Ti-6A1-4V
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6:6:2:3:5 Microstructure and tensile properties of selectively laser-melted and of HIPed laser-melted Ti-6Al-4V
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6:6:2:3:6 Influence of Annealing on Mechanical Properties of Al-20Si Processed by Selective Laser Melting
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6:6:2:3:8 The microstructure and mechanical behaviors of the Ti-6.5Al-3.5Mo-1.5Zr-0.3Si alloy produced by laser melting deposition
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6:6:2:3:9 Effect of surface conditioning on the flowability of Ti6Al7Nb powder for selective laser melting applications
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6:6:2:3:10 Selective laser melting of Ti6Al4V alloy for biomedical applications: Temperature monitoring and microstructural evolution
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6:6:2:3:11 Processing window and evaporation phenomena for Ti-6Al-4V produced by selective electron beam melting
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6:6:2:4:1 Fine-structured aluminium products with controllable texture by selective laser melting of pre-alloyed AlSi10Mg powder
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6:6:2:4:2 Microstructure of selective laser melted nickel-titanium
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6:6:2:4:3 Inconel 939 processed by selective laser melting: Effect of microstructure and temperature on the mechanical properties under static and cyclic loading
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6:6:2:4:5 Strong morphological and crystallographic texture and resulting yield strength anisotropy in selective laser melted tantalum
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6:6:2:4:8 On the fatigue properties of metals manufactured by selective laser melting - The role of ductility
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6:6:2:4:9 Functionally Graded Alloys Obtained by Additive Manufacturing
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6:6:2:4:10 Crystal structure analysis of M2 high speed steel parts produced by selective laser melting
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6:6:2:4:11 Interfacial characterization of SLM parts in multi-material processing: Metallurgical diffusion between 316L stainless steel and C18400 copper alloy
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6:6:2:4:12 Melt pool dynamics during selective electron beam melting
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6:6:2:4:13 Microstructure and mechanical properties of selective laser melted magnesium
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6:6:2:5:1 Selective laser melting additive manufacturing of Inconel 718 superalloy parts: Densification, microstructure and properties
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6:6:2:5:2 Microstructures and mechanical behavior of Inconel 718 fabricated by selective laser melting
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6:6:2:5:6 Thermal effects on microstructural heterogeneity of Inconel 718 materials fabricated by electron beam melting
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6:6:2:6:2 Bioactive Ti metal analogous to human cancellous bone: Fabrication by selective laser melting and chemical treatments
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6:6:2:8:2 In Situ Formation of Particle Reinforced Al Matrix Composite by Selective Laser Melting of Al/Fe2O3 Powder Mixture
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6:6:3:3 Research on the hot deformation behavior of Ti40 alloy using processing map
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6:6:3:4 Dynamic globularization kinetics during hot working of Ti-17 alloy with initial lamellar microstructure
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6:6:3:5 High-temperature deformation behavior of Ti60 titanium alloy
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6:6:3:16 Hot Deformation of Ti-5Al-5Mo-5 V-1Cr-1Fe Near beta Titanium Alloys Containing Thin and Thick Lamellar alpha Phase
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6:6:3:21 Study on the hot deformation behavior of TC4-DT alloy with equiaxed alpha plus beta starting structure based on processing map
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6:6:3:30 On the influence of processing parameters on microstructural evolution of a near alpha titanium alloy
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6:6:3:31 Behavior and modeling of high temperature deformation of an alpha plus beta titanium alloy
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6:6:3:33 Effect of processing parameters on hot deformation behavior and microstructural evolution during hot compression of as-cast Ti60 titanium alloy
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6:6:3:41 Effect of hydrogen on the superplasticity of Ti40 alloy with large grains
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6:6:3:42 Optimization of hot process parameters of Ti-6.7Al-2Sn-2.2Zr-2.1Mo-1W-0.2Si alloy with lamellar starting microstructure based on the processing map
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6:6:3:43 Microstructure evolution during warm working of Ti-5Al-5Mo-5V-1Cr-1Fe at 600 and 800 degrees C
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6:6:3:46 Characterization of hot deformation behavior of a biomedical titanium alloy TLM
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6:6:3:48 Effect of temperature on deformation behavior and microstructures of TC11 titanium alloy
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6:6:3:52 High temperature deformation and creep behavior of Ti-5Al-5Mo-5V-1Fe-1Cr alloy
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6:6:3:54 Flow softening behavior during dynamic recrystallization in Mg-3Al-1Zn magnesium alloy
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6:6:4:1 Hot deformation and processing map of a typical Al-Zn-Mg-Cu alloy
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6:6:4:2 Hot workability analysis of extruded AZ magnesium alloys with processing maps
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6:6:4:3 Characterization of hot deformation behavior of Ni-base superalloy Rene'41 using processing map
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6:6:4:4 Characterization of hot deformation behavior of as-homogenized Al-Cu-Li-Sc-Zr alloy using processing maps
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6:6:4:5 Hot deformation behaviour of 7075 alloy
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6:6:4:6 Optimization of processing parameters based on high temperature flow behavior and microstructural evolution of a nitrogen enhanced 316L(N) stainless steel
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6:6:4:7 Processing maps for hot deformation of a high-Mn TWIP steel: A comparative study of various criteria based on dynamic materials model
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6:6:4:8 Flow behavior and processing map of as-cast Mg-10Gd-4.8Y-2Zn-0.6Zr alloy
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6:6:4:9 Flow behavior and microstructural evolution during hot deformation of AISI Type 316 L(N) austenitic stainless steel
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6:6:4:10 Optimization of hot working parameters for thermo-mechanical processing of modified 9Cr-1Mo (P91) steel employing dynamic materials model
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6:6:4:11 New insights into the relationship between dynamic softening phenomena and efficiency of hot working domains of a nitrogen enhanced 316L(N) stainless steel
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6:6:4:12 Characterization of hot deformation behavior of as-extruded Mg-Gd-Y-Zn-Zr alloy
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6:6:4:13 Hot deformation behavior of Ti-15-3 titanium alloy: a study using processing maps, activation energy map, and Zener-Hollomon parameter map
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6:6:4:14 Processing maps and microstructural evolution of isothermal compressed Al-Cu-Li alloy
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6:6:4:15 Hot deformation behavior and processing map of coarse-grained Mg-Gd-Y-Nd-Zr alloy
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6:6:4:16 Processing map and kinetic analysis for hot deformation of an as-cast AZ91D magnesium alloy
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6:6:4:17 Hot deformation and processing map of 2519A aluminum alloy
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6:6:4:18 Characterization of flow behavior and microstructural evolution of Al-Zn-Mg-Sc-Zr alloy using processing maps
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6:6:4:19 Hot deformation behavior and hot working characteristic of Nickel-base electron beam weldments
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6:6:4:20 Study of hot deformation of an Al-Cu-Mg alloy using processing maps and microstructural characterization
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6:6:4:21 Compressive strength and hot deformation behavior of TX32 magnesium alloy with 0.4% Al and 0.4% Si additions
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6:6:4:22 Effect of the initial microstructure on the deformation behavior of Ti60 titanium alloy at high temperature processing
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6:6:4:23 Hot compression deformation behavior and processing parameters of a cast Mg-Gd-Y-Zr alloy
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6:6:4:24 Characterization of high-temperature deformation behavior of as-cast Ti60 titanium alloy using processing map
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6:6:4:25 The deformation behavior and processing maps in the isothermal compression of 7A09 aluminum alloy
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6:6:4:26 Flow behavior and processing maps of 2099 alloy
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6:6:4:27 Processing maps, microstructure evolution and deformation mechanisms of extruded AZ31-DMD during hot uniaxial compression
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6:6:4:28 Hot Deformation Mechanisms in AZ31 Magnesium Alloy Extruded at Different Temperatures: Impact of Texture
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6:6:4:29 Interactions between zirconium and manganese dispersoid-forming elements on their combined addition in Al-Cu-Li alloys
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6:6:4:30 Hot deformation and processing maps of K310 cold work tool steel
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6:6:4:31 Flow behaviors and processing maps of as-cast and as-homogenized AZ91 alloy
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6:6:4:32 Effect of backward extrusion on microstructure and mechanical properties of Mg-Gd based alloy
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6:6:4:33 Processing map of Al2O3 particulate reinforced Al alloy matrix composites
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6:6:4:34 Hot deformation and processing maps of as-extruded Mg-9.8Gd-2.7Y-0.4Zr Mg alloy
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6:6:4:35 Flow stress modeling of AZ91 magnesium alloys at elevated temperature
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6:6:4:36 Softening mechanism and microstructure evolution of as-extruded 7075 aluminum alloy during hot deformation
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6:6:4:37 Determination of hot deformation behavior and processing maps of IN 028 alloy using isothermal hot compression test
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6:6:4:38 Influence of hot deformation strain rate on the mechanical properties and microstructure of K310 cold work tool steel
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6:6:4:39 Analysis and comparison of the instability regimes in the processing maps generated using different instability criteria for Ti-6.5Al-3.5Mo-1.5Zr-0.3Si alloy
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6:6:4:40 Development of processing maps for 3 vol.% TiCp/AZ91D composites material
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6:6:4:41 Hot deformation behavior of an extruded Mg-Li-Zn-RE alloy
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6:6:4:42 Effect of strain rate on the microstructural development through continuous dynamic recrystallization in a microalloyed steel
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6:6:5:1 In situ TiC particles reinforced Ti6Al4V matrix composite with a network reinforcement architecture
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6:6:5:2 Delaying premature local necking of high-strength Cu: A potential way to enhance plasticity
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6:6:5:3 Tailoring a novel network reinforcement architecture exploiting superior tensile properties of in situ TiBw/Ti composites
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6:6:5:4 Fabrication and superior ductility of laminated Ti-TiBw/Ti composites by diffusion welding
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6:6:5:5 High temperature tensile properties of in situ TiBw/Ti6Al4V composites with a novel network reinforcement architecture
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6:6:5:6 Room temperature tensile fracture characteristics of in situ TiBw/Ti6A14V composites with a quasi-continuous network architecture
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6:6:5:7 Hot compression characteristics of TiBw/Ti6Al4V composites with novel network microstructure using processing maps
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6:6:5:8 Influence of interfacial defects on the impact toughness of solid state diffusion bonded Ti-6 Al-4 V alloy based multilayer composites
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6:6:5:9 Gradient grain distribution and enhanced properties of novel laminated Ti-TiBw/Ti composites by reaction hot-pressing
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6:6:5:10 Effects of degree of deformation on the microstructure, mechanical properties and texture of hybrid-reinforced titanium matrix composites
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6:6:5:11 Low volume fraction in situ (Ti5Si3 + Ti2C)/Ti hybrid composites with network microstructure fabricated by reaction hot pressing of Ti-SiC system
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6:6:5:12 Preparation and elevated temperature compressive properties of multi-walled carbon nanotube reinforced Ti composites
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6:6:5:13 In situ (TiBw + TiCp)/Ti6Al4V composites with a network reinforcement distribution
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6:6:5:14 Evolution of microstructure and tensile properties of in situ titanium matrix composites with volume fraction of (TiB plus TiC) reinforcements
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6:6:5:15 Stability of strengthening effect of in situ formed TiCp and TiBw on the elevated temperature strength of (TiCp + TiBw)/Ti composites
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6:6:5:16 Superplasticity of coarse-grained (TiB + TiC)/Ti-6Al-4V composite
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6:6:5:17 Microstructure and tensile behavior of novel laminated Ti-TiBw/Ti composites by reaction hot pressing
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6:6:5:18 Effect of pure Ti thickness on the tensile behavior of laminated Ti-TiBw/Ti composites
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6:6:5:19 Microstructural characteristics and mechanical properties of in situ synthesized (TiB+TiC)/TC18 composites
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6:6:5:20 Temperature dependence of tensile properties and fracture behavior of as rolled TiB/Ti composite sheet
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6:6:5:21 Superplastic behavior of Ti-6Al-4V-0.1B alloy
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6:6:5:22 Superplastic tensile characteristics of in situ TiBw/Ti6Al4V composites with novel network microstructure
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6:6:5:23 Effects of reinforcement volume fraction on tensile behaviors of laminated Ti-TiBw/Ti composites
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6:6:5:24 Effect of hot forging on microstructure and tensile properties of Ti-TiB based composites produced by casting
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6:6:5:25 Effect of aspect ratios of in situ formed TiB whiskers on the mechanical properties of TiBw/Ti-6Al-4V composites
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6:6:5:26 In situ (Al3Zrp+Al2O3np)/2024Al metal matrix composite with controlled reinforcement architecture fabricated by reaction hot pressing
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6:6:5:27 Temperature Dependence of Tensile Properties and Fracture Behavior of Welded Joints of Titanium Matrix Composites in Gas Tungsten Arc Welding
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6:6:5:28 The Influence of B4C on the Fluidity of Ti-6Al-4V-xB(4)C Composites
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6:6:5:29 Effects of heat treatments on the microstructure and mechanical properties of as-extruded TiBw/Ti6Al4V composites
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6:6:5:30 High-temperature properties of extruded titanium composites fabricated from carbon nanotubes coated titanium powder by spark plasma sintering and hot extrusion
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6:6:5:31 Effects of extrusion on microstructure and tensile properties of 3D network structured TiBw/Ti60 composites fabricated by reaction hot pressing
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6:6:5:32 Superplastic deformation of hydrogenated Ti-6Al-4V alloys
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6:6:5:35 Effect of TRIPLEX heat treatment on tensile properties of in situ synthesized (TiB + La2O3)/Ti composite
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6:6:5:40 Effects of trace TiB and TiC on microstructure and tensile properties of beta titanium alloy
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6:6:5:45 Microstructural damage during high-speed milling of titanium alloys
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6:6:6:1 Effects of creep-aging processing on the corrosion resistance and mechanical properties of an Al-Cu-Mg alloy
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6:6:6:2 Precipitation hardening of 2024-T3 aluminum alloy during creep aging
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6:6:6:4 Precipitation in Al-Cu-Mg alloy during creep exposure
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6:6:6:5 Effect of creep-aging on precipitates of 7075 aluminum alloy
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6:6:6:7 Modeling the creep behavior of 2024-T3 Al alloy
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6:6:6:8 High-temperature creep behavior of Al-Cu-Mg alloy
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6:6:6:9 Precipitation process along dislocations in Al-Cu-Mg alloy during artificial aging
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6:6:6:10 Influence of heat treatment on the microstructure, texture and formability of 2024 aluminium alloy
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6:6:6:11 Three-dimensional crystal plasticity finite element simulation of nanoindentation on aluminium alloy 2024
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6:6:6:12 Identification of the material properties of Al 2024 alloy by means of inverse analysis and indentation tests
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6:6:6:13 Impression creep study of a Cu-0.3Cr-0.1Ag alloy
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6:6:6:14 Impression creep behavior of a Cu-6Ni-2Mn-2Sn-2Al alloy
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6:6:6:15 Rapid precipitation of T-phase in the 2024 aluminum alloy via cyclic electropulsing treatment
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6:6:6:16 Characterization and creep properties of proton-conducting Yb-doped barium cerate
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6:6:6:17 Prediction of flow stress for hot deformation processing
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6:6:6:18 Constitutive behavior of as-cast A356
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6:6:6:19 Creep properties of low-temperature sintered nano-silver lap shear joints
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6:6:6:20 Influence of multi-step heat treatments in creep age forming of 7075 aluminum alloy: Optimization for springback, strength and exfoliation corrosion
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6:6:6:21 Modeling of strain hardening and creep behaviour of 2024T3 aluminium alloy at room and high temperatures
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6:6:6:22 High-Temperature Creep Behavior of Low-Temperature-Sintered Nano-Silver Paste Films
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6:6:6:23 Tensile creep behavior and microstructure evolution of extruded Mg-10Gd-3Y-0.5Zr (wt%) alloy
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6:6:6:24 Modified Johnson-Cook material flow model for hot deformation processing
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6:6:6:25 Compressive deformation behavior of Al 2024 alloy using 2D and 4D processing maps
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6:6:6:26 Constitutive equations in creep of 7B04 aluminum alloys
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6:6:6:27 Investigation of the age hardening and operative deformation mechanism of 7075 aluminum alloy under creep forming
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6:6:6:28 Constitutive modeling for creep age forming of heat-treatable strengthening aluminum alloys containing plate or rod shaped precipitates
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6:6:6:29 Direct numerical predictions for the steady-state creep deformation of extruded SiCw/Al6061 composites using a representative volume element with random arrangement of whiskers
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6:6:6:30 Comparison of different approaches to verify creep behaviour of 100Cr6 steel
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6:6:6:31 Microstructures and mechanical properties of age-formed 7050 aluminum alloy
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6:6:6:32 Indentation and imprint mapping for the identification of material properties in multi-layered systems
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6:6:6:33 Long-term creep data prediction for type 316H stainless steel
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6:6:6:34 Effects of time and temperature on the creep forming of 7075 aluminum alloy: Springback and mechanical properties
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6:6:6:35 A simplified model for creep induced grain boundary cavitation validated by multiple cavity growth simulations
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6:6:6:36 Computer simulation of the high temperature creep behaviour of Cr-Mo steels
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6:6:6:37 An inverse analysis approach based on a POD direct model for the mechanical characterization of metallic materials
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6:6:6:38 Description of nonlinear viscoelastic behavior and creep-rupture time of anisotropic conductive film
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6:6:6:39 High-temperature yield strength and its dependence on primary creep and recovery
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6:6:6:40 Constitutive behavior of as-cast A356 (vol 548, pg 195, 2012)
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6:6:6:41 The importance of creep strain in linking together the Wilshire equations for minimum creep rates and times to various strains (including the rupture strain): an illustration using 1CrMoV rotor steel
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6:6:6:42 A phase mixture model for anisotropic creep of forged Al-Cu-Mg-Si alloy
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6:6:7:1 Development of solidification microstructure in boron-modified alloy Ti-6Al-4V-0.1B
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6:6:7:2 Effect of boron on microstructure and mechanical properties of thermomechanically processed near alpha titanium alloy Ti-1100
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6:6:7:3 Fatigue in Ti-6Al-4V-B alloys
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6:6:7:4 Microstructure and texture evolution during beta extrusion of boron modified Ti-6A1-4V alloy
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6:6:7:5 The influence of temperature and strain rate on the deformation response and microstructural evolution during hot compression of a titanium alloy Ti-6Al-4V-0.1B
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6:6:7:6 On characterization of deformation microstructure in Boron modified Ti-6Al-4V alloy
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6:6:7:7 The effect of boron addition on microstructure and mechanical properties of biomedical Ti35Nb6Ta alloy
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6:6:7:9 Elastic modulus of Ti-6Al-4V-xB alloys with B up to 0.55 wt.%
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6:6:7:10 X-ray diffraction line profile analysis of deformation microstructure in boron modified Ti-6Al-4V alloy
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6:6:7:11 Deformation mechanisms during superplastic testing of Ti-6Al-4V-0.1B alloy
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6:6:7:12 High temperature deformation processing maps for boron modified Ti-6Al-4V alloys
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6:6:7:13 Crystallographic texture and microstructure evolution during hot compression of Ti-6Al-4V-0.1B alloy in the (alpha plus beta)-regime
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6:6:7:15 Influence of minor addition of boron on tensile and fatigue properties of wrought Ti-6Al-4V alloy
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6:6:7:16 Enhancement in creep resistance of Ti-6Al-4V alloy due to boron addition
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6:6:7:17 Formation and investigation of the structure and mechanical properties of bulk metallic glassy composite (Ti-Zr)-(Cu-Ni-Co) alloys with the addition of Boron
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6:6:7:18 Investigation of the structure and mechanical properties of as-cast Ti-Cu-based alloys
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6:6:7:20 Direct rolling of Ti-6Al-4V-0.1B alloy sheets in the beta phase region
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6:6:7:21 Microstructure and tensile properties of Ti-6Al-4V-0.1B alloys of direct rolling in the near beta phase region
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6:6:7:22 Tensile properties of a dual-axial forged Ti-Fe-Cu alloy containing boron
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6:6:7:28 Tensile and creep properties of thermomechanically processed boron modified Timetal 834 titanium alloy
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6:6:7:35 Fatigue behaviour of in situ TiB reinforced beta-titanium alloy composite
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6:6:7:36 Monotonic and low cycle fatigue behavior of an O+B2 alloy at high temperatures
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6:6:8:10 Flow behavior and constitutive model for Ni-20.0Cr-2.5Ti-1.5Nb-1.0Al superalloy compressed below gamma '-transus temperature
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6:6:8:12 Hot deformation characteristics and strain-dependent constitutive analysis of Inconel 600 superalloy
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6:6:8:14 Deformation behavior of hot-rolled IN718 superalloy under plane strain compression at elevated temperature
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6:6:8:20 Constitutive relationships of hot stamping boron steel B1500HS based on the modified Arrhenius and Johnson-Cook model
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6:6:8:22 Characteristics of metadynamic recrystallization of a high Nb containing TiAl alloy
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6:6:9:1 Effects of microstructure and gamma ' distribution on the hot deformation behavior for a powder metallurgy superalloy FGH96
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6:6:9:18 Structural-gradient-materials produced by gradient temperature heat treatment for dual-property turbine disc
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6:6:9:22 Hot deformation behavior of Mg-2Sn-2Ca alloy in as-cast condition and after homogenization
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6:6:9:23 Investigation on hot deformation behavior of Waspaloy
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6:6:9:25 Modeling the recrystallized grain size in single phase materials
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6:6:9:26 Effect of hafnium on creep behavior of a corrosion resistant nickel base superalloy
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6:6:9:28 Simultaneous creep-fatigue damage accumulation of forged turbine disc of IN 718 superalloy
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6:6:9:29 Evolution of flow stress and microstructure during isothermal compression of Waspaloy
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6:6:9:30 Static recrystallization behavior of AEREX350 superalloy
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6:6:9:32 Characterization of hot deformation behaviors of wrought and P/M oxygen free coppers (OFCs) using processing maps
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6:6:9:34 Formation mechanism and coarsening behavior of fan-type structures in a new Ni-Cr-Co-based powder metallurgy superalloy
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6:6:9:35 A novel test method to study the simultaneous creep-fatigue interaction
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6:6:9:36 Maximizing the integrity of linear friction welded Waspaloy
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6:6:10:1 Deformation behaviour and dynamic recrystallization of AZ61 magnesium alloy
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6:6:10:2 Research on the dynamic recrystallization kinetics of Aermet100 steel
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6:6:10:3 Dynamic recrystallization kinetics of a powder metallurgy Ti-22Al-25Nb alloy during hot compression
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6:6:10:4 Hot workability characteristics of magnesium alloy AZ80-A study using processing map
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6:6:10:5 Dynamic recrystallization kinetics of 42CrMo steel during compression at different temperatures and strain rates
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6:6:10:6 Constitutive modeling of dynamic recrystallization kinetics and processing maps of Mg-2.0Zn-0.3Zr alloy based on true stress-strain curves
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6:6:10:7 Deformation and dynamic recrystallization behavior of a high Nb containing TiAl alloy
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6:6:10:8 Hot deformation behavior and processing map of as-cast AZ61 magnesium alloy
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6:6:10:9 A characterization for the dynamic recrystallization kinetics of as-extruded 7075 aluminum alloy based on true stress-strain curves
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6:6:10:10 Constitutive modeling for the dynamic recrystallization evolution of AZ80 magnesium alloy based on stress-strain data
DOI:10.1016/j.msea.2011.07.064 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:33 AU: Quan, Guo-Zheng;Shi, Yu;Wang, Yi-Xin;Kang, Beom-Soo;Ku, Tae-Wan;Song, Woo-Jin;
6:6:10:11 Dynamic recrystallization kinetics in alpha phase of as-cast Ti-6Al-2Zr-1Mo-1V alloy during compression at different temperatures and strain rates
DOI:10.1016/j.msea.2013.09.069 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:10 AU: Quan, Guo-zheng;Wu, Dong-sen;Luo, Gui-chang;Xia, Yu-feng;Zhou, Jie;Liu, Qing;Gao, Lin;
6:6:10:12 Constitutive equation and hot deformation behavior of homogenized Al-7.68Zn-2.12Mg-1.98Cu-0.12Zr alloy during compression at elevated temperature
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6:6:10:13 Dynamic recrystallization behavior of an as-cast TiAl alloy during hot compression
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6:6:10:14 A new kinetics model of dynamic recrystallization for magnesium alloy AZ31B
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6:6:10:15 A characterization for the flow behavior of 42CrMo steel
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6:6:10:16 Hot workability characteristics of as-cast titanium alloy Ti-6Al-2Zr-1Mo-1V: A study using processing map
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6:6:10:17 Dynamic recrystallization during hot compression of as-cast and homogenized noncombustible Mg-9Al-1Zn-1Ca (in mass%) alloys
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6:6:10:18 Identification for the optimal working parameters of as-extruded 42CrMo high-strength steel from a large range of strain, strain rate and temperature
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6:6:10:19 Microstructural evolution model of TA15 titanium alloy based on BP neural network method and application in isothermal deformation
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6:6:10:20 Hot compression behavior of the 1 wt% calcium containing Mg-8Al-0.5Zn (AZ80) alloy fabricated using electromagnetic casting technology
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6:6:10:21 Experimental study of hot deformation behavior in API X65 steel
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6:6:10:22 Multi-field coupled numerical simulation of microstructure evolution during the hot rolling process of GCr15 steel rod
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6:6:10:23 High temperature deformation behavior of Ti-46Al-2Cr-4Nb-0.2Y alloy
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6:6:10:24 Effects of Microstructure on Discharge Behavior of AZ91 Alloy as Anode for Mg-Air Battery
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6:6:10:25 Constitutive modeling of dynamic recrystallization kinetics and processing maps of Mg-2.0Zn-0.3Zr alloy based on true stress-strain curves (vol 560, pg 727, 2013)
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6:6:11:1 Flow stress prediction at hot working conditions
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6:6:11:2 Hot deformation behavior of a medium carbon microalloyed steel
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6:6:11:3 Characterization of hot deformation behavior of a new microalloyed C-Mn-Al high-strength steel
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6:6:11:4 Constitutive relationships for hot deformation of austenite
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6:6:11:5 Hot deformation and dynamic recrystallization of NiTi intermetallic compound
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6:6:11:6 Dynamic recrystallization behavior of a medium carbon vanadium microalloyed steel
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6:6:11:7 Effect of carbon content on hot deformation behaviors of vanadium microalloyed steels
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6:6:11:8 EBSD study of a hot deformed austenitic stainless steel
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6:6:11:9 Hot deformation behavior of austenitic stainless steel for a wide range of initial grain size
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6:6:11:10 Determination of critical conditions for dynamic recrystallization of a microalloyed steel
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6:6:11:11 Deformation behavior of Mg-8Al magnesium alloy compressed at medium and high temperatures
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6:6:11:12 Extrapolation of flow curves at hot working conditions
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6:6:11:13 Development of dynamic recrystallization maps based on the initial grain size
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6:6:11:14 Study on hot deformation behavior of carbon structural steel with flow stress
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6:6:11:15 Study on the behavior of medium carbon vanadium microalloyed steel by hot compression test
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6:6:11:16 The kinetics of dynamic recrystallization of Cu-0.4Mg alloy
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6:6:11:17 Rate-controlling mechanisms of hot deformation in a medium carbon vanadium microalloy steel
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6:6:11:18 Hot deformation behavior of austenite in HSLA-100 microalloyed steel
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6:6:11:19 The kinetics of dynamic recrystallization of a low carbon vanadium-nitride microalloyed steel
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6:6:11:20 The effect of processing parameters on the dynamic recrystallisation behaviour of API-X70 pipeline steel
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6:6:11:21 Determination of the critical conditions for the initiation of dynamic recrystallization in boron microalloyed steels
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6:6:11:22 Effect of particles on the dynamic recrystallization behavior of Al-V-N micro-alloyed medium carbon steel
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6:6:12:1 Structural stability, mechanical property and elastic anisotropy of TiAl-H system
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6:6:12:2 Effect of hydrogen treatment on solidification structures and mechanical properties of TiAl alloys
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6:6:12:3 Adsorption and diffusion of hydrogen on Ti, Al, and TiAl surfaces
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6:6:12:4 Effect of hydrogen on the superplasticity of Ti600 alloy
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6:6:12:5 The effect of hydrogen on phase transformation and mechanical properties of a beta containing gamma-TiAl based alloy
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6:6:12:6 Ab initio calculation of NbH phases with low H compositions
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6:6:12:7 Hydrogen solubility in molten TiAl alloys
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6:6:12:8 Effect of hydrogen on hot deformation behaviors of TiAl alloys
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6:6:12:9 Effect of hydrogen concentration on various properties of gamma TiAl
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6:6:12:10 Bulk metallic glass formation: The positive effect of hydrogen
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6:6:12:11 The influence of hydrogen absorption on the electrical resistivity and mechanical properties of Zr-based amorphous alloy
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6:6:12:12 Investigation of melt hydrogenation on the microstructure and deformation behavior of Ti-6Al-4V alloy
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6:6:12:13 Phase stability and mechanical properties of niobium dihydride
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6:6:12:14 Effect of 0.3 wt% hydrogen addition on the friction stir welding characteristics of Ti-6Al-4V alloy and mechanism of hydrogen-induced effect
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6:6:12:15 Gradient microstructure of TC21 alloy induced by hydrogen during hydrogenation
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6:6:12:16 Deoxidation of Ti-Al intermetallics via hydrogen treatment
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6:6:12:17 Characterization of hydrogen-induced structural changes in Zr-based bulk metallic glasses using positron annihilation spectroscopy
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6:6:12:18 Deoxidation of bulk metallic glasses by hydrogen arc melting
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6:6:12:19 Formation of alloys in the Ti-Nb system by hydride cycle method and synthesis of their hydrides in self-propagating high-temperature synthesis
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6:6:12:20 Strengthening versus softening mechanisms by hydrogen addition in beta-Ti40 alloy
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6:6:12:21 Ti3Al destructive hydrogenation
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6:6:12:22 Ti3Al recombination and detonation coats on its basis with improved characteristics
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6:6:13:1 Impacts of trace carbon on the microstructure of as-sintered biomedical Ti-15Mo alloy and reassessment of the maximum carbon limit
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6:6:13:2 The Influence of a Small Boron Addition on the Microstructure and Mechanical Properties of Ti-6Al-4V Fabricated by Metal Injection Moulding
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6:6:13:5 In situ synchrotron radiation to understand the pathways for the scavenging of oxygen in commercially pure Ti and Ti-6Al-4V by yttrium hydride
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6:6:13:6 Sintering of Ti-10V-2Fe-3Al and mechanical properties
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6:6:13:7 The effect of a small addition of nickel on the sintering, sintered microstructure, and mechanical properties of Ti-45Al-5Nb-0.2C-0.2B alloy
DOI:10.1016/j.jallcom.2013.05.104 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:1 AU: Xia, Y.;Schaffer, G. B.;Qian, M.;
6:6:13:8 The effect of lanthanum boride on the sintering, sintered microstructure and mechanical properties of titanium and titanium alloys
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6:6:13:9 A transmission electron microscopy and three-dimensional atom probe study of the oxygen-induced fine microstructural features in as-sintered Ti-6Al-4V and their impacts on ductility
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6:6:13:10 Facile mechanical alloying of titanium sponge
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6:6:13:11 Modification of the alpha-Ti laths to near equiaxed alpha-Ti grains in as-sintered titanium and titanium alloys by a small addition of boron
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6:6:13:12 The effect of Si additions on the sintering and sintered microstructure and mechanical properties of Ti-3Ni alloy
DOI:10.1016/j.msea.2011.06.029 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:10 AU: Yang, Y. F.;Luo, S. D.;Bettles, C. J.;Schaffer, G. B.;Qian, M.;
6:6:13:13 Cobalt-doped Ti-48Al-2Cr-2Nb alloy fabricated by cold compaction and pressureless sintering
DOI:10.1016/j.msea.2013.03.023 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:1 AU: Xia, Y.;Yu, R.;Schaffer, G. B.;Qian, M.;
6:6:13:14 The effect of a small addition of boron on the sintering densification, microstructure and mechanical properties of powder metallurgy Ti-7Ni alloy
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6:6:13:15 Mechanical alloying of titanium
DOI:10.1016/j.msea.2013.06.064 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:2 AU: Zadra, M.;
6:6:13:16 Study on compression deformation, damage and fracture behavior of TiAl alloys Part II. Fracture behavior
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6:6:13:17 The sintering densification, microstructure and mechanical properties of gamma Ti-48Al-2Cr-2Nb alloy with a small addition of copper
DOI:10.1016/j.msea.2012.08.100 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:5 AU: Xia, Y.;Luo, S. D.;Wu, X.;Schaffer, G. B.;Qian, M.;
6:6:13:18 Thermomechanical characterization of P/M Ti-Fe-Mo-Y alloy with a fine lamellar microstructure
DOI:10.1016/j.msea.2010.12.055 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:9 AU: Liu, B.;Li, Y. P.;Matsumoto, H.;Liu, Y. B.;Liu, Y.;Chiba, A.;
6:6:13:19 High-performance, low-cost titanium metal matrix composites
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6:6:13:20 Atomistic simulation of the deformation mechanism during nanoindentation of gamma titanium aluminide
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6:6:13:21 Use of spherical indentation technique for measurement of property variations of gamma TiAl
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6:6:13:22 Structural characterization of Ti-15Mo alloy used as biomaterial by Rietveld method
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6:6:13:23 A simple and inclusive method to determine the habit plane in transmission electron microscope based on accurate measurement of foil thickness
DOI:10.1016/j.matchar.2014.04.008 JN:MATERIALS CHARACTERIZATION PY:2014 TC:0 AU: Qiu, Dong;Zhang, Mingxing;
6:6:14:1 Microstructural evolution and constitutive relationship of Al-Zn-Mg alloy containing small amount of Sc and Zr during hot deformation based on Arrhenius-type and artificial neural network models
DOI:10.1016/j.jallcom.2013.09.036 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:8 AU: Li, Bo;Pan, Qinglin;Yin, Zhimin;
6:6:14:2 Hot deformation behavior and microstructural evolution of homogenized 7050 aluminum alloy during compression at elevated temperature
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6:6:14:3 Hot deformation behaviour and flow stress prediction of 7075 aluminium alloy powder compacts during compression at elevated temperatures
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6:6:14:4 Hot deformation behavior and workability characteristics of AZ91 magnesium alloy powder compacts-A study using processing map
DOI:10.1016/j.msea.2013.04.071 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:6 AU: Jabbari Taleghani, M. A.;Torralba, J. M.;
6:6:14:5 Hot workfability behavior of as-cast Mg-Zn-Y-Zr alloy
DOI:10.1016/j.msea.2013.11.014 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:8 AU: Chen, Qiang;Xia, Xiangsheng;Yuan, Baoguo;Shu, Dayu;Zhao, Zude;Han, Jiecai;
6:6:14:6 The correlation between flow behavior and microstructural evolution of 7050 aluminum alloy
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6:6:14:7 The flow behavior and constitutive equations in isothermal compression of 7050 aluminum alloy
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6:6:14:8 Influence of cooling rate after homogenization on the flow behavior of aluminum alloy 7050 under hot compression
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6:6:14:9 Microstructure evolution and mechanical properties of 7A09 high strength aluminium alloy processed by backward extrusion at room temperature
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6:6:14:10 Processing map and hot working mechanisms in a P/M TiAl alloy composite with in situ carbide and silicide dispersions
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6:6:14:11 Effect of heat treatment on hot deformation behavior and microstructure evolution of 7085 aluminum alloy
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6:6:14:12 Hot deformation behavior of AA7085 aluminum alloy during isothermal compression at elevated temperature
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6:6:14:13 A physical-based constitutive relation to predict flow stress for Cu-0.4Mg alloy during hot working
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6:6:14:14 Flow stress and ductility of AA7075-T6 aluminum alloy at low deformation temperatures
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6:6:14:15 Hot deformation behavior and processing maps for coiled tubing steel
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6:6:15:1 Effect of electroplastic rolling on deformability, mechanical property and microstructure evolution of Ti-6Al-4V alloy strip
DOI:10.1016/j.matchar.2014.10.026 JN:MATERIALS CHARACTERIZATION PY:2014 TC:5 AU: Ye, Xiaoxin;Tse, Zion T. H.;Tang, Guoyi;Song, Guolin;
6:6:15:2 Microstructure, properties and temperature evolution of electro-pulsing treated functionally graded Ti-6Al-4V alloy strip
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6:6:15:3 Effect of electropulsing treatment on the microstructure, texture, and mechanical properties of cold-rolled Ti-6Al-4V alloy
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6:6:15:4 Mechanism of electropulsing induced recrystallization in a cold-rolled Mg-9Al-1Zn alloy
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6:6:15:5 Co-effect of heat and direct current on growth of intermetallic layers at the interface of Ti-Ni diffusion couples
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6:6:15:6 Microstructure and texture evolution of the cold-rolled AZ91 magnesium alloy strip under electropulsing treatment
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6:6:15:7 Influence of electropulsing treatment on microstructure and mechanical properties of cold-rolled Mg-9Al-1Zn alloy strip
DOI:10.1016/j.msea.2011.03.095 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:12 AU: Jiang, Yanbin;Guan, Lei;Tang, Guoyi;Shek, Chanhung;Zhang, Zhihao;
6:6:15:8 Plasticity enhancement of Zr-based bulk metallic glasses by direct current electropulsing
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6:6:15:9 Properties, microstructure and texture evolution of cold rolled Cu strips under electropulsing treatment
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6:6:15:10 Effects of short time electric pulse heat treatment on microstructures and mechanical properties of hot-rolled Ti-6Al-4V alloy
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6:6:15:11 Effect of recovering damage and improving microstructure in the titanium alloy strip under high-energy electropulses
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6:6:15:12 Effect of electropulsing treatment on the microstructure and superelasticity of TiNi alloy
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6:6:15:13 High temperature deformation behavior of the TC6 titanium alloy under the uniform DC electric field
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6:6:15:14 Influence of electropulsing treatment on the recrystallization and texture of Ni9W alloy strip
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6:6:15:15 Effect of Electropulsing on Recrystallization of Fe-3%Si Alloy Strip
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6:6:15:16 Thermal and electromigration effects of electropulsing on dynamic recrystallization in Mg-3Al-1Zn alloy
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6:6:15:17 Ultrafine Al2O3-B4C composites consolidated by pulsed electric current sintering
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6:6:15:18 The effects of electropulsing on the recrystallization behavior of rolled pure tungsten
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6:6:15:19 Dislocation substructure evolution on Al creep under the action of the weak electric potential
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6:6:15:20 Deformability and structural features of shape memory TiNi alloys processed by rolling with current
DOI:10.1016/j.msea.2013.05.003 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:5 AU: Potapova, A. A.;Stolyarov, V. V.;
6:6:15:21 A unified internal state variable material model for inelastic deformation and microstructure evolution in SS304
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6:6:15:22 Effect of electropulse on solid solution treatment of 6061 aluminum alloy
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6:6:15:23 Structural relaxation and serrated flow due to annealing treatments in Zr-based metallic glasses
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6:6:15:24 Dynamic Electropulsing Induced Evolution of Basal Texture and Its Effect on Properties of Magnesium Alloy AZ61
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6:6:15:25 Microstructure evolution of copper strips with gradient temperature in electropulsing treatment
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6:6:16:1 Hot working behavior of 2205 austenite-ferrite duplex stainless steel characterized by constitutive equations and processing maps
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6:6:16:2 Hot deformation behavior and microstructural evolution of a superaustenitic stainless steel
DOI:10.1016/j.msea.2009.10.051 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:48 AU: Momeni, A.;Dehghani, K.;Keshmiri, H.;Ebrahimi, G. R.;
6:6:16:3 Dynamic recrystallization behavior of a superaustenitic stainless steel containing 16%Cr and 25%Ni
DOI:10.1016/j.msea.2011.05.081 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:39 AU: Ebrahimi, G. R.;Keshmiri, H.;Momeni, A.;Mazinani, M.;
6:6:16:4 On the constitutive modeling and microstructural evolution of hot compressed A286 iron-base superalloy
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6:6:16:5 Modeling the initiation of dynamic recrystallization using a dynamic recovery model
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6:6:16:6 Dynamic recrystallization and precipitation in low carbon low alloy steel 26NiCrMoV 14-5
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6:6:16:7 Hot working behavior of Fe-29Ni-17Co analyzed by mechanical testing and processing map
DOI:10.1016/j.msea.2012.05.048 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:12 AU: Abbasi, Seyed Mehdi;Momeni, Amir;
6:6:16:8 Law of mixture used to model the flow behavior of a duplex stainless steel at high temperatures
DOI:10.1016/j.matchemphys.2013.02.026 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2013 TC:7 AU: Momeni, A.;Dehghani, K.;Poletti, M. C.;
6:6:16:9 A study on hot deformation behavior of Ni-42.5Ti-7.5Cu alloy
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6:6:16:10 Dynamic recrystallization behavior and constitutive analysis of Incoloy 901 under hot working condition
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6:6:16:11 Mechanical and microstructural analysis of 2205 duplex stainless steel under hot working condition
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6:6:16:12 Constitutive equations for prediction of the flow behaviour of duplex stainless steels
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6:6:16:13 Microstructure evolution at the onset of discontinuous dynamic recrystallization: A physics-based model of subgrain critical size
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6:6:16:14 Assessment of dynamic softening mechanisms in Allvac (R) 718Plus (TM) by EBSD analysis
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6:6:16:15 An electron backscattered diffraction study on the dynamic recrystallization behavior of a nickel-chromium alloy (800H) during hot deformation
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6:6:16:16 Study of hot deformation behaviour of 2205 duplex stainless steel through hot tension tests
DOI:10.1007/s10853-013-7307-8 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:5 AU: Faccoli, M.;Roberti, R.;
6:6:16:17 Hot working behavior of a nitrogen-alloyed Fe-18Mn-18Cr-N austenitic stainless steel
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6:6:16:18 Hot working behavior of 2205 austenite-ferrite duplex stainless steel characterized by constitutive equations and processing maps (vol 528, pg 1448, 2011)
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6:6:17:1 Experimental investigation and thermodynamic calculations of the Cu-In-Ni phase diagram
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6:6:17:2 The evolution of microstructure in Cu-8.0Ni-1.8Si-0.15Mg alloy during aging
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6:6:17:3 Experimental investigation of phase equilibria in the Cu-Ni-Si ternary system
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6:6:17:4 Phase transformations behavior in a Cu-8.0Ni-1.8Si alloy
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6:6:17:5 Effect of aluminum on microstructure and property of Cu-Ni-Si alloys
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6:6:17:7 Hot deformation behavior of Cu-8.0Ni-1.8Si-0.15Mg alloy
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6:6:17:12 Orientation and diffraction patterns of delta-Ni2Si precipitates in Cu-Ni-Si alloy
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6:6:17:13 Effects of dehydrogenation heat-treatment on electrical-mechanical properties for hydrogenated Cu-3 mass%Ti alloys
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6:6:17:14 Characterization of nano-structured Cu-6 wt.% Zr alloy produced by mechanical alloying and annealing methods
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6:6:17:15 Phase equilibria of the Cu-Ni-Si system at 700 degrees C
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6:6:17:16 Studies on thermal stability, mechanical and electrical properties of nano crystalline Cu99.5Zr0.5 alloy
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6:6:17:17 Extraction of precipitates from age-hardenable Cu-Ti alloys
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6:6:17:18 Hot deformation behavior and cold workability of Cu-12Mn-13Zn-1Sn-1Al-0.1Si-0.1Ce alloy with white chromaticity
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6:6:17:20 Effect of alloying elements on the electrochemical behavior of Cu-Ni-Zn ternary system in sulfide-polluted saltwater
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6:6:17:21 Effects of Dehydrogenation Heat-Treatment on Electrical-Mechanical Properties for Hydrogenated Cu-3mass%Ti Alloys (vol 566, pg 1, 2013)
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6:6:17:22 Friction stir processing of direct metal deposited copper-nickel 70/30
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6:6:17:23 Age-hardening behavior of a single-crystal Cu-ti alloy
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6:6:18:1 The microstructure and tensile properties of the Ti2AlC reinforced TiAl composites fabricated by powder metallurgy
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6:6:18:2 Microstructural and mechanical properties of dual Ti(3)A1C(2) -Ti2AlC reinforced TiAl composites fabricated by reaction hot pressing
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6:6:18:3 Effect of spark plasma sintering temperature on the microstructure and mechanical properties of a Ti2AlC/TiAl composite
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6:6:18:4 Synthesis of Ti2AlC by spark plasma sintering of TiAl-carbon nanotube powder mixture
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6:6:18:5 In situ synthesis of Ti2AlC-Al2O3/TiAl composite by vacuum sintering mechanically alloyed TiAl powder coated with CNTs
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6:6:18:7 Phase transitions and compression properties of Ti2AlC/TiAl composites fabricated by combustion synthesis reaction
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6:6:18:8 Microstructure Characterization and Mechanical Properties of In Situ Synthesized Ti2AlN/Ti48Al2Cr2Nb Composites
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6:6:18:10 Effect of B4C size on the fabrication and compression properties of in situ TiB2-Ti2AlC/TiAl composites
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6:6:18:11 Effects of Fe, Co and Ni elements on the ductility of TiAl alloy
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6:6:18:12 Comparative study of the compression properties of TiAl matrix composites reinforced with nano-TiB2 and nano-Ti5Si3 particles
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6:6:18:13 Microstructural characteristics and evolution of Ti2AlN/TiAl composites with a network reinforcement architecture during reaction hot pressing process
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6:6:18:14 Effect of Mn content on the microstructure and mechanical properties of (Ti,Mn)Al/Al2O3 in situ composites prepared by hot pressing
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6:6:18:15 Effect of Nb2O5 on the microstructure and mechanical properties of TiAl based composites produced by hot pressing
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6:6:18:18 Microstructural examination and properties of premixed Al-Cu-Mg powder metallurgy alloy
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6:6:18:19 Microstructure evolution and mechanical properties of TiB2/Cu composites processed by equal channel angular pressing at elevated temperature
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6:6:18:20 Properties and electronic structures of titanium aluminides-alumina composites from in-situ SHS process
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6:6:19:1 Atomic scale investigation of Cr precipitation in copper
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6:6:19:2 Effects of Zr and (Ni, Si) additions on properties and microstructure of Cu-Cr alloy
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6:6:19:4 Hot deformation behavior of Cu-0.6Cr-0.03Zr alloy during compression at elevated temperatures
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6:6:19:6 Enhanced strength and electrical conductivity of Cu-Zr-B alloy by double deformation-aging process
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6:6:19:13 Precipitation in a Cu- Cr- Zr- Mg alloy during aging
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6:6:19:14 Effect of tellurium on machinability and mechanical property of CuAlMnZn shape memory alloy
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6:6:20:1 In situ reaction synthesis of Ti-TiB composites containing high volume fraction of TiB by spark plasma sintering process
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6:6:20:3 Effect of Ti content and sintering temperature on the microstructures and mechanical properties of TiB reinforced titanium composites synthesized by SPS process
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6:6:20:4 Processing and characterization of fine-grained monolithic SiC ceramic synthesized by spark plasma sintering
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6:6:20:5 Field assisted sintering of SiC using extreme heating rates
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6:6:20:9 Thermal conductivity of Spark Plasma Sintered AlN ceramics with multiple components sintering additive
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6:6:20:13 Effect of TiB Whiskers Orientation on Mechanical Properties in an In Situ TiB/Ti-1100 Composite
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6:6:21:2 Development of constitutive relationship model of Ti600 alloy using artificial neural network
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6:6:21:3 Nucleation and growth mechanism of alpha-lamellae of Ti alloy TA15 cooling from an alpha plus beta phase field
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6:6:21:5 Determination of the influence of processing parameters on the mechanical properties of the Ti-6Al-4V alloy using an artificial neural network
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6:6:21:6 Modeling the correlation between microstructure and the properties of the Ti-6Al-4V alloy based on an artificial neural network
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6:6:21:7 Kinetics of orthorhombic martensite decomposition in TC21 alloy under isothermal conditions
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6:6:21:8 In-situ SEM observations of tensile deformation of the lamellar microstructure in TC21 titanium alloy
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6:6:21:9 Optimization of chemical composition for TC11 titanium alloy based on artificial neural network and genetic algorithm
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6:6:21:10 An ANFIS model for the prediction of flow stress of Ti600 alloy during hot deformation process
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6:6:21:11 Investigation on the synthesis conditions at the interpore distance of nanoporous anodic aluminum oxide: A comparison of experimental study, artificial neural network, and multiple linear regression
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6:6:21:12 Predicting the mechanical properties of glass fiber reinforced polymers via artificial neural network and adaptive neuro-fuzzy inference system
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6:6:21:13 Prediction of welding-induced angular distortions in thin butt-welded plates using artificial neural networks
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6:6:22:1 Influence of alpha morphology and volume fraction on the stress-induced martensitic transformation in Ti-10V-2Fe-3Al
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6:6:22:2 Mechanical response and effects of beta-to-alpha '' phase transformation on the strengthening of Ti-10 V-2 Fe-3 Al during one-dimensional shock loading
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6:6:22:3 Effect of shock-induced martensite transformation on the postshock mechanical response of metastable beta titanium alloys
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6:6:22:4 Effect of strain rate on stress-induced martensitic formation and the compressive properties of Ti-V-(Cr,Fe)-Al alloys
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6:6:22:5 On the behaviour of the magnesium alloy, AZ61 to one-dimensional shock loading
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6:6:22:6 Shock-induced mechanical response and spall fracture behavior of an extra-low interstitial grade Ti-6Al-4V alloy
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6:6:22:7 Tuning the stress induced martensitic formation in titanium alloys by alloy design
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6:6:22:8 The effect of strain rate on trigger stress for stress-induced martensitic transformation and yield strength in Ti-18Al-8Nb alloy
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6:6:22:9 Enhancement of athermal alpha '' martensitic transformation in Ti-10V-2Fe-3Al alloy due to high-speed hot deformation
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6:6:22:10 Effect of strain rate on quasistatic tensile flow behaviour of solution annealed 304 austenitic stainless steel at room temperature
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6:6:22:11 The role of aging on the mechanical and microstructural response of aluminum 6061 to one-dimensional shock loading
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6:6:22:12 The effect of metastability on room temperature deformation behavior of beta and alpha plus beta titanium alloys
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6:6:22:13 On the correlation between macrozones and twinning in Ti-6Al-4V at very high strain rates
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6:6:22:14 Influence of strain rate on stress induced martensitic transformation in beta solution treated TB8 alloy
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6:6:23:1 Hot deformation behavior and processing map of a powder metallurgy Ti-22Al-25Nb alloy
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6:6:23:2 Tensile deformation behavior of Ti-22Al-25Nb alloy at elevated temperatures
DOI:10.1016/j.msea.2012.07.036 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:9 AU: Lin, Peng;He, Zhubin;Yuan, Shijian;Shen, Jun;
6:6:23:3 Dynamic globularization kinetics of a powder metallurgy Ti-22Al-25Nb alloy with initial lamellar microstructure during hot compression
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6:6:23:4 In-situ precipitated network structure and high-temperature compressive behavior of Nb-Ti-C-B composites
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6:6:23:5 Microstructure and mechanical properties of Ti-22Al-25Nb alloy fabricated by vacuum hot pressing sintering
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6:6:23:6 Improvement of room temperature ductility for Mo and Fe modified Ti2AlNb alloy
DOI:10.1016/j.msea.2010.09.003 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:6 AU: Emura, Satoshi;Tsuzaki, Kaneaki;Tsuchiya, Koichi;
6:6:23:7 The theoretical investigations of the core structure and the Peierls stress of the 1/2 < 1 1 1 >{110} edge dislocation in Mo
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6:6:23:8 Microstructure and mechanical properties of laser welded Ti-22Al-27Nb/TC4 dissimilar alloys
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6:6:23:9 Quantitative analysis on microstructure evolution and tensile property for the isothermally forged Ti2AlNb based alloy during heat treatment
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6:6:23:10 Microstructural evolution, creep, and tensile behavior of a Ti-22A1-25Nb (at%) orthorhombic alloy
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6:6:23:11 Mechanical alloying, microstructure and properties of Nb-16Si alloy
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6:6:24:1 Thermodynamic modeling of the Ti-Al-Cr ternary system
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6:6:24:2 Microstructure, mechanical properties, hot deformation and oxidation behavior of Ti-45Al-5.4V-3.6Nb-0.3Y alloy
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6:6:24:3 Hot workability of as-cast Ti-45Al-5.4V-3.6Nb-0.3Y alloy
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6:6:24:4 Achieving high strength and low cost for hot-forged TiAl based alloy containing beta phase
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6:6:24:5 Microstructure characterization and tensile properties of beta phase containing TiAl pancake
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6:6:24:6 Influence of raw material selection and fabrication parameters on microstructure and properties of micro-laminated TiB2-TiAl composite sheets
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6:6:24:7 High temperature deformability and microstructural evolution of Ti-47Al-2Cr-0.2Mo alloy
DOI:10.1016/j.jallcom.2010.06.124 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:14 AU: Li, Huizhong;Li, Zhou;Zhang, Wei;Wang, Yan;Liu, Yong;Wang, Haijun;
6:6:24:8 Superplasticity of a gamma-TiAl alloy and its microstructure and cavity evolution in deformation
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6:6:24:9 Low-temperature superplasticity of forged Ti-43Al-4Nb-2Mo-0.5B alloy
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6:6:24:10 Phase equilibria at 1473 K in the ternary Al-Cr-Ti system
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6:6:24:11 Microstructure and mechanical properties of TiAl alloys produced by rapid heating and open die forging of blended elemental powder compacts
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6:6:24:12 Microstructure control and mechanical properties of Ti44Al6Nb1.0Cr2.0V alloy by cold crucible directional solidification
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6:6:24:13 Microstructure characterization and mechanical behaviors of a hot forged high Nb containing PM-TiAl alloy
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6:6:24:14 Constitution of the liquidus and solidus surfaces of the Al-Ti-Cr system
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6:6:24:15 Dendrite core grain refining and interdendritic coarsening behaviour in W-containing gamma-TiAl based alloys
DOI:10.1016/j.jallcom.2012.10.059 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:6 AU: Sun, H. L.;Huang, Z. W.;Zhu, D. G.;Jiang, X. S.;
6:6:24:16 Effects of extrusion deformation on microstructure, mechanical properties and hot workability of beta containing TiAl alloy
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6:6:24:17 Severe plastic deformation and hydrogenation of the titanium aluminides
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6:6:24:18 Effect of silver addition in gamma titanium aluminide
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6:6:24:19 Calculation of phase equilibria in Ti-Al-Cr-Mn quaternary system for developing lower cost titanium alloys
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6:6:25:1 Microstructure characterization of nanocrystalline TiC synthesized by mechanical alloying
DOI:10.1016/j.matchemphys.2009.11.048 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2010 TC:20 AU: Ghosh, B.;Pradhan, S. K.;
6:6:25:2 Mechanosynthesis of nanocrystalline titanium nitride and its microstructure characterization
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6:6:25:3 Mechanosynthesis of nanocrystalline Ti0.9C0.1N at room temperature and its microstructural aspects
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6:6:25:4 Microstructural evolution of nanostructured Ti0.9Al0.1N prepared by reactive ball-milling
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6:6:25:5 Ultrafast one step mechanosynthesis of nanocrystalline cubic Ti0.9Si0.1B and its microstructure characterization
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6:6:25:6 Preparation of ternary Ti0.9Ni0.1C cermets by mechanical alloying: Microstructure characterization by Rietveld method and electron microscopy
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6:6:25:7 One-step mechanosynthesis of nano structured Ti(CxN1-x) cermets at room temperature and their microstructure characterization
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6:6:25:8 Microstructure and optical characterizations of mechanosynthesized nanocrystalline (Ti0.9Si0.1)N
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6:6:25:9 XRD and HRTEM characterization of mechanosynthesized Ti0.9W0.1C cermet
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6:6:25:10 Microstructural evolution of nanostructured Ti0.7Ni0.3N prepared by reactive ball-milling
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6:6:25:11 Microstructure and optical characterization of CdTe quantum dots synthesized in a record minimum time
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6:6:25:12 Rapid solidification and phase stability evaluation of Ti-Si-B alloys
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6:6:25:13 Formation and growth mechanism of TiC terraces during self-propagating high-temperature synthesis from a Fe-Ti-C system
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6:6:25:14 The formation mechanism of mechanically alloyed Fe-20 at% Al powder
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6:6:25:15 Fabrication and structural properties of porous Cu-YSZ cermets for solid oxide fuel cells
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6:6:26:1 Microstructure evolution and tensile properties of Ti-6.5Al-2Zr-Mo-V alloy processed with thermo hydrogen treatment
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6:6:26:2 Strain rate sensitivity and strain hardening exponent during the isothermal compression of Ti60 alloy
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6:6:26:3 Effects of hydrogen on the hot deformation behaviour of Ti-6Al-4V alloy: Experimental and constitutive model studies
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6:6:26:4 Effect of hydrogen on fracture behavior of Ti-6Al-4V alloy by in-situ tensile test
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6:6:26:5 Effect of thermo hydrogen treatment on lattice defects and microstructure refinement of Ti6Al4V alloy
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6:6:26:6 Influence of hydrogen content on hot deformation behavior and microstructural evolution of Ti600 alloy
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6:6:26:7 Hydrogen induced softening mechanism in near alpha titanium alloy
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6:6:26:8 Effects of hydrogen addition on the high temperature deformation behavior of TC21 titanium alloy
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6:6:26:9 The optical micrographs and texture of the hydrogenated Ti60 titanium alloy by the equal-channel angular pressing
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6:6:26:10 Effect of hydrogen on the beta transus temperature of TC21 alloy
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6:6:26:11 Effect of hydrogen addition on the microstructure of TC21 alloy
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6:6:26:12 Reversible hydrogen absorption in a Ti-6Al-4V alloy produced by mechanical alloying
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6:6:27:1 Fundamental influence of hydrogen on various properties of alpha-titanium
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6:6:27:2 Effects of tritium content on lattice parameter, He-3 retention, and structural evolution during aging of titanium tritide
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6:6:27:3 Hydrogen behavior in nanocrystalline titanium thin films
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6:6:27:5 Structural stability, mechanical property and phase transition of the Ti-H system
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6:6:27:6 The influence of films thickness on hydrogenation behavior of titanium thin films
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6:6:27:8 Neutron generation via the mechanism adsorption of pressurized deuterium on an electron deficient titanium matrix. An MD-DFT combined analysis on the mechanism of the Ti-D bond formation
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6:6:27:9 Hydrogen-sorption and thermodynamic characteristics of mechanically grinded TiH19 as studied using thermal desorption spectroscopy
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6:6:27:10 First-Principles Study on Alloying Effect on the Migration Barrier of He in Titanium Ditritide
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6:6:27:12 The effect of residual hydrogen on hydrogenation behavior of titanium thin films
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6:6:27:13 Thermodynamics approach to the hydrogen diffusion and phase transformation in titanium particles
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6:6:28:2 Influence of thermal exposure on the tensile properties and microstructures of Ti60 titanium alloy
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6:6:28:3 Effect of thermal exposure on microstructure and tensile properties of laser deposited Ti60A alloy
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6:6:28:4 The effect of heat treatment on thermal stability of Ti matrix composite
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6:6:28:5 Room temperature fracture processes of a near-alpha titanium alloy following elevated temperature exposure
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6:6:28:6 Life prediction under tension of titanium alloys that develop an oxygenated brittle case during use
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6:6:28:8 Oxidation behavior and effect of oxidation on tensile properties of Ti60 alloy
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6:6:28:10 Estimation of grain boundary diffusivity in near-alpha titanium polycrystals
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6:6:28:11 Role of grain boundaries in the high temperature performance of a highly stabilized beta titanium alloy I: Thermal stability
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6:6:28:12 Oxidation behavior and effect of oxidation on microstructure and tensile properties of Ti-5Al-5Mo-5V-1Cr-1Fe alloy
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6:6:28:13 Microstructure and oxidation behaviors of near-alpha Ti-6.5Al-4Sn-4Zr-0.5Mo-based alloys with Ir addition
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6:6:28:14 Influence of orientation and temperature on the fatigue crack growth of a nickel-based directionally solidified superalloy
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6:6:29:2 High temperature mechanical properties of a laser melting deposited TiC/TA15 titanium matrix composite
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6:6:29:3 High-temperature tensile strengths of in situ synthesized TiC/Ti-alloy composites
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6:6:29:5 Temperature dependence of fracture behavior of in situ synthesized TiC/Ti-alloy matrix composite
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6:6:29:6 A modified Johnson-Cook model for titanium matrix composites reinforced with titanium carbide particles at elevated temperatures
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6:6:29:7 The effect of heat treatment on mechanical properties of in situ synthesized 7715D titanium matrix composites
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6:6:29:8 The microstructure and properties of (FeCrNiCo)AlxCuy high-entropy alloys and their TiC-reinforced composites
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6:6:30:1 The effect of cooling rates on the microstructure and mechanical properties of thermo-mechanically processed Ti-Al-Mo-V-Cr-Fe alloys
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6:6:30:2 Microstructure evolution and alloying elements distribution between the phases in powder near-beta titanium alloys during thermo-mechanical processing
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6:6:30:3 Hot deformation mechanism and microstructure evolution of a new near beta titanium alloy
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6:6:30:4 The effect of ageing on microstructure and mechanical properties of powder Ti-5Al-5Mo-5V-1Cr-1Fe alloy
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6:6:30:6 Recrystallisation in a cold drawn low cost beta titanium alloy during rapid resistance heating
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6:6:30:7 Beta grain growth behaviour of TG6 and Ti17 titanium alloys
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6:6:30:8 Microstructure and microhardness of heat-treated Ti-6Al-2Sn-4Zr-6Mo alloy
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6:6:30:9 Shape memory characteristics and mechanical properties of high-density powder metal TiNi with post-sintering heat treatment
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6:6:30:10 Diffusion of Alummum in beta-Titanium
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6:6:31:2 Removal of MnS inclusions in molten steel using electropulsing
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6:6:31:3 Recent advances and challenges in electroplastic manufacturing processing of metals
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6:6:31:4 Improvement of formability of Mg-3Al-1Zn alloy strip by electroplastic-differential speed rolling
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6:6:31:5 Electric current-driven migration of electrically neutral particles in liquids
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6:6:31:6 Electropulse-induced cementite nanoparticle formation in deformed pearlitic steels
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6:6:31:7 Accelerated spheroidization induced by high intensity electric pulse in a severely deformed eutectoid steel
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6:6:31:8 Experimental study of electrical resistivity and flow stress of stainless steel 316L in electroplastic deformation
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6:6:31:9 Electric current-induced annealing during uniaxial tension of aluminum alloy
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6:6:31:10 Effect of thermo-electropulsing rolling on mechanical properties and microstructure of AZ31 magnesium alloy
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6:6:31:11 Accumulation and annihilation effects of electropulsing on dynamic recrystallization in magnesium alloy
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6:6:31:12 Experimental study of Electro-Plastic Effect on Advanced High Strength Steels
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6:6:31:13 Microscopic mechanism and numerical calculation of electroplastic effect on metal's flow stress
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6:6:31:14 Influence of grain size and grain boundaries on the thermal and mechanical behavior of 70/30 brass under electrically-assisted deformation
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6:6:32:1 The modelling of dynamic recrystallization in the isothermal compression of 300M steel
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6:6:32:2 The growth behavior of austenite grain in the heating process of 300M steel
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6:6:32:3 The deformation behavior in isothermal compression of 300M ultrahigh-strength steel
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6:6:32:4 The study on kinetics of static recrystallization in the two-stage isothermal compression of 300M steel
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6:6:32:5 The metadynamic recrystallization in the two-stage isothermal compression of 300M steel
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6:6:32:6 Development of processing map coupling grain size for the isothermal compression of 300 M steel
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6:6:32:7 Modelling post-deformation softening kinetics of 304 austenitic stainless steel using cellular automata
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6:6:32:8 Effect of grain size in compression deformation on the microstructural evolution of an austenitic stainless steel
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6:6:32:9 Effect of microstructure and grain size on the fracture toughness of a micro-alloyed steel
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6:6:32:10 The study of crack-propagation behaviors and dislocation structures in cyclically deformed polycrystalline IF steel
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6:6:33:1 Mechanical properties of Ti-(SiCp/Al) laminated composite with nano-sized TiAl3 interfacial layer synthesized by roll bonding
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6:6:33:2 Wide stacking fault of aluminum for multilayered TiB2/Al-Ni composite by roll bonding process
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6:6:33:3 Fabrication of fully dense TiAl-based composite sheets with a novel microlaminated microstructure
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6:6:33:4 Mechanical properties of (Ti2AlC+Ti3AlC)-TiAl ceramic-intermetallic laminate (CIL) composites
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6:6:33:5 Growth kinetics of TiAl3 layer in multi-laminated Ti-(TiB2/Al) composite sheets during annealing treatment
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6:6:33:7 Microstructure and tensile behavior of Cu-Al multi-layered composites prepared by plasma activated sintering
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6:6:34:1 Microstructure evolution of different loading zones during TA15 alloy multi-cycle isothermal local forging
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6:6:34:2 Quantitative characterization of lamellar and equiaxed alpha phases of (alpha plus beta) titanium alloy using a robust approach for touching features splitting
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6:6:34:3 Effect of deformation inhomogeneity on the microstructure and mechanical properties of large-scale rib-web component of titanium alloy under local loading forming
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6:6:34:4 Ti-based nanostructured low-alloy with high strength and ductility
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6:6:34:5 Microstructure evolution of the transitional region in isothermal local loading of TM15 titanium alloy
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6:6:34:6 Dependence of microstructure morphology on processing in subtransus isothermal local loading forming of TA15 titanium alloy
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6:6:34:7 Microstructural features of TA15 titanium alloy under different temperature routes in isothermal local loading forming
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6:6:34:8 Reconstruction of random two-phase polycrystalline solids using low-order probability functions and evaluation of mechanical behavior
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6:6:34:9 Coarsening behavior of lamellar orthorhombic phase and its effect on tensile properties for the Ti-22Al-25Nb alloy
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6:6:35:1 Effect of electrical pulse on the precipitates and material strength of 2024 aluminum alloy
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6:6:35:2 The effect of high-pressure torsion on the behaviour of intermetallic particles present in Al-1Mg and Al-3Mg
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6:6:35:3 Modelling differential scanning calorimetry curves of precipitation in Al-Cu-Mg
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6:6:35:4 Comments on "Modelling differential scanning calorimetry curves of precipitation in Al-Cu-Mg"
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6:6:35:5 Effect of aging treatment on the microstructure and mechanical properties of the similar and dissimilar 6061-T6/7075-T651 RSW joints
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6:6:35:6 Influence of tube spinning on formability of friction stir welded aluminum alloy tubes for hydroforming application
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6:6:35:7 Thermo-kinetic prediction of metastable and stable phase precipitation in Al-Zn-Mg series aluminium alloys during non-isothermal DSC analysis
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6:6:35:8 Reply to "Comments on 'Modelling differential scanning calorimetry curves of precipitation in Al-Cu-Mg" by MJ Starink and S. Wang
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6:6:35:9 Microstructure simulation and ballistic behaviour of weld zones in friction stir welds in high strength aluminium 7xxx plate
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6:6:35:10 Small angle X-ray scattering study of the strengthen mechanism of Al-Mg-Li alloy during retrogression and reaging treatment
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6:6:36:1 Self-assembled, aligned TiC nanoplatelet-reinforced titanium composites with outstanding compressive properties
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6:6:36:2 Al stabilized TiC twinning platelets
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6:6:36:3 Very strong pure titanium by field assisted hot pressing of dual phase powders
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6:6:36:4 A novel Ni2AlTi-containing composite with excellent wear resistance and anomalous flexural strength
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6:6:36:5 One step quickest mechanosynthesis of nanocrystalline Ti0.9Si0.1C and its microstructure characterization
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6:6:36:6 The reciprocating wear behaviour of TiC-304L stainless steel composites prepared by melt infiltration
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6:6:36:7 The sliding wear of TiC and Ti(C,N) cermets prepared with a stoichiometric Ni3Al binder
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6:6:37:1 The rapid solidification processing of materials: science, principles, technology, advances, and applications
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6:6:37:2 Mechanical properties and thermal stability of Al-Fe-Ni alloys prepared by centrifugal atomisation and hot extrusion
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6:6:37:3 The influence of the laser scan strategy on grain structure and cracking behaviour in SLM powder-bed fabricated nickel superalloy
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6:6:37:4 Experimental studies on process-induced morphological characteristics of macro- and microstructures in laser consolidated alloys
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6:6:37:5 Modeling constrained dendrite growth in rapidly directional solidification
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6:6:37:6 Process-induced microstructural characteristics of laser consolidated IN-738 superalloy
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6:6:37:7 Microstructure evolution in undercooled Al-8 wt%Fe melts: Comparison between terrestrial and parabolic flight conditions
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6:6:37:8 A study on the composition optimization and mechanical properties of Al-Mg-Si cast alloys
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6:6:38:1 Texture inheritance and variant selection through an hcp-bcc-hcp phase transformation
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6:6:38:2 Effect of beta grain growth on variant selection and texture memory effect during alpha -> beta -> alpha phase transformation in Ti-6 Al-4 V
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6:6:38:3 The effect of beta phase on microstructure and texture evolution during thermomechanical processing of alpha plus beta Ti alloy
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6:6:38:4 In situ neutron diffraction study of texture evolution and variant selection during the alpha -> beta -> alpha phase transformation in Ti-6Al-4V
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6:6:38:5 The influence of rolling temperature on texture evolution and variant selection during alpha -> beta -> alpha phase transformation in Ti-6Al-4V
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6:6:38:6 The effect of beta grain coarsening on variant selection and texture evolution in a near-beta Ti alloy
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6:6:38:7 Load partitioning and evidence of deformation twinning in dual-phase fine-grained Zr-2.5%Nb alloy
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6:6:38:8 Evolution of internal strains in a two phase zirconium alloy during cyclic loading
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6:6:38:9 Deformation of high beta-phase fraction Zr-Nb alloys at room temperature
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6:6:39:1 Deformation behavior of an Al-Cu-Mg-Mn-Zr alloy during hot compression
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6:6:39:2 High temperature deformation behavior of Al-Cu-Mg alloys micro-alloyed with Sn
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6:6:39:3 Deformation behavior of spray-formed hypereutectic Al-Si alloys
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6:6:39:4 Effect of Zr addition on hot deformation behavior and microstructural evolution of AA7150 aluminum alloy
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6:6:39:5 Effect of vanadium on hot deformation and microstructural evolution of 7150 aluminum alloy
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6:6:39:6 Flow behaviour of Nickel Aluminium Bronze under hot deformation
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6:6:40:1 Enhancement of ductility, weakening of anisotropy behavior and local recrystallization in cold-rolled Ti-6Al-4V alloy strips by high-density electropulsing treatment
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6:6:40:2 Effect of High-Density Electric Current on the Microstructure and Fatigue Crack Initiation of Stainless Steel
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6:6:40:3 Surface tension measurement of metastable liquid Ti-Al-Nb alloys
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6:6:40:4 Specific heat measurement of stable and metastable liquid Ti-Al alloys
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6:6:40:5 Microstructure and mechanical properties of AZ61 alloys with large cross-sectional size fabricated by multi-pass ECAP
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6:6:40:6 Effect of mode of deformation by rolling on texture evolution and yield locus anisotropy in a multifunctional beta titanium alloy
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6:6:40:7 A new approach to incorporating the effect of nano-sized dispersoids on recrystallization inhibition into Monte Carlo simulation
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6:6:40:8 Simulation of transient-state recrystallization of Al-4.5Mg-1Zn alloy after hot deformation
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6:6:40:9 Quantification of local and global elastic anisotropy in ultrafine grained gradient microstructures, produced by linear flow splitting
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6:6:40:11 Coil optimization for electromagnetic levitation using a genetic like algorithm
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6:6:40:12 The effect of deformation texture on the thermal stability of UFG HSLA steel
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6:6:40:13 Fatigue crack healing by a controlled high density electric current field
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6:6:41:1 Diffusion bonding of gamma-TiAl using modified Ti/Al nanolayers
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6:6:41:4 Effects of ductile phase volume fraction on the mechanical properties of Ti-Al3Ti metal-intermetallic laminate (MIL) composites
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6:6:41:5 Effect of hydrogen on diffusion bonding of TiAl-based intermetallics and Ni-based superalloy using hydrogenated Ti6Al4V interlayer
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6:6:41:6 Joining of Ti3SiC2 by Magnetron Sputtering a Layer of Cu or Zr Followed by Heat Treating at Relatively Low Temperatures
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6:6:41:7 Microstructure and oxidation behavior of NiCoCrAl/YSZ microlaminates produced by EB-PVD
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6:6:41:8 NiCoCrAl/YSZ laminate composites fabricated by EB-PVD
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6:6:41:10 Mechanical properties and deformation behavior of laminated Ni-(Ni2Al3+NiAl3) and Ni-(Ni3Al+NiAl) composites
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6:6:41:11 Surface strengthening of Ti3SiC2 through magnetron sputtering of Mo and Zr and subsequent annealing
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6:6:42:2 Microstructural and mechanical characterization of an ultra-high-strength Fe86.7Cr4.4Mo0.6V1.1W2.5C4.7 alloy
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6:6:42:3 The effect of boron on microstructure and mechanical properties of high-strength cast FeCrVC
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6:6:42:4 High strain rate behavior, transformation-induced plasticity and fracture toughness characterization of cast and additionally tempered Fe85Cr4Mo8V2C1 alloy manufactured using a rapid solidification technique
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6:6:42:5 Transformation-induced plasticity in Fe-Cr-V-C
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6:6:42:6 Microstructure, thermal, and mechanical characterization of rapidly solidified high strength Fe84.3Cr4.3Mo4.6V2.2C4.6
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6:6:42:7 Fatigue crack propagation and in-situ observations in three tool steel alloys manufactured using a rapid solidification technique
DOI:10.1007/s10853-013-7327-4 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:0 AU: Ruessel, M.;Mottitschka, T.;Martin, S.;Krueger, L.;Kreuzer, W.;
6:6:42:8 Deformation behavior of high strength X210CrW12 steel after semi-solid processing
DOI:10.1016/j.msea.2014.01.099 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Rogal, Lukasz;Dutkiewicz, Jan;
6:6:42:9 Improved tool wear properties in sheet metal forming using Carbide Steel, a novel abrasion resistant cast material
DOI:10.1016/j.wear.2011.01.083 JN:WEAR PY:2011 TC:5 AU: Nilsson, A.;Kirkhorn, L.;Andersson, M.;Stahl, J. -E.;
6:6:42:10 Effect of short-term tempering on microstructure and mechanical properties of high-strength FeCrMoVC (vol 60, pg 4468, 2012)
DOI:10.1016/j.actamat.2013.08.058 JN:ACTA MATERIALIA PY:2013 TC:0 AU: Hufenbach, J.;Giebeler, L.;Hoffmann, M.;Kohlar, S.;Kuehn, U.;Gemming, T.;Oswald, S.;Eigenmann, B.;Eckert, J.;
6:6:43:1 Electron backscatter diffraction analysis of the crack development induced by uniaxial tension in commercially pure titanium
DOI:10.1016/j.msea.2014.08.028 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Tesar, K.;Jaeger, A.;
6:6:43:2 Effect of cooling rate on microstructure evolution during alpha/beta heat treatment of TA15 titanium alloy
DOI:10.1016/j.matchar.2012.05.009 JN:MATERIALS CHARACTERIZATION PY:2012 TC:16 AU: Zhu, S.;Yang, H.;Guo, L. G.;Fan, X. G.;
6:6:43:3 Effect of the cooling rate on the phase transformation of Astaloy CrL powders modified with SiC addition
DOI:10.1016/j.apt.2013.09.001 JN:ADVANCED POWDER TECHNOLOGY PY:2014 TC:0 AU: Hebda, M.;Gadek, S.;Miernik, K.;Kazior, J.;
6:6:43:4 Effect of thermal exposure on the room temperature tensile properties of Grade 2 titanium
DOI:10.1016/j.msea.2011.01.086 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:5 AU: Dobeson, Richard;Petrazoller, Nicolas;Dargusch, Matthew;McDonald, Stuart;
6:6:43:5 Effects of Sc addition on the microstructure and tensile properties of Ti-6.6Al-5.5Sn-1.8Zr alloy
DOI:10.1016/j.matchemphys.2012.08.041 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:6 AU: Xiao, W. L.;Wu, S. Q.;Ping, D. H.;Murakami, H.;Yamabe-Mitarai, Y.;
6:6:43:6 Microstructure and oxidation behavior of Ti-6Al-2Zr-1Mo-1V-based alloys with Sc addition
DOI:10.1016/j.msea.2013.05.019 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: Xiao, W. L.;Ping, D. H.;Murakami, H.;Yamabe-Mitarai, Y.;
6:6:43:7 Effect of Zr and Si addition on high temperature mechanical properties of near-alpha Ti-Al-Zr-Sn based alloys
DOI:10.1016/j.msea.2014.06.078 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Jayaprakash, M.;Ping, D. H.;Yamabe-Mitarai, Y.;
6:6:43:8 Determination of Minimum Machining Depth After Heat Treatment of ASTM Grade 2 Titanium Alloy
DOI:10.1002/adem.201200106 JN:ADVANCED ENGINEERING MATERIALS PY:2012 TC:1 AU: Dobeson, Richard G.;McDonald, Stuart D.;Dargusch, Matthew S.;
6:6:43:9 Analysis of phase transformations during continuous cooling by the first derivative of dilatation in low carbon steels
DOI:10.1016/j.matchar.2011.11.014 JN:MATERIALS CHARACTERIZATION PY:2012 TC:1 AU: Park, Bong June;Choi, Jong Min;Lee, Kyung Jong;
6:6:43:10 Friction and wear characterization of sintered low alloyed chromium steels for structural components
DOI:10.1016/j.wear.2011.05.004 JN:WEAR PY:2011 TC:1 AU: Dizdar, Senad;Grosser, Heike;Engstrom, Ulf;
6:6:43:11 Crystallographic fatigue crack growth in titanium single crystals
DOI:10.1016/j.msea.2011.06.079 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:4 AU: Mine, Yoji;Ando, Shinji;Takashima, Kazuki;
6:6:44:1 Dynamic behaviour of 304 stainless steel during high Z deformation
DOI:10.1016/j.msea.2010.12.093 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:22 AU: Taylor, A. S.;Hodgson, P. D.;
6:6:44:2 The construction of constitutive model and identification of dynamic softening mechanism of high-temperature deformation of Ti-5Al-5Mo-5V-1Cr-1Fe alloy
DOI:10.1016/j.msea.2014.07.050 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:7 AU: Liang, Houquan;Guo, Hongzhen;Nan, Yang;Qin, Chun;Peng, Xiaona;Zhang, Jingli;
6:6:44:3 Dynamic recovery and dynamic recrystallization competition on a Nb- and N-bearing austenitic stainless steel biomaterial: Influence of strain rate and temperature
DOI:10.1016/j.msea.2013.06.037 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:7 AU: Souza, R. C.;Silva, E. S.;Jorge, A. M., Jr.;Cabrera, J. M.;Balancin, O.;
6:6:44:4 Hot deformation characteristics of a nitride strengthened martensitic heat resistant steel
DOI:10.1016/j.msea.2013.10.020 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:15 AU: Zhang, Wen-Feng;Li, Xiao-Li;Sha, Wei;Yan, Wei;Wang, Wei;Shan, Yi-Yin;Yang, Ke;
6:6:44:5 The post-deformation recrystallization behaviour of 304 stainless steel following high strain rate deformation
DOI:10.1016/j.msea.2011.09.013 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:6 AU: Taylor, A. S.;Hodgson, P. D.;
6:6:44:6 Effect of hot working on dynamic recrystallisation study of as-cast austenitic stainless steel
DOI:10.1016/j.msea.2012.07.050 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:3 AU: Mandal, Gopi K.;Stanford, Nicole;Hodgson, Peter;Beynon, John H.;
6:6:44:7 Static recrystallisation study of as-cast austenitic stainless steel
DOI:10.1016/j.msea.2013.03.076 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:0 AU: Mandal, Gopi K.;Stanford, Nicole;Hodgson, Peter;Beynon, John H.;
6:6:44:8 Analysis of deformation behavior and workability of advanced 9Cr-Nb-V ferritic heat resistant steels
DOI:10.1016/j.msea.2014.02.050 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Zhang, Wen Feng;Sha, Wei;Yan, Wei;Wang, Wei;Shan, Yi Yin;Yang, Ke;
6:6:44:9 Hot deformation behavior of an Nb- and N-bearing austenitic stainless steel biomaterial
DOI:10.1016/j.msea.2012.02.048 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:7 AU: Silva, E. S.;Sousa, R. C.;Jorge, A. M., Jr.;Balancin, O.;
6:6:45:1 Reactive spark plasma sintering (SPS) of nitride reinforced titanium alloy composites
DOI:10.1016/j.jallcom.2014.08.049 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:2 AU: Borkar, Tushar;Nag, Soumya;Ren, Yang;Tiley, Jaimie;Banerjee, Rajarshi;
6:6:45:2 Laser processing of in situ synthesized TiB-TiN-reinforced Ti6A14V alloy coatings
DOI:10.1016/j.scriptamat.2012.01.010 JN:SCRIPTA MATERIALIA PY:2012 TC:17 AU: Das, Mitun;Balla, Vamsi Krishna;Basu, Debabrata;Manna, Indranil;Kumar, T. S. Sampath;Bandyopadhyaya, Amit;
6:6:45:3 In situ nitridation of titanium-molybdenum alloys during laser deposition
DOI:10.1007/s10853-012-6656-z JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:2 AU: Borkar, Tushar;Gopagoni, Sundeep;Nag, Soumya;Hwang, J. Y.;Collins, Peter C.;Banerjee, Rajarshi;
6:6:45:4 Laser-deposited CoCrMo alloy: Microstructure, wear, and electrochemical properties
DOI:10.1557/jmr.2014.163 JN:JOURNAL OF MATERIALS RESEARCH PY:2014 TC:0 AU: Mantrala, Kedar M.;Das, Mitun;Balla, Vamsi K.;Rao, Ch. Srinivasa;Rao, V. V. S. Kesava;
6:6:45:5 Carbon nanotube reinforced Cu-10Sn alloy composites: Mechanical and thermal properties
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6:6:45:6 Laser processing of bulk Al-12Si alloy: influence of microstructure on thermal properties
DOI:10.1080/14786435.2010.526650 JN:PHILOSOPHICAL MAGAZINE PY:2011 TC:6 AU: Espana, Felix A.;Balla, Vamsi Krishna;Bandyopadhyay, Amit;
6:6:45:7 Wear mechanisms of TiN-TiB2 ceramic in sliding against alumina from room temperature to 700 degrees C
DOI:10.1016/j.ceramint.2010.05.019 JN:CERAMICS INTERNATIONAL PY:2010 TC:7 AU: Yang, Zhen-Lin;Ouyang, Jia-Hu;Liu, Zhan-Guo;Liang, Xue-Song;
6:6:45:8 Microstructural characterization of nitrided beta Ti-Mo alloys at 1400 degrees C
DOI:10.1016/j.matchar.2009.12.010 JN:MATERIALS CHARACTERIZATION PY:2010 TC:6 AU: Gordin, D. M.;Thibon, I.;Guillou, A.;Cornen, M.;Gloriant, T.;
6:6:45:9 Tribological and corrosion testing of surface engineered surgical grade CoCrMo alloy
DOI:10.1016/j.wear.2010.12.062 JN:WEAR PY:2011 TC:5 AU: Ortega-Saenz, J. A.;Hernandez-Rodriguez, M. A. L.;Ventura-Sobrevilla, V.;Michalczewski, R.;Smolik, J.;Szczerek, M.;
6:6:45:10 Biotribological study of multilayer coated metal-on-metal hip prostheses in a hip joint simulator
DOI:10.1016/j.wear.2013.01.024 JN:WEAR PY:2013 TC:3 AU: Ortega-Saenz, J. A.;Alvarez-Vera, M.;Hernandez-Rodriguez, M. A. L.;
6:6:46:1 Hot deformation behavior of 60Nitinol (Ni-60wt%-Ti-40wt%) alloy: Experimental and computational studies
DOI:10.1016/j.msea.2009.08.059 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:37 AU: Dehghani, K.;Khamei, A. A.;
6:6:46:2 A study on the hot workability of wrought NiTi shape memory alloy
DOI:10.1016/j.msea.2011.04.036 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:12 AU: Morakabati, M.;Kheirandish, Sh;Aboutalebi, M.;Taheri, A. Karimi;Abbasi, S. M.;
6:6:46:3 High-temperature deformation processing maps for a NiTiCu shape memory alloy
DOI:10.1557/jmr.2011.257 JN:JOURNAL OF MATERIALS RESEARCH PY:2011 TC:3 AU: Shastry, Vyasa V.;Maji, Bikas;Krishnan, Madangopal;Ramamurty, Upadrasta;
6:6:46:4 A study on the mechanical behavior and microstructural evolution of Ni-60wt%-Ti-40wt% (60Nitinol) intermetallic compound during hot deformation
DOI:10.1016/j.matchemphys.2010.04.010 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2010 TC:14 AU: Khamei, A. A.;Dehghani, K.;
6:6:46:5 The effect of Cu addition on the hot deformation behavior of NiTi shape memory alloys
DOI:10.1016/j.jallcom.2010.01.124 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:10 AU: Morakabati, M.;Kheirandish, Sh.;Aboutalebi, M.;Taheri, A. Karimi;Abbasi, S. M.;
6:6:46:6 A study on the mechanical behavior and microstructure of NiTiHf shape memory alloy under hot deformation
DOI:10.1016/j.msea.2012.09.039 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:8 AU: Belbasi, Majid;Salehi, Mohammad T.;Mousavi, Seyed Ali Asghar Akbari;Ebrahimi, Seyed Mohammad;
6:6:46:7 Hot forging design of as-cast NiTi shape memory alloy
DOI:10.1016/j.materresbull.2014.04.049 JN:MATERIALS RESEARCH BULLETIN PY:2014 TC:1 AU: Yeom, Jong-Taek;Kim, Jeoung Han;Hong, Jae-Keun;Kim, Seong Woong;Park, Chan-Hee;Nam, Tae Hyun;Lee, Kee-Young;
6:6:47:1 Enhancing tensile properties of ultrafine-grained medium-carbon steel utilizing fine carbides
DOI:10.1016/j.msea.2011.05.007 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:21 AU: Lee, Taekyung;Park, Chan Hee;Lee, Duk-Lak;Lee, Chong Soo;
6:6:47:2 Microstructure tailoring to enhance strength and ductility in Ti-13Nb-13Zr for biomedical applications
DOI:10.1016/j.scriptamat.2013.08.028 JN:SCRIPTA MATERIALIA PY:2013 TC:8 AU: Lee, Taekyung;Heo, Yoon-Uk;Lee, Chong Soo;
6:6:47:3 Tensile properties and work hardening behaviors of ultrafine grained carbon steel and pure iron processed by warm high pressure torsion
DOI:10.1016/j.msea.2013.05.008 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:7 AU: Ning, Jiang-li;Courtois-Manara, Eglantine;Kurmanaeva, Lilia;Ganeev, Artur V.;Valiev, Ruslan Z.;Kuebel, Christian;Ivanisenko, Yulia;
6:6:47:4 Internal-variable analysis of high-temperature deformation behavior of Ti-6Al-4V: A comparative study of the strain-rate-jump and load-relaxation tests
DOI:10.1016/j.msea.2012.11.023 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:5 AU: Lee, Taekyung;Kim, Jae Hyung;Semiatin, S. L.;Lee, Chong Soo;
6:6:47:5 Biological significance of nanograined/ultrafine-grained structures: Interaction with fibroblasts
DOI:10.1016/j.actbio.2010.01.034 JN:ACTA BIOMATERIALIA PY:2010 TC:9 AU: Misra, R. D. K.;Thein-Han, W. W.;Pesacreta, T. C.;Somani, M. C.;Karjalainen, L. P.;
6:6:47:6 Enhanced mechanical compatibility of submicrocrystalline Ti-13Nb-13Zr alloy
DOI:10.1016/j.msea.2010.04.057 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:9 AU: Park, Chan Hee;Park, Jin-Woo;Yeom, Jong-Taek;Chun, Young Soo;Lee, Chong Soo;
6:6:47:7 Quantitative analysis on the anisotropic behaviour of superplastic deformation in laser melted (LM) Ti-6Al-4V alloy
DOI:10.1016/j.msea.2011.10.085 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:1 AU: Kim, Ji Sik;Kibble, Kevin;Stanford, Mark;
6:6:48:1 High-temperature deformation behavior of Cu-6.0Ni-1.0Si-0.5Al-0.15 Mg-0.1Cr alloy
DOI:10.1007/s10853-012-6511-2 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:0 AU: Lei, Qian;Li, Zhou;Wang, Jing;Li, Si;Zhang, Liang;Dong, Qiyi;
6:6:48:2 Development and validation of a processing map for Aermet100 steel
DOI:10.1016/j.msea.2009.09.062 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:11 AU: Ji, Guoliang;Li, Fuguo;Li, Qinghua;Li, Huiqu;Li, Zhi;
6:6:48:3 Hot deformation behavior of mechanically alloyed Al6063/0.75Al(2)O(3)/0.75Y(2)O(3) nano-composite-A study using constitutive modeling and processing map
DOI:10.1016/j.msea.2012.01.109 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:12 AU: Ahamed, Hafeez;Senthilkumar, V.;
6:6:48:4 A critical analysis of plastic flow behaviour in axisymmetric isothermal and Gleeble compression testing
DOI:10.1016/j.commatsci.2010.07.016 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2010 TC:8 AU: Bennett, C. J.;Leen, S. B.;Williams, E. J.;Shipway, P. H.;Hyde, T. H.;
6:6:48:5 Coarsening of delta-Ni2Si precipitates in a Cu-Ni-Si alloy
DOI:10.1007/s10853-011-5261-x JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:4 AU: Watanabe, Chihiro;Monzen, Ryoichi;
6:6:48:6 A comparison of material models for the numerical simulation of spike-forging of a CrMoV alloy steel
DOI:10.1016/j.commatsci.2013.01.003 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:5 AU: Bennett, C. J.;
6:6:48:7 Prediction of hot deformation behavior of Al-5.9%Cu-0.5%Mg alloys with trace additions of Sn
DOI:10.1007/s10853-011-5873-1 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:3 AU: Banerjee, Sanjib;Robi, P. S.;Srinivasan, A.;
6:6:49:1 A method to determine main microstructural features influencing mechanical properties of two-phase titanium alloys
DOI:10.1016/j.msea.2014.05.086 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Shi, Zhifeng;Guo, Hongzhen;Qin, Chun;Liang, Houquan;Yao, Zekun;
6:6:49:2 The effect of microstructure on the mechanical properties of TC4-DT titanium alloys
DOI:10.1016/j.msea.2012.11.033 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:9 AU: Guo, Ping;Zhao, Yongqing;Zeng, Weidong;Hong, Quan;
6:6:49:3 Effect of deformation parameters on the precipitation mechanism of secondary alpha phase under high temperature isothermal compression of Ti-6A1-4V alloy
DOI:10.1016/j.msea.2010.03.024 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:9 AU: Yu, Weixin;Li, M. Q.;Luo, Jiao;
6:6:49:4 Effects of heat treatment and hot deformation on the secondary alpha phase evolution of TC8 titanium alloy
DOI:10.1016/j.msea.2014.06.056 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Wang, K.;Li, M. Q.;
6:6:49:5 Flow behavior and deformation mechanism in the isothermal compression of the TC8 titanium alloy
DOI:10.1016/j.msea.2014.02.002 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Wang, K.;Li, M. Q.;
6:6:49:6 Phase stability in the ternary Re-W-Zr system
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6:6:49:7 Morphology and crystallographic orientation of the secondary alpha phase in a compressed alpha/beta titanium alloy
DOI:10.1016/j.scriptamat.2013.02.048 JN:SCRIPTA MATERIALIA PY:2013 TC:5 AU: Wang, K.;Li, M. Q.;
6:6:49:8 Influence of processing parameters on microstructure and tensile properties of TG6 titanium alloy
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6:6:50:1 Post-deposition heat treatment of co-deposited Cr3C2 and AISI 410 stainless steel using the coaxial laser deposition technique
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6:6:50:2 Microstructural characterization of Co-based coating deposited by low power pulse laser cladding
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6:6:50:3 Microstructural characterization of AISI 431 martensitic stainless steel laser-deposited coatings
DOI:10.1007/s10853-010-5229-2 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:10 AU: Hemmati, I.;Ocelik, V.;De Hosson, J. Th. M.;
6:6:50:4 On the development of microstructures and residual stresses during laser cladding and post-heat treatments
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6:6:50:5 Microstructure and properties of laser clad coatings studied by orientation imaging microscopy
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6:6:50:6 Tantalum-modified Stellite 6 thick coatings: microstructure and mechanical performance
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6:6:50:7 An Advanced Fitting Method for Crystallographic and Morphological Analyses of EBSD Data Applied for Low-Carbon Steel Martensite
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6:6:51:1 Mechanism and kinetics of carbide dissolution in near alpha Ti-5.6Al-4.8Sn-2Zr-1Mo-0.35Si-0.7Nd titanium alloy
DOI:10.1016/j.matchar.2011.10.001 JN:MATERIALS CHARACTERIZATION PY:2011 TC:8 AU: Zhang, S. Z.;Li, M. M.;Yang, R.;
6:6:51:2 Tribological Behavior of Ti-5Al-2.5Sn, Ti-10V-2Fe-3Al and Ti-38Al Carburized via Current Heating Technique with Graphite Powders
DOI:10.2320/matertrans.M2014103 JN:MATERIALS TRANSACTIONS PY:2014 TC:0 AU: Boonruang, Chatdanai;Thong-on, Atcharawadi;
6:6:51:3 Mechanochemical synthesis of nano TiC powder by mechanical milling of titanium and graphite powders
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6:6:51:4 Selective dissolution of nanolamellar Ti-41 at.% Al alloy single crystals
DOI:10.1016/j.actamat.2010.01.016 JN:ACTA MATERIALIA PY:2010 TC:11 AU: Koizumi, Yuichiro;Sugihara, Atsushi;Tsuchiya, Hiroaki;Minamino, Yoritoshi;Fujimoto, Shinji;Yasuda, Hideyuki;Yoshiya, Masato;
6:6:51:5 Nanoplastic deformation on Ti-39 at.% Al single crystals for manipulation of every single gamma lamella
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6:6:51:6 Effects of plastic deformation on lamellar structure formation in Ti-39 at.% Al single crystals
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6:6:51:7 Microstructure and mechanical properties of a copper containing three phase titanium alloy
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6:6:53:8 Tensile creep behavior of heat-treated TC11 titanium alloy at 450-550 degrees C
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6:6:54:2 Study on hot deformation characteristics of 12%Cr ultra-super-critical rotor steel using processing maps and Zener-Hollomon parameter
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6:6:54:3 Investigation on hot deformation behavior of 00Cr23Ni4N duplex stainless steel under medium-high strain rates
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6:6:54:4 Processing maps for hot deformation of the extruded 7075 aluminum alloy bar: Anisotropy of hot workability
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6:6:54:6 Effects of crystal orientation on bendability of aluminum alloy sheet
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6:6:54:8 Effect of Texture on 0 degrees/180 degrees Earing in Deep Drawing of Aluminum Alloy Sheets
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6:6:55:1 Preparation of low oxygen content alloy powder from Ti binary alloy scrap by hydrogenation-dehydrogenation and deoxidation process
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6:6:55:4 Sintering mechanisms of blended Ti6Al4V powder from diffusion path analysis
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6:6:55:6 In situ synchrotron diffraction of the electrochemical reduction pathway of TiO2
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6:6:55:10 Sintering mechanisms of Armstrong prealloyed Ti-6Al-4V powders
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6:6:56:1 Metallurgical and mechanical properties of Ti-24Nb-4Zr-8Sn alloy fabricated by metal injection molding
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6:6:56:2 Sintered Ti-Fe alloys with in situ synthesized TiC dispersoids
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6:6:56:7 Effects of Chromium and Nitrogen Contents on Microstructural Changes in TiC Particles in (alpha plus beta)- and beta-Titanium Matrix Composites
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6:6:56:9 Effective two-step method for producing Ti-6Al-4V alloy particles with various morphologies
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6:6:57:1 Effect of solid solution of Si on mechanical properties of TiAl3 based on the multi-laminated Ti-(SiCp/Al) composite system
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6:6:57:2 Effect of cooling rate and Y element on the microstructure of rapidly solidified TiAl alloys
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6:6:57:8 Modelling the behaviour of titanium alloys at high temperature for gas turbine applications
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6:6:58:1 Structure-property correlation of a boron and carbon modified as cast beta titanium alloy
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6:6:58:2 On the correlation between the morphology of alpha and its crystallographic orientation relationship with TiB and beta in boron-containing Ti-5Al-5Mo-5V-3Cr-0.5Fe alloy
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6:6:58:4 Effect of boron and carbon addition on microstructure and mechanical properties of Ti-15-3 alloy
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6:6:59:1:2 Prediction of wear behaviors of nickel free stainless steel-hydroxyapatite bio-composites using artificial neural network
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6:6:59:1:4 Plastic deformation of 25CrMo4 steel during wear: Effect of the temperature, the normal force, the sliding velocity and the structural state
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6:6:59:1:5 Experimental and theoretical analysis of wear mechanism in hot-forging die and optimal design of die geometry
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6:6:59:1:6 Evaluation and prediction of wear response of pine wood dust filled epoxy composites using neural computation
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6:6:59:2:1 Prediction of flow curves and forming limit curves of Mg alloy thin sheets using ANN-based models
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6:6:59:2:3 Modelling of forming limit diagram of perforated commercial pure aluminium sheets using artificial neural network
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6:6:59:2:4 Determination of volume fraction of bainite in low carbon steels using artificial neural networks
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6:6:60:1:3 Application of the complex network method in solid-state sintering
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6:6:60:1:4 Viscoelastic discrete element model of powder sintering
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6:6:60:1:5 A universal scaling law of grain chain elasticity under pressure revealed by a simple force vibration method
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6:6:60:1:6 Ultrasonic monitoring of the elastic properties of PMMA bead packings and their rearrangement during pressure sintering
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6:6:60:2:1 Experimental analysis and finite element simulation of the co-sintering of bi-material components
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6:6:60:2:2 Influence of the sintering atmosphere on the tensile properties of MIM-processed Ti 45Al 5Nb 0.2B 0.2C
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6:6:61:3 Synergic effects of grain refinement and precipitation strengthening
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6:6:61:7 Influence of severe plastic deformation on the precipitation hardening of a FeSiTi steel
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6:6:62:1 Size effect of B4C powders on metallurgical reaction and resulting tensile properties of Ti matrix composites by in-situ reaction from Ti-B4C system under a relatively low temperature
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6:6:62:3 Effect of B4C Size on Tensile Property of (TiB plus TiC) Particulate Reinforced Titanium Matrix Composites by Investment Casting
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6:6:62:5 Friction and wear behavior of titanium matrix (TiB plus TiC) composites
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6:6:62:7 Microstructure and friction/wear behavior of (TiB plus TiC) particulate-reinforced titanium matrix composites
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6:6:63:1 Effects of beta treatments on microstructures and mechanical properties of TC4-DT titanium alloy
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6:6:63:6 Influence of vacuum hot-pressing temperature on the microstructure and mechanical properties of Ti-3Al-2.5V alloy obtained by blended elemental and master alloy addition powders
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6:6:63:7 Microstructural evolution and mechanical properties of the Ti-6Al-4V alloy produced by vacuum hot-pressing
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6:6:65:1 Effect of nickel on the microstructure and mechanical property of die-cast Al-Mg-Si-Mn alloy
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6:6:65:2 Effect of iron on the microstructure and mechanical property of Al-Mg-Si-Mn and Al-Mg-Si diecast alloys
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6:6:65:3 T6 heat treatment of rheocasting 7075 Al alloy
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6:6:65:4 Influence of Ti, B and Sr on the microstructure and mechanical properties of A356 alloy
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6:6:65:5 Creep rupture behavior of semi-solid cast 7075-T6 Al alloy
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6:6:65:6 Optimization of mechanical properties of Al-metal matrix composite produced by direct fusion of beverage cans
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6:6:65:7 Development of a super ductile diecast Al-Mg-Si alloy
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6:6:66:1 A comparative study of microstructure and mechanical behavior of CO2 and diode laser deposited Cu-38Ni alloy
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6:6:66:2 Influence of processing parameters on lattice parameters in laser deposited tool alloy steel
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6:6:66:3 Microstructure evolution during laser-aided direct metal deposition of alloy tool steel
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6:6:66:5 Microstructural evolution of AISI 4340 steel during Direct Metal Deposition process
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6:6:66:6 Texture control during laser deposition of nickel-based superalloy
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6:6:67:1 Experimental study of residual stresses in laser clad AISI P20 tool steel on pre-hardened wrought P20 substrate
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6:6:67:4 Tribology Property of Laser Cladding Crack Free Ni/WC Composite Coating
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6:6:68:2 Oxide films in laser additive manufactured Inconel 718
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6:6:69:2 Effect of (Fe,Cr)(7)C(3) carbide orientation on abrasion wear resistance and fracture toughness
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6:6:69:3 Effect of load and carbide orientation on abrasive wear resistance of white cast iron
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6:6:69:4 In-situ technique for synthesizing Fe-TiN composites
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6:6:70:1 Evaluation of Cu-Cr3C2 composite with interpenetrating network
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6:6:70:3 Synthesis of porous chromium carbides by carburization
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6:6:72:4 Effects of duty cycle on microstructure and corrosion behavior of TiC coatings prepared by DC pulsed plasma CVD
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6:6:72:5 Microstructure and dry sliding wear behavior of plasma transferred arc clad Ti5Si3 reinforced intermetallic composite coatings
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6:6:72:6 Magnesium nitride phase formation by means of ion beam implantation technique
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6:6:73:1 Fabrication and mechanical properties of in situ TiC/Ti metal matrix composites
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6:6:73:2 Microstructural and mechanical comparison of Ti+15%TiCp composites prepared by free sintering, HIP and extrusion
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6:6:73:3 Thermomechanical response of particulate-reinforced powder metallurgy titanium matrix composites-A study using processing map
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6:6:73:4 Effect of addition of metal carbide on the oxidation behaviors of titanium matrix composites
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6:6:73:6 Reactive sintering mechanism of Ti + Mo2C and Ti + VC powder compacts
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6:6:73:7 Application of plain fretting test to extract fatigue properties of materials
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6:6:74:1 Hot deformation behavior and microstructure evolution of a stabilized high-Cr ferritic stainless steel
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6:6:74:2 Modeling of the high temperature flow behavior of stabilized 12-27 wt% Cr ferritic stainless steels
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6:6:74:3 Dynamic restoration mechanisms in a Ti-Nb stabilized ferritic stainless steel during hot deformation
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6:6:74:4 Dynamic recrystallization mechanisms of an Fe-8% Al low density steel under hot rolling conditions
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6:6:74:5 Texture evolution and formability under different hot rolling conditions in ultra purified 17%Cr ferritic stainless steels
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6:6:74:6 Composition and orientation effects on the final recrystallization texture of coarse-grained Nb-containing AISI 430 ferritic stainless steels
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6:6:75:1 Hot workability analysis of AZ61 Mg alloys with processing maps
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6:6:75:2 Hot deformation characteristics of as-cast and homogenized AZ61 Mg alloys under compression
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6:6:75:3 Effect of homogenization on microstructures and mechanical properties of hot compressed Mg-9Al-1Zn alloy
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6:6:76:1 Aging response of laser melting deposited Ti-6Al-2Zr-1Mo-1V alloy
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6:6:76:2 Microstructure and mechanical behavior of commercial purity Ti/Ti-6Al-2Zr-1Mo-1V structurally graded material fabricated by laser additive manufacturing
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6:6:76:3 Microstructure and mechanical properties of a graded structural material
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6:6:76:4 Compositional variation and microstructural evolution in laser additive manufactured Ti/Ti-6Al-2Zr-1Mo-1V graded structural material
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6:6:77:2 Residual stresses and thermal fatigue in CrN hard coatings characterized by high-temperature synchrotron X-ray diffraction
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6:6:77:3 FEM simulation of quenching process in A357 aluminum alloy cylindrical bars and reduction of quench residual stress through cold stretching process
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6:6:77:4 In Situ High Temperature X-Ray Diffraction Reveals Residual Stress Depth-Profiles in Blasted TiN Hard Coatings
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6:6:77:5 X-ray diffraction study of residual elastic stress and microstructure of near-surface layers in nickel-titanium alloy irradiated with low-energy high-current electron beams
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6:6:77:6 Hot compressive deformation behavior of the as-quenched A357 aluminum alloy
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6:6:77:7 Thermal behaviour of chromium nitride/titanium-titanium carbonitride multilayers
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6:6:77:8 Residual stress in 7449 aluminium alloy forgings
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6:6:78:1 3D coupled macro-microscopic finite element modelling and simulation for combined blank-forging and rolling process of alloy steel large ring
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6:6:78:2 FE analysis of coupled thermo-mechanical behaviors in radial-axial rolling of alloy steel large ring
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6:6:78:3 3D coupled thermo-mechanical FE analysis of roll size effects on the radial-axial ring rolling process
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6:6:78:4 Effects of process parameters on microstructural evolution during hot ring rolling of AISI 5140 steel
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6:6:78:5 Coupled thermo-mechanical FE simulation of the hot splitting spinning process of magnesium alloy AZ31
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6:6:78:6 Investigation of deformation degree and initial forming temperature dependences of microstructure in hot ring rolling of TA15 titanium alloy by multi-scale simulations
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6:6:79:1 A constitutive model for dynamic plasticity of FCC metals
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6:6:79:2 Local deformation of Ti6Al4V modified 1 wt% B and 0.1 wt% C
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6:6:79:3 Influence of strain rate on ultimate tensile stress of coarse-grained and ultrafine-grained copper
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6:6:79:4 A new constitutive model for HCP metals
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6:6:79:5 Strain rate-dependant mechanical properties of OFHC copper
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6:6:79:6 Constitutive modeling of two-phase metallic composites with application to tungsten-based composite 93W-4.9Ni-2.1Fe
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6:6:80:1 Effect of Y2O3 on the sliding wear resistance of TiB/TiC-reinforced composite coatings fabricated by laser cladding
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6:6:80:2 Impact of localized surface preheating on the microstructure and crack formation in laser direct deposition of Stellite 1 on AISI 4340 steel
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6:6:80:3 Finite element analysis of the rapid manufacturing of Ti-6Al-4V parts by laser powder deposition
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6:6:80:4 Temporal development of melt-pool morphology and clad geometry in laser powder deposition
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6:6:80:5 Effects of substrate preheating on the thin-wall part built by laser metal deposition shaping
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6:6:80:6 Compositionally graded metals: A new frontier of additive manufacturing
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6:6:81:1:1 Effect of Ellectric Current on Microstructural Evolution in a Cold-Rolled 3% Si Steel
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6:6:81:1:2 Effect of Electric Current on the Inclusions in a Cu-Zn Alloy
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6:6:81:1:3 Formation of Nanotwins in Cold-Rolled Cu-Zn Alloy by Electric Current Pulses
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6:6:81:1:4 Effect of Grain Boundary Resistivity on Solid State Phase Transformation Induced by Electric Current Pulse in a Cold-Rolled Cu-Zn Alloy
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6:6:81:2:1 Electropulsing-induced G-texture evolution in a deformed Fe-3% Si alloy strip
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6:6:81:2:2 Effect of electric current direction on recrystallization rate and texture of a Cu-Zn alloy
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6:6:81:2:3 Effect of electric current direction on recrystallization rate and texture of a Cu-Zn alloy (vol 28, pg 1378, 2013)
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6:6:82:1 Microstructural characterization by electron backscatter diffraction of a hot worked Al-Cu-Mg alloy
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6:6:82:2 Effect of thermal treatment on the interfacial shear toughness of an aluminium composite laminate
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6:6:82:3 Toughness behavior in roll-bonded laminates based on AA6061/SiCp composites
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6:6:82:4 Investigating the effect of rolling strain on fracture behavior of roll bonded Al6061 laminates under quasi-static and dynamic loading
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6:6:83:1 A modified constitutive equation for elevated temperature flow behavior of Ti-6Al-4V alloy based on double multiple nonlinear regression
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6:6:83:2 Modelling of dominant softening mechanisms for Ti-6Al-4V in steady state hot forming conditions
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6:6:83:3 Impact of anisotropy and viscosity to model the mechanical behavior of Ti-6Al-4V alloy
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6:6:83:4 Modeling of flow behavior of Ti-6Al-4V alloy at elevated temperatures
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6:6:84:1:1 Investigation of solidification behavior and associate microstructures of Co-Cr-W and Co-Cr-Mo alloy systems using DSC technique
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6:6:84:1:2 Corrosion characteristics of a selective laser melted Co-Cr dental alloy under physiological conditions
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6:6:84:1:3 As-cast microstructure and solidification behavior of a high Al- and Nb-containing superalloy
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6:6:84:1:4 Co-sintering and microstructural characterization of steel/cobalt base alloy bimaterials
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6:6:84:2:1 Effects of the porcelain-fused-to-metal firing process on the surface and corrosion of two Co-Cr dental alloys
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6:6:84:2:2 Bond strength of experimental cyanoacrylate-modified dental glass ionomer cements
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6:6:84:2:3 Bis-GMA/TEGDMA dental composites reinforced with nano-scaled single crystals of fibrillar silicate
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6:6:84:2:4 In vitro biocompatibility of Co-Cr alloy fabricated by selective laser melting or traditional casting techniques
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6:6:85:1 Effect of homogeneity of particle distribution on tensile crack propagation in mushy state rolled in situ Al-4.5Cu-5TiB(2) particulate composite
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6:6:85:2 Effect of mushy state rolling on age-hardening and tensile behavior of Al-4.5Cu alloy and in situ Al-4.5Cu-5TiB(2) composite
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6:6:85:3 Sliding wear behavior of in situ Al-4.5Cu-5TiB(2) composite processed by single and multiple roll passes in mushy state
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6:6:85:4 Multi-scale characterization of inhomogeneous morphologically textured microstructures
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6:6:85:5 Effect of age-hardening on dry sliding wear behavior of mushy state rolled in-situ Al-4.5Cu-5TiB(2) composites
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6:6:85:6 Tensile tests in the environmental scanning electron microscope (ESEM) - Part I: Polypropylene homopolymers
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6:6:92:2 An approach in parametric identification of high strain rate constitutive model using Hopkinson pressure bar test results
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6:6:92:3 Experimental and numerical investigation of pulse-shaped split Hopkinson pressure bar test
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6:6:92:4 Localized deformation in aluminium foam during middle speed Hopkinson bar impact tests
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6:6:94:2 Microstructure characterization and mechanical properties of TiB2/TiAl in situ composite by induction skull melting process
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6:6:95:1 Hot deformation of 15-5 PH stainless steel
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6:6:95:2 Hot deformation characteristic and processing map of superaustenitic stainless steel S32654
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6:6:95:3 High temperature tensile behavior of a PH stainless steel
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6:6:96:1 A constitutive and fracture model for AZ31B magnesium alloy in the tensile state
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6:6:97:1 Novel fabrication of titanium by pure microwave radiation of titanium hydride powder
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6:6:97:2 Hydrogen Sintering of Titanium to Produce High Density Fine Grain Titanium Alloys
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6:6:97:3 A Comparison of Hydrogen Sintering and Phase Transformation (HSPT) Processing with Vacuum Sintering of CP-Ti
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6:6:98:3 Heat transfer and material flow during laser assisted multi-layer additive manufacturing
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6:7:1:1 Comparative study between Sn37Pb and Sn3Ag0.5Cu soldering with Au/Pd/Ni(P) tri-layer structure
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6:7:1:2 Influence of Palladium Thickness on the Soldering Reactions Between Sn-3Ag-0.5Cu and Au/Pd(P)/Ni(P) Surface Finish
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6:7:1:3 Effects of Ni3Sn4 and (Cu,Ni)(6)Sn-5 intermetallic layers on cross-interaction between Pd and Ni in solder joints
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6:7:1:4 Comparative Study of ENIG and ENEPIG as Surface Finishes for a Sn-Ag-Cu Solder Joint
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6:7:1:5 Solid-Solid Reaction Between Sn-3Ag-0.5Cu Alloy and Au/Pd(P)/Ni(P) Metallization Pad with Various Pd(P) Thicknesses
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6:7:1:6 Interfacial Reaction Between Sn3.0Ag0.5Cu Solder and ENEPIG for Fine Pitch BGA by Stencil Printing
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6:7:1:7 Effects of Pd(P) Thickness on the Microstructural Evolution Between Sn-3Ag-0.5Cu and Ni(P)/Pd(P)/Au Surface Finish During the Reflow Process
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6:7:1:8 Interfacial reactions on Pb-free solders with Au/Pd/Ni/Cu multilayer substrates
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6:7:1:9 Sequential interfacial intermetallic compound formation of Cu6Sn5 and Ni3Sn4 between Sn-Ag-Cu solder and ENEPIG substrate during a reflow process
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6:7:1:10 Effects of Pd concentration on the interfacial reaction and mechanical reliability of the Sn-Pd/Ni system
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6:7:1:11 Inhibiting the Growth of Cu3Sn and Kirkendall Voids in the Cu/Sn-Ag-Cu System by Minor Pd Alloying
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6:7:1:12 Effect of Cu concentration, solder volume, and temperature on the reaction between SnAgCu solders and Ni
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6:7:1:13 Influence of Pd Concentration on the Interfacial Reaction and Mechanical Reliability of the Ni/Sn-Ag-Cu-xPd System
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6:7:1:14 Sn-Ag-Cu solder reaction with Au/Pd/Ni(P) and Au/Pd(P)/Ni(P) platings
DOI:10.1016/j.tsf.2012.12.070 JN:THIN SOLID FILMS PY:2013 TC:8 AU: Ho, C. E.;Lin, Y. C.;Wang, S. J.;
6:7:1:15 Experimental Studies and Thermodynamic Assessment of Ternary Cu-Pd-Sn Phase Relations Focusing on the Sn-Rich Alloys
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6:7:1:16 Current-induced interfacial reactions in Ni/Sn-3Ag-0.5Cu/Au/Pd(P)/Ni-P flip chip interconnect
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6:7:1:17 Massive spalling and morphological change of intermetallic compound affected by adding Pd in Co-based surface finishes
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6:7:1:18 Development and Evaluation of Direct Deposition of Au/Pd(P) Bilayers over Cu Pads in Soldering Applications
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6:7:1:19 Effect of Pd Thickness on the Interfacial Reaction and Shear Strength in Solder Joints Between Sn-3.0Ag-0.5Cu Solder and Electroless Nickel/Electroless Palladium/Immersion Gold (ENEPIG) Surface Finish
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6:7:1:20 Optimization of the Ni(P) Thickness for an Ultrathin Ni(P)-Based Surface Finish in Soldering Applications
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6:7:1:21 Effects of Joining Sequence on the Interfacial Reactions and Substrate Dissolution Behaviors in Ni/Solder/Cu Joints
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6:7:1:22 Retardation of electromigration-induced Ni(P) consumption by an electroless Pd insertion layer
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6:7:1:23 Effect of Pd Interlayer on Electrochemical Properties of ENIG Surface Finish in 3.5 wt.% NaCl Solution
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6:7:1:24 Gold- and Palladium-Induced Embrittlement Phenomenon in Microbumps with Au/Pd(P)/Ni(P) Metallization Pads
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6:7:1:25 Experimental Determination and Thermodynamic Modeling of the Sn-Rich Corner of the Ternary Ni-Pd-Sn Phase Diagram at 250 degrees C
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6:7:1:26 Strong effect of Pd concentration on the soldering reaction between Ni and Sn-Pd alloys
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6:7:1:27 Reliability evaluation on a submicron Ni(P) thin film for lead-free soldering
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6:7:1:28 Field-emission transmission electron microscopy study of the reaction sequence between Sn-Ag-Cu alloy and an amorphous Pd(P) thin film in microelectronic packaging
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6:7:1:29 Review of Capabilities of the ENEPIG Surface Finish
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6:7:1:30 Effect of Thickness and Phosphorus Content on Au/Pd/Ni(P) Metal Finish of Printed Circuit Board
DOI:10.1007/s11664-013-2609-9 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2013 TC:1 AU: Huang, Chih-Kai;Lin, Keh-Wen;Huang, Yu-Ming;Caparanga, Alvin R.;Leron, Rhoda B.;Li, Meng-Hui;
6:7:1:31 Microstructure and chemistry of the SAC/ENIG interconnections
DOI:10.1016/j.matchemphys.2013.01.035 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2013 TC:2 AU: Wojewoda-Budka, J.;Huber, Z.;Litynska-Dobrzynska, L.;Sobczak, N.;Zieba, P.;
6:7:1:32 Cross-Interaction Study of Cu/Sn/Pd and Ni/Sn/Pd Sandwich Solder Joint Structures
DOI:10.1007/s11664-011-1772-0 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:4 AU: Lu, C. T.;Huang, T. S.;Cheng, C. H.;Tseng, H. W.;Liu, C. Y.;
6:7:1:33 The pH effect on black spots in surface finish: Electroless nickel immersion gold
DOI:10.1016/j.apsusc.2010.06.033 JN:APPLIED SURFACE SCIENCE PY:2010 TC:13 AU: Won, Yong Sun;Park, Sung Soo;Lee, Jinuk;Kim, Jong-Yun;Lee, Seong-Jae;
6:7:1:34 Kinetics of Solid-State Reactive Diffusion in the (Pd-Ni)/Sn System
DOI:10.1007/s11664-011-1733-7 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:3 AU: Hashiba, M.;Shinmei, W.;Kajihara, M.;
6:7:1:35 Black Pad Susceptibility of the Electroless Ni Films on the Cu UBM
DOI:10.1007/s11664-014-3344-6 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:1 AU: Kim, J. H.;Yu, Jin;
6:7:1:36 A corrosion couple experiment reproducing the black pad phenomenon found after the electroless nickel immersion gold process
DOI:10.1016/j.scriptamat.2010.05.015 JN:SCRIPTA MATERIALIA PY:2010 TC:9 AU: Kim, K. H.;Yu, Jin;Kim, J. H.;
6:7:1:37 Ni Interdiffusion Coefficient and Activation Energy in Cu6Sn5
DOI:10.1007/s11664-011-1821-8 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:5 AU: Huang, Kuan-Chih;Shieu, Fuh-Sheng;Hsiao, Y. H.;Liu, C. Y.;
6:7:1:38 Critical Current Density for Inhibiting (Cu,Ni)(6)Sn-5 Formation on the Ni Side of Cu/Solder/Ni Joints
DOI:10.1007/s11664-010-1299-9 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2010 TC:4 AU: Wu, W. H.;Chung, H. L.;Chen, B. Z.;Ho, C. E.;
6:7:1:39 An Electroless-Ag Reflector Developed for High-Brightness White LEDs
DOI:10.1007/s11664-014-3417-6 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:0 AU: Liu, W. C.;Chung, T. Y.;Chen, Y. H.;Hsiao, C. Y.;Lin, C. P.;Liu, C. Y.;
6:7:1:40 Formation of a Metastable Phase at the Interface Between Sn and Ag-Pd Substrates During Liquid-State Reaction
DOI:10.1007/s11664-014-3393-x JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:0 AU: Lin, Hsin-fu;Chen, Chih-chi;
6:7:1:41 Fast Concurrent Growth of Ni3Sn4 and Voids During Solid-State Reaction Between Sn-Rich Solder and Ni Substrates
DOI:10.1007/s11664-011-1736-4 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:1 AU: Chung, Bo-Mook;Choi, Jaeho;Huh, Joo-Youl;
6:7:1:42 Effect of Bath Life of Ni(P) on the Brittle-Fracture Behavior of Sn-3.0Ag-0.5Cu/ENIG
DOI:10.1007/s11664-014-3395-8 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:0 AU: Seo, Wonil;Kim, Kyoung-Ho;Bang, Jung-Hwan;Kim, Mok-Soon;Yoo, Sehoon;
6:7:2:1 Cyclic twin nucleation in tin-based solder alloys
DOI:10.1016/j.actamat.2010.01.030 JN:ACTA MATERIALIA PY:2010 TC:33 AU: Lehman, L. P.;Xing, Y.;Bieler, T. R.;Cotts, E. J.;
6:7:2:2 The Role of Elastic and Plastic Anisotropy of Sn in Recrystallization and Damage Evolution During Thermal Cycling in SAC305 Solder Joints
DOI:10.1007/s11664-011-1811-x JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:18 AU: Bieler, Thomas R.;Zhou, Bite;Blair, Lauren;Zamiri, Amir;Darbandi, Payam;Pourboghrat, Farhang;Lee, Tae-Kyu;Liu, Kuo-Chuan;
6:7:2:3 Characterization of Recrystallization and Microstructure Evolution in Lead-Free Solder Joints Using EBSD and 3D-XRD
DOI:10.1007/s11664-012-2307-z JN:JOURNAL OF ELECTRONIC MATERIALS PY:2013 TC:5 AU: Zhou, Bite;Bieler, Thomas R.;Lee, Tae-Kyu;Liu, Wenjun;
6:7:2:4 Sn-Ag-Cu Solder Joint Microstructure and Orientation Evolution as a Function of Position and Thermal Cycles in Ball Grid Arrays Using Orientation Imaging Microscopy
DOI:10.1007/s11664-010-1348-4 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2010 TC:19 AU: Lee, Tae-Kyu;Zhou, Bite;Blair, Lauren;Liu, Kuo-Chuan;Bieler, Thomas R.;
6:7:2:5 Crack Development in a Low-Stress PBGA Package due to Continuous Recrystallization Leading to Formation of Orientations with [001] Parallel to the Interface
DOI:10.1007/s11664-010-1380-4 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2010 TC:24 AU: Zhou, Bite;Bieler, Thomas R.;Lee, Tae-kyu;Liu, Kuo-Chuan;
6:7:2:6 Localized recrystallization and cracking of lead-free solder interconnections under thermal cycling
DOI:10.1557/jmr.2011.197 JN:JOURNAL OF MATERIALS RESEARCH PY:2011 TC:18 AU: Chen, Hongtao;Mueller, Maik;Mattila, Tonu Tuomas;Li, Jue;Liu, Xuwen;Wolter, Klaus-Juergen;Paulasto-Krockel, Mervi;
6:7:2:7 Influence of High-G Mechanical Shock and Thermal Cycling on Localized Recrystallization in Sn-Ag-Cu Solder Interconnects
DOI:10.1007/s11664-013-2736-3 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:3 AU: Lee, Tae-Kyu;Kim, Choong-Un;Bieler, Thomas R.;
6:7:2:8 The Role of Pd in Sn-Ag-Cu Solder Interconnect Mechanical Shock Performance
DOI:10.1007/s11664-012-2340-y JN:JOURNAL OF ELECTRONIC MATERIALS PY:2013 TC:5 AU: Lee, Tae-Kyu;Zhou, Bite;Bieler, Thomas R.;Tseng, Chien-Fu;Duh, Jeng-Gong;
6:7:2:9 In situ tensile creep behaviors of Sn-4Ag/Cu solder joints revealed by electron backscatter diffraction
DOI:10.1016/j.scriptamat.2012.05.005 JN:SCRIPTA MATERIALIA PY:2012 TC:7 AU: Zhang, Q. K.;Zhang, Z. F.;
6:7:2:10 Impact of Isothermal Aging on Long-Term Reliability of Fine-Pitch Ball Grid Array Packages with Sn-Ag-Cu Solder Interconnects: Surface Finish Effects
DOI:10.1007/s11664-010-1352-8 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2010 TC:26 AU: Lee, Tae-Kyu;Ma, Hongtao;Liu, Kuo-Chuan;Xue, Jie;
6:7:2:11 Localized Recrystallization Induced by Subgrain Rotation in Sn-3.0Ag-0.5Cu Ball Grid Array Solder Interconnects During Thermal Cycling
DOI:10.1007/s11664-011-1782-y JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:10 AU: Chen, Hongtao;Han, Jing;Li, Mingyu;
6:7:2:12 Dependence of Sn Grain Morphology of Sn-Ag-Cu Solder on Solidification Temperature
DOI:10.1007/s11664-011-1756-0 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:22 AU: Arfaei, B.;Kim, N.;Cotts, E. J.;
6:7:2:13 Microstructure and Sn Crystal Orientation Evolution in Sn-3.5Ag Lead-Free Solders in High-Temperature Packaging Applications
DOI:10.1007/s11664-013-2788-4 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:2 AU: Zhou, Bite;Muralidharan, Govindarajan;Kurumadalli, Kanth;Parish, Chad M.;Leslie, Scott;Bieler, Thomas R.;
6:7:2:14 Effect of grain orientation on mechanical properties and thermomechanical response of Sn-based solder interconnects
DOI:10.1016/j.matchar.2013.07.004 JN:MATERIALS CHARACTERIZATION PY:2013 TC:0 AU: Chen, Hongtao;Yan, Bingbing;Yang, Ming;Ma, Xin;Li, Mingyu;
6:7:2:15 Microstructure and In Situ Observations of Undercooling for Nucleation of beta-Sn Relevant to Lead-Free Solder Alloys
DOI:10.1007/s11664-010-1080-0 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2010 TC:13 AU: Elmer, John W.;Specht, Eliot D.;Kumar, Mukul;
6:7:2:16 Impact of Isothermal Aging on Long-Term Reliability of Fine-Pitch Ball Grid Array Packages with Sn-Ag-Cu Solder Interconnects: Die Size Effects
DOI:10.1007/s11664-011-1702-1 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:7 AU: Lee, Tae-Kyu;Xie, Weidong;Zhou, Bite;Bieler, Thomas;Liu, Kuo-Chuan;
6:7:2:17 Impact of Microstructure Evolution and Isothermal Aging on Sn-Ag-Cu Solder Interconnect Board-Level High-G Mechanical Shock Performance and Crack Propagation
DOI:10.1007/s11664-011-1775-x JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:10 AU: Lee, Tae-Kyu;Zhou, Bite;Bieler, Thomas;Liu, Kuo-Chuan;
6:7:2:18 Grain Orientation Evolution and Deformation Behaviors in Pb-Free Solder Interconnects Under Mechanical Stresses
DOI:10.1007/s11664-011-1776-9 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:11 AU: Chen, H. T.;Wang, L.;Han, J.;Li, M. Y.;Wu, Q. B.;Kim, J. M.;
6:7:2:19 Thermal Cycling Reliability of Sn-Ag-Cu Solder Interconnections-Part 2: Failure Mechanisms
DOI:10.1007/s11664-013-2475-5 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2013 TC:5 AU: Hokka, Jussi;Mattila, Toni T.;Xu, Hongbo;Paulasto-Krockel, Mervi;
6:7:2:20 Dependence of recrystallization on grain morphology of Sn-based solder interconnects under thermomechanical stress
DOI:10.1016/j.jallcom.2012.06.087 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:4 AU: Chen, Hongtao;Li, Jue;Li, Mingyu;
6:7:2:21 Recrystallization and Precipitate Coarsening in Pb-Free Solder Joints During Thermomechanical Fatigue
DOI:10.1007/s11664-011-1762-2 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:16 AU: Yin, Liang;Wentlent, Luke;Yang, Linlin;Arfaei, Babak;Oasaimeh, Awni;Borgesen, Peter;
6:7:2:22 In Situ Synchrotron Characterization of Melting, Dissolution, and Resolidification in Lead-Free Solders
DOI:10.1007/s11664-011-1785-8 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:2 AU: Zhou, Bite;Bieler, Thomas R.;Wu, Guilin;Zaefferer, Stefan;Lee, Tae-Kyu;Liu, Kuo-Chuan;
6:7:2:23 Correlation Between Sn Grain Orientation and Corrosion in Sn-Ag-Cu Solder Interconnects
DOI:10.1007/s11664-011-1654-5 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:9 AU: Lee, Tae-Kyu;Liu, Bo;Zhou, Bite;Bieler, Thomas;Liu, Kuo-Chuan;
6:7:2:24 Nucleation rates of Sn in undercooled Sn-Ag-Cu flip-chip solder joints
DOI:10.1063/1.4826437 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:1 AU: Arfaei, B.;Benedict, M.;Cotts, E. J.;
6:7:2:25 Measurement of Sn and In Solidification Undercooling and Lattice Expansion Using In Situ X-Ray Diffraction
DOI:10.1007/s11664-010-1438-3 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:4 AU: Elmer, John W.;Specht, Eliot D.;
6:7:2:26 In situ investigation of the interfacial reaction in Sn/Cu system by synchrotron radiation
DOI:10.1557/JMR.2010.0130 JN:JOURNAL OF MATERIALS RESEARCH PY:2010 TC:5 AU: Wang, Kai-Jheng;Lin, Yung-Chi;Duh, Jenq-Gong;Cheng, Ching-Yuan;Lee, Jey-Jau;
6:7:2:27 An X-ray Radiography Study of the Effect of Thermal Cycling on Damage Evolution in Large-Area Sn-3.5Ag Solder Joints
DOI:10.1007/s11664-012-2341-x JN:JOURNAL OF ELECTRONIC MATERIALS PY:2013 TC:1 AU: Muralidharan, Govindarajan;Kurumaddali, Kanth;Kercher, Andrew K.;Walker, Larry;Leslie, Scott G.;
6:7:2:28 Cryogenic in situ microcompression testing of Sn
DOI:10.1016/j.actamat.2014.06.026 JN:ACTA MATERIALIA PY:2014 TC:1 AU: Lupinacci, A.;Kacher, A.;Eilenberg, A.;Shapiro, A. A.;Hosemann, P.;Minor, A. M.;
6:7:2:29 Crystal Plasticity Finite-Element Analysis of Deformation Behavior in Multiple-Grained Lead-Free Solder Joints
DOI:10.1007/s11664-012-2339-4 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2013 TC:3 AU: Darbandi, P.;Bieler, T. R.;Pourboghrat, F.;Lee, Tae-Kyu;
6:7:2:30 Crystal orientation of beta-Sn grain in Ni(P)/Sn-0.5Cu/Cu and Ni(P)/Sn-1.8Ag/Cu joints
DOI:10.1557/JMR.2010.0253 JN:JOURNAL OF MATERIALS RESEARCH PY:2010 TC:7 AU: Seo, Sun-Kyoung;Cho, Moon Gi;Lee, Hyuck Mo;
6:7:2:31 Simulation of dynamic recrystallization in solder interconnections during thermal cycling
DOI:10.1016/j.commatsci.2010.09.035 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2010 TC:7 AU: Li, J.;Xu, H.;Mattila, T. T.;Kivilahti, J. K.;Laurila, T.;Paulasto-Krockel, M.;
6:7:2:32 Characterization of IMC layer and its effect on thermomechanical fatigue life of Sn-3.8Ag-0.7Cu solder joints
DOI:10.1016/j.jallcom.2012.06.104 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:14 AU: Che, F. X.;Pang, John H. L.;
6:7:2:33 Thermal fatigue behaviors of Sn-4Ag/Cu solder joints at low strain amplitude
DOI:10.1016/j.msea.2013.05.061 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: Zhang, Q. K.;Zhang, Z. F.;
6:7:2:34 In situ investigation of SnAgCu solder alloy microstructure
DOI:10.1016/j.jallcom.2010.09.153 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:8 AU: Pietrikova, Alena;Bednarcik, Jozef;Durisin, Juraj;
6:7:2:35 Impact of 5% NaCl Salt Spray Pretreatment on the Long-Term Reliability of Wafer-Level Packages with Sn-Pb and Sn-Ag-Cu Solder Interconnects
DOI:10.1007/s11664-011-1705-y JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:5 AU: Liu, Bo;Lee, Tae-Kyu;Liu, Kuo-Chuan;
6:7:2:36 Effect of Isothermal Aging on the Long-Term Reliability of Fine-Pitch Sn-Ag-Cu and Sn-Ag Solder Interconnects With and Without Board-Side Ni Surface Finish
DOI:10.1007/s11664-014-3315-y JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:0 AU: Lee, Tae-Kyu;Duh, Jeng-Gong;
6:7:2:37 Effects of Different Kinds of Underfills and Temperature-Humidity Treatments on Drop Reliability of Board-Level Packages
DOI:10.1007/s11664-010-1423-x JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:6 AU: Noh, Bo-In;Yoon, Jeong-Won;Ha, Sang-Ok;Jung, Seung-Boo;
6:7:2:38 Crystal plasticity finite element study of deformation behavior in commonly observed microstructures in lead free solder joints
DOI:10.1016/j.commatsci.2014.01.002 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:0 AU: Darbandi, Payam;Lee, Tae-kyu;Bieler, Thomas R.;Pourboghrat, Farhang;
6:7:2:39 Impact of Electrical Current on the Long-Term Reliability of Fine-Pitch Ball Grid Array Packages with Sn-Ag-Cu Solder Interconnects
DOI:10.1007/s11664-012-2292-2 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2013 TC:2 AU: Lee, Tae-Kyu;
6:7:2:40 The Effect of Cooling Rate on Grain Orientation and Misorientation Microstructure of SAC105 Solder Joints Before and After Impact Drop Tests
DOI:10.1007/s11664-014-3176-4 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:0 AU: Darbandi, Payam;Bieler, Thomas R.;Pourboghrat, Farhang;Lee, Tae-kyu;
6:7:2:41 Assessment of Solder Joint Fatigue Life Under Realistic Service Conditions
DOI:10.1007/s11664-014-3436-3 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:3 AU: Hamasha, Sa'd;Jaradat, Younis;Qasaimeh, Awni;Obaidat, Mazin;Borgesen, Peter;
6:7:2:42 Multiscale Simulation of Microstructural Changes in Solder Interconnections During Thermal Cycling
DOI:10.1007/s11664-009-0957-2 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2010 TC:3 AU: Li, J.;Mattila, T. T.;Kivilahti, J. K.;
6:7:2:43 Shear Strength of Eutectic Sn-Bi Lead-Free Solders After Corrosion Testing and Thermal Aging
DOI:10.1007/s11664-014-3085-6 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:0 AU: Mostofizadeh, Milad;Pippola, Juha;Frisk, Laura;
6:7:2:44 Effect of Board Thickness on Sn-Ag-Cu Joint Interconnect Mechanical Shock Performance
DOI:10.1007/s11664-014-3479-5 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:1 AU: Lee, Tae-Kyu;Xie, Weidong;
6:7:2:45 Localized recrystallization and cracking of lead-free solder interconnections under thermal cycling (vol 26, pg 2103, 2011)
DOI:10.1557/jmr.2012.2 JN:JOURNAL OF MATERIALS RESEARCH PY:2012 TC:1 AU: Chen, Hongtao;Mueller, Maik;Mattila, Toni Tuomas;Li, Jue;Liu, Xuwen;Wolter, Klaus-Juergen;Paulasto-Kroeckel, Mervi;
6:7:2:46 Microstructure-based multiscale modeling of elevated temperature deformation in aluminum alloys
DOI:10.1016/j.actamat.2009.10.023 JN:ACTA MATERIALIA PY:2010 TC:9 AU: Krajewski, Paul E.;Hector, Louis G., Jr.;Du, Ningning;Bower, Allan F.;
6:7:2:47 Direct observations of silver nanoink sintering and eutectic remelt reaction with copper
DOI:10.1016/j.scriptamat.2010.08.044 JN:SCRIPTA MATERIALIA PY:2010 TC:3 AU: Elmer, John W.;Specht, Eliot D.;
6:7:3:1 Detailed Phase Evolution of a Phosphorous-Rich Layer and Formation of the Ni-Sn-P Compound in Sn-Ag-Cu/Electroplated Ni-P Solder Joints
DOI:10.1007/s11664-009-1014-x JN:JOURNAL OF ELECTRONIC MATERIALS PY:2010 TC:22 AU: Lin, Yung-Chi;Wang, Kai-Jheng;Duh, Jenq-Gong;
6:7:3:2 Crystallographic characterization and growth behavior of (Cu,Ni,Pd)(6)Sn-5 intermetallic compound in Ni(P)/Pd/Au/SnAgCu/Cu assembled solder joint
DOI:10.1016/j.jallcom.2014.02.054 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:1 AU: Tseng, Chien-Fu;Ho, Cheng-Ying;Lee, Joseph;Duh, Jenq-Gong;
6:7:3:3 Microstructural variation and high-speed impact responses of Sn-3.0Ag-0.5Cu/ENEPIG solder joints with ultra-thin Ni-P deposit
DOI:10.1007/s10853-012-7070-2 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:11 AU: Ho, Cheng-Ying;Duh, Jenq-Gong;Lin, Chih-Wei;Lin, Chun-Jen;Wu, Yu-Hui;Hong, Huei-Cheng;Wang, Te-Hui;
6:7:3:4 The influence of Pd on growth behavior of a quaternary (Cu,Ni,Pd)(6)Sn-5 compound in Sn-3.0Ag-0.5Cu/Au/Pd/Ni-P solder joint during a liquid state reaction
DOI:10.1007/s10853-012-6807-2 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:11 AU: Tseng, Chien-Fu;Duh, Jenq-Gong;
6:7:3:5 Correlation between microstructure evolution and mechanical strength in the Sn-3.0Ag-0.5Cu/ENEPIG solder joint
DOI:10.1016/j.msea.2013.05.058 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:15 AU: Tseng, Chien-Fu;Duh, Jenq-Gong;
6:7:3:6 Bump height confinement governed solder alloy hardening in Cu/SnAg/Ni and Cu/SnAgCu/Ni joint assemblies
DOI:10.1016/j.jallcom.2014.02.048 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:1 AU: Ho, Cheng-Ying;Tsai, Meng-Ting;Duh, Jenq-Gong;Lee, Jyh-Wei;
6:7:3:7 Effect of TiO2 nanoparticle addition on electroless Ni-P under bump metallization for lead-free solder interconnection
DOI:10.1016/j.msea.2014.02.011 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:8 AU: Hu, Xiao;Xu, Sha;Yang, Ying;Chen, Zhong;Chan, Y. C.;
6:7:3:8 Suppressing Ni3Sn4 formation in the Sn-Ag-Cu solder joints with Ni-P/Pd/Au surface finish
DOI:10.1016/j.matlet.2011.07.015 JN:MATERIALS LETTERS PY:2011 TC:17 AU: Tseng, Chien-Fu;Lee, Tae-Kyu;Ramakrishna, Gnyaneshwar;Liu, Kuo-Chuan;Duh, Jenq-Gong;
6:7:3:9 Wetting kinetics and wettability enhancement of Pd added electrolytic Ni surface with molten Sn-3.0Ag-0.5Cu solder
DOI:10.1016/j.matlet.2012.10.063 JN:MATERIALS LETTERS PY:2013 TC:11 AU: Ho, Cheng-Ying;Duh, Jenq-Gong;
6:7:3:10 Significantly retarded interfacial reaction between an electroless Ni-W-P metallization and lead-free Sn-3.5Ag solder
DOI:10.1016/j.jallcom.2013.02.113 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:12 AU: Yang, Ying;Balaraju, J. N.;Chong, Ser Choong;Xu, Hui;Liu, Changqing;Silberschmidt, Vadim V.;Chen, Zhong;
6:7:3:11 Interdependent Intermetallic Compound Growth in an Electroless Ni-P/Sn-3.5Ag Reaction Couple
DOI:10.1007/s11664-010-1447-2 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:14 AU: Kumar, Aditya;Chen, Zhong;
6:7:3:12 Roles of Cu in Pb-free solders jointed with electroless Ni(P) plating
DOI:10.1016/j.msea.2013.03.015 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:11 AU: Tseng, Chien-Fu;Lee, Christine Jill;Duh, Jenq-Gong;
6:7:3:13 Optimal Ni(P) thickness design in ultrathin-ENEPIG metallization for soldering application concerning electrical impedance and mechanical bonding strength
DOI:10.1016/j.msea.2014.05.049 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Ho, Cheng-Ying;Duh, Jenq-Gong;
6:7:3:14 Reinforced solder joint performance by incorporation of ZrO2 nanoparticles in electroless Ni-P composite layer
DOI:10.1557/jmr.2014.310 JN:JOURNAL OF MATERIALS RESEARCH PY:2014 TC:0 AU: Hu, Xiao;Chan, Y. C.;
6:7:3:15 Interfacial reaction and elemental redistribution in Sn3.0Ag0.5Cu-xPd/immersion Au/electroless Ni solder joints after aging
DOI:10.1016/j.mseb.2011.12.011 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2012 TC:13 AU: Wang, I-Tai;Duh, Jenq-Gong;Cheng, Chih-Yuan;Wang, Jim;
6:7:3:16 Interface reaction between an electroless Ni-Co-P metallization and Sn-3.5Ag lead-free solder with improved joint reliability
DOI:10.1016/j.actamat.2014.02.026 JN:ACTA MATERIALIA PY:2014 TC:8 AU: Yang, Ying;Balaraju, J. N.;Huang, Yizhong;Liu, Hai;Chen, Zhong;
6:7:3:17 Quantifying the dependence of Ni(P) thickness in ultrathin-ENEPIG metallization on the growth of Cu-Sn intermetallic compounds in soldering reaction
DOI:10.1016/j.matchemphys.2014.06.072 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:1 AU: Ho, Cheng-Ying;Duh, Jenq-Gong;
6:7:3:18 Interface Reaction Between Electroless Ni-Sn-P Metallization and Lead-Free Sn-3.5Ag Solder with Suppressed Ni3P Formation
DOI:10.1007/s11664-014-3306-z JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:1 AU: Yang, Ying;Balaraju, J. N.;Huang, Yizhong;Tay, Yee Yan;Shen, Yiqiang;Tsakadze, Zviad;Chen, Zhong;
6:7:3:19 Study of Intermetallic Growth and Kinetics in Fine-Pitch Lead-Free Solder Bumps for Next-Generation Flip-Chip Assemblies
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6:7:3:20 Tungsten alloying of the Ni(P) films and the reliability of Sn-3.5Ag/NiWP solder joints
DOI:10.1557/jmr.2011.17 JN:JOURNAL OF MATERIALS RESEARCH PY:2011 TC:6 AU: Jang, Dong Min;Yu, Jin;
6:7:3:21 In situ TEM characterization of interfacial reaction in Sn-3.5Ag/electroless Ni(P) solder joint
DOI:10.1016/j.scriptamat.2010.11.017 JN:SCRIPTA MATERIALIA PY:2011 TC:5 AU: Kang, Han-Byul;Bae, Jee-Hwan;Yoon, Jeong-Won;Jung, Seung-Boo;Park, Jongwoo;Yang, Cheol-Woong;
6:7:3:22 Optimization of Pb-Free Solder Joint Reliability from a Metallurgical Perspective
DOI:10.1007/s11664-011-1732-8 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:6 AU: Zeng, Kejun;Pierce, Mike;Miyazaki, Hiroshi;Holdford, Becky;
6:7:3:23 Impact Testing of Sn-3.0Ag-0.5Cu Solder with Ti/Ni(V)/Cu Under Bump Metallization After Aging at 150A degrees C
DOI:10.1007/s11664-010-1370-6 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2010 TC:6 AU: Wang, Kai-Jheng;Duh, Jenq-Gong;Sykes, Bob;Schade, Dirk;
6:7:3:24 Effect of Pd Addition in ENIG Surface Finish on Drop Reliability of Sn-Ag-Cu Solder Joint
DOI:10.2320/matertrans.M2011107 JN:MATERIALS TRANSACTIONS PY:2011 TC:4 AU: Ha, Sang-Su;Park, Jongwoo;Jung, Seung-Boo;
6:7:3:25 Contact angle and reactive wetting in the SnPb/Cu system
DOI:10.1016/j.scriptamat.2010.12.026 JN:SCRIPTA MATERIALIA PY:2011 TC:2 AU: Wedi, A.;Baither, D.;Schmitz, G.;
6:7:3:26 Comparison of Sn-Ag-Cu Solder Alloy Intermetallic Compound Growth Under Different Thermal Excursions for Fine-Pitch Flip-Chip Assemblies
DOI:10.1007/s11664-013-2639-3 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2013 TC:1 AU: Tian, Ye;Liu, Xi;Chow, Justin;Wu, Yi Ping;Sitaraman, Suresh K.;
6:7:3:27 Effect of composition on electroless deposited Ni-Co-P alloy thin films as a diffusion barrier for copper metallization
DOI:10.1016/j.apsusc.2012.04.145 JN:APPLIED SURFACE SCIENCE PY:2012 TC:4 AU: Kumar, Anuj;Kumar, Mukesh;Kumar, Dinesh;
6:7:3:28 Intermetallic compound spalling characteristics of Sn-3.5Ag solder over ternary electroless Ni under-bump metallurgy
DOI:10.1557/jmr.2011.371 JN:JOURNAL OF MATERIALS RESEARCH PY:2011 TC:1 AU: Jang, Dong Min;Yu, Jin;
6:7:3:29 Kinetic study of the intermetallic compound formation between eutectic Sn-3.5Ag alloys and electroplated Ni metallization in flip-chip solder joints
DOI:10.1557/jmr.2012.22 JN:JOURNAL OF MATERIALS RESEARCH PY:2012 TC:0 AU: Chen, Hsiao-Yun;Chen, Chih;
6:7:3:30 Crystallization Behaviour of Electroless Ni-P UBM with Medium Phosphorous Induced by Single and Step Heat Treatment
DOI:10.2320/matertrans.M2010178 JN:MATERIALS TRANSACTIONS PY:2010 TC:1 AU: Kang, Han-Byul;Park, Jongwoo;Bae, Jee-Hwan;Yang, Cheol-Woong;
6:7:3:31 Mechanical and electronic properties of Ag3Sn intermetallic compound in lead free solders using ab initio atomistic calculation
DOI:10.1016/j.mseb.2012.10.003 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2013 TC:1 AU: Kumar, Santosh;Jung, JaePil;
6:7:4:1 The influence of Ni additions on the relative stability of eta and eta(') Cu6Sn5
DOI:10.1063/1.3310019 JN:APPLIED PHYSICS LETTERS PY:2010 TC:29 AU: Schwingenschloegl, U.;Di Paola, C.;Nogita, K.;Gourlay, C. M.;
6:7:4:2 Investigating the mechanical properties, creep and crack pattern of Cu6Sn5 and (Cu,Ni)(6)Sn-5 on diverse crystal planes
DOI:10.1016/j.msea.2012.12.057 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:3 AU: Mu, D.;Huang, H.;McDonald, S. D.;Read, J.;Nogita, K.;
6:7:4:3 Anisotropic mechanical properties of Cu6Sn5 and (Cu,Ni)(6)Sn-5
DOI:10.1016/j.matlet.2012.07.018 JN:MATERIALS LETTERS PY:2012 TC:11 AU: Mu, D.;Huang, H.;Nogita, K.;
6:7:4:4 Thermal expansion of Cu6Sn5 and (Cu,Ni)(6)Sn-5
DOI:10.1557/jmr.2011.293 JN:JOURNAL OF MATERIALS RESEARCH PY:2011 TC:14 AU: Mu, Dekui;Read, Jonathan;Yang, Yafeng;Nogita, Kazuhiro;
6:7:4:5 Kinetics of the eta-eta ' transformation in Cu6Sn5
DOI:10.1016/j.scriptamat.2011.07.058 JN:SCRIPTA MATERIALIA PY:2011 TC:18 AU: Nogita, K.;Gourlay, C. M.;McDonald, S. D.;Wu, Y. Q.;Read, J.;Gu, Q. F.;
6:7:4:6 Polymorphic transformation mechanism of eta and eta ' in single crystalline Cu6Sn5
DOI:10.1063/1.3590715 JN:APPLIED PHYSICS LETTERS PY:2011 TC:12 AU: Li, M. Y.;Zhang, Z. H.;Kim, J. M.;
6:7:4:7 Kinetics of the polymorphic phase transformation of Cu6Sn5
DOI:10.1016/j.actamat.2014.01.027 JN:ACTA MATERIALIA PY:2014 TC:4 AU: Zeng, Guang;McDonald, Stuart D.;Read, Jonathan J.;Gu, Qinfen;Nogita, Kazuhiro;
6:7:4:8 Relationship between morphologies and orientations of Cu6Sn5 grains in Sn3.0Ag0.5Cu solder joints on different Cu pads
DOI:10.1016/j.matchar.2013.12.006 JN:MATERIALS CHARACTERIZATION PY:2014 TC:3 AU: Tian, Yanhong;Zhang, Rui;Hang, Chunjin;Niu, Lina;Wang, Chunqing;
6:7:4:9 Effect of Zn, Au, and In on the polymorphic phase transformation in Cu6Sn5 intermetallics
DOI:10.1557/jmr.2012.247 JN:JOURNAL OF MATERIALS RESEARCH PY:2012 TC:8 AU: Zeng, Guang;McDonald, Stuart D.;Gu, Qinfen;Nogita, Kazuhiro;
6:7:4:10 Growth orientations and mechanical properties of Cu6Sn5 and (Cu, Ni)(6)Sn-5 on poly-crystalline Cu
DOI:10.1016/j.jallcom.2012.04.110 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:9 AU: Mu, Dekui;Yasuda, Hideyuki;Huang, Han;Nogita, Kazuhiro;
6:7:4:11 Creep and Mechanical Properties of Cu6Sn5 and (Cu,Ni)(6)Sn-5 at Elevated Temperatures
DOI:10.1007/s11664-012-2227-y JN:JOURNAL OF ELECTRONIC MATERIALS PY:2013 TC:1 AU: Mu, Dekui;Huang, Han;McDonald, Stuart D.;Nogita, Kazuhiro;
6:7:4:12 A new phase in stoichiometric Cu6Sn5
DOI:10.1016/j.actamat.2012.08.024 JN:ACTA MATERIALIA PY:2012 TC:8 AU: Wu, Y. Q.;Barry, J. C.;Yamamoto, T.;Gu, Q. F.;McDonald, S. D.;Matsumura, S.;Huang, H.;Nogita, K.;
6:7:4:13 Determination of the minimum Ni concentration to prevent the eta to eta(4+1) polymorphic transformation of stoichiometric Cu6Sn5
DOI:10.1016/j.scriptamat.2012.12.012 JN:SCRIPTA MATERIALIA PY:2013 TC:6 AU: Wu, Y. Q.;McDonald, S. D.;Read, J.;Huang, H.;Nogita, K.;
6:7:4:14 The orientation relationship between Ni and Cu6Sn5 formed during the soldering reaction
DOI:10.1016/j.scriptamat.2011.04.034 JN:SCRIPTA MATERIALIA PY:2011 TC:13 AU: Chen, W. M.;Yang, T. L.;Chung, C. K.;Kao, C. R.;
6:7:4:15 Solid-state interfacial reaction of eutectic Sn3.5Ag and pure tin solders with polycrystalline Cu substrate
DOI:10.1007/s10853-014-8069-7 JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:0 AU: Yang, Ming;Chen, Hongtao;Ma, Xin;Li, Mingyu;Cao, Yong;Kim, Jongmyung;
6:7:4:16 Growth behavior of Cu6Sn5 grains formed at an Sn3.5Ag/Cu interface
DOI:10.1016/j.matlet.2011.02.056 JN:MATERIALS LETTERS PY:2011 TC:16 AU: Yang, Ming;Li, Mingyu;Wang, Ling;Fu, Yonggao;Kim, Jongmyung;Weng, Lvqian;
6:7:4:17 Morphologies and grain orientations of Cu-Sn intermetallic compounds in Sn3.0Ag0.5Cu/Cu solder joints
DOI:10.1016/j.matlet.2012.07.016 JN:MATERIALS LETTERS PY:2012 TC:6 AU: Liu, Wei;Tian, Yanhong;Wang, Chunqing;Wang, Xuelin;Liu, Ruiyang;
6:7:4:18 Grain Growth Orientation and Anisotropy in Cu6Sn5 Intermetallic: Nanoindentation and Electron Backscatter Diffraction Analysis
DOI:10.1007/s11664-014-2977-9 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:2 AU: Choudhury, Soud Farhan;Ladani, Leila;
6:7:4:19 Cu6Sn5 Morphology Transition and Its Effect on Mechanical Properties of Eutectic Sn-Ag Solder Joints
DOI:10.1007/s11664-010-1430-y JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:13 AU: Yang, Ming;Li, Mingyu;Wang, Ling;Fu, Yonggao;Kim, Jongmyung;Weng, Lvqian;
6:7:4:20 Textured growth of Cu6Sn5 grains formed at a Sn3.5Ag/Cu interface
DOI:10.1016/j.matlet.2011.08.014 JN:MATERIALS LETTERS PY:2012 TC:6 AU: Li, Mingyu;Yang, Ming;Kim, Jongmyung;
6:7:4:21 Orientation relationships, interfaces, and microstructure of eta-Cu6Sn5 formed in the early-stage reaction between Cu and molten Sn
DOI:10.1016/j.tsf.2010.09.045 JN:THIN SOLID FILMS PY:2010 TC:5 AU: Wang, Kuang-Kuo;Gan, Dershin;Hsieh, Ker-Chang;
6:7:4:22 The microstructure of eta '-Cu6Sn5 and its orientation relationships with Cu in the early stage of growth
DOI:10.1016/j.tsf.2009.11.080 JN:THIN SOLID FILMS PY:2010 TC:10 AU: Wang, Kuang-Kuo;Gan, Dershin;Hsieh, Ker-Chang;Chiou, Shi-Yung;
6:7:4:23 The orientation relationships of the Cu3Sn/Cu interfaces and a discussion of the formation sequence of Cu3Sn and Cu6Sn5
DOI:10.1016/j.tsf.2014.05.003 JN:THIN SOLID FILMS PY:2014 TC:2 AU: Wang, Kuang-Kuo;Gan, Dershin;Hsieh, Ker-Chang;
6:7:4:24 Formation of interfacial eta '-Cu6Sn5 in Sn-0.7Cu/Cu solder joints during isothermal aging
DOI:10.1557/jmr.2011.179 JN:JOURNAL OF MATERIALS RESEARCH PY:2011 TC:6 AU: Luo, Zhongbing;Wang, Lai;Fu, Qinqin;Cheng, Chongqian;Zhao, Jie;
6:7:4:25 Nanomechanical responses of intermetallic phase at the solder joint interface - Crystal orientation and metallurgical effects
DOI:10.1016/j.msea.2011.11.037 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:8 AU: Song, Jenn-Ming;Huang, Bo-Ron;Liu, Cheng-Yi;Lai, Yi-Shao;Chiu, Ying-Ta;Huang, Tzu-Wen;
6:7:4:26 Formation mechanism and orientation of Cu3Sn grains in Cu-Sn intermetallic compound joints
DOI:10.1016/j.matlet.2013.07.116 JN:MATERIALS LETTERS PY:2013 TC:6 AU: Zhang, Rui;Tian, Yanhong;Hang, Chunjin;Liu, Baolei;Wang, Chunqing;
6:7:4:27 Microstructure control of unidirectional growth of eta-Cu6Sn5 in microbumps on < 1 1 1 > oriented and nanotwinned Cu
DOI:10.1016/j.actamat.2013.04.056 JN:ACTA MATERIALIA PY:2013 TC:4 AU: Lin, Han-wen;Lu, Chia-ling;Liu, Chien-min;Chen, Chih;Chen, Delphic;Kuo, Jui-Chao;Tu, K. N.;
6:7:4:28 Influence of Composition on the Morphology of Primary Cu6Sn5 in Sn-4Cu Alloys
DOI:10.1007/s11664-012-2222-3 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2013 TC:4 AU: McDonald, Stuart;Nogita, Kazuhiro;Read, Jonathan;Ventura, Tina;Nishimura, Tetsuro;
6:7:4:29 Additive Occupancy in the Cu6Sn5-Based Intermetallic Compound Between Sn-3.5Ag Solder and Cu Studied Using a First-Principles Approach
DOI:10.1007/s11664-010-1093-8 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2010 TC:12 AU: Gao, Feng;Qu, Jianmin;Takemoto, Tadashi;
6:7:4:30 First-principles calculations of Zn substitutions in Cu(6)Sn5
DOI:10.1016/j.commatsci.2012.08.027 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:3 AU: Yang, Yang;Li, Yongzhi;Lu, Hao;Yu, Chun;Chen, Junmei;
6:7:4:31 Time-dependent deformation behavior of interfacial intermetallic compound layers in electronic solder joints
DOI:10.1557/JMR.2010.0081 JN:JOURNAL OF MATERIALS RESEARCH PY:2010 TC:5 AU: Song, Jenn-Ming;Su, Chien-Wei;Lai, Yi-Shao;Chiu, Ying-Ta;
6:7:4:32 Coarsening mechanisms, texture evolution and size distribution of Cu6Sn5 between Cu and Sn-based solders
DOI:10.1016/j.matchemphys.2011.08.061 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2011 TC:6 AU: Zou, H. F.;Yang, H. J.;Zhang, Z. F.;
6:7:4:33 The orientation relationships and interfaces between delta-AuSn and Au
DOI:10.1016/j.tsf.2010.06.053 JN:THIN SOLID FILMS PY:2010 TC:5 AU: Wang, Kuang-Kuo;Gan, Dershin;
6:7:4:34 Neutron diffraction study of stability and phase transitions in Cu-Sn-In alloys as alternative Pb-free solders
DOI:10.1063/1.4751019 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:1 AU: Aurelio, G.;Sommadossi, S. A.;Cuello, G. J.;
6:7:4:35 Crystal Structure of Cu-Sn-In Alloys Around the eta-Phase Field Studied by Neutron Diffraction
DOI:10.1007/s11664-012-2193-4 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:0 AU: Aurelio, G.;Sommadossi, S. A.;Cuello, G. J.;
6:7:4:36 Formation of interfacial eta '-Cu6Sn5 in Sn-0.7Cu/Cu solder joints during isothermal aging (vol 27, pg 1468, 2011)
DOI:10.1557/jmr.2011.222 JN:JOURNAL OF MATERIALS RESEARCH PY:2011 TC:0 AU: Luo, Zhongbing;Wang, Lai;Fu, Qinqin;Cheng, Chongqian;Zhao, Jie;
6:7:5:1 The study of mechanical properties of Sn-Ag-Cu lead-free solders with different Ag contents and Ni doping under different strain rates and temperatures
DOI:10.1016/j.jallcom.2010.07.160 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:49 AU: Che, F. X.;Zhu, W. H.;Poh, Edith S. W.;Zhang, X. W.;Zhang, X. R.;
6:7:5:2 Effects of Zn addition and aging treatment on tensile properties of Sn-Ag-Cu alloys
DOI:10.1016/j.jallcom.2012.03.008 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:16 AU: Hamada, Naoyuki;Uesugi, Tokuteru;Takigawa, Yorinobu;Higashi, Kenji;
6:7:5:3 Effect of Ag content and the minor alloying element Fe on the electrical resistivity of Sn-Ag-Cu solder alloy
DOI:10.1016/j.jallcom.2014.02.100 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:3 AU: Amin, Nur Aishah Aminah Mohd;Shnawah, Dhafer Abdulameer;Said, Suhana Mohd;Sabri, Mohd Faizul Mohd;Arof, Hamzah;
6:7:5:4 High-Reliability Low-Ag-Content Sn-Ag-Cu Solder Joints for Electronics Applications
DOI:10.1007/s11664-012-2145-z JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:15 AU: Shnawah, Dhafer Abdulameer;Said, Suhana Binti Mohd;Sabri, Mohd Faizul Mohd;Badruddin, Irfan Anjum;Che, Fa Xing;
6:7:5:5 Effects of aging on Sn-1Ag-0.5Cu solder alloys containing 0.1 wt.% and 0.5 wt.% Al
DOI:10.1016/j.jallcom.2013.08.088 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:5 AU: Sabri, Mohd Faizul Mohd;Shnawah, Dhafer Abdulameer;Badruddin, Irfan Anjum;Said, Suhana Binti Mohd;
6:7:5:6 Kinetics of intermetallic phase formation at the interface of Sn-Ag-Cu-X (X = Bi, In) solders with Cu substrate
DOI:10.1016/j.jallcom.2011.03.164 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:19 AU: Hodulova, Erika;Palcut, Marian;Lechovic, Emil;Simekova, Beata;Ulrich, Koloman;
6:7:5:7 Characterization of low speed shear test reliability of Sn-1.0Ag-XCe/ENEPIG solder joint
DOI:10.1016/j.jallcom.2013.01.040 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:6 AU: Bui, Q. V.;Jung, S. B.;
6:7:5:8 Effect of Addition of Small Amount of Zinc on Microstructural Evolution and Thermal Shock Behavior in Low-Ag Sn-Ag-Cu Solder Joints during Thermal Cycling
DOI:10.2320/matertrans.MBW201206 JN:MATERIALS TRANSACTIONS PY:2013 TC:0 AU: Hamada, Naoyuki;Uesugi, Tokuteru;Takigawa, Yorinobu;Higashi, Kenji;
6:7:5:9 Effects of cerium content on wettability, microstructure and mechanical properties of Sn-Ag-Ce solder alloys
DOI:10.1016/j.jallcom.2010.03.179 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:18 AU: Noh, Bo-In;Choi, Jung-Hyun;Yoon, Jeong-Won;Jung, Seung-Boo;
6:7:5:10 The Reliability of Microalloyed Sn-Ag-Cu Solder Interconnections Under Cyclic Thermal and Mechanical Shock Loading
DOI:10.1007/s11664-014-3298-8 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:0 AU: Mattila, Toni T.;Hokka, Jussi;Paulasto-Krockel, Mervi;
6:7:5:11 Effect of Ag Content and the Minor Alloying Element Fe on the Mechanical Properties and Microstructural Stability of Sn-Ag-Cu Solder Alloy Under High-Temperature Annealing
DOI:10.1007/s11664-012-2343-8 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2013 TC:10 AU: Shnawah, Dhafer Abdulameer;Sabri, Mohd Faizul Mohd;Badruddin, Irfan Anjum;Said, Suhana Binti Mohd;Ariga, Tadashi;Che, Fa Xing;
6:7:5:12 Effects of Zn addition on microstructure and tensile properties of Sn-1Ag-0.5Cu alloy
DOI:10.1016/j.msea.2009.10.048 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:25 AU: Song, H. Y.;Zhu, Q. S.;Wang, Z. G.;Shang, J. K.;Lu, M.;
6:7:5:13 Microstructural stability of Sn-1Ag-0.5Cu-xAl (x=1, 1.5, and 2 wt.%) solder alloys and the effects of high-temperature aging on their mechanical properties
DOI:10.1016/j.matchar.2013.01.015 JN:MATERIALS CHARACTERIZATION PY:2013 TC:12 AU: Sabri, Mohd Faizul Mohd;Shnawah, Dhafer Abdulameer;Badruddin, Irfan Anjum;Said, Suhana Binti Mohd;Che, Fa Xing;Ariga, Tadashi;
6:7:5:14 Microstructure and Tensile Properties of Sn-1Ag-0.5Cu Solder Alloy Bearing Al for Electronics Applications
DOI:10.1007/s11664-012-2135-1 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:10 AU: Shnawah, Dhafer Abdul-Ameer;Said, Suhana Binti Mohd;Sabri, Mohd Faizul Mohd;Badruddin, Irfan Anjum;Hoe, Teh Guan;Che, Fa Xing;Abood, Adnan Naama;
6:7:5:15 Tensile properties and wettability of SAC0307 and SAC105 low Ag lead-free solder alloys
DOI:10.1007/s10853-010-5231-8 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:16 AU: Cheng, Fangjie;Gao, Feng;Zhang, Jianyou;Jin, Wenshan;Xiao, Xin;
6:7:5:16 Evaluation of mechanical properties of low-Ag ball grid array solder joints using a high-speed ball shear test
DOI:10.1016/j.jallcom.2013.11.199 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:1 AU: Bui, Q. V.;Jung, S. B.;
6:7:5:17 Effect of soldering condition on formation of intermetallic phases developed between Sn-0.3Ag-0.7Cu low-silver lead-free solder and Cu substrate
DOI:10.1016/j.jallcom.2011.03.049 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:13 AU: Mookam, Niwat;Kanlayasiri, Kannachai;
6:7:5:18 Effects of Ce and Zn additions on the microstructure and mechanical properties of Sn-3Ag-0.5Cu solder joints
DOI:10.1016/j.jallcom.2010.03.233 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:8 AU: Lin, Hsiu-Jen;Chuang, Tung-Han;
6:7:5:19 Microstructure, mechanical, and thermal properties of the Sn-1Ag-0.5Cu solder alloy bearing Fe for electronics applications
DOI:10.1016/j.msea.2012.04.115 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:16 AU: Shnawah, Dhafer Abdul-Ameer;Said, Suhana Binti Mohd;Sabri, Mohd Faizul Mohd;Badruddin, Irfan Anjum;Che, Fa Xing;
6:7:5:20 Thermal Analysis of the Sn-Ag-Cu-In Solder Alloy
DOI:10.1007/s11664-009-1070-2 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2010 TC:8 AU: Sopousek, Jiri;Palcut, Marian;Hodulova, Erika;Janovec, Jozef;
6:7:5:21 Spreading Behavior and Evolution of IMCs During Reactive Wetting of SAC Solders on Smooth and Rough Copper Substrates
DOI:10.1007/s11664-013-2619-7 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2013 TC:1 AU: Satyanarayan;Prabhu, K. N.;
6:7:5:22 Creep Properties of Sn-1.0Ag-0.5Cu Lead-Free Solder with Ni Addition
DOI:10.1007/s11664-011-1510-7 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:5 AU: Che, F. X.;Zhu, W. H.;Poh, Edith S. W.;Zhang, X. R.;Zhang, Xiaowu;Chai, T. C.;Gao, S.;
6:7:5:23 Effect of Small Addition of Zinc on Creep Behavior of Tin
DOI:10.2320/matertrans.MJ201023 JN:MATERIALS TRANSACTIONS PY:2010 TC:5 AU: Hamada, Naoyuki;Hamada, Masakazu;Uesugi, Tokuteru;Takigawa, Yorinobu;Higashi, Kenji;
6:7:5:24 Effect of Gold on the Corrosion Behavior of an Electroless Nickel/Immersion Gold Surface Finish
DOI:10.1007/s11664-011-1682-1 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:4 AU: Bui, Q. V.;Nam, N. D.;Yoon, J. W.;Choi, D. H.;Kar, A.;Kim, J. G.;Jung, S. B.;
6:7:5:25 Corrosion protection of ENIG surface finishing using electrochemical methods
DOI:10.1016/j.materresbull.2009.12.006 JN:MATERIALS RESEARCH BULLETIN PY:2010 TC:9 AU: Bui, Q. V.;Nam, N. D.;Choi, D. H.;Lee, J. B.;Lee, C. Y.;Kar, A.;Kim, J. G.;Jung, S. B.;
6:7:5:26 Modeling the Rate-Dependent Durability of Reduced-Ag SAC Interconnects for Area Array Packages Under Torsion Loads
DOI:10.1007/s11664-013-2575-2 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2013 TC:1 AU: Srinivas, Vikram;Menon, Sandeep;Osterman, Michael;Pecht, Michael G.;
6:7:5:27 Effects of Current Stressing on Formation and Evolution of Kirkendall Voids at Sn-3.5Ag/Cu Interface
DOI:10.1007/s11664-010-1201-9 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2010 TC:5 AU: Yu, C.;Yang, Y.;Lu, H.;Chen, J. M.;
6:7:5:28 Effects of Post-Plating Reflow on Changes in Crystal Grain Size of Sn-2 mass %Br Alloy Plating with Thermal Cycling Treatment
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6:7:5:29 Wettability of Sn-Zn, Sn-Ag-Cu and Sn-Bi-Cu Alloys on Copper Substrates
DOI:10.2320/matertrans.M2011349 JN:MATERIALS TRANSACTIONS PY:2012 TC:1 AU: Zhang, Xiaorui;Matsuura, Hiroyuki;Tsukihashi, Fumitaka;Yuan, Zhangfu;
6:7:6:1 Interfacial reaction in Cu/Sn/Cu system during the transient liquid phase soldering process
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6:7:6:2 Early stages of intermetallic compound formation and growth during lead-free soldering
DOI:10.1016/j.actamat.2010.05.028 JN:ACTA MATERIALIA PY:2010 TC:36 AU: Park, M. S.;Arroyave, R.;
6:7:6:3 Concurrent nucleation, formation and growth of two intermetallic compounds (Cu6Sn5 and Cu3Sn) during the early stages of lead-free soldering
DOI:10.1016/j.actamat.2011.10.053 JN:ACTA MATERIALIA PY:2012 TC:22 AU: Park, M. S.;Arroyave, R.;
6:7:6:4 Direct evidence for a Cu-enriched region at the boundary between Cu6Sn5 and Cu3Sn during Cu/Sn reaction
DOI:10.1016/j.scriptamat.2010.04.011 JN:SCRIPTA MATERIALIA PY:2010 TC:18 AU: Chung, C. Key;Duh, Jenq-Gong;Kao, C. R.;
6:7:6:5 Phase-field simulations of intermetallic compound growth in Cu/Sn/Cu sandwich structure under transient liquid phase bonding conditions
DOI:10.1016/j.actamat.2012.07.063 JN:ACTA MATERIALIA PY:2012 TC:12 AU: Park, M. S.;Gibbons, S. L.;Arroyave, R.;
6:7:6:6 Early stage growth characteristics of Ag3Sn intermetallic compounds during solid-solid and solid-liquid reactions in the Ag-Sn interlayer system: Experiments and simulations
DOI:10.1016/j.jallcom.2014.08.082 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:2 AU: Lis, Adrian;Park, Min Soo;Arroyave, Raymundo;Leinenbach, Christian;
6:7:6:7 Computational Investigation of the Evolution of Intermetallic Compounds Affected by Microvoids During the Solid-State Aging Process in the Cu-Sn System
DOI:10.1007/s11664-013-2494-2 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2013 TC:3 AU: Park, M. S.;Gibbons, S. L.;Arroyave, R.;
6:7:6:8 Phase-field simulations of intermetallic compound evolution in Cu/Sn solder joints under electromigration
DOI:10.1016/j.actamat.2013.08.016 JN:ACTA MATERIALIA PY:2013 TC:4 AU: Park, M. S.;Gibbons, S. L.;Arroyave, R.;
6:7:6:9 Computational investigation of intermetallic compounds (Cu(6)Sn(5) and Cu(3)Sn) growth during solid-state aging process
DOI:10.1016/j.commatsci.2010.12.030 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:14 AU: Park, M. S.;Arroyave, R.;
6:7:6:10 Confinement Effects on Evolution of Intermetallic Compounds During Metallurgical Joint Formation
DOI:10.1007/s11664-014-3151-0 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:0 AU: Park, M. S.;Gibbons, S. L.;Arroyave, R.;
6:7:6:11 Kinetics of Ag3Sn growth in Ag-Sn-Ag system during transient liquid phase soldering process
DOI:10.1016/j.actamat.2010.02.018 JN:ACTA MATERIALIA PY:2010 TC:36 AU: Li, J. F.;Agyakwa, P. A.;Johnson, C. M.;
6:7:6:12 Experimental and computational study of the morphological evolution of intermetallic compound (Cu6Sn5) layers at the Cu/Sn interface under isothermal soldering conditions
DOI:10.1016/j.actamat.2012.06.008 JN:ACTA MATERIALIA PY:2012 TC:9 AU: Park, M. S.;Stephenson, M. K.;Shannon, C.;Caceres Diaz, L. A.;Hudspeth, K. A.;Gibbons, S. L.;Munoz-Saldana, J.;Arroyave, R.;
6:7:6:13 Formation and Growth of Intermetallic Compound Cu6Sn5 at Early Stages in Lead-Free Soldering
DOI:10.1007/s11664-010-1353-7 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2010 TC:12 AU: Park, M. S.;Arroyave, R.;
6:7:6:14 In situ study of the real-time growth behavior of Cu6Sn5 at the Sn/Cu interface during the soldering reaction
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6:7:6:15 IMC growth of Sn-3.5Ag/Cu system: Combined chemical reaction and diffusion mechanisms
DOI:10.1016/j.jallcom.2012.04.068 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:17 AU: Abdelhadi, Ousama M.;Ladani, Leila;
6:7:6:16 Growth kinetics and size distribution of intermetallic compound grains in soldering reaction based on separate measurements of grain radius and height
DOI:10.1016/j.scriptamat.2009.09.017 JN:SCRIPTA MATERIALIA PY:2010 TC:4 AU: Kim, Hee-Soo;Won, Yong Sun;Kwak, Young Hoon;
6:7:6:17 The effect of a concentration gradient on interfacial reactions in microburaps of Ni/SnAg/Cu during liquid-state soldering
DOI:10.1016/j.scriptamat.2012.01.046 JN:SCRIPTA MATERIALIA PY:2012 TC:7 AU: Huang, Y. S.;Hsiao, H. Y.;Chen, Chih;Tu, K. N.;
6:7:6:18 Suitable Thicknesses of Base Metal and Interlayer, and Evolution of Phases for Ag/Sn/Ag Transient liquid-phase Joints Used for Power Die Attachment
DOI:10.1007/s11664-013-2971-7 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:1 AU: Li, J. F.;Agyakwa, P. A.;Johnson, C. M.;
6:7:6:19 Influence of texture of Cu on the growth of Cu-Sn intermetallic compounds
DOI:10.1016/j.matlet.2013.07.047 JN:MATERIALS LETTERS PY:2013 TC:2 AU: Huang, Na;Hu, Anmin;Li, Ming;
6:7:6:20 Roles of phosphorous in Sn4Ag0.5Cu solder reaction with electrolytic Ni-Au
DOI:10.1016/j.jallcom.2012.06.020 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:3 AU: Chung, C. Key;Huang, T. C.;Shia, R.;Yang, T. L.;Kao, C. R.;
6:7:7:1 Mechanism for serrated cathode dissolution in Cu/Sn/Cu interconnect under electron current stressing
DOI:10.1016/j.actamat.2011.12.021 JN:ACTA MATERIALIA PY:2012 TC:27 AU: Ke, J. H.;Chuang, H. Y.;Shih, W. L.;Kao, C. R.;
6:7:7:2 Analysis and experimental verification of the competing degradation mechanisms for solder joints under electron current stressing
DOI:10.1016/j.actamat.2010.12.048 JN:ACTA MATERIALIA PY:2011 TC:25 AU: Ke, J. H.;Yang, T. L.;Lai, Y. S.;Kao, C. R.;
6:7:7:3 Electromigration in flip chip solder joints under extra high current density
DOI:10.1063/1.3371711 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:16 AU: Lin, Y. W.;Ke, J. H.;Chuang, H. Y.;Lai, Y. S.;Kao, C. R.;
6:7:7:4 In situ study on the effect of thermomigration on intermetallic compounds growth in liquid-solid interfacial reaction
DOI:10.1063/1.4876756 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:2 AU: Qu, Lin;Zhao, Ning;Ma, Haitao;Zhao, Huijing;Huang, Mingliang;
6:7:7:5 Effects of anisotropic beta-Sn alloys on Cu diffusion under a temperature gradient
DOI:10.1016/j.actamat.2014.08.029 JN:ACTA MATERIALIA PY:2014 TC:3 AU: Hsu, Wei-Neng;Ouyang, Fan-Yi;
6:7:7:6 Effects of the crystallographic orientation of Sn on the electromigration of Cu/Sn-Ag-Cu/Cu ball joints
DOI:10.1557/jmr.2010.86 JN:JOURNAL OF MATERIALS RESEARCH PY:2011 TC:14 AU: Lee, Kiju;Kim, Keun-Soo;Tsukada, Yutaka;Suganuma, Katsuaki;Yamanaka, Kimihiro;Kuritani, Soichi;Ueshima, Minoru;
6:7:7:7 Effects of current densities on creep behaviors of Sn-3.0Ag-0.5Cu solder joint
DOI:10.1557/jmr.2014.307 JN:JOURNAL OF MATERIALS RESEARCH PY:2014 TC:0 AU: Ma, Limin;Zuo, Yong;Guo, Fu;Shu, Yutian;
6:7:7:8 Thermomigration of Cu-Sn and Ni-Sn intermetallic compounds during electromigration in Pb-free SnAg solder joints
DOI:10.1557/jmr.2011.25 JN:JOURNAL OF MATERIALS RESEARCH PY:2011 TC:12 AU: Chen, Hsiao-Yun;Chen, Chih;
6:7:7:9 The failure models of Sn-based solder joints under coupling effects of electromigration and thermal cycling
DOI:10.1063/1.4789023 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:4 AU: Ma, Limin;Zuo, Yong;Liu, Sihan;Guo, Fu;Wang, Xitao;
6:7:7:10 Effects of Sn grain orientation on substrate dissolution and intermetallic precipitation in solder joints under electron current stressing
DOI:10.1016/j.scriptamat.2014.02.010 JN:SCRIPTA MATERIALIA PY:2014 TC:5 AU: Huang, T. C.;Yang, T. L.;Ke, J. H.;Hsueh, C. H.;Kao, C. R.;
6:7:7:11 In situ observation of thermomigration of Sn atoms to the hot end of 96.5Sn-3Ag-0.5Cu flip chip solder joints
DOI:10.1063/1.3671404 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:11 AU: Ouyang, Fan-Yi;Kao, C. -L.;
6:7:7:12 Effects of Sn grain structure on the electromigration of Sn-Ag solder joints
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6:7:7:13 Thermal-gradient induced abnormal Ni3Sn4 interfacial growth at cold side in Sn2.5Ag alloys for three-dimensional integrated circuits
DOI:10.1016/j.jallcom.2013.05.088 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:7 AU: Ouyang, Fan-Yi;Jhu, Wei-Cheng;Chang, Tao-Chih;
6:7:7:14 Refinement of the Microstructure of Sn-Ag-Bi-In Solder, by Addition of SiC Nanoparticles, to Reduce Electromigration Damage Under High Electric Current
DOI:10.1007/s11664-014-3377-x JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:0 AU: Kim, Youngseok;Nagao, Shijo;Sugahara, Tohru;Suganuma, Katsuaki;Ueshima, Minoru;Albrecht, Hans-Juergen;Wilke, Klaus;Strogies, Joerg;
6:7:7:15 Influence of indium addition on electromigration behavior of solder joint
DOI:10.1557/jmr.2011.283 JN:JOURNAL OF MATERIALS RESEARCH PY:2011 TC:5 AU: Lee, Kiju;Kim, Keun-Soo;Suganuma, Katsuaki;
6:7:7:16 Serrated cathode dissolution under high current density: Morphology and root cause
DOI:10.1063/1.4813118 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:2 AU: Yang, T. L.;Ke, J. H.;Shih, W. L.;Lai, Y. S.;Kao, C. R.;
6:7:7:17 Comparison of thermomigration behaviors between Pb-free flip chip solder joints and microbumps in three dimensional integrated circuits: Bump height effect
DOI:10.1063/1.4789025 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:3 AU: Ouyang, Fan-Yi;Jhu, Wei-Cheng;
6:7:7:18 Effects of Electromigration on the Creep and Thermal Fatigue Behavior of Sn58Bi Solder Joints
DOI:10.1007/s11664-014-3345-5 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:0 AU: Zuo, Yong;Ma, Limin;Guo, Fu;Qiao, Lei;Shu, Yutian;Lee, Andree;Subramanian, K. N.;
6:7:7:19 Precipitation induced by diffusivity anisotropy in Sn grains under electron current stressing
DOI:10.1016/j.jallcom.2012.12.060 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:4 AU: Huang, T. C.;Yang, T. L.;Ke, J. H.;Li, C. C.;Kao, C. R.;
6:7:7:20 Effects of Surface Finishes and Current Stressing on Interfacial Reaction Characteristics of Sn-3.0Ag-0.5Cu Solder Bumps
DOI:10.1007/s11664-011-1888-2 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:3 AU: Kim, Jae-Myeong;Jeong, Myeong-Hyeok;Yoo, Sehoon;Park, Young-Bae;
6:7:7:21 Formation of Sn-rich phases via the decomposition of Cu6Sn5 compounds during current stressing
DOI:10.1016/j.matlet.2014.03.071 JN:MATERIALS LETTERS PY:2014 TC:0 AU: Lin, C. K.;Liu, Chien-Ming;Chen, Chih;
6:7:7:22 Concurrent electromigration and creep in lead-free solder
DOI:10.1063/1.3656002 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:9 AU: Pharr, Matt;Zhao, Kejie;Suo, Zhigang;Ouyang, Fan-Yi;Liu, Pilin;
6:7:7:23 Electromigration induced failure on lead-free micro bumps in three-dimensional integrated circuits packaging
DOI:10.1063/1.4737154 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:5 AU: Ouyang, Fan-Yi;Hsu, Hao;Su, Yu-Ping;Chang, Tao-Chih;
6:7:7:24 Thermomigration of Ti in flip-chip solder joints
DOI:10.1016/j.scriptamat.2012.01.020 JN:SCRIPTA MATERIALIA PY:2012 TC:3 AU: Chen, Hsiao-Yun;Lin, Han-Wen;Liu, Chien-Min;Chang, Yuan-Wei;Huang, Annie T.;Chen, Chih;
6:7:7:25 Mode II electromigration failure mechanism in Sn-based Pb-free solder joints with Ni under-bump metallization
DOI:10.1063/1.4821819 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Wang, Yiwei;Ho, Paul S.;
6:7:7:26 Effect of electric field and Sn grain orientation on Cu consumption in Sn/Cu solder joint
DOI:10.1016/j.commatsci.2014.07.019 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:1 AU: Chen, Jie-Shi;Xu, Meng-Jia;Jin, Yu-Jing;Wang, Kai-Yun;Chun, Yu;Lu, Hao;
6:7:7:27 Temperature-dependent failure mechanism of SnAg solder joints with Cu metallization after current stressing: Experimentation and analysis
DOI:10.1063/1.4821427 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:0 AU: Lin, C. K.;Tsao, Wei An;Liang, Y. C.;Chen, Chih;
6:7:7:28 Dependence of electromigration damage on Sn grain orientation in Sn-Ag-Cu solder joints
DOI:10.1063/1.4825323 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:6 AU: Chen, Jian-Qiang;Guo, Jing-Dong;Liu, Kai-Lang;Shang, Jian-Ku;
6:7:7:29 Study of Electromigration-Induced Failures on Cu Pillar Bumps Joined to OSP and ENEPIG Substrates
DOI:10.1007/s11664-012-2293-1 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:1 AU: Hsiao, Yu-Hsiang;Lin, Kwang-Lung;Lee, Chiu-Wen;Shao, Yu-Hsiu;Lai, Yi-Shao;
6:7:7:30 Measurement of electromigration activation energy in eutectic SnPb and SnAg flip-chip solder joints with Cu and Ni under-bump metallization
DOI:10.1557/JMR.2010.0230 JN:JOURNAL OF MATERIALS RESEARCH PY:2010 TC:2 AU: Chen, Hsiao-Yun;Chen, Chih;
6:7:7:31 Electromigration in Sn-Ag solder thin films under high current density
DOI:10.1016/j.tsf.2014.06.030 JN:THIN SOLID FILMS PY:2014 TC:0 AU: Zhu, X.;Kotadia, H.;Xu, S.;Lu, H.;Mannan, S. H.;Bailey, C.;Chan, Y. C.;
6:7:7:32 Evaluation of Electromigration Behaviors of Pb-Free Microbumps in Three-Dimensional Integrated Circuit Packaging
DOI:10.1007/s11664-013-2840-4 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:1 AU: Hsu, Hao;Lin, Tzu-Yang;Ouyang, Fan-Yi;
6:7:7:33 Effect of electromigration induced joule heating and strain on microstructural recrystallization in eutectic SnPb flip chip solder joints
DOI:10.1016/j.matchemphys.2012.06.054 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:0 AU: Ouyang, Fan-Yi;Tu, K. N.;Lai, Yi-Shao;
6:7:7:34 Investigation of Void Nucleation and Propagation in the Joule Heating Effect During Electromigration in Flip-Chip Solder Joints
DOI:10.1007/s11664-010-1361-7 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2010 TC:1 AU: Chang, Y. W.;Chiu, S. H.;Chen, Chih;
6:7:7:35 Mechanisms of Creep Deformation in Pure Sn Solder Joints
DOI:10.1007/s11664-012-2380-3 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2013 TC:3 AU: Lee, K. -O.;Morris, J. W., Jr.;Hua, Fay;
6:7:7:36 Electromigration kinetics and critical current of Pb-free interconnects
DOI:10.1063/1.4870833 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Lu, Minhua;Rosenberg, Robert;
6:7:8:1 Microstructure and mechanical properties of Sn-Bi, Sn-Ag and Sn-Zn lead-free solder alloys
DOI:10.1016/j.jallcom.2013.03.234 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:28 AU: Osorio, Wislei R.;Peixoto, Leandro C.;Garcia, Leonardo R.;Mangelinck-Noel, Nathalie;Garcia, Amauri;
6:7:8:2 Effect of graphene doping on microstructural and mechanical properties of Sn-8Zn-3Bi solder joints together with electromigration analysis
DOI:10.1016/j.jallcom.2013.05.124 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:9 AU: Hu, Xiao;Chan, Y. C.;Zhang, Kaili;Yung, K. C.;
6:7:8:3 Cu6Sn5 precipitation during Sn-based solder/Cu joint solidification and its effects on the growth of interfacial intermetallic compounds
DOI:10.1016/j.jallcom.2013.08.013 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:11 AU: Yang, Ming;Cao, Yong;Joo, Sungmin;Chen, Hongtao;Ma, Xin;Li, Mingyu;
6:7:8:4 Microstructure, thermal analysis and damping properties of Ag and Ni nano-particles doped Sn-8Zn-3Bi solder on OSP-Cu substrate
DOI:10.1016/j.jallcom.2014.08.076 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:2 AU: Gain, Asit Kumar;Zhang, Liangchi;
6:7:8:5 Mechanical properties of Sn-Ag lead-free solder alloys based on the dendritic array and Ag3Sn morphology
DOI:10.1016/j.jallcom.2013.02.050 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:16 AU: Osorio, Wislei R.;Leiva, Daniel R.;Peixoto, Leandro C.;Garcia, Leonardo R.;Garcia, Amauri;
6:7:8:6 Effect of micron size Ni particle addition in Sn-8Zn-3Bi lead-free solder alloy on the microstructure, thermal and mechanical properties
DOI:10.1016/j.jallcom.2013.09.131 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:12 AU: Billah, Md Muktadir;Shorowordi, Kazi Mohammad;Sharif, Ahmed;
6:7:8:7 Growth kinetics of the Cu3Sn phase and void formation of sub-micrometre solder layers in Sn-Cu binary and Cu-Sn-Cu sandwich structures
DOI:10.1016/j.jallcom.2013.03.093 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:14 AU: Li, Qingqian;Chan, Y. C.;
6:7:8:8 New Sn-0.7Cu-based solder alloys with minor alloying additions of Pd, Cr and Ca
DOI:10.1016/j.jallcom.2014.03.194 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:3 AU: Koo, Jahyun;Chang, Jaewon;Lee, Young Woo;Hong, Sung Jea;Kim, Keun-Soo;Lee, Hyuck Mo;
6:7:8:9 Effects of minor Cu and Zn additions on the thermal, microstructure and tensile properties of Sn-Bi-based solder alloys
DOI:10.1016/j.jallcom.2014.06.015 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:4 AU: Shen, Jun;Pu, Yayun;Yin, Henggang;Luo, Dengjun;Chen, Jie;
6:7:8:10 Effective suppression of electromigration-induced Cu dissolution by using Ag as a barrier layer in lead-free solder joints
DOI:10.1016/j.jallcom.2013.02.053 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:5 AU: Wang, Chao-hong;Shen, Han-ting;Lai, Wei-han;
6:7:8:11 Influence of TiO2 nanoparticles on IMC growth in Sn-3.0Ag-0.5Cu-xTiO(2) solder joints in reflow process
DOI:10.1016/j.jallcom.2012.12.019 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:15 AU: Tang, Y.;Li, G. Y.;Pan, Y. C.;
6:7:8:12 Solid state diffusion between Sn and Cu microcones on Cu microcones
DOI:10.1016/j.jallcom.2013.08.076 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:0 AU: Huang, Yi;Hang, Tao;Hu, Anmin;Chen, Zhuo;Lu, Qin;Li, Ming;
6:7:8:13 Mechanical property and fracture behavior characterizations of 96.5 Sn-3.0 Ag-0.5 Cu solder joints
DOI:10.1016/j.jallcom.2009.10.071 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:11 AU: Chang, Shou-Yi;Huang, Yi-Chung;Lin, Yu-Mu;
6:7:8:14 Investigation of small Sn-3.5Ag-0.5Cu additions on the microstructure and properties of Sn-8Zn-3Bi solder on Au/Ni/Cu pads
DOI:10.1016/j.jallcom.2009.09.150 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:13 AU: Gain, Asit Kumar;Fouzder, Tama;Chan, Y. C.;Sharif, Ahmed;Yung, Winco K. C.;
6:7:8:15 Retarding the electromigration effects to the eutectic SnBi solder joints by micro-sized Ni-particles reinforcement approach
DOI:10.1016/j.jallcom.2010.09.123 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:11 AU: Xu, Guangchen;Guo, Fu;Wang, Xitao;Xia, Zhidong;Lei, Yongping;Shi, Yaowu;Li, Xiaoyan;
6:7:8:16 Growth behaviors of intermetallic compounds at Sn-3Ag-0.5Cu/Cu interface during isothermal and non-isothermal aging
DOI:10.1016/j.jallcom.2013.05.156 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:13 AU: Shen, Jun;Zhao, Mali;He, Peipei;Pu, Yayun;
6:7:8:17 The cross-interactions in the Ni/Sn/Cu diffusion couples with an electroless palladium surface finish
DOI:10.1016/j.jallcom.2012.08.126 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:7 AU: Lin, Chi-Pu;Chen, Chih-Ming;
6:7:8:18 Enhancing the Ductility of Sn-Ag-Cu Lead-Free Solder Joints by Addition of Compliant Intermetallics
DOI:10.1007/s11664-012-2386-x JN:JOURNAL OF ELECTRONIC MATERIALS PY:2013 TC:7 AU: Xie, H. X.;Chawla, N.;
6:7:8:19 Extremely anisotropic single-crystal growth in nanotwinned copper
DOI:10.1038/am.2014.90 JN:NPG ASIA MATERIALS PY:2014 TC:0 AU: Lu, Chia-Ling;Lin, Han-Wen;Liu, Chien-Min;Huang, Yi-Sa;Lu, Tien-Lin;Liu, Tao-Chi;Hsiao, Hsiang-Yao;Chen, Chih;Kuo, Jui-Chao;Tu, King-Ning;
6:7:9:1 Quantifying the effect of porosity on the evolution of deformation and damage in Sn-based solder joints by X-ray microtomography and microstructure-based finite element modeling
DOI:10.1016/j.actamat.2012.03.048 JN:ACTA MATERIALIA PY:2012 TC:26 AU: Padilla, E.;Jakkali, V.;Jiang, L.;Chawla, N.;
6:7:9:2 A Study of Pb-Rich Dendrites in a Near-Eutectic 63Sn-37Pb Solder Microstructure via Laboratory-Scale Micro X-ray Computed Tomography (mu XCT)
DOI:10.1007/s11664-014-3382-0 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:1 AU: Mertens, J. C. E.;Williams, J. J.;Chawla, Nikhilesh;
6:7:9:3 Electromigration Damage Characterization in Sn-3.9Ag-0.7Cu and Sn-3.9Ag-0.7Cu-0.5Ce Solder Joints by Three-Dimensional X-ray Tomography and Scanning Electron Microscopy
DOI:10.1007/s11664-013-2667-z JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:8 AU: Xie, H. X.;Friedman, D.;Mirpuri, K.;Chawla, N.;
6:7:9:4 Damage evolution in SiC particle reinforced Al alloy matrix composites by X-ray synchrotron tomography
DOI:10.1016/j.actamat.2010.07.039 JN:ACTA MATERIALIA PY:2010 TC:24 AU: Williams, J. J.;Flom, Z.;Amell, A. A.;Chawla, N.;Xiao, X.;De Carlo, F.;
6:7:9:5 Dendritic morphology of alpha-Mg during the solidification of Mg-based alloys: 3D experimental characterization by X-ray synchrotron tomography and phase-field simulations
DOI:10.1016/j.scriptamat.2011.07.040 JN:SCRIPTA MATERIALIA PY:2011 TC:12 AU: Wang, M. Y.;Williams, J. J.;Jiang, L.;De Carlo, F.;Jing, T.;Chawla, N.;
6:7:9:6 Three-dimensional (3D) visualization of reflow porosity and modeling of deformation in Pb-free solder joints
DOI:10.1016/j.matchar.2010.01.011 JN:MATERIALS CHARACTERIZATION PY:2010 TC:19 AU: Dudek, M. A.;Hunter, L.;Kranz, S.;Williams, J. J.;Lau, S. H.;Chawla, N.;
6:7:9:7 Accurate modeling and reconstruction of three-dimensional percolating filamentary microstructures from two-dimensional micrographs via dilation-erosion method
DOI:10.1016/j.matchar.2013.12.011 JN:MATERIALS CHARACTERIZATION PY:2014 TC:4 AU: Guo, En-Yu;Chawla, Nikhilesh;Jing, Tao;Torquato, Salvatore;Jiao, Yang;
6:7:9:8 Three-dimensional (3D) microstructural characterization and quantification of reflow porosity in Sn-rich alloy/copper joints by X-ray tomography
DOI:10.1016/j.matchar.2011.07.011 JN:MATERIALS CHARACTERIZATION PY:2011 TC:13 AU: Jiang, Ling;Chawla, Nikhilesh;Pacheco, Mario;Noveski, Vladimir;
6:7:9:9 Modeling and characterizing anisotropic inclusion orientation in heterogeneous material via directional cluster functions and stochastic microstructure reconstruction
DOI:10.1063/1.4867611 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:4 AU: Jiao, Yang;Chawla, Nikhilesh;
6:7:9:10 In situ study on growth behavior of interfacial bubbles and its effect on interfacial reaction during a soldering process
DOI:10.1016/j.apsusc.2014.03.003 JN:APPLIED SURFACE SCIENCE PY:2014 TC:2 AU: Qu, L.;Ma, H. T.;Zhao, H. J.;Kunwar, Anil;Zhao, N.;
6:7:9:11 Multiscale microstructural characterization of Sn-rich alloys by three dimensional (3D) X-ray synchrotron tomography and focused ion beam (FIB) tomography
DOI:10.1016/j.matchar.2012.05.004 JN:MATERIALS CHARACTERIZATION PY:2012 TC:9 AU: Yazzie, K. E.;Williams, J. J.;Phillips, N. C.;De Carlo, F.;Chawla, N.;
6:7:9:12 3D microstructural characterization and mechanical properties of constituent particles in Al 7075 alloys using X-ray synchrotron tomography and nanoindentation
DOI:10.1016/j.jallcom.2014.03.010 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:4 AU: Singh, Sudhanshu S.;Schwartzstein, Cary;Williams, Jason J.;Xiao, Xianghui;De Carlo, Francesco;Chawla, Nikhilesh;
6:7:9:13 Modeling and predicting microstructure evolution in lead/tin alloy via correlation functions and stochastic material reconstruction
DOI:10.1016/j.actamat.2013.02.026 JN:ACTA MATERIALIA PY:2013 TC:6 AU: Jiao, Yang;Padilla, Eric;Chawla, Nikhilesh;
6:7:9:14 Quantitative X-ray microtomography study of 3-D void growth induced by electromigration in eutectic SnPb flip-chip solder joints
DOI:10.1016/j.scriptamat.2011.07.002 JN:SCRIPTA MATERIALIA PY:2011 TC:13 AU: Tian, Tian;Chen, Kai;MacDowell, A. A.;Parkinson, Dula;Lai, Yi-Shao;Tu, K. N.;
6:7:9:15 Microstructure-based modeling of the ageing effect on the deformation behavior of the eutectic micro-constituent in SnAgCu lead-free solder
DOI:10.1016/j.actamat.2012.09.033 JN:ACTA MATERIALIA PY:2013 TC:7 AU: Maleki, Milad;Cugnoni, Joel;Botsis, John;
6:7:9:16 Density of States for a Specified Correlation Function and the Energy Landscape
DOI:10.1103/PhysRevLett.108.080601 JN:PHYSICAL REVIEW LETTERS PY:2012 TC:10 AU: Gommes, C. J.;Jiao, Y.;Torquato, S.;
6:7:9:17 Growth orientations and morphologies of alpha-Mg dendrites in Mg-Zn alloys
DOI:10.1016/j.scriptamat.2012.07.031 JN:SCRIPTA MATERIALIA PY:2012 TC:8 AU: Wang, M. Y.;Xu, Y. J.;Jing, T.;Peng, G. Y.;Fu, Y. N.;Chawla, N.;
6:7:9:18 Isothermal Ageing of SnAgCu Solder Alloys: Three-Dimensional Morphometry Analysis of Microstructural Evolution and Its Effects on Mechanical Response
DOI:10.1007/s11664-014-3017-5 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:4 AU: Maleki, Milad;Cugnoni, Joel;Botsis, John;
6:7:9:19 Cross-Correlation Function for Accurate Reconstruction of Heterogeneous Media
DOI:10.1103/PhysRevLett.110.078002 JN:PHYSICAL REVIEW LETTERS PY:2013 TC:10 AU: Tahmasebi, Pejman;Sahimi, Muhammad;
6:7:9:20 Development of a lab-scale, high-resolution, tube-generated X-ray computed-tomography system for three-dimensional (3D) materials characterization
DOI:10.1016/j.matchar.2014.03.002 JN:MATERIALS CHARACTERIZATION PY:2014 TC:8 AU: Mertens, J. C. E.;Williams, J. J.;Chawla, Nikhilesh;
6:7:9:21 Reconstruction of heterogeneous materials via stochastic optimization of limited-angle X-ray tomographic projections
DOI:10.1016/j.scriptamat.2014.05.002 JN:SCRIPTA MATERIALIA PY:2014 TC:1 AU: Li, Hechao;Chawla, Nikhilesh;Jiao, Yang;
6:7:9:22 On the Mutual Effect of Viscoplasticity and Interfacial Damage Progression in Interfacial Fracture of Lead-Free Solder Joints
DOI:10.1007/s11664-011-1718-6 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:4 AU: Maleki, Milad;Cugnoni, Joel;Botsis, John;
6:7:9:23 Spatial organization and correlation properties quantify structural changes on mesoscale of parenchymatous plant tissue
DOI:10.1063/1.4862641 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Valous, N. A.;Delgado, A.;Drakakis, K.;Sun, D. -W.;
6:7:9:24 Stochastic reconstruction of mixed-matrix membranes and evaluation of effective permeability
DOI:10.1016/j.commatsci.2014.03.003 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:1 AU: Capek, Pavel;Vesely, Martin;Bernauer, Bohumil;Sysel, Petr;Hejtmanek, Vladimir;Kocirik, Milan;Brabec, Libor;Prokopova, Olga;
6:7:9:25 Molecular dynamics simulations of the crystal-melt interface mobility in HCP Mg and BCC Fe
DOI:10.1016/j.jcrysgro.2010.07.051 JN:JOURNAL OF CRYSTAL GROWTH PY:2010 TC:9 AU: Gao, Y. F.;Yang, Y.;Sun, D. Y.;Asta, M.;Hoyt, J. J.;
6:7:9:26 Constituent Particle Break-Up During Hot Rolling of AA 5182
DOI:10.1002/adem.200900241 JN:ADVANCED ENGINEERING MATERIALS PY:2010 TC:4 AU: Moulin, Nicolas;Parra-Denis, Estelle;Jeulin, Dominique;Ducottet, Christophe;Bigot, Annabelle;Boller, Elodie;Maire, Eric;Barat, Cecile;Kloecker, Helmut;
6:7:9:27 Statistical Thermodynamics of Natural Images
DOI:10.1103/PhysRevLett.110.018701 JN:PHYSICAL REVIEW LETTERS PY:2013 TC:6 AU: Stephens, Greg J.;Mora, Thierry;Tkacik, Gasper;Bialek, William;
6:7:10:1 Microstructure, kinetic analysis and hardness of Sn-Ag-Cu-1 wt% nano-ZrO2 composite solder on OSP-Cu pads
DOI:10.1016/j.jallcom.2010.12.048 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:22 AU: Gain, Asit Kumar;Fouzder, Tama;Chan, Y. C.;Yung, Winco K. C.;
6:7:10:2 The influence of addition of Al nano-particles on the microstructure and shear strength of eutectic Sn-Ag-Cu solder on Au/Ni metallized Cu pads
DOI:10.1016/j.jallcom.2010.06.180 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:25 AU: Gain, Asit Kumar;Fouzder, Tama;Chan, Y. C.;Sharif, A.;Wong, N. B.;Yung, Winco K. C.;
6:7:10:3 The adsorption of Ag3Sn nano-particles on Cu-Sn intermetallic compounds of Sn-3Ag-0.5Cu/Cu during soldering
DOI:10.1016/j.jallcom.2009.11.131 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:30 AU: Liu, Xiaoying;Huang, Mingliang;Zhao, Yanhui;Wu, C. M. L.;Wang, Lai;
6:7:10:4 Pb-free solder-alloy based on Sn-Zn-Bi with the addition of germanium
DOI:10.1016/j.jallcom.2010.03.094 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:25 AU: Wang, Shuo-Hong;Chin, Tsung-Shune;Yang, Ching-Feng;Chen, Sinn-Wen;Chuang, Chin-Tzuan;
6:7:10:5 Suppressing effect of 0.5 wt.% nano-TiO2 addition into Sn-3.5Ag-0.5Cu solder alloy on the intermetallic growth with Cu substrate during isothermal aging
DOI:10.1016/j.jallcom.2011.05.116 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:31 AU: Tsao, L. C.;
6:7:10:6 Influence of SrTiO3 nano-particles on the microstructure and shear strength of Sn-Ag-Cu solder on Au/Ni metallized Cu pads
DOI:10.1016/j.jallcom.2010.10.081 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:23 AU: Fouzder, Tama;Shafiq, Ismathullakhan;Chan, Y. C.;Sharif, A.;Yung, Winco K. C.;
6:7:10:7 Evolution of nano-Ag3Sn particle formation on Cu-Sn intermetallic compounds of Sn3.5Ag0.5Cu composite solder/Cu during soldering
DOI:10.1016/j.jallcom.2010.11.010 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:43 AU: Tsao, L. C.;
6:7:10:8 Effect of La addition on the interfacial intermetallics and bonding strengths of Sn-58Bi solder joints with Au/Ni/Cu pads
DOI:10.1016/j.jallcom.2009.11.017 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:18 AU: Shiue, Yu-Yun;Chuang, Tung-Han;
6:7:10:9 High temperature synthesis of Sn-3.5Ag-0.5Zn alloy nanoparticles by chemical reduction method
DOI:10.1016/j.jallcom.2010.04.111 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:18 AU: Lin, C. Y.;Mohanty, U. S.;Chou, J. H.;
6:7:10:10 Creep and thermomechanical fatigue properties of in situ Cu6Sn5 reinforced lead-free composite solder
DOI:10.1016/j.msea.2010.02.048 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:14 AU: Tai, F.;Guo, F.;Han, M. T.;Xia, Z. D.;Lei, Y. P.;Shi, Y. W.;
6:7:10:11 Effects of Process Parameters in Synthesizing Sn Nanoparticles via Chemical Reduction
DOI:10.1007/s13391-011-0510-3 JN:ELECTRONIC MATERIALS LETTERS PY:2012 TC:10 AU: Chee, Sang-Soo;Lee, Jong-Hyun;
6:7:10:12 Influence of the addition of indium on the mechanical creep of Sn-3.5%Ag alloy
DOI:10.1016/j.jallcom.2010.05.007 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:10 AU: Negm, S. E.;Mady, H.;Bahgat, A. A.;
6:7:10:13 Shear and tensile impact strength of lead-free solder ball grid arrays placed on Ni (P)/Au surface-finished substrates
DOI:10.1016/j.mseb.2010.03.092 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2010 TC:14 AU: Tsukamoto, H.;Nishimura, T.;Suenaga, S.;Nogita, K.;
6:7:10:14 Synthesis of sub-10-nm Sn nanoparticles from Sn(II) 2-ethylhexanoate by a modified polyol process and preparation of Ag - Sn film by melting of the Sn nanoparticles
DOI:10.1016/j.tsf.2014.04.061 JN:THIN SOLID FILMS PY:2014 TC:1 AU: Chee, Sang-Soo;Lee, Jong-Hyun;
6:7:10:15 Architectured Materials to Improve the Reliability of Power Electronics Modules: Substrate and Lead-Free Solder
DOI:10.1007/s11664-013-2662-4 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:0 AU: Kaabi, Abderrahmen;Bienvenu, Yves;Ryckelynck, David;Pierre, Bertrand;
6:7:10:16 Direct active soldering of micro-arc oxidized Ti/Ti joints in air using Sn3.5Ag0.5Cu4Ti(RE) filler
DOI:10.1016/j.msea.2012.12.036 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: Tsao, L. C.;
6:7:10:17 Reduction Synthesis of Tin Nanoparticles Using Various Precursors and Melting Behavior
DOI:10.1007/s13391-012-2086-y JN:ELECTRONIC MATERIALS LETTERS PY:2012 TC:5 AU: Chee, Sang-Soo;Lee, Jong-Hyun;
6:7:10:18 A Study on the Physical Properties and Interfacial Reactions with Cu Substrate of Rapidly Solidified Sn-3.5Ag Lead-Free Solder
DOI:10.1007/s11664-013-2615-y JN:JOURNAL OF ELECTRONIC MATERIALS PY:2013 TC:3 AU: Ma, Hai-Tao;Wang, Jie;Qu, Lin;Zhao, Ning;Kunwar, A.;
6:7:10:19 Microstructural characterization and mechanical property of active soldering anodized 6061 Al alloy using Sn-3.5Ag-xTi active solders
DOI:10.1016/j.matchar.2012.03.007 JN:MATERIALS CHARACTERIZATION PY:2012 TC:7 AU: Wang, Wei-Lin;Tsai, Yi-Chia;
6:7:10:20 Investigation of preparation and characteristics of Sn-Bi eutectic powders derived from a high shear mechanical approach
DOI:10.1016/j.jallcom.2011.08.038 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:2 AU: Liang, Kun;Tang, Xianzhong;Yu, Lijing;Wang, Ni;Hu, Wencheng;
6:7:10:21 Effect of surface treatment on the high-speed drop reliability of Pb-free solder interconnect
DOI:10.1016/j.tsf.2013.04.056 JN:THIN SOLID FILMS PY:2013 TC:2 AU: Kim, Jong-Woong;Lee, Hoo-Jeong;Jung, Seung-Boo;
6:7:11:1 Interfacial Reaction of Sn and Cu-xZn Substrates After Reflow and Thermal Aging
DOI:10.1007/s11664-009-0992-z JN:JOURNAL OF ELECTRONIC MATERIALS PY:2010 TC:29 AU: Yu, Chi-Yang;Wang, Kai-Jheng;Duh, Jenq-Gong;
6:7:11:2 Improving the impact toughness of Sn-Ag-Cu/Cu-Zn Pb-free solder joints under high speed shear testing
DOI:10.1016/j.jallcom.2013.10.113 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:4 AU: Yu, Chi-Yang;Chen, Wei-Yu;Duh, Jenq-Gong;
6:7:11:3 Stabilization of hexagonal Cu-6(Sn,Zn)(5) by minor Zn doping of Sn-based solder joints
DOI:10.1016/j.scriptamat.2011.07.029 JN:SCRIPTA MATERIALIA PY:2011 TC:20 AU: Yu, Chi-Yang;Duh, Jenq-Gong;
6:7:11:4 Kinetics of Intermetallic Compound Formation at the Interface Between Sn-3.0Ag-0.5Cu Solder and Cu-Zn Alloy Substrates
DOI:10.1007/s11664-010-1379-x JN:JOURNAL OF ELECTRONIC MATERIALS PY:2010 TC:26 AU: Kim, Young Min;Roh, Hee-Ra;Kim, Sungtae;Kim, Young-Ho;
6:7:11:5 Suppressing the growth of interfacial Cu-Sn intermetallic compounds in the Sn-3.0Ag-0.5Cu-0.1Ni/Cu-15Zn solder joint during thermal aging
DOI:10.1007/s10853-012-6254-0 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:10 AU: Chen, Wei-Yu;Yu, Chi-Yang;Duh, Jenq-Gong;
6:7:11:6 Growth mechanisms of interfacial intermetallic compounds in Sn/Cu-Zn solder joints during aging
DOI:10.1007/s10853-012-6581-1 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:8 AU: Yu, Chi-Yang;Duh, Jenq-Gong;
6:7:11:7 Mechanism of the Delayed Growth of Intermetallic Compound at the Interface between Sn-4.0Ag-0.5Cu and Cu-Zn Substrate
DOI:10.3365/eml.2010.12.151 JN:ELECTRONIC MATERIALS LETTERS PY:2010 TC:21 AU: Kim, Young Min;Harr, Kyoung-Moo;Kim, Young-Ho;
6:7:11:8 Effects of Minor Ni Doping on Microstructural Variations and Interfacial Reactions in Cu/Sn-3.0Ag-0.5Cu-xNi/Au/Ni Sandwich Structures
DOI:10.1007/s11664-010-1372-4 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2010 TC:17 AU: Yu, Chi-Yang;Lee, Tae-Kyu;Tsai, Michael;Liu, Kuo-Chuan;Duh, Jenq-Gong;
6:7:11:9 Interfacial reactions between Sn-3.0Ag-0.5Cu solder and Cu-xZn (x=0-35 wt%) or Cu-xZn-yNi (x=20 and 25 wt%, y=15 and 10 wt%) substrates
DOI:10.1016/j.jallcom.2013.05.167 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:7 AU: Kim, Young Min;Kim, Tae Jin;Choi, Min Young;Kim, Young-Ho;
6:7:11:10 Study of the Zn occupancy leading to the stability improvement for Cu6Sn5 using a first-principles approach
DOI:10.1016/j.matlet.2012.11.102 JN:MATERIALS LETTERS PY:2013 TC:7 AU: Shao, Wei-Quan;Yu, Chi-Yang;Lu, Wen-Cai;Duh, Jenq-Gong;Chen, Sha-Ou;
6:7:11:11 Growth orientation of Cu-Sn IMC in Cu/Sn-3.5Ag/Cu-xZn microbumps and Zn-doped solder joints
DOI:10.1016/j.matlet.2014.07.061 JN:MATERIALS LETTERS PY:2014 TC:1 AU: Chen, Wei-Yu;Tu, Wei;Chang, Hsiang-Ching;Chou, Tzu-Ting;Duh, Jenq-Gong;
6:7:11:12 Grain growth sequence of Cu3Sn in the Cu/Sn and Cu/Sn-Zn systems
DOI:10.1016/j.jallcom.2010.01.038 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:8 AU: Tsai, M. Y.;Yang, S. C.;Wang, Y. W.;Kao, C. R.;
6:7:11:13 Interfacial reactions of fine-pitch Cu/Sn-3.5Ag pillar joints on Cu/Zn and Cu/Ni under bump metallurgies
DOI:10.1016/j.jallcom.2014.07.124 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:0 AU: Kim, Mi-Song;Kang, Myoung-Seok;Bang, Jung-Hwan;Lee, Chang-Woo;Kim, Mok-Soon;Yoo, Sehoon;
6:7:11:14 Study of Cu6Sn5 and Cu3Sn growth behaviors by considering trace Zn
DOI:10.1016/j.matlet.2014.01.124 JN:MATERIALS LETTERS PY:2014 TC:1 AU: Yu, Chun;Wang, Dongye;Chen, Jieshi;Xu, Jijin;Chen, Junmei;Lu, Hao;
6:7:11:15 Wetting characteristics of Cu-xZn layers for Sn-3.0Ag-0.5Cu solders
DOI:10.1016/j.jallcom.2013.03.083 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:5 AU: Lee, Ji Hyun;Kim, Young Min;Hwang, Ji Hwan;Kim, Young-Ho;
6:7:11:16 Microstructural Variation and Phase Evolution in the Reaction of Sn-xAg-Cu Solders and Cu-yZn Substrates During Reflow
DOI:10.1007/s11664-010-1349-3 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2010 TC:8 AU: Yu, Chi-Yang;Duh, Jenq-Gong;
6:7:11:17 Increasing the Mn doping level in semiconductor nanocrystals by sol-gel auto-combustion method
DOI:10.1016/j.matlet.2012.08.128 JN:MATERIALS LETTERS PY:2012 TC:3 AU: Jiang, Yuwen;Lan, Changyong;Yang, Shuhu;Yang, Shaoguang;
6:7:11:18 Thermally driven redistribution of phases and components in Cu/Sn thin films
DOI:10.1016/j.jallcom.2012.04.037 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:1 AU: Oleshkevych, Anna;Zamani, Atieh;Kotenko, Igor;Voloshko, Svitlana;Sidorenko, Sergey;Rennie, Adrian R.;
6:7:11:19 Sol-gel auto-combustion synthesis of totally immiscible NiAg alloy
DOI:10.1016/j.materresbull.2011.08.013 JN:MATERIALS RESEARCH BULLETIN PY:2011 TC:2 AU: Jiang, Yuwen;Yang, Shaoguang;Hua, Zhenghe;Gong, Jiangfeng;Zhao, Xiaoning;
6:7:12:1 Whisker and hillock growth via coupled localized Coble creep, grain boundary sliding, and shear induced grain boundary migration
DOI:10.1016/j.actamat.2012.12.019 JN:ACTA MATERIALIA PY:2013 TC:11 AU: Sarobol, P.;Blendell, J. E.;Handwerker, C. A.;
6:7:12:2 Sn whisker growth during thermal cycling
DOI:10.1016/j.actamat.2011.08.017 JN:ACTA MATERIALIA PY:2011 TC:28 AU: Suganuma, Katsuaki;Baated, Alongheng;Kim, Keun-Soo;Hamasaki, Kyoko;Nemoto, Norio;Nakagawa, Tsuyoshi;Yamada, Toshiyuki;
6:7:12:3 Sn whisker mitigation by a thin metallic-glass underlayer in Cu-Sn
DOI:10.1063/1.4847336 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Diyatmika, Wahyu;Chu, Jinn P.;Yen, Y. W.;Hsueh, C. H.;
6:7:12:4 Kinetics of Sn whisker nucleation using thermally induced stress
DOI:10.1016/j.scriptamat.2014.08.019 JN:SCRIPTA MATERIALIA PY:2014 TC:2 AU: Pei, F.;Briant, C. L.;Kesari, H.;Bower, A. F.;Chason, E.;
6:7:12:5 Copper-oxide whisker growth on tin-copper alloy coatings caused by the corrosion of Cu6Sn5 intermetallics
DOI:10.1007/s10853-013-7619-8 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:1 AU: Horvath, Barbara;Illes, Balazs;Shinohara, Tadashi;Harsanyi, Gabor;
6:7:12:6 Effects of humidity on tin whisker growth - Investigated on Ni and Ag underplated layer construction
DOI:10.1016/j.tsf.2011.08.040 JN:THIN SOLID FILMS PY:2011 TC:12 AU: Horvath, Barbara;Illes, Balazs;Shinohara, Tadashi;Harsanyi, Gabor;
6:7:12:7 Interface flow mechanism for tin whisker growth
DOI:10.1016/j.actamat.2010.11.061 JN:ACTA MATERIALIA PY:2011 TC:8 AU: Howard, H. P.;Cheng, J.;Vianco, P. T.;Li, J. C. M.;
6:7:12:8 Mitigation of Sn Whisker Growth by Small Bi Additions
DOI:10.1007/s11664-013-2706-9 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:2 AU: Jo, Jung-Lae;Nagao, Shijo;Hamasaki, Kyoko;Tsujimoto, Masanobu;Sugahara, Tohru;Suganuma, Katsuaki;
6:7:12:9 Hollow tin/chromium whiskers
DOI:10.1063/1.3419837 JN:APPLIED PHYSICS LETTERS PY:2010 TC:7 AU: Cheng, Jing;Vianco, Paul T.;Li, James C. M.;
6:7:12:10 Nucleation and growth of tin whiskers
DOI:10.1063/1.3597653 JN:APPLIED PHYSICS LETTERS PY:2011 TC:3 AU: Cheng, Jing;Vianco, Paul T.;Zhang, Bei;Li, James C. M.;
6:7:12:11 Effect of crystallographic texture, anisotropic elasticity, and thermal expansion on whisker formation in beta-Sn thin films
DOI:10.1557/jmr.2013.378 JN:JOURNAL OF MATERIALS RESEARCH PY:2014 TC:0 AU: Chen, Wei-Hsun;Sarobol, Pylin;Holaday, John R.;Handwerker, Carol A.;Blendell, John E.;
6:7:12:12 Recrystallization as a nucleation mechanism for whiskers and hillocks on thermally cycled Sn-alloy solder films
DOI:10.1016/j.matlet.2013.02.066 JN:MATERIALS LETTERS PY:2013 TC:7 AU: Sarobol, P.;Koppes, J. P.;Chen, W. H.;Su, P.;Blendell, J. E.;Handwerker, C. A.;
6:7:12:13 Optimum Thickness of Sn Film for Whisker Growth
DOI:10.1007/s11664-011-1708-8 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:9 AU: Cheng, Jing;Yang, Fuqian;Vianco, Paul T.;Zhang, Bei;Li, James C. M.;
6:7:12:14 Controlled positions and kinetic analysis of spontaneous tin whisker growth
DOI:10.1063/1.3643472 JN:APPLIED PHYSICS LETTERS PY:2011 TC:5 AU: Su, Chien-Hao;Chen, Hao;Lee, Hsin-Yi;Wu, Albert T.;
6:7:12:15 Analysis of tin whisker growth on lead-free alloys with Ni presence under thermal shock stress
DOI:10.1016/j.mseb.2010.10.001 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2011 TC:8 AU: Skwarek, Agata;Pluska, Mariusz;Ratajczak, Jacek;Czerwinski, Andrzej;Witek, Krzysztof;Szwagierczak, Dorota;
6:7:12:16 Quantitative analysis for hillocks grown from electroplated Sn film
DOI:10.1063/1.3359658 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:6 AU: Cheng, Jing;Chen, Samuel;Vianco, Paul T.;Li, James C. M.;
6:7:12:17 An assessment of Sn whiskers and depleted area formation in thin Sn films using quantitative image analysis
DOI:10.1007/s10853-010-4976-4 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:2 AU: Cheng, Jing;Vianco, Paul T.;Subjeck, Joeseph;Li, James C. M.;
6:7:12:18 Correlating whisker growth and grain structure on Sn-Cu samples by real-time scanning electron microscopy and backscattering diffraction characterization
DOI:10.1063/1.4721661 JN:APPLIED PHYSICS LETTERS PY:2012 TC:9 AU: Pei, Fei;Jadhav, Nitin;Chason, Eric;
6:7:12:19 Altering the Mechanical Properties of Sn Films by Alloying with Bi: Mimicking the Effect of Pb to Suppress Whiskers
DOI:10.1007/s11664-012-2267-3 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2013 TC:10 AU: Jadhav, Nitin;Williams, Maureen;Pei, Fei;Stafford, Gery;Chason, Eric;
6:7:12:20 Stress Relaxation in Sn-Based Films: Effects of Pb Alloying, Grain Size, and Microstructure
DOI:10.1007/s11664-011-1829-0 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:10 AU: Jadhav, Nitin;Wasserman, Jacob;Pei, Fei;Chason, Eric;
6:7:12:21 Evaluation of local strain evolution from metallic whisker formation
DOI:10.1016/j.scriptamat.2011.05.007 JN:SCRIPTA MATERIALIA PY:2011 TC:10 AU: Sun, Yong;Hoffman, Elizabeth N.;Lam, Poh-Sang;Li, Xiaodong;
6:7:12:22 Anisotropic grain growth and crack propagation in eutectic microstructure under cyclic temperature annealing in flip-chip SnPb composite solder joints
DOI:10.1016/j.scriptamat.2013.03.018 JN:SCRIPTA MATERIALIA PY:2013 TC:2 AU: Liang, Y. C.;Lin, H. W.;Chen, H. P.;Chen, C.;Tu, K. N.;Lai, Y. S.;
6:7:12:23 Evolution of tin whiskers and subsiding grains in thermal cycling
DOI:10.1007/s10853-013-7788-5 JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:2 AU: Wang, Ying;Blendell, John E.;Handwerker, Carol A.;
6:7:12:24 Kinetic Analysis of Spontaneous Whisker Growth on Pre-treated Surfaces with Weak Oxide
DOI:10.1007/s11664-014-3182-6 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:1 AU: Su, Chien-Hao;Chen, Hao;Lee, Hsin-Yi;Liu, Cheng Yi;Ku, Ching-Shun;Wu, Albert T.;
6:7:12:25 Thin film metallic glass as an underlayer for tin whisker mitigation: A room-temperature evaluation
DOI:10.1016/j.tsf.2013.08.036 JN:THIN SOLID FILMS PY:2014 TC:2 AU: Diyatmika, Wahyu;Chu, J. P.;Yen, Y. W.;Chang, W. Z.;Hsueh, C. H.;
6:7:12:26 Whisker Formation Induced by Component and Assembly Ionic Contamination
DOI:10.1007/s11664-011-1808-5 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:5 AU: Snugovsky, Polina;Meschter, Stephan;Bagheri, Zohreh;Kosiba, Eva;Romansky, Marianne;Kennedy, Jeffrey;
6:7:12:27 Mitigation and Verification Methods for Sn Whisker Growth in Pb-Free Automotive Electronics
DOI:10.1007/s11664-012-2308-y JN:JOURNAL OF ELECTRONIC MATERIALS PY:2013 TC:1 AU: Hong, Won Sik;Oh, Chul Min;Kim, Do Seop;
6:7:12:28 Growth of intermetallics between Sn/Ni/Cu, Sn/Ag/Cu and Sn/Cu layered structures
DOI:10.1016/j.tsf.2014.01.029 JN:THIN SOLID FILMS PY:2014 TC:0 AU: Horvath, Barbara;Illes, Balazs;Shinohara, Tadashi;
6:7:12:29 Internal Microstructure Investigation of Tin Whisker Growth Using FIB Technology
DOI:10.1007/s11664-012-2065-y JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:1 AU: Fortier, Aleksandra;Kovacevic, Radovan;
6:7:12:30 Significance of Nucleation Kinetics in Sn Whisker Formation
DOI:10.1007/s11664-014-3379-8 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:2 AU: Chason, E.;Pei, F.;Briant, C. L.;Kesari, H.;Bower, A. F.;
6:7:13:1 Nanoindentation creep of tin and aluminium: A comparative study between constant load and constant strain rate methods
DOI:10.1016/j.msea.2011.11.016 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:20 AU: Shen, Lu;Cheong, Wun Chet Davy;Foo, Yong Lim;Chen, Zhong;
6:7:13:2 Temperature Dependence of Creep and Hardness of Sn-Ag-Cu Lead-Free Solder
DOI:10.1007/s11664-009-0970-5 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2010 TC:26 AU: Han, Y. D.;Jing, H. Y.;Nai, S. M. L.;Xu, L. Y.;Tan, C. M.;Wei, J.;
6:7:13:3 Nanomechanical characterization of Sn-Ag-Cu/Cu joints-Part 2: Nanoindentation creep and its relationship with uniaxial creep as a function of temperature
DOI:10.1016/j.actamat.2013.01.020 JN:ACTA MATERIALIA PY:2013 TC:9 AU: Marques, V. M. F.;Wunderle, B.;Johnston, C.;Grant, P. S.;
6:7:13:4 Indentation size effect and micromechanics characterization of intermetallic compounds in the Au-Sn system
DOI:10.1016/j.msea.2014.05.039 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Wang, Yikai;Liu, Wensheng;Ma, Yunzhu;Huang, Yufeng;Tang, Ya;Cheng, Fan;Yu, Qiang;
6:7:13:5 Local and Global Properties of a Lead-Free Solder
DOI:10.1007/s11664-013-2666-0 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:1 AU: Ma, Z.;Chalon, F.;Leroy, R.;Ranganathan, N.;Beake, B. D.;
6:7:13:6 Use of quasi-static nanoindentation data to obtain stress strain characteristics for metallic materials
DOI:10.1016/j.actamat.2010.02.031 JN:ACTA MATERIALIA PY:2010 TC:11 AU: Dean, J.;Wheeler, J. M.;Clyne, T. W.;
6:7:13:7 A critical assessment of the "stable indenter velocity" method for obtaining the creep stress exponent from indentation data
DOI:10.1016/j.actamat.2014.07.054 JN:ACTA MATERIALIA PY:2014 TC:0 AU: Dean, J.;Campbell, J.;Aldrich-Smith, G.;Clyne, T. W.;
6:7:13:8 Nanomechanical characterization of Sn-Ag-Cu/Cu joints-Part 1: Young's modulus, hardness and deformation mechanisms as a function of temperature
DOI:10.1016/j.actamat.2013.01.019 JN:ACTA MATERIALIA PY:2013 TC:6 AU: Marques, V. M. F.;Johnston, C.;Grant, P. S.;
6:7:13:9 Indentation. size effect of stress exponent and hardness in homogeneous duplex eutectic 80Au/20Sn
DOI:10.1016/j.matlet.2014.01.066 JN:MATERIALS LETTERS PY:2014 TC:4 AU: Liu, Wensheng;Wang, Yikai;Ma, Yunzhu;Huang, Yufeng;Tang, Ya;Cheng, Fan;
6:7:13:10 Indentation depth dependent micromechanical properties and rate dependent pop-in events of (Au,Cu)(5)Sn
DOI:10.1016/j.matlet.2014.05.166 JN:MATERIALS LETTERS PY:2014 TC:1 AU: Wang, Yikai;Liu, Wensheng;Ma, Yunzhu;Huang, Yufeng;Tang, Ya;Luo, Huiting;Yu, Qiang;
6:7:13:11 Strain rate sensitivity of Sn-3.0Ag-0.5Cu solder investigated by nanoindentation
DOI:10.1016/j.msea.2014.06.113 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:4 AU: Xiao, Gesheng;Yuan, Guozheng;Jia, Chunnan;Yang, Xuexia;Li, Zhigang;Shu, Xuefeng;
6:7:13:12 Elastic modulus, hardness and creep performance of SnBi alloys using nanoindentation
DOI:10.1016/j.msea.2012.07.120 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:14 AU: Shen, Lu;Septiwerdani, Pradita;Chen, Zhong;
6:7:13:13 Impact crack propagation through the dual-phased (Cu,Ni)(6)Sn-5 layer in Sn-Ag-Cu/Ni solder joints
DOI:10.1016/j.matlet.2012.04.099 JN:MATERIALS LETTERS PY:2012 TC:5 AU: Fu, Shao-Wei;Yu, Chi-Yang;Lee, Tae-Kyu;Liu, Kuo-Chuan;Duh, Jenq-Gong;
6:7:13:14 Microstructural evolution at Cu/Sn-Ag-Cu/Cu and Cu/Sn-Ag-Cu/Ni-Au ball grid array interfaces during thermal ageing
DOI:10.1016/j.jallcom.2014.05.200 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:2 AU: Marques, V. M. F.;Johnston, C.;Grant, P. S.;
6:7:13:15 Enhancement of the impact toughness in Sn-Ag-Cu/Cu solder joints via modifying the microstructure of solder alloy
DOI:10.1016/j.matlet.2013.12.088 JN:MATERIALS LETTERS PY:2014 TC:2 AU: Yu, Chi-Yang;Lee, Joseph;Chen, Wen-Lin;Duh, Jenq-Gong;
6:7:13:16 Mechanical properties of FeCo magnetic particles-based Sn-Ag-Cu solder composites
DOI:10.1063/1.4812467 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Xu, Siyang;Prasitthipayong, Anya;Pickel, Andrea D.;Habib, Ashfaque H.;McHenry, Michael E.;
6:7:13:17 Effect of Ni-Coated Carbon Nanotubes on Interfacial Reaction and Shear Strength of Sn-Ag-Cu Solder Joints
DOI:10.1007/s11664-012-2142-2 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:6 AU: Han, Y. D.;Jing, H. Y.;Nai, S. M. L.;Xu, L. Y.;Tan, C. M.;Wei, J.;
6:7:13:18 Effect of Ni-Coated Carbon Nanotubes on the Corrosion Behavior of Sn-Ag-Cu Solder
DOI:10.1007/s11664-013-2763-0 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2013 TC:2 AU: Han, Y. D.;Chen, L.;Jing, H. Y.;Nai, S. M. L.;Wei, J.;Xu, L. Y.;
6:7:13:19 The influence of addition of nanosized molybdenum and nickel particles on creep behavior of Sn-Ag lead free solder alloy
DOI:10.1016/j.jallcom.2012.07.044 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:9 AU: Niranjani, V. L.;Rao, B. S. S. Chandra;Sarkar, Rajdeep;Kamat, S. V.;
6:7:13:20 A Method to Identify Steady Creep Strain from Indentation Creep Using a New Reference Area of Indentation
DOI:10.1007/s11664-014-3196-0 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:1 AU: Takita, Atsuko;Sasaki, Katsuhiko;Ohguchi, Ken-ichi;
6:7:13:21 Indentation of power law creep solids by self-similar indenters
DOI:10.1016/j.msea.2010.05.069 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:2 AU: Chen, Wei-Min;Cheng, Yang-Tse;Li, Min;
6:7:13:22 Nanoindentation study on the creep resistance of SnBi solder alloy with reactive nano-metallic fillers
DOI:10.1016/j.msea.2012.10.076 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: Shen, Lu;Tan, Zheng Yu;Chen, Zhong;
6:7:13:23 3D FEM Simulations of Drop Test Reliability on 3D-WLP: Effects of Solder Reflow Residual Stress and Molding Resin Parameters
DOI:10.1007/s11664-013-2964-6 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:0 AU: Belhenini, Soufyane;Tougui, Abdellah;Bouchou, Abdelhake;Mohan, Ranganathan;Dosseul, Franck;
6:7:14:1 Rate-dependent behavior of Sn alloy-Cu couples: Effects of microstructure and composition on mechanical shock resistance
DOI:10.1016/j.actamat.2012.04.018 JN:ACTA MATERIALIA PY:2012 TC:14 AU: Yazzie, K. E.;Fei, H. E.;Jiang, H.;Chawla, N.;
6:7:14:2 Mechanical properties of Cu6Sn5 intermetallic by micropillar compression testing
DOI:10.1016/j.scriptamat.2010.05.009 JN:SCRIPTA MATERIALIA PY:2010 TC:24 AU: Jiang, L.;Chawla, N.;
6:7:14:3 Effects of thermal annealing in the post-reflow process on microstructure, tin crystallography, and impact reliability of Sn-Ag-Cu solder joints
DOI:10.1016/j.msea.2014.06.102 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Chen, Wen-Lin;Yu, Chi-Yang;Ho, Cheng-Ying;Duh, Jenq-Gong;
6:7:14:4 On the relationship between solder-controlled and intermetallic compound (IMC)-controlled fracture in Sn-based solder joints
DOI:10.1016/j.scriptamat.2012.01.009 JN:SCRIPTA MATERIALIA PY:2012 TC:17 AU: Yazzie, K. E.;Xie, H. X.;Williams, J. J.;Chawla, N.;
6:7:14:5 Fracture of Sn-Ag-Cu Solder Joints on Cu Substrates: I. Effects of Loading and Processing Conditions
DOI:10.1007/s11664-011-1769-8 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:15 AU: Huang, Z.;Kumar, P.;Dutta, I.;Pang, J. H. L.;Sidhu, R.;Renavikar, M.;Mahajan, R.;
6:7:14:6 Modeling Fracture of Sn-Rich (Pb-Free) Solder Joints Under Mechanical Shock Conditions
DOI:10.1007/s11664-012-2079-5 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:4 AU: Fei, Huiyang;Yazzie, Kyle;Chawla, Nikhilesh;Jiang, Hanqing;
6:7:14:7 Effects of Microstructure and Loading on Fracture of Sn-3.8Ag-0.7Cu Joints on Cu Substrates with ENIG Surface Finish
DOI:10.1007/s11664-014-3441-6 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:0 AU: Huang, Z.;Kumar, P.;Dutta, I.;Sidhu, R.;Renavikar, M.;Mahajan, R.;
6:7:14:8 Mechanical Properties of Lead-Free Solder Joints Under High-Speed Shear Impact Loading
DOI:10.1007/s11664-014-3394-9 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:1 AU: Van Luong Nguyen;Kim, Ho-Kyung;
6:7:14:9 Shear deformation behavior of a Sn-3Ag-0.5Cu single solder ball at intermediate strain rates
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6:7:14:10 Low-temperature direct copper-to-copper bonding enabled by creep on highly (111)-oriented Cu surfaces
DOI:10.1016/j.scriptamat.2014.01.040 JN:SCRIPTA MATERIALIA PY:2014 TC:3 AU: Liu, Chien-Min;Lin, Han-Wen;Chu, Yi-Cheng;Chen, Chih;Lyu, Dian-Rong;Chen, Kuan-Neng;Tu, K. N.;
6:7:14:11 Fracture of Sn-Ag-Cu Solder Joints on Cu Substrates. II: Fracture Mechanism Map
DOI:10.1007/s11664-011-1806-7 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:11 AU: Kumar, P.;Huang, Z.;Dutta, I.;Sidhu, R.;Renavikar, M.;Mahajan, R.;
6:7:14:12 Incorporation of Interfacial Intermetallic Morphology in Fracture Mechanism Map for Sn-Ag-Cu Solder Joints
DOI:10.1007/s11664-013-2755-0 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:1 AU: Huang, Z.;Kumar, P.;Dutta, I.;Sidhu, R.;Renavikar, M.;Mahajan, R.;
6:7:14:13 Evaluation of the joint strength between Sn-3.0Ag-0.5Cu solders and Cu substrate at high strain rates
DOI:10.1016/j.msea.2012.07.025 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:2 AU: You, In-Dong;Kim, Ho-Kyung;
6:7:14:14 Effects of Ni-coated carbon nanotubes addition on the microstructure and mechanical properties of Sn-Ag-Cu solder alloys
DOI:10.1016/j.msea.2013.10.008 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:6 AU: Yang, Zhongbao;Zhou, Wei;Wu, Ping;
6:7:14:15 Effect of Isothermal Aging and Thermal Cycling on Interfacial IMC Growth and Fracture Behavior of SnAgCu/Cu Joints
DOI:10.1007/s11664-010-1401-3 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:11 AU: Li, Xiaoyan;Li, Fenghui;Guo, Fu;Shi, Yaowu;
6:7:14:16 Multiscale Modeling of the Interfacial Fracture Behavior in the Sn-Cu-6 Sn-5-Cu System
DOI:10.1166/jctn.2011.1767 JN:JOURNAL OF COMPUTATIONAL AND THEORETICAL NANOSCIENCE PY:2011 TC:3 AU: Fei, Huiyang;Yazzie, Kyle;Williams, Jason;Chawla, Nikhilesh;Jiang, Hanqing;
6:7:14:17 Thermal and Mechanical Stability of Ce-Containing Sn-3.9Ag-0.7Cu Lead-Free Solder on Cu and Electroless Ni-P Metallizations
DOI:10.1007/s11664-012-2170-y JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:8 AU: Xie, Huxiao;Chawla, Nikhilesh;Mirpuri, Kabir;
6:7:14:18 The Effect of Crystallographic Orientation on the Mechanical Behavior of Cu6Sn5 by Micropillar Compression Testing
DOI:10.1007/s11664-012-2124-4 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:7 AU: Jiang, Ling;Jiang, Hanqing;Chawla, Nikhilesh;
6:7:14:19 R-curve behavior of Cu-Sn3.0Ag0.5Cu solder joints: Effect of mode ratio and microstructure
DOI:10.1016/j.msea.2009.08.046 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:9 AU: Nadimpalli, Siva P. V.;Spelt, Jan K.;
6:7:14:20 Electromigration Failure Mechanism in Sn-Cu Solder Alloys with OSP Cu Surface Finish
DOI:10.1007/s11664-012-2175-6 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:1 AU: Chu, Ming-Hui;Liang, S. W.;Chen, Chih;Huang, Annie T.;
6:7:14:21 Rate-dependent behavior of Sn alloy-Cu couples: Effects of microstructure and composition on mechanical shock resistance (vol 60, pg 4336, 2012)
DOI:10.1016/j.actamat.2014.03.056 JN:ACTA MATERIALIA PY:2014 TC:0 AU: Yazzie, K. E.;Fei, H.;Jiang, H.;Chawla, N.;
6:7:14:22 The Effect of Random Voids in the Modified Gurson Model
DOI:10.1007/s11664-011-1816-5 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:2 AU: Fei, Huiyang;Yazzie, Kyle;Chawla, Nikhilesh;Jiang, Hanqing;
6:7:15:1 Study of the Effects of Zn Content on the Interfacial Reactions Between Sn-Zn Solders and Ni Substrates at 250 degrees C
DOI:10.1007/s11664-010-1358-2 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2010 TC:22 AU: Wang, Chao-Hong;Chen, Hsien-Hsin;
6:7:15:2 Effects of Minor Amounts of Zn on the Sn-Zn/Ni Interfacial Reactions and Phase Equilibria of the Ternary Sn-Zn-Ni System at 250 degrees C
DOI:10.1007/s11664-011-1766-y JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:9 AU: Wang, Chao-Hong;Chen, Hsien-Hsin;Lai, Wei-Han;
6:7:15:3 Liquid-State Interfacial Reactions of Sn-Zn/Co Couples at 250 degrees C
DOI:10.1007/s11664-012-2190-7 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:4 AU: Wang, Chao-hong;Huang, Sheng-en;Liu, Jian-lin;
6:7:15:4 Sn-Zn/Ni-Co Interfacial Reactions at 250 degrees C
DOI:10.1007/s11664-014-3232-0 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:0 AU: Lin, Hsin-fu;Chang, Ya-chun;Chen, Chih-chi;
6:7:15:5 Interfacial reactions of high-temperature Zn-Sn solders with Ni substrate
DOI:10.1016/j.matchemphys.2012.03.057 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:3 AU: Wang, Chao-hong;Chen, Hsien-hsin;Li, Po-yi;
6:7:15:6 Retarding the Cu5Zn8 phase fracture at the Sn-9 wt.% Zn/Cu interface
DOI:10.1016/j.scriptamat.2010.12.006 JN:SCRIPTA MATERIALIA PY:2011 TC:15 AU: Wang, Jin-Yi;Lin, Chih-Fan;Chen, Chih-Ming;
6:7:15:7 Interfacial Microstructure Evolution Between Sn-Zn Solders and Ag Substrate During Solid-State Annealing
DOI:10.1007/s11664-014-3358-0 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:1 AU: Wang, Chao-hong;Li, Po-yi;Li, Kuan-ting;
6:7:15:8 Thermodynamic optimization and phase equilibria in the ternary system Ni-Sn-Zn
DOI:10.1016/j.jallcom.2014.04.158 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:0 AU: Gandova, V.;Vassilev, G. P.;
6:7:15:9 Interfacial Reactions Between Sn-Zn Alloys and Ni Substrates
DOI:10.1007/s11664-009-0950-9 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2010 TC:15 AU: Zhu, WenJun;Liu, HuaShan;Wang, JinSan;Ma, Guang;Jin, ZhanPeng;
6:7:15:10 Interfacial Reactions in SnxZn1-x(Liquid)/Ni(Solid) Couples at 873 K
DOI:10.1007/s11664-012-2157-8 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:1 AU: Yuan, Yuan;Li, Dajian;Liu, Libin;Borzone, Gabriella;
6:7:15:11 Interfacial reactions in the Sn-In-Zn/Ag and Sn-In-Zn/Ni couples
DOI:10.1016/j.matchemphys.2011.11.057 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:5 AU: Chen, Sinn-wen;Yang, Ching-feng;Wu, Hsin-jay;Chang, Ru-Bo;Hsu, Chia-ming;
6:7:15:12 Interfacial Reactions of Sn-58Bi and Sn-9Zn Lead-Free Solders with Au/Ni/SUS304 Multi layer Substrate
DOI:10.1007/s11664-010-1336-8 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2010 TC:7 AU: Yen, Yee-Wen;Liaw, Da-Wei;Chen, Kuen-Da;Chen, Hao;
6:7:15:13 Growth kinetics of the solid-state interfacial reactions in the Sn-Cu/Co and Sn/Co-Cu couples
DOI:10.1016/j.matchemphys.2011.07.042 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2011 TC:7 AU: Wang, Chao-hong;Kuo, Chun-yi;
6:7:15:14 Phase Equilibria in the Sn-Ni-Zn Ternary System: Isothermal Sections at 200A degrees C, 500A degrees C, and 800A degrees C
DOI:10.1007/s11664-010-1313-2 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2010 TC:16 AU: Chang, Jaewon;Seo, Sun-Kyoung;Lee, Hyuck Mo;
6:7:15:15 Microstructure evolution of Ni5Zn21 intermetallic compound at Sn-9 wt%Zn/Ni interface
DOI:10.1016/j.matchemphys.2013.01.002 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2013 TC:3 AU: Wang, Chao-hong;Li, Po-yi;
6:7:15:16 Phase Equilibria in the Ni-Sn-Zn System at 500 degrees C
DOI:10.1007/s11664-011-1720-z JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:7 AU: Liang, Jian-Lie;Du, Yong;Tang, Yi-Yuan;Xie, Shi-Biao;Xu, Hong-Hui;Zeng, Ling-Min;Liu, Yong;Zhu, Qi-Ming;Nong, Liang-Qin;
6:7:15:17 Diffusion of Cu and interfacial reactions during reflow of Sn-8.5Zn-0.5Ag-0.01Al-0.1Ga alloy on Ni/Cu substrate
DOI:10.1557/jmr.2012.68 JN:JOURNAL OF MATERIALS RESEARCH PY:2012 TC:2 AU: Mittal, Jagjiwan;Lin, Kwang Lung;
6:7:15:18 Coupling Effect of the Interfacial Reaction in Co/Sn/Cu Diffusion Couples
DOI:10.1007/s11664-010-1180-x JN:JOURNAL OF ELECTRONIC MATERIALS PY:2010 TC:7 AU: Wang, Chao-hong;Kuo, Chun-yi;
6:7:15:19 Dissolution and Interfacial Reactions of (Cu,Ni)(6)Sn-5 Intermetallic Compound in Molten Sn-Cu-Ni Solders
DOI:10.1007/s11664-013-2708-7 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:2 AU: Wang, Chao-hong;Lai, Wei-han;Chen, Sinn-wen;
6:7:15:20 Cruciform Pattern of Ni5Zn21 Formed in Interfacial Reactions Between Ni and Sn-Zn Solders
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6:7:15:21 Experimental investigation on the phase equilibria of the Mn-Ni-Zn system at 400 degrees C
DOI:10.1016/j.jallcom.2009.08.081 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:2 AU: Liang, Jian Lie;Du, Yong;Liao, Chang Zhong;Tang, Yi Yuan;Nong, Liang Qin;Zheng, Feng;Xu, Hong Hui;
6:7:15:22 Interfacial Reactions of Sn-3.5Ag-xZn Solders and Cu Substrate During Liquid-State Aging
DOI:10.1007/s11664-010-1445-4 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:0 AU: Liu, Lijuan;Zhou, Wei;Mu, Wenkai;Wu, Ping;
6:7:15:23 Interfacial Reactions and Joint Strengths of Sn-xZn Solders with Immersion Ag UBM
DOI:10.1007/s11664-010-1308-z JN:JOURNAL OF ELECTRONIC MATERIALS PY:2010 TC:1 AU: Jee, Y. K.;Yu, Jin;
6:7:16:1 Failure mechanisms of solder interconnects under current stressing in advanced electronic packages
DOI:10.1016/j.pmatsci.2010.01.001 JN:PROGRESS IN MATERIALS SCIENCE PY:2010 TC:73 AU: Chan, Y. C.;Yang, D.;
6:7:16:2 Mechanical properties of Pb-free SnAg solder joints
DOI:10.1016/j.actamat.2011.01.012 JN:ACTA MATERIALIA PY:2011 TC:32 AU: Keller, J.;Baither, D.;Wilke, U.;Schmitz, G.;
6:7:16:3 Fatigue fracture mechanisms of Cu/lead-free solders interfaces
DOI:10.1016/j.msea.2009.10.040 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:24 AU: Zhang, Q. K.;Zhu, Q. S.;Zou, H. F.;Zhang, Z. F.;
6:7:16:4 Effects of solder dimension on the interfacial shear strength and fracture behaviors of Cu/Sn-3Cu/Cu joints
DOI:10.1016/j.scriptamat.2012.07.024 JN:SCRIPTA MATERIALIA PY:2012 TC:8 AU: Yang, L. M.;Zhang, Q. K.;Zhang, Z. F.;
6:7:16:5 Cathodic peeling damage of Cu6Sn5 phase in Cu/SnAg3.0Cu0.5/Cu bridge interconnections under current stressing
DOI:10.1063/1.4892365 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Zhang, Z. H.;Cao, H. J.;Li, M. Y.;Wang, Y.;Liu, Z. Q.;
6:7:16:6 Fracture behaviors and strength of Cu6Sn5 intermetallic compounds by indentation testing
DOI:10.1063/1.3603032 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:5 AU: Zhang, Q. K.;Tan, J.;Zhang, Z. F.;
6:7:16:7 In situ observations on creep fatigue fracture behavior of Sn-4Ag/Cu solder joints
DOI:10.1016/j.actamat.2011.06.010 JN:ACTA MATERIALIA PY:2011 TC:18 AU: Zhang, Q. K.;Zhang, Z. F.;
6:7:16:8 Effects of Y2O3 Nanoparticles on Growth Behaviors of Cu6Sn5 Grains in Soldering Reaction
DOI:10.1007/s11664-013-2817-3 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2013 TC:5 AU: Yang, L. M.;Zhang, Z. F.;
6:7:16:9 In-situ observation of fracture behavior of Sn-3.0Ag-0.5Cu lead-free solder during three-point bending tests in ESEM
DOI:10.1016/j.msea.2012.08.069 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:8 AU: Wang, Mingna;Wang, Jianqiu;Feng, Hao;Ke, Wei;
6:7:16:10 Interfacial intermetallic growth and mechanical properties of carbon nanotubes reinforced Sn3.5Ag0.5Cu solder joint under current stressing
DOI:10.1016/j.jallcom.2014.01.083 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:9 AU: Xu, Sha;Chan, Yan Cheong;Zhang, Kaili;Yung, K. C.;
6:7:16:11 Influences of reflow time and strain rate on interfacial fracture behaviors of Sn-4Ag/Cu solder joints
DOI:10.1063/1.4754016 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:2 AU: Zhang, Q. K.;Zhang, Z. F.;
6:7:16:12 In situ observations on shear and creep-fatigue fracture behaviors of SnBi/Cu solder joints
DOI:10.1016/j.msea.2010.12.041 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:7 AU: Zhang, Q. K.;Zhang, Z. F.;
6:7:16:13 Stress relaxation and failure behavior of Sn-3.0Ag-0.5Cu flip-chip solder bumps undergoing electromigration
DOI:10.1557/jmr.2014.231 JN:JOURNAL OF MATERIALS RESEARCH PY:2014 TC:2 AU: Huang, Mingliang;Zhang, Zhijie;Zhou, Shaoming;Chen, Leida;
6:7:16:14 Nanoindentation Creep Behavior of Nanocomposite Sn-Ag-Cu Solders
DOI:10.1007/s11664-012-2086-6 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:3 AU: Roshanghias, A.;Kokabi, A. H.;Miyashita, Y.;Mutoh, Y.;Ihara, I.;Fatt, R. G. Guan;Madaah-Hosseini, H. R.;
6:7:16:15 Application of electron backscatter diffraction to the study on orientation distribution of intermetallic compounds at heterogeneous interfaces (Sn/Ag and Sn/Cu)
DOI:10.1063/1.3505796 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:4 AU: Zou, H. F.;Zhang, Z. F.;
6:7:16:16 In-situ observations on fracture behaviors of Cu-Sn IMC layers induced by deformation of Cu substrates
DOI:10.1016/j.msea.2011.09.112 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:2 AU: Zhang, Q. K.;Zhang, Z. F.;
6:7:16:17 Early Interfacial Reaction and Formation of Intermetallic Compounds in the Sn-3.5Ag/Cu Soldering System
DOI:10.1007/s11664-010-1433-8 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:4 AU: Zhou, M. B.;Ma, X.;Zhang, X. P.;
6:7:16:18 Fracture Behaviors of Sn-Cu Intermetallic Compound Layer in Ball Grid Array Induced by Thermal Shock
DOI:10.1007/s11664-013-2845-z JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:0 AU: Shen, Jun;Zhai, Dajun;Cao, Zhongming;Zhao, Mali;Pu, Yayun;
6:7:16:19 Application of electron backscatter diffraction to the study on orientation distribution of intermetallic compounds at heterogeneous interfaces (Sn/Ag and Sn/Cu) (vol 108, 103518, 2010)
DOI:10.1063/1.3532093 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:0 AU: Zou, H. F.;Zhang, Z. F.;
6:7:16:20 Self-assembly of Sn-3Ag-0.5Cu Solder in Thermoplastic Resin Containing Carboxyl Group and its Interconnection
DOI:10.1007/s11664-014-3282-3 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:0 AU: Miyauchi, Kazuhiro;Yamashita, Yukihiko;Suzuki, Naoya;Takano, Nozomu;
6:7:16:21 Influence of thermal aging on microhardness and microstructure of Sn-0.3Ag-0.7Cu-xIn lead-free solders
DOI:10.1016/j.jallcom.2010.05.057 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:8 AU: Kanlayasiri, Kannachai;Ariga, Tadashi;
6:7:16:22 Nanoindentation of Isotactic Polypropylene: Correlations Between Hardness, Yield Stress, and Modulus on the Local and Global Scales
DOI:10.1002/app.33635 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2011 TC:3 AU: Lesan-Khosh, R.;Bagheri, R.;Asgari, S.;
6:7:17:1 Improved creep resistance and thermal behavior of Ni-doped Sn-3.0Ag-0.5Cu lead-free solder
DOI:10.1016/j.jallcom.2013.10.148 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:10 AU: El-Daly, A. A.;El-Taher, A. M.;Dalloul, T. R.;
6:7:17:2 Properties enhancement of low Ag-content Sn-Ag-Cu lead-free solders containing small amount of Zn
DOI:10.1016/j.jallcom.2014.06.009 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:8 AU: El-Daly, A. A.;Hammad, A. E.;Al-Ganainy, G. S.;Ragab, M.;
6:7:17:3 Novel SiC nanoparticles-containing Sn-1.0Ag-0.5Cu solder with good drop impact performance
DOI:10.1016/j.msea.2013.04.022 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:16 AU: El-Daly, A. A.;Fawzy, A.;Mansour, S. F.;Younis, M. J.;
6:7:17:4 Effects of small amount of active Ti element additions on microstructure and property of Sn3.5Ag0.5Cu solder
DOI:10.1016/j.msea.2012.08.031 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:13 AU: Chuang, C. L.;Tsao, L. C.;Lin, H. K.;Feng, L. P.;
6:7:17:5 Influence of TiO2 nanoparticles addition on the microstructural and mechanical properties of Sn0.7Cu nano-composite solder
DOI:10.1016/j.msea.2012.03.025 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:23 AU: Tsao, L. C.;Huang, C. H.;Chung, C. H.;Chen, R. S.;
6:7:17:6 Influence of Zn addition on the microstructure, melt properties and creep behavior of low Ag-content Sn-Ag-Cu lead-free solders
DOI:10.1016/j.msea.2014.04.070 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:13 AU: El-Daly, A. A.;Hammad, A. E.;Al-Ganainy, G. S.;Ragab, M.;
6:7:17:7 Evolution of the microstructure of Sn-Ag-Cu solder joints exposed to ultrasonic waves during solidification
DOI:10.1016/j.actamat.2010.11.011 JN:ACTA MATERIALIA PY:2011 TC:32 AU: Chinnam, R. K.;Fauteux, C.;Neuenschwander, J.;Janczak-Rusch, J.;
6:7:17:8 Effects of Ti addition to Sn-Ag and Sn-Cu solders
DOI:10.1016/j.jallcom.2012.01.032 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:22 AU: Chen, W. M.;Kang, S. K.;Kao, C. R.;
6:7:17:9 Tensile deformation behavior and melting property of nano-sized ZnO particles reinforced Sn-3.0Ag-0.5Cu lead-free solder
DOI:10.1016/j.msea.2014.09.028 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: El-Daly, A. A.;Elmosalami, T. A.;Desoky, W. M.;El-Shaarawy, M. G.;Abdraboh, A. M.;
6:7:17:10 An investigation of microstructure and mechanical properties of novel Sn3.5Ag0.5Cu-XTiO2 composite solders as functions of alloy composition and cooling rate
DOI:10.1016/j.msea.2011.08.053 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:19 AU: Tsao, L. C.;
6:7:17:11 Creep Behavior of Bi-Containing Lead-Free Solder Alloys
DOI:10.1007/s11664-011-1748-0 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:10 AU: Witkin, David;
6:7:17:12 Effects of Ni Additions on the Growth of Cu3Sn in High-Lead Solders
DOI:10.1007/s11664-010-1317-y JN:JOURNAL OF ELECTRONIC MATERIALS PY:2010 TC:5 AU: Wang, Y. W.;Chang, C. C.;Chen, W. M.;Kao, C. R.;
6:7:17:13 Effects of Ce Addition on the Microstructure and Mechanical Properties of Sn-58Bi Solder Joints
DOI:10.1007/s11664-010-1385-z JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:7 AU: Chuang, Tung-Han;Wu, Hsing-Fei;
6:7:17:14 A Model for Rapid Tin Whisker Growth on the Surface of ErSn3 Phase
DOI:10.1007/s11664-011-1820-9 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:0 AU: Hao, Hu;Xu, Guangchen;Song, Yonglun;Shi, Yaowu;Guo, Fu;
6:7:18:1 Elastic properties and thermal behavior of Sn-Zn based lead-free solder alloys
DOI:10.1016/j.jallcom.2010.06.142 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:21 AU: El-Daly, A. A.;Hammad, A. E.;
6:7:18:2 Structural and elastic properties of eutectic Sn-Cu lead-free solder alloy containing small amount of Ag and In
DOI:10.1016/j.jallcom.2011.01.062 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:17 AU: El-Daly, A. A.;El-Tantawy, Farid;Hammad, A. E.;Gaafar, M. S.;El-Mossalamy, E. H.;Al-Ghamdi, A. A.;
6:7:18:3 Microstructural evolution and tensile properties of Sn-5Sb solder alloy containing small amount of Ag and Cu
DOI:10.1016/j.jallcom.2011.01.109 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:15 AU: El-Daly, A. A.;Fawzy, A.;Mohamad, A. Z.;El-Taher, A. M.;
6:7:18:4 Interfacial reactions of Pb-free solders with Au/Pd/Ni/brass multilayer substrates
DOI:10.1016/j.jallcom.2011.12.046 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:6 AU: Yen, Yee-wen;Tsai, Po-hao;Fang, Yang-kai;Chen, Bo-jyun;Lee, Chiapyng;
6:7:18:5 Effects of small addition of Ag and/or Cu on the microstructure and properties of Sn-9Zn lead-free solders
DOI:10.1016/j.msea.2010.04.078 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:18 AU: El-Daly, A. A.;Hammad, A. E.;
6:7:18:6 Tensile creep characteristics of Sn-3.5Ag-0.5Cu (SAC355) solder reinforced with nano-metric ZnO particles
DOI:10.1016/j.msea.2014.02.061 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:9 AU: Fawzy, A.;Fayek, S. A.;Sobhy, M.;Nassr, E.;Mousa, M. M.;Saad, G.;
6:7:18:7 Interfacial Reactions of Sn, Sn-3.0Ag-0.5Cu, and Sn-9Zn Lead-Free Solders with Fe-42Ni Substrates
DOI:10.1007/s11664-013-2727-4 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:1 AU: Yen, Yee-Wen;Hsieh, Yu-Ping;Jao, Chien-Chung;Chiu, Chao-Wei;Li, Yi-Shan;
6:7:18:8 Microstructure and tensile behavior of Sn-5Sb lead-free solder alloy containing Bi and Cu
DOI:10.1016/j.msea.2011.09.103 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:14 AU: Esfandyarpour, M. J.;Mahmudi, R.;
6:7:18:9 Effects of torsional oscillation on tensile behavior of Sn-3.5 wt% Ag alloy with and without adding ZnO nanoparticles
DOI:10.1016/j.msea.2014.05.013 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Sobhy, M.;
6:7:18:10 Interfacial reactions and mechanical properties between Sn-4.0Ag-0.5Cu and Sn-4.0Ag-0.5Cu-0.05Ni-0.01Ge lead-free solders with the Au/Ni/Cu substrate
DOI:10.1016/j.jallcom.2011.01.114 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:11 AU: Yen, Yee-Wen;Chiang, Yu-Cheng;Jao, Chien-Chung;Liaw, Da-Wei;Lo, Shao-cheng;Lee, Chiapyng;
6:7:18:11 Interfacial Reactions in Sn/Fe-xNi Couples
DOI:10.1007/s11664-011-1727-5 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:5 AU: Yen, Yee-Wen;Hsiao, Hsien-Ming;Lin, Shih-Wei;Huang, Pin-Ju;Lee, Chiapyng;
6:7:18:12 Abnormal spalling phenomena in the Sn-0.7Cu/Au/Ni/SUS304 interfacial reactions
DOI:10.1557/JMR.2010.0305 JN:JOURNAL OF MATERIALS RESEARCH PY:2010 TC:1 AU: Lin, Shih-kang;Chen, Kuen-da;Chen, Hao;Liou, Wei-kai;Yen, Yee-wen;
6:7:19:1 Development of high strength Sn-0.7Cu solders with the addition of small amount of Ag and In
DOI:10.1016/j.jallcom.2011.05.119 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:25 AU: El-Daly, A. A.;Hammad, A. E.;
6:7:19:2 Microstructure evolution and mechanical properties of Sn0.7Cu0.7Bi lead-free solders produced by directional solidification
DOI:10.1016/j.jallcom.2013.03.034 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:7 AU: Hu, Xiaowu;Li, Ke;Min, Zhixian;
6:7:19:3 Microstructure and tensile properties of Sn-1Cu lead-free solder alloy produced by directional solidification
DOI:10.1016/j.msea.2012.07.073 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:10 AU: Hu, Xiaowu;Chen, Wenjing;Wu, Bin;
6:7:19:4 Effects of solidification kinetics on microstructure formation in binary Sn-Cu solder alloys
DOI:10.1016/j.actamat.2010.11.032 JN:ACTA MATERIALIA PY:2011 TC:25 AU: Ventura, Tina;Terzi, Sofiane;Rappaz, Michel;Dahle, Arne K.;
6:7:19:5 Mechanical Deformation Behavior of Sn-Ag-Cu Solders with Minor Addition of 0.05 wt.% Ni
DOI:10.1007/s11664-014-3323-y JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:3 AU: Hammad, A. E.;El-Taher, A. M.;
6:7:19:6 Effects of Ni additions, trace elements and solidification kinetics on microstructure formation in Sn-0.7Cu solder
DOI:10.1016/j.actamat.2011.03.044 JN:ACTA MATERIALIA PY:2011 TC:9 AU: Ventura, Tina;Terzi, Sofiane;Rappaz, Michel;Dahle, Arne K.;
6:7:19:7 Influence of temperature and strain rate on tensile properties of single walled carbon nanotubes reinforced Sn-Ag-Cu lead free solder alloy composites
DOI:10.1016/j.msea.2011.09.026 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:12 AU: Niranjani, V. L.;Rao, B. S. S. Chandra;Singh, Vajinder;Kamat, S. V.;
6:7:19:8 Tensile deformation behavior of nano-sized Mo particles reinforced SnAgCu solders
DOI:10.1016/j.msea.2011.01.115 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:9 AU: Rao, B. S. S. Chandra;Kumar, K. Mohan;Kripesh, V.;Zeng, K. Y.;
6:7:19:9 Formation of Intermetallics in Sn-0.9Cu and Sn-0.7Cu-0.08Ni Solders
DOI:10.1007/s11664-010-1496-6 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:4 AU: Ventura, Tina;Cho, Young-Hee;Kong, Chun;Dahle, Arne K.;
6:7:20:1 Assessment of Tertiary Dendritic Growth and Its Effects on Mechanical Properties of Directionally Solidified Sn-0.7Cu-xAg Solder Alloys
DOI:10.1007/s11664-014-3087-4 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:2 AU: Spinelli, Jose Eduardo;Silva, Bismarck Luiz;Garcia, Amauri;
6:7:20:2 The effects of cell spacing and distribution of intermetallic fibers on the mechanical properties of hypoeutectic Al-Fe alloys
DOI:10.1016/j.matchemphys.2009.08.063 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2010 TC:27 AU: Goulart, Pedro R.;Spinelli, Jose E.;Cheung, Noe;Garcia, Amauri;
6:7:20:3 Mechanical properties of Sn-Zn lead-free solder alloys based on the microstructure array
DOI:10.1016/j.matchar.2009.11.012 JN:MATERIALS CHARACTERIZATION PY:2010 TC:44 AU: Garcia, Leonardo R.;Osorio, Wislei R.;Peixoto, Leandro C.;Garcia, Amauri;
6:7:20:4 Cellular to dendritic transition during transient solidification of a eutectic Sn-0.7 wt%Cu solder alloy
DOI:10.1016/j.matchemphys.2011.11.033 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:16 AU: Moura, Itamazeo T. L.;Silva, Celina L. M.;Cheung, Noe;Goulart, Pedro R.;Garcia, Amauri;Spinelli, Jose E.;
6:7:20:5 Thermal Parameters, Microstructure, and Mechanical Properties of Directionally Solidified Sn-0.7 wt.%Cu Solder Alloys Containing 0 ppm to 1000 ppm Ni
DOI:10.1007/s11664-012-2263-7 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2013 TC:10 AU: Silva, Bismarck Luiz;Cheung, Noe;Garcia, Amauri;Spinelli, Jose Eduardo;
6:7:20:6 On array models theoretical predictions versus measurements for the growth of cells and dendrites in the transient solidification of binary alloys
DOI:10.1080/14786435.2010.545779 JN:PHILOSOPHICAL MAGAZINE PY:2011 TC:13 AU: Spinelli, Jose E.;Cheung, Noe;Garcia, Amauri;
6:7:20:7 The use of a directional solidification technique to investigate the interrelationship of thermal parameters, microstructure and microhardness of Bi-Ag solder alloys
DOI:10.1016/j.matchar.2014.07.023 JN:MATERIALS CHARACTERIZATION PY:2014 TC:0 AU: Spinelli, Jose Eduardo;Silva, Bismarck Luiz;Cheung, Noe;Garcia, Amauri;
6:7:20:8 Effect of phosphorus element on the comprehensive properties of Sn-Cu lead-free solder
DOI:10.1016/j.jallcom.2009.10.190 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:14 AU: Li, Guangdong;Shi, Yaowu;Hao, Hu;Xia, Zhidong;Lei, Yongping;Guo, Fu;
6:7:20:9 Cellular growth of single-phase Zn-Ag alloys unidirectionally solidified
DOI:10.1016/j.matchemphys.2013.11.030 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:3 AU: Dias, Marcelino;Brito, Crystopher;Bertelli, Felipe;Garcia, Amauri;
6:7:20:10 Microstructural development and mechanical properties of hypereutectic Sn-Cu solder alloys
DOI:10.1016/j.msea.2013.01.049 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:3 AU: Spinelli, Jose Eduardo;Garcia, Amauri;
6:7:20:11 The effect of the growth rate on microsegregation: Experimental investigation in hypoeutectic Al-Fe and Al-Cu alloys directionally solidified
DOI:10.1016/j.jallcom.2013.01.180 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:2 AU: Meza, Elisangela S.;Bertelli, Felipe;Goulart, Pedro R.;Cheung, Noe;Garcia, Amauri;
6:7:20:12 Growth of tertiary dendritic arms during the transient directional solidification of hypoeutectic Pb-Sb alloys
DOI:10.1080/14786435.2011.610375 JN:PHILOSOPHICAL MAGAZINE PY:2011 TC:1 AU: Freitas, Emmanuelle S.;Rosa, Daniel M.;Garcia, Amauri;Spinelli, Jose E.;
6:7:20:13 Microstructure morphologies during the transient solidification of hypomonotectic and monotectic Al-Pb alloys
DOI:10.1016/j.jallcom.2011.08.049 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:7 AU: Silva, Adrina P.;Garcia, Amauri;Spinelli, Jose E.;
6:7:20:14 On the growth of the minority phase during downward transient directional solidification of hypomonotectic and monotectic Al-Pb alloys
DOI:10.1007/s10853-012-6450-y JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:2 AU: Silva, A. P.;Freitas, E. S.;Goulart, P. R.;Garcia, A.;Spinelli, J. E.;
6:7:20:15 Inward and outward solidification of cylindrical castings: The role of the metal/mold heat transfer coefficient
DOI:10.1016/j.matchemphys.2012.07.024 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:1 AU: Bertelli, Felipe;Brito, Crystopher;Meza, Elisangela S.;Cheung, Noe;Garcia, Amauri;
6:7:20:16 Effects of Silver and Antimony Content in Lead-Free High-Temperature Solders of Bi-Ag and Bi-Sb on Copper Substrate
DOI:10.1007/s11664-013-2873-8 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:4 AU: Nahavandi, M.;Hanim, M. A. Azmah;Ismarrubie, Z. N.;Hajalilou, A.;Rohaizuan, R.;Fadzli, M. Z. Shahrul;
6:7:21:1 Fracture behavior of Cu-cored solder joints
DOI:10.1007/s10853-011-5654-x JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:7 AU: Kim, Yunsung;Choi, Hyelim;Lee, Hyoungjoo;Shin, Dongjun;Moon, Jeongtak;Choe, Heeman;
6:7:21:2 Effects of Co additions on electromigration behaviors in Sn-3.0 Ag-0.5 Cu-based solder joint
DOI:10.1007/s10853-011-5401-3 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:14 AU: Ma, Limin;Xu, Guangchen;Sun, Jia;Guo, Fu;Wang, Xitao;
6:7:21:3 Janus-faced Cu-core periphery formation and Bi phase redistribution under current stressing in Cu-cored Sn58Bi solder joints
DOI:10.1016/j.jallcom.2013.09.099 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:0 AU: Mu, Wenkai;Zhou, Wei;Li, Baoling;Wu, Ping;
6:7:21:4 The coupling effects of thermal cycling and high current density on Sn58Bi solder joints
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6:7:21:5 Surface Morphology of Sn-Rich Solder Interconnects After Electrical Loading
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6:7:21:6 Microstructure Evolution of Cu-Cored Sn Solder Joints Under High Temperature and High Current Density
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6:7:21:7 Abnormal accumulation and rotation of Sn in Cu-cored Sn solder joints under current stressing
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6:7:21:8 Electromigration in Sn-Bi Modified with Polyhedral Oligomeric Silsesquioxane
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6:7:21:9 Retarding Electromigration in Lead-Free Solder Joints by Alloying and Composite Approaches
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6:7:21:10 Electromigration-enhanced intermetallic growth and phase evolution in Cu/Sn-58Bi/Cu solder joints
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6:7:21:11 Effects of electromigration on resistance changes in eutectic SnBi solder joints
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6:7:21:12 Electromigration in Cu-Cored Sn-3.5Ag-0.7Cu Solder Interconnects Under Current Stressing
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6:7:21:13 Investigation of Stress Evolution Induced by Electromigration in Sn-Ag-Cu Solder Joints Based on an X-Ray Diffraction Technique
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6:7:21:14 Electromigration-induced Bi-rich whisker growth in Cu/Sn-58Bi/Cu solder joints
DOI:10.1007/s10853-009-3939-0 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:7 AU: He, Hongwen;Xu, Guangchen;Guo, Fu;
6:7:21:15 Fast mass migration in SnBi deposits enhanced by electric current
DOI:10.1016/j.tsf.2010.05.090 JN:THIN SOLID FILMS PY:2010 TC:3 AU: Zhou, Wei;Liu, Lijuan;Li, Baoling;Wu, Ping;
6:7:22:1 The effects of solder volume and Cu concentration on the consumption rate of Cu pad during reflow soldering
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6:7:22:2 Bismuth segregation enhances intermetallic compound growth in SnBi/Cu microelectronic interconnect
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6:7:22:3 Effect of high intensity magnetic field on intermetallic compounds growth in SnBi/Cu microelectronic interconnect
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6:7:22:4 Interfacial reaction and IMC growth between Bi-containing Sn0.7Cu solders and Cu substrate during soldering and aging
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6:7:22:5 Inhibiting the formation of microvoids in Cu3Sn by additions of Cu to solders
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6:7:22:6 Shear strengths and fracture behaviors of Cu/Sn37Pb/Cu soldered joints subjected to different displacement rates
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6:7:22:7 Theoretical and experimental determination of Cu diffusivity in eutectic Sn-Ag system at 235-280 degrees C
DOI:10.1016/j.tsf.2014.08.032 JN:THIN SOLID FILMS PY:2014 TC:1 AU: Ho, C. E.;Hsieh, W. Z.;Liu, C. S.;Yang, C. H.;
6:7:22:8 Effect of Bi Segregation on the Asymmetrical Growth of Cu-Sn Intermetallic Compounds in Cu/Sn-58Bi/Cu Sandwich Solder Joints During Isothermal Aging
DOI:10.1007/s11664-013-2749-y JN:JOURNAL OF ELECTRONIC MATERIALS PY:2013 TC:3 AU: Hu, Xiaowu;Li, Yulong;Li, Ke;Min, Zhixian;
6:7:22:9 Inhibiting the consumption of Cu during multiple reflows of Pb-free solder on Cu
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6:7:22:10 Intergranular cracking simulation of the intermetallic compound layer in solder joints
DOI:10.1016/j.commatsci.2013.05.044 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:5 AU: An, Tong;Qin, Fei;
6:7:22:11 Interfacial microstructure and mechanical properties of SnBi/Cu joints by alloying Cu substrate
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6:7:23:1 Eliminate Kirkendall voids in solder reactions on nanotwinned copper
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6:7:23:2 On the root cause of Kirkendall voiding in Cu3Sn
DOI:10.1557/jmr.2010.47 JN:JOURNAL OF MATERIALS RESEARCH PY:2011 TC:21 AU: Yin, Liang;Borgesen, Peter;
6:7:23:3 Effect of deposit thickness during electroplating on Kirkendall voiding at Sn/Cu joints
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6:7:23:4 EBSD Investigation of Cu-Sn IMC Microstructural Evolution in Cu/Sn-Ag/Cu Microbumps During Isothermal Annealing
DOI:10.1007/s11664-013-2675-z JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:4 AU: Wang, S. J.;Hsu, L. H.;Wang, N. K.;Ho, C. E.;
6:7:23:5 Formation of nearly void-free Cu3Sn intermetallic joints using nanotwinned Cu metallization
DOI:10.1063/1.4874608 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Chiu, Wei-Lan;Liu, Chien-Min;Haung, Yi-Sa;Chen, Chih;
6:7:23:6 Investigation of the Growth of Intermetallic Compounds Between Cu Pillars and Solder Caps
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6:7:23:7 Effects of Ag on the Kirkendall void formation of Sn-xAg/Cu solder joints
DOI:10.1063/1.3488629 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:7 AU: Kim, Sunghwan;Yu, Jin;
6:7:23:8 Heat-treatment to suppress the formation of Kirkendall voids in Sn-3.5Ag/Cu solder joints
DOI:10.1016/j.matlet.2013.05.019 JN:MATERIALS LETTERS PY:2013 TC:1 AU: Kim, S. H.;Yu, Jin;
6:7:23:9 Fe addition to Sn-3.5Ag solder for the suppression of Kirkendall void formation
DOI:10.1016/j.scriptamat.2013.04.010 JN:SCRIPTA MATERIALIA PY:2013 TC:5 AU: Kim, S. H.;Yu, Jin;
6:7:23:10 Influence of Poly(ethylene glycol) Degradation on Voiding Sporadically Occurring in Solder Joints with Electroplated Cu
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6:7:23:11 Toward a Better Understanding of the Effect of Cu Electroplating Process Parameters on Cu3Sn Voiding
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6:7:23:12 Secondary IMC formation induced by Kirkendall voiding in Cu/Sn-3.5Ag solder joints
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6:7:23:13 Grain growth in electroplated (111)-oriented nanotwinned Cu
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6:7:23:14 Effects of Bonding Temperature and Pressure on the Electrical Resistance of Cu/Sn/Cu Joints for 3D Integration Applications
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6:7:23:15 Recrystallization-induced void migration in electroplated Cu films
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6:7:23:16 Degradation of Poly(ethylene glycol) by Electrolysis During the Cu Electroplating: A Combined Experimental and Density Functional Theory Study
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6:7:24:1 Sn whisker growth in Sn-9Zn-0.5Ga-0.7Pr lead-free solder
DOI:10.1016/j.jallcom.2010.09.189 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:9 AU: Ye, Huan;Xue, Songbai;Zhang, Liang;Xiao, Zhengxiang;Hu, Yuhua;Lai, Zhongmin;Zhu, Hong;
6:7:24:2 Interfacial microstructure and properties of Sn-0.7Cu-0.05Ni/Cu solder joint with rare earth Nd addition
DOI:10.1016/j.jallcom.2011.04.037 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:11 AU: Zeng, Guang;Xue, Songbai;Gao, Lili;Zhang, Liang;Hu, Yuhua;Lai, Zhongmin;
6:7:24:3 The effects of temperature and humidity on the growth of tin whisker and hillock from Sn5Nd alloy
DOI:10.1016/j.jallcom.2012.09.092 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:6 AU: Li, Cai-Fu;Liu, Zhi-Quan;Shang, Jian-Ku;
6:7:24:4 Microstructure and growth mechanism of tin whiskers on RESn3 compounds
DOI:10.1016/j.actamat.2012.09.080 JN:ACTA MATERIALIA PY:2013 TC:3 AU: Li, Cai-Fu;Liu, Zhi-Quan;
6:7:24:5 Fabrication of nanocrystalline SnO2 using electron stimulated oxidation
DOI:10.1088/0957-4484/24/20/205303 JN:NANOTECHNOLOGY PY:2013 TC:0 AU: Li, C. F.;Liu, Z. Q.;
6:7:24:6 In situ investigation on the oxidation behavior of a RESn3 film by transmission electron microscopy
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6:7:24:7 The effect of electric current and surface oxidization on the growth of Sn whiskers
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6:7:24:8 Spontaneous growth of one-dimensional nanostructures from films in ambient atmosphere at room temperature: ZnO and TiO2
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6:7:24:9 Tin whisker growth from micro-alloyed SAC solders in corrosive climate
DOI:10.1016/j.jallcom.2014.07.103 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:1 AU: Illes, Balazs;Horvath, Barbara;
6:7:24:10 Stress-induced Sn Nanowires from Si-Sn Nanocomposite Coatings
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6:7:24:11 Theoretical studies of strongly correlated rare-earth intermetallics RIn3 and RSn3 (R = Sm, Eu, and Gd)
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6:7:24:12 Corrosion properties of tin-copper alloy coatings in aspect of tin whisker growth
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6:7:24:13 Low-Resistance Cu-Sn Electroplated-Evaporated Microbumps for 3D Chip Stacking
DOI:10.1007/s11664-012-1949-1 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:3 AU: Murugesan, M.;Ohara, Y.;Fukushima, T.;Tanaka, T.;Koyanagi, M.;
6:7:24:14 Effect of humidity on tin whisker growth from Sn3Nd intermetallic compound
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6:7:25:1 Intermetallic compound growth suppression at high temperature in SAC solders with Zn addition on Cu and Ni-P substrates
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6:7:25:2 Reactions of Sn-3.5Ag-Based Solders Containing Zn and Al Additions on Cu and Ni(P) Substrates
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6:7:25:3 Effect of trace Al on growth rates of intermetallic compound layers between Sn-based solders and Cu substrate
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6:7:25:4 Sputtered Ni-Zn under bump metallurgy (UBM) for Sn-Ag-Cu solders
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6:7:25:5 Massive spalling of Cu-Zn and Cu-Al intermetallic compounds at the interface between solders and Cu substrate during liquid state reaction
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6:7:25:6 Effects of Electrical Current on Microstructure and Interface Properties of Sn-Ag-Cu/Ag Photovoltaic Ribbons
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6:7:25:7 Effects of In and Ni Addition on Microstructure of Sn-58Bi Solder Joint
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6:7:25:8 Reaction of Liquid Sn-Ag-Cu-Ce Solders with Solid Copper
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6:7:25:9 Effects of Zn-Containing Flux on Sn-3.5Ag Soldering with an Electroless Ni-P/Au Surface Finish: Microstructure and Wettability
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6:7:25:10 Suppressing Sn-Patch Growth in Ti/Ni(V)/Cu Under Bump Metallization with Sn-Ag-Cu Solder After Reflow and Aging
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6:7:25:11 Interfacial Reactions Between Sn-Zn Alloys and Au Substrate
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6:7:25:12 The interfacial amorphous double layer and the homogeneous nucleation in reflow of a Sn-Zn solder on Cu substrate
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6:7:25:13 Experimental Evidence for Formation of Ni-Al Compound in Flip-Chip Joints Under Current Stressing
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6:7:26:1 Effect of alternating electric current on the nanoindentation of copper
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6:7:26:2 Effect of DC current on tensile creep of pure tin
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6:7:26:3 The effect of an electric current on the nanoindentation behavior of tin
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6:7:26:4 Effect of DC Current on the Creep Deformation of Tin
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6:7:26:5 Electromechanical responses of Cu strips
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6:7:26:6 Stress relaxation behavior of Cu/Sn/Cu micro-connect after electrical current
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6:7:26:7 Effect of electric current on the creep deformation of lead
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6:7:26:8 Compression creep of 63Sn37Pb solder balls
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6:7:26:9 Stability of nanoscale twins in copper under electric current stressing
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6:7:26:10 Finite-Element Analysis of Current-Induced Thermal Stress in a Conducting Sphere
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6:7:26:11 Electromigration-induced strain relaxation in Cu conductor lines
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6:7:26:12 Significant softening of copper nanowires during electromigration studied by picosecond ultrasound spectroscopy
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6:7:26:13 Line-width dependency on electromigration performance for long and short copper interconnects
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6:7:27:1 Phase stability of Ag-Sn alloy nanoparticles
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6:7:27:2 In situ observations of crystalline-to-liquid and crystalline-to-gas transitions of substrate-supported Ag nanoparticles
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6:7:27:4 Nanoscale characterization of 1D Sn-3.5Ag nanosolders and their application into nanowelding at the nanoscale
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6:7:27:5 Nonlinear size-dependent melting of the silica-encapsulated silver nanoparticles
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6:7:27:7 Melting and solidification properties of the nanoparticles of Sn3.0Ag0.5Cu lead-free solder alloy
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6:7:27:8 Temperature dependence of the thermal boundary resistivity of glass-embedded metal nanoparticles
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6:7:27:9 Size Control and Characterization of Sn-Ag-Cu Lead-Free Nanosolders by a Chemical Reduction Process
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6:7:27:10 A Green Approach to Synthesis of Nanoparticles of Sn-3.0Ag-0.5Cu Lead-Free Solder Alloy
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6:7:27:11 Quantitative analysis on size dependence of eutectic temperature of alloy nanoparticles in the Ag-Pb system
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6:7:27:12 Optimization of electrolyte concentration and voltage for effective formation of Sn/SnO2 nanoparticles by electrolysis in liquid
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6:7:27:13 Effect of surface oxide on the melting behavior of lead-free solder nanowires and nanorods
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6:7:27:14 Synthesis and characterization of highly conductive Sn-Ag bimetallic nanoparticles for printed electronics
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6:7:27:15 Utilizing the thermodynamic nanoparticle size effects for low temperature Pb-free solder
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6:7:27:16 Nano-soldering of magnetically aligned three-dimensional nanowire networks
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6:7:28:1 Development of Au-Ge based candidate alloys as an alternative to high-lead content solders
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6:7:28:2 Wetting and Soldering Behavior of Eutectic Au-Ge Alloy on Cu and Ni Substrates
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6:7:28:3 Transient liquid phase Ag-based solder technology for high-temperature packaging applications
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6:7:28:4 Wetting Behavior of Ternary Au-Ge-X (X = Sb, Sn) Alloys on Cu and Ni
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6:7:28:5 Experimental study and thermodynamic description of the Au-Cu-Ge system
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6:7:28:6 Improvement in Joint Reliability of SiC Power Devices by a Diffusion Barrier Between Au-Ge Solder and Cu/Ni(P)-Metalized Ceramic Substrates
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6:7:28:7 Enhanced ductility and oxidation resistance of Zn through the addition of minor elements for use in wide-gap semiconductor die-bonding materials
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6:7:28:8 Reliability of Au-Ge and Au-Si Eutectic Solder Alloys for High-Temperature Electronics
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6:7:28:9 SiC Die Attach for High-Temperature Applications
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6:7:28:10 Low temperature TLP bonding of Al2O3-ceramics using eutectic Au-(Ge, Si) alloys
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6:7:28:11 Nickel dissolution into AuGe in alloyed AuGe/Ni/Au Ohmic contacts on GaAs/AlGaAs multilayer structures
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6:7:28:12 High-strength Si wafer bonding by self-regulated eutectic reaction with pure Zn
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6:7:28:13 Development of Metallic Hermetic Sealing for MEMS Packaging for Harsh Environment Applications
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6:7:29:1 Structure observation of single solidified droplet by in situ controllable quenching based on nanocalorimetry
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6:7:29:2 Nucleation Barriers for the Liquid-To-Crystal Transition in Ni: Experiment and Simulation
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6:7:29:3 Formation of amorphous structure in Sn3.5Ag droplet by in situ fast scanning calorimetry controllable quenching
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6:7:29:4 Synthesis and Characterization of Single-Layer Silver-Decanethiolate Lamellar Crystals
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6:7:29:5 Size Effect and Odd-Even Alternation in the Melting of Single and Stacked AgSCn Layers: Synthesis and Nanocalorimetry Measurements
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6:7:29:6 Ultrathin Sheets of Metal or Metal Sulfide from Molecularly Thin Sheets of Metal Thiolates in Solution
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6:7:29:7 Metastable phase formation in the Au-Si system via ultrafast nanocalorimetry
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6:7:29:8 Layer-by-Layer Assembly of a Metallomesogen by Dip-Pen Nanolithography
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6:7:29:9 Structure of alpha,omega-bis-(pentane-2,4-dione-3-ylmethylsulfanyl)alkanes and even/odd crystallization effects
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6:7:29:10 Local fivefold symmetry in liquid and undercooled Ni probed by x-ray absorption spectroscopy and computer simulations
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6:7:30:1:1 Molecular dynamics of viscoplasticity in beta-tin lattice and grain boundary
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6:7:30:1:2 Effect of Ni solute on grain boundary diffusivity and structure of beta Sn
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6:7:30:1:3 beta-Sn grain-boundary structure and self-diffusivity via molecular dynamics simulations
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6:7:30:1:4 Atomistic modeling of beta-Sn surface energies and adatom diffusivity
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6:7:30:1:5 Molecular dynamics of viscoplasticity in beta-tin lattice and grain boundary (vol 68, pg 290, 2013)
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6:7:30:1:6 Effect of Cu and Ag solute segregation on beta Sn grain boundary diffusivity
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6:7:30:2:1 Electromigration analysis of solder joints under ac load: A mean time to failure model
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6:7:30:2:2 Electromigration damage mechanics of lead-free solder joints under pulsed DC: A computational model
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6:7:30:2:3 Reduced Impedance and Superconductivity of SnAgCu Solder Alloy at High Frequency
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6:7:30:2:4 Computational damage mechanics of electromigration and thermomigration
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6:7:30:2:5 Electric pulse induced impedance and material degradation in IC chip packaging
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6:7:30:2:6 Measuring Joule heating and strain induced by electrical current with Moire interferometry
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6:7:30:2:7 Electromigration analysis of solder joints under ac load: A mean time to failure model (vol 111, 063703, 2012)
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6:7:30:2:8 Effect of Alloying Elements on the Electrification-Fusion Phenomenon in Sn-Based Eutectic Alloys
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6:7:31:1 Size and Substrate Effects upon Undercooling of Pb-Free Solders
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6:7:31:2 Co Solubility in Sn and Interfacial Reactions in Sn-Co/Ni Couples
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6:7:31:3 Co alloying and size effects on solidification and interfacial reactions in the Sn-Zn-(Co)/Cu couples
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6:7:31:4 Effects of Co Alloying and Size on Solidification and Interfacial Reactions in Sn-57 wt.%Bi-(Co)/Cu Couples
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6:7:31:5 Liquidus Projections of Sn-Co-Ni and Sn-Rich Sn-Ag-Co-Ni Systems
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6:7:31:6 Interfacial reactions with and without current stressing at Sn-Co/Ag and Sn-Co/Cu solder joints
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6:7:31:7 Wettability and interfacial reactions between the molten Sn-3.0 wt%Ag-0.5 wt%Cu solder (SAC305) and Ni-Co alloys
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6:7:31:8 Interfacial Reactions in Sn-Co-(Cu)/Ni Couples With/Without Current Stressing
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6:7:31:9 Electromigration in a Sn-3 wt.%Ag-0.5 wt.%Cu-3 wt.%Bi Solder Stripe Between Two Cu Electrodes Under Current Stressing
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6:7:32:1 In-situ study on growth behavior of Ag3Sn in Sn-3.5Ag/Cu soldering reaction by synchrotron radiation real-time imaging technology
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6:7:32:2 Interface reaction between SnAgCu/SnAgCuCe solders and Cu substrate subjected to thermal cycling and isothermal aging
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6:7:32:3 Synchrotron Radiation Microtomography for Large Area 3D Imaging of Multilevel Microelectronic Packages
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6:7:32:4 Evolution of Ag3Sn intermetallic compounds during solidification of eutectic Sn-3.5Ag solder
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6:7:32:5 Rapid diagnosis of electromigration induced failure time of Pb-free flip chip solder joints by high resolution synchrotron radiation laminography
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6:7:32:6 Evolution of Ag3Sn at Sn-3.0Ag-0.3Cu-0.05Cr/Cu joint interfaces during thermal aging
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6:7:32:7 Modeling of electromigration on void propagation at the interface between under bump metallization and intermetallic compound in flip-chip ball grid array solder joints
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6:7:33:1 Creep of nanocrystalline nickel: A direct comparison between uniaxial and nanoindentation creep
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6:7:33:2 Room temperature nanoindentation creep of nanocrystalline Cu and Cu alloys
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6:7:33:3 Creep in an electrodeposited nickel
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6:7:33:4 Room-Temperature Nanoindentation Creep of Thermally Cycled Ultrasonically Bonded Heavy Aluminum Wires
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6:7:33:5 Effect of severe plastic deformation on creep behaviour of a Ti-6Al-4V alloy
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6:7:33:6 Room temperature nanoindentation creep of nanoscale Ag/Fe multilayers
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6:7:33:7 Room temperature nanoindentation creep of hot-pressed B6O
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6:7:33:8 Nanoindentation creep of ultrafine-grained Al2O3 particle reinforced copper composites
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6:7:33:9 Strength distribution of Au ball bond using nanoindentation approach
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6:7:33:10 Mechanical spectroscopy of nanoparticle reinforced, electrodeposited ultrafine grained nickel
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6:7:33:11 Repeated load relaxation testing of pure polycrystalline nickel at room temperature using nanoindentation
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6:7:34:1 Solder Characteristics of a Rapidly Solidified Sn-9Zn-0.1Cr Alloy and Mechanical Properties of Cu/Solder/Cu Joints
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6:7:34:2 Depressing effect of 0.1 wt.% Cr addition into Sn-9Zn solder alloy on the intermetallic growth with Cu substrate during isothermal aging
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6:7:34:3 Wettability and strength of In-Bi-Sn lead-free solder alloy on copper substrate
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6:7:34:4 Effect of Sb addition on Bi-2.6Ag-0.1Cu solders for high-temperature applications
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6:7:34:5 Impression Creep Behavior of Zn-Sn High-Temperature Lead-Free Solders
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6:7:34:6 Effect of Cr Addition on Wetting Behavior Between Cu and High-Temperature Zn-25Sn-0.15Al-0.1Ga-xCr Pb-Free Solder
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6:7:34:7 Pb-Free Glass Paste: A Metallization-Free Die-Attachment Solution for High-Temperature Application on Ceramic Substrates
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6:7:34:8 Effect of In Addition on Wetting Properties of Sn-Zn-In/Cu Soldering
DOI:10.2320/matertrans.MJ201004 JN:MATERIALS TRANSACTIONS PY:2010 TC:8 AU: Wang, Yi Ta;Ho, Chung Jen;Tsai, Hsien Lung;
6:7:34:9 Effects of Ce and La Additions on the Microstructure and Mechanical Properties of Sn-9Zn Solder Joints
DOI:10.1007/s11664-009-0959-0 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2010 TC:5 AU: Lin, Hsiu-Jen;Chuang, Tung-Han;
6:7:34:10 The effect of 0.5 wt.% Ce additions on the electromigration of Sn9Zn BGA solder packages with Au/Ni(P)/Cu and Ag/Cu pads
DOI:10.1016/j.matlet.2009.11.058 JN:MATERIALS LETTERS PY:2010 TC:4 AU: Lin, Hsiu-Jen;Chuang, Tung-Han;
6:7:35:1 Interfacial reactions between high-Pb solders and Ag
DOI:10.1016/j.jallcom.2010.12.135 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:9 AU: Lin, Chi-Pu;Chen, Chih-Ming;Yen, Yee-Wen;Wu, Hsin-Jay;Chen, Sinn-Wen;
6:7:35:2 Sn concentration effect on the formation of intermetallic compounds in high-Pb/Ni reactions
DOI:10.1016/j.jallcom.2010.05.139 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:6 AU: Tsai, M. H.;Chen, W. M.;Tsai, M. Y.;Kao, C. R.;
6:7:35:3 Enhanced growth of the Ni3Sn4 phase at the Sn/Ni interface subjected to strains
DOI:10.1016/j.scriptamat.2011.07.007 JN:SCRIPTA MATERIALIA PY:2011 TC:7 AU: Liao, Wen-Kai;Chen, Chih-Ming;Lin, Ming-Tzer;Wang, Chao-Hong;
6:7:35:4 Interfacial Reactions of High-Bi Alloys on Various Substrates
DOI:10.1007/s11664-013-2703-z JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:0 AU: Wang, Jin-Yi;Chen, Chih-Ming;Yen, Yee-Wen;
6:7:35:5 Enhanced growth of the Cu6Sn5 phase in the Sn/Ag/Cu and Sn/Cu multilayers subjected to applied strain
DOI:10.1016/j.jallcom.2013.12.204 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:1 AU: Lin, Chi-Pu;Chen, Chih-Ming;Yen, Yee-Wen;
6:7:35:6 Interfacial Reaction of Molten Sn on a Strained Cu Electroplated Layer
DOI:10.1007/s11664-012-2072-z JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:2 AU: Pan, Hsiao-An;Lin, Chi-Pu;Chen, Chih-Ming;
6:7:35:7 Interfacial Reactions and Mechanical Properties of Bi-x wt.%Sn/Cu Joints (x=2, 5, 10)
DOI:10.1007/s11664-012-2230-3 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:3 AU: Wang, Jin-Yi;Lin, Chih-Fan;Chen, Chih-Ming;
6:7:35:8 Ball Impact Reliability of Zn-Sn High-Temperature Solder Joints Bonded with Different Substrates
DOI:10.1007/s11664-013-2653-5 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2013 TC:3 AU: Song, Jenn-Ming;Lin, Meng-Ju;Hsieh, Kun-Hung;Pai, Tsung-Yun;Lai, Yi-Shao;Chiu, Ying-Ta;
6:7:35:9 Interfacial reactions of Sn/Ag/Cu tri-layer on a deformed polyimide substrate
DOI:10.1016/j.jallcom.2010.04.197 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:3 AU: Lin, Chi-Pu;Chen, Chih-Ming;Lin, Ching-Hsuan;Su, Wen-Chiung;
6:7:35:10 Improvement of High-Temperature Performance of Zn-Sn Solder Joint
DOI:10.1007/s11664-010-1233-1 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2010 TC:15 AU: Takahashi, Toshihide;Komatsu, Shuichi;Nishikawa, Hiroshi;Takemoto, Tadashi;
6:7:35:11 Comments on "Enhanced growth of the Ni3Sn4 phase at the Sn/Ni interface subjected to strains"
DOI:10.1016/j.scriptamat.2011.11.042 JN:SCRIPTA MATERIALIA PY:2013 TC:2 AU: Paul, A.;
6:7:35:12 Experimental Investigation and Thermodynamic Calculation of the Phase Equilibria in the Cu-Ni-Sb Ternary System
DOI:10.1007/s11664-013-2695-8 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2013 TC:1 AU: Wang, C. P.;Huang, F.;Lu, Y.;Yang, S.;Yang, M. J.;Liu, X. J.;
6:7:36:1 Effect of electromigration on intermetallic compound formation in line-type Cu/Sn/Cu interconnect
DOI:10.1016/j.jallcom.2010.05.158 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:33 AU: Chen, L. D.;Huang, M. L.;Zhou, S. M.;
6:7:36:2 A synchrotron radiation real-time in situ imaging study on the reverse polarity effect in Cu/Sn-9Zn/Cu interconnect during liquid solid electromigration
DOI:10.1016/j.scriptamat.2013.02.007 JN:SCRIPTA MATERIALIA PY:2013 TC:12 AU: Huang, M. L.;Zhang, Z. J.;Zhao, N.;Zhou, Q.;
6:7:36:3 Effects of Ni-coated Carbon Nanotubes addition on the electromigration of Sn-Ag-Cu solder joints
DOI:10.1016/j.jallcom.2013.07.058 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:4 AU: Yang, Zhongbao;Zhou, Wei;Wu, Ping;
6:7:36:4 Electromigration-Induced Interfacial Reactions in Cu/Sn/Electroless Ni-P Solder Interconnects
DOI:10.1007/s11664-012-1952-6 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:4 AU: Huang, M. L.;Zhou, S. M.;Chen, L. D.;
6:7:36:5 Cu5Zn8 Growth Reversion in Cu/Sn-8Zn-3Bi/Cu During Discontinuous Electromigration
DOI:10.1007/s11664-012-2131-5 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:1 AU: Liu, Jibin;Zhou, Wei;Liu, Lijuan;Wu, Ping;
6:7:36:6 Reverse polarity effect and cross-solder interaction in Cu/Sn-9Zn/Ni interconnect during liquid-solid electromigration
DOI:10.1007/s10853-013-7862-z JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:3 AU: Huang, M. L.;Zhou, Q.;Zhao, N.;Liu, X. Y.;Zhang, Z. J.;
6:7:36:7 Abnormal Diffusion Behavior of Zn in Cu/Sn-9 wt.%Zn/Cu Interconnects During Liquid-Solid Electromigration
DOI:10.1007/s11664-013-2690-0 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2013 TC:5 AU: Huang, M. L.;Zhou, Q.;Zhao, N.;Zhang, Z. J.;
6:7:36:8 Influence of External Strain on the Growth of Interfacial Intermetallic Compounds Between Sn and Cu Substrates
DOI:10.1007/s11664-012-2244-x JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:0 AU: Hu, Tien-Chen;Hsu, Feng-chih;Huang, An-Wen;Lin, Ming-Tzer;
6:7:36:9 Interfacial reactions between Sn-8Zn-3Bi-xNi lead-free solders and Cu substrate during isothermal aging
DOI:10.1016/j.matchemphys.2010.05.028 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2010 TC:9 AU: Liu, Lijuan;Zhou, Wei;Li, Baoling;Wu, Ping;
6:7:37:1 Reactions of Sn-4.0Ag-0.5Cu on Cu and Electroless Ni Substrate in Premelting Soldering Process
DOI:10.1007/s11664-013-2582-3 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2013 TC:2 AU: Chung, C. Key;Chen, Y. J.;Yang, T. L.;Kao, C. R.;
6:7:37:2 Origin and evolution of voids in electroless Ni during soldering reaction
DOI:10.1016/j.actamat.2012.02.018 JN:ACTA MATERIALIA PY:2012 TC:6 AU: Chung, C. Key;Chen, Y. J.;Chen, W. M.;Kao, C. R.;
6:7:37:3 Effect of Cu Pad Morphology on Direct-Cu Pillar Formation in CMOS Image Sensors
DOI:10.1007/s13391-014-4165-8 JN:ELECTRONIC MATERIALS LETTERS PY:2014 TC:0 AU: Choi, Eunmi;Kim, Areum;Cui, Eunwha;Lee, Ukjae;Son, Hyung Bin;Hahn, Sang June;Pyo, Sung Gyu;
6:7:37:4 The early stage dissolution of Ni and the nucleation of Ni-Sn intermetallic compound at the interface during the soldering of Sn-3.5Ag on a Ni substrate
DOI:10.1063/1.3484493 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:8 AU: Lin, Yu-Wei;Lin, Kwang-Lung;
6:7:37:5 Characterization of ternary Ni2SnP layer in Sn-3.5Ag-0.7Cu/electroless Ni (P) solder joint
DOI:10.1016/j.scriptamat.2010.08.024 JN:SCRIPTA MATERIALIA PY:2010 TC:8 AU: Kang, Han-Byul;Bae, Jee-Hwan;Yoon, Jeong-Won;Jung, Seung-Boo;Park, Jongwoo;Yang, Cheol-Woong;
6:7:37:6 Silver nanoporous sheet for solid-state die attach in power device packaging
DOI:10.1016/j.scriptamat.2014.08.010 JN:SCRIPTA MATERIALIA PY:2014 TC:0 AU: Kim, Min-Su;Nishikawaa, Hiroshi;
6:7:37:7 The Effect of Intermetallic Compound Evolution on the Fracture Behavior of Au Stud Bumps Joined with Sn-3.5Ag Solder
DOI:10.1007/s13391-012-2128-5 JN:ELECTRONIC MATERIALS LETTERS PY:2013 TC:4 AU: Lee, Young-Kyu;Ko, Yong-Ho;Kim, Jun-Ki;Lee, Chang-Woo;Yoo, Sehoon;
6:7:37:8 Temperature effects on the chemical composition of nickel-phosphorus alloy thin films
DOI:10.1016/j.tsf.2009.09.007 JN:THIN SOLID FILMS PY:2010 TC:1 AU: Oguocha, I. N. A.;Taheri, R.;Yannacopoulos, S.;Uju, W. A.;Sammynaiken, R.;Wettig, S.;Hu, Y. -F.;
6:7:37:9 HTS and PCT Reliability of Chips and Flex Substrates Assembled Using a Thermosonic Flip-Chip Bonding Process
DOI:10.1007/s11664-012-2033-6 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:2 AU: Chuang, Cheng-Li;Kang, Min-Yi;
6:7:38:1 Effects of metallic nanoparticle doped flux on the interfacial intermetallic compounds between lead-free solder ball and copper substrate
DOI:10.1016/j.matchar.2014.10.002 JN:MATERIALS CHARACTERIZATION PY:2014 TC:3 AU: Sujan, G. K.;Haseeb, A. S. M. A.;Afifi, A. B. M.;
6:7:38:2 Microstructures and fatigue life of SnAgCu solder joints bearing Nano-Al particles in QFP devices
DOI:10.1007/s13391-014-3190-y JN:ELECTRONIC MATERIALS LETTERS PY:2014 TC:5 AU: Zhang, Liang;Fan, Xi-ying;Guo, Yong-huan;He, Cheng-wen;
6:7:38:3 Stability of molybdenum nanoparticles in Sn-3.8Ag-0.7Cu solder during multiple reflow and their influence on interfacial intermetallic compounds
DOI:10.1016/j.matchar.2011.11.006 JN:MATERIALS CHARACTERIZATION PY:2012 TC:24 AU: Haseeb, A. S. M. A.;Arafat, M. M.;Johan, Mohd Rafie;
6:7:38:4 Effect of solidification parameters on the microstructure of Sn-3.7Ag-0.9Zn solder
DOI:10.1016/j.matchar.2010.08.007 JN:MATERIALS CHARACTERIZATION PY:2010 TC:12 AU: Boyuk, U.;Engin, S.;Kaya, H.;Marasli, N.;
6:7:38:5 Effect of rare earth Ce on the fatigue life of SnAgCu solder joints in WLCSP device using FEM and experiments
DOI:10.1016/j.msea.2013.12.098 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:14 AU: Zhang, Liang;Han, Ji-guang;Guo, Yong-huan;He, Cheng-wen;
6:7:38:6 Dependency of eutectic spacings and microhardness on the temperature gradient for directionally solidified Sn-Ag-Cu lead-free solder
DOI:10.1016/j.matchemphys.2009.09.022 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2010 TC:17 AU: Boyuk, U.;Marasli, N.;
6:7:38:7 Low-temperature creep of SnPb and SnAgCu solder alloys and reliability prediction in electronic packaging modules
DOI:10.1016/j.scriptamat.2012.12.017 JN:SCRIPTA MATERIALIA PY:2013 TC:6 AU: Zhang, Yuming;Zhu, Honglai;Fujiwara, Masami;Xu, Jinquan;Dao, Ming;
6:7:38:8 Microstructural characterization of unidirectional solidified eutectic Al-Si-Ni alloy
DOI:10.1016/j.matchar.2011.05.010 JN:MATERIALS CHARACTERIZATION PY:2011 TC:4 AU: Boyuk, U.;Engin, S.;Marasli, N.;
6:7:38:9 Properties and microstructures of SnAgCu-xEu alloys for concentrator silicon solar cells solder layer
DOI:10.1016/j.solmat.2014.07.034 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:2 AU: Zhang, Liang;Han, Ji-guang;Guo, Yong-huan;Sun, Lei;
6:7:38:10 Microstructure Changes and Physical Properties of the Intermetallic Compounds Formed at the Interface Between Sn-Cu Solders and a Cu Substrate Due to a Minor Addition of Ni
DOI:10.1007/s11664-010-1373-3 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2010 TC:3 AU: Harcuba, Petr;Janecek, Milos;
6:7:38:11 A joint thermal-electrical analysis of void formation effects on concentrator silicon solar cells solder layer
DOI:10.1016/j.solmat.2012.12.034 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:4 AU: Baricordi, Stefano;Calabrese, Gabriele;Gualdi, Federico;Guidi, Vincenzo;Pasquini, Matteo;Pozzetti, Luana;Vincenzi, Donato;
6:7:39:1 Microstructure and impression creep behavior of lead-free Sn-5Sb solder alloy containing Bi and Ag
DOI:10.1016/j.msea.2012.03.093 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:16 AU: Geranmayeh, A. R.;Nayyeri, G.;Mahmudi, R.;
6:7:39:2 Impression Creep of a Lead-Free Sn-1.7Sb-1.5Ag Solder Reinforced by Submicron-Size Al2O3 Particles
DOI:10.1007/s11664-009-0971-4 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2010 TC:12 AU: Kangooie, M.;Mahmudi, R.;Geranmayeh, A. R.;
6:7:39:3 Creep behavior of near-peritectic Sn-5Sb solders containing small amount of Ag and Cu
DOI:10.1016/j.msea.2010.11.001 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:13 AU: El-Daly, A. A.;Mohamad, A. Z.;Fawzy, A.;El-Taher, A. M.;
6:7:39:4 Indentation creep and mechanical properties of quaternary Sn-Sb based alloys
DOI:10.1016/j.msea.2011.01.054 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:7 AU: El-Bediwi, A.;Lashin, A. R.;Mossa, M.;Kamal, M.;
6:7:39:5 Indentation Creep of Lead-Free Sn-5Sb Solder Alloy with 1.5 wt% Ag and Bi Additions
DOI:10.1007/s11664-013-2956-6 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:1 AU: Geranmayeh, A. R.;Mahmudi, R.;Khalatbari, F.;Kashi, N.;Nayyeri, G.;
6:7:39:6 Indentation creep of lead-free Sn-3.5Ag solder alloy: Effects of cooling rate and Zn/Sb addition
DOI:10.1016/j.msea.2012.12.048 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:2 AU: Mahmudi, R.;Pourmajidian, M.;Geranmayeh, A. R.;Gorgannejad, S.;Hashemizadeh, S.;
6:7:39:7 Copper effects in mechanical properties of rapidly solidified Sn-Pb-Sb Babbitt bearing alloys
DOI:10.1016/j.msea.2011.09.092 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:2 AU: Kamal, Mustafa;El-Bediwi, A.;Lashin, A. R.;El-Zarka, A. H.;
6:7:39:8 Effect of silver and indium addition on mechanical properties and indentation creep behavior of rapidly solidified Bi-Sn based lead-free solder alloys
DOI:10.1016/j.msea.2012.09.038 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:9 AU: Shalaby, Rizk Mostafa;
6:7:40:1 Controlling Ag whisker growth using very thin metallic films
DOI:10.1016/j.scriptamat.2010.04.013 JN:SCRIPTA MATERIALIA PY:2010 TC:13 AU: Tohmyoh, H.;Yasuda, M.;Saka, Masumi;
6:7:40:2 Evaluation of the microstructure and whisker growth in Sn-Zn-Ga solder with Pr content
DOI:10.1557/jmr.2012.144 JN:JOURNAL OF MATERIALS RESEARCH PY:2012 TC:4 AU: Ye, Huan;Xue, Songbai;Pecht, Michael;
6:7:40:3 Silver layer instability in a SnO2/Ag/SnO2 trilayer on silicon
DOI:10.1016/j.tsf.2012.05.033 JN:THIN SOLID FILMS PY:2012 TC:7 AU: Kim, Suk Jun;Stach, Eric A.;Handwerker, Carol A.;
6:7:40:4 Pd-doped Sn-Ag-Cu-In solder material for high drop/shock reliability
DOI:10.1016/j.materresbull.2009.12.030 JN:MATERIALS RESEARCH BULLETIN PY:2010 TC:5 AU: Yu, A-Mi;Kim, Jun-Ki;Lee, Jong-Hyun;Kim, Mok-Soon;
6:7:40:5 Diffusion-fatigue interaction effect on hillock formation in aluminum thin films under thermal cycle testing
DOI:10.1016/j.matlet.2012.03.109 JN:MATERIALS LETTERS PY:2012 TC:4 AU: Ri, Shien;Saka, Masumi;
6:7:40:6 Effects of thermal cycling on rare earth (Pr)-induced Sn whisker/hillock growth
DOI:10.1016/j.matlet.2013.01.065 JN:MATERIALS LETTERS PY:2013 TC:4 AU: Ye, Huan;Xue, Songbai;Pecht, Michael;
6:7:40:7 Hillock growth dynamics for Ag stress migration bonding
DOI:10.1016/j.matlet.2014.09.006 JN:MATERIALS LETTERS PY:2014 TC:1 AU: Oh, Chulmin;Nagao, Shijo;Sugahara, Tohru;Suganuma, Katsuaki;
6:7:40:8 Comparison of stress migration and electromigration in the fabrication of thin Al wires
DOI:10.1016/j.tsf.2011.12.054 JN:THIN SOLID FILMS PY:2012 TC:3 AU: Lu, Yebo;Tohmyoh, Hironori;Saka, Masumi;
6:7:40:9 Reliability evaluation of CSP soldered joints based on FEM and Taguchi method
DOI:10.1016/j.commatsci.2010.02.014 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2010 TC:5 AU: Ye, Huan;Xue, Songbai;Zhang, Liang;Ji, Feng;Dai, Wei;
6:7:41:1 Synchrotron radiation real-time in situ study on dissolution and precipitation of Ag3Sn plates in sub-50 mu m Sn-Ag-Cu solder bumps
DOI:10.1016/j.jallcom.2014.03.047 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:2 AU: Huang, M. L.;Yang, F.;Zhao, N.;Yang, Y. C.;
6:7:41:2 Revisiting mechanisms to inhibit Ag3Sn plates in Sn-Ag-Cu solders with 1 wt.% Zn addition
DOI:10.1016/j.jallcom.2010.03.191 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:19 AU: Luo, Z. -B.;Zhao, J.;Gao, Y. -J.;Wang, L.;
6:7:41:3 Indium Addition on Intermetallic Compound Evolution in Tin-Silver Solder Bump
DOI:10.2320/matertrans.M2011058 JN:MATERIALS TRANSACTIONS PY:2011 TC:1 AU: Wang, Dongliang;Yuan, Yuan;Luo, Le;
6:7:41:4 Formation of Ag3Sn plates in SnAgCu solder bumps
DOI:10.1016/j.msea.2009.12.020 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:11 AU: Gong, Jicheng;Liu, Changqing;Conway, Paul P.;Silberschmidt, Vadim V.;
6:7:41:5 Microstructural evolution of intermetallic compounds in Sn-3.5Ag-X (X=0, 0.75Ni, 1.0Zn and 1.5In)/Cu solder joints during liquid aging
DOI:10.1016/j.jallcom.2009.09.135 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:14 AU: Chen, Jie;Shen, Jun;Lai, Shiqiang;Min, Dong;Wang, Xiaochuan;
6:7:42:1 Size and constraint effects on mechanical and fracture behavior of micro-scale Ni/Sn3.0Ag0.5Cu/Ni solder joints
DOI:10.1016/j.msea.2014.08.008 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Qin, H. B.;Zhang, X. P.;Zhou, M. B.;Zeng, J. B.;Mai, Y. -W.;
6:7:42:2 Effects of third element and surface finish on interfacial reactions of Sn-Ag-xCu (or Ni)/(Cu or ENIG) solder joints
DOI:10.1016/j.jallcom.2010.06.202 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:12 AU: Yoon, Jeong-Won;Noh, Bo-In;Jung, Seung-Boo;
6:7:42:3 Solder Volume Effects on the Microstructure Evolution and Shear Fracture Behavior of Ball Grid Array Structure Sn-3.0Ag-0.5Cu Solder Interconnects
DOI:10.1007/s11664-011-1760-4 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:12 AU: Li, X. P.;Xia, J. M.;Zhou, M. B.;Ma, X.;Zhang, X. P.;
6:7:42:4 Interfacial Reaction Between 95Pb-5Sn Solder Bump and 37Pb-63Sn Presolder in Flip-Chip Solder Joints
DOI:10.1007/s11664-010-1186-4 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2010 TC:5 AU: Chang, C. C.;Wang, Y. W.;Lai, Y. S.;Kao, C. R.;
6:7:42:5 Interaction Between Ni and Cu Across 95Pb-5Sn High-Lead Layer
DOI:10.1007/s11664-010-1272-7 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2010 TC:4 AU: Chang, C. C.;Chung, H. Y.;Lai, Y. S.;Kao, C. R.;
6:7:42:6 Effects of temperature and strain rate on the mechanical properties of lead-free solders
DOI:10.1007/s10853-009-4200-6 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:5 AU: Ma, Hongtao;
6:7:42:7 Laminar pattern induced by cycling thermomechanical stress in two-phase materials
DOI:10.1016/j.matchemphys.2011.07.003 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2011 TC:0 AU: Chang, C. C.;Chen, Y. J.;Tsai, M. Y.;Kao, C. R.;
6:7:43:1 Electromigration-induced back stress in critical solder length for three-dimensional integrated circuits
DOI:10.1063/1.4861740 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Huang, Y. T.;Hsu, H. H.;Wu, Albert T.;
6:7:43:2 Intermetallic Compound Growth and Reliability of Cu Pillar Bumps Under Current Stressing
DOI:10.1007/s11664-010-1324-z JN:JOURNAL OF ELECTRONIC MATERIALS PY:2010 TC:19 AU: Kim, Byoung-Joon;Lim, Gi-Tae;Kim, Jaedong;Lee, Kiwook;Park, Young-Bae;Lee, Ho-Young;Joo, Young-Chang;
6:7:43:3 Novel EBSD preparation method for Cu/Sn microbumps using a focused ion beam
DOI:10.1016/j.matchar.2012.09.002 JN:MATERIALS CHARACTERIZATION PY:2012 TC:3 AU: Liu, Tao-Chi;Chen, Chih;Chiu, Kuo-Jung;Lin, Han-Wen;Kuo, Jui-Chao;
6:7:43:4 Current stressing-induced growth of Cu3Sn in Cu/Sn/Cu solder joints
DOI:10.1016/j.matlet.2011.01.048 JN:MATERIALS LETTERS PY:2011 TC:6 AU: Chen, Delphic;Ho, Cheng-En;Kuo, Jui-Chao;
6:7:43:5 Nucleation and propagation of voids in microbumps for 3 dimensional integrated circuits
DOI:10.1063/1.3671391 JN:APPLIED PHYSICS LETTERS PY:2011 TC:2 AU: Hsu, Hsueh-Hsien;Huang, Shin-Yi;Chang, Tao-Chih;Wu, Albert T.;
6:7:43:6 Interfacial Reaction Effect on Electrical Reliability of Cu Pillar/Sn Bumps
DOI:10.1007/s11664-010-1345-7 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2010 TC:7 AU: Jeong, Myeong-Hyeok;Lim, Gi-Tae;Kim, Byoung-Joon;Lee, Ki-Wook;Kim, Jae-Dong;Joo, Young-Chang;Park, Young-Bae;
6:7:43:7 High-Temperature Resistant Intermetallic Compound Joints for Si Chips and Cu Substrates
DOI:10.1007/s11664-010-1326-x JN:JOURNAL OF ELECTRONIC MATERIALS PY:2010 TC:3 AU: Takahashi, Toshihide;Komatsu, Shuichi;Nishikawa, Hiroshi;Takemoto, Tadashi;
6:7:44:1:1 Kinetics of reactive diffusion between Ta and Cu-9.3Sn-0.3Ti alloy
DOI:10.1007/s10853-009-4021-7 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:8 AU: Tejima, Y.;Nakamura, S.;Kajihara, M.;
6:7:44:1:2 Kinetics of isothermal reactive diffusion between solid Fe and liquid Al
DOI:10.1007/s10853-010-4633-y JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:15 AU: Tanaka, Y.;Kajihara, M.;
6:7:44:1:3 Growth behavior of compounds due to solid-state reactive diffusion between Cu and Al
DOI:10.1007/s10853-012-6370-x JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:2 AU: Meguro, K.;O, M.;Kajihara, M.;
6:7:44:1:4 Observation on Isothermal Reactive Diffusion between Solid Fe and Liquid Sn
DOI:10.2320/matertrans.M2012060 JN:MATERIALS TRANSACTIONS PY:2012 TC:0 AU: Hida, Masahiro;Kajihara, Masanori;
6:7:44:1:5 Growth Manner of Intermetallic Compound Layer Produced at Welding Interface of Friction Stir Spot Welded Aluminum/Steel Lap Joint
DOI:10.2320/matertrans.L-MZ201120 JN:MATERIALS TRANSACTIONS PY:2011 TC:8 AU: Watanabe, Mitsuhiro;Feng, Keyan;Nakamura, Yoshio;Kumai, Shinji;
6:7:44:1:6 Kinetics of Solid-State Reactive Diffusion between Au and Al
DOI:10.2320/matertrans.M2010433 JN:MATERIALS TRANSACTIONS PY:2011 TC:1 AU: Minho, O.;Kajihara, Masanori;
6:7:44:2:1 Kinetics of Solid-State Reactive Diffusion between Co and Sn
DOI:10.2320/matertrans.M2014023 JN:MATERIALS TRANSACTIONS PY:2014 TC:0 AU: Minho, O.;Takamatsu, Yoshiki;Kajihara, Masanori;
6:7:44:2:2 Analysis for Kinetics of Austenite Growth due to Isothermal Carburization of Ferrite
DOI:10.2320/matertrans.M2010075 JN:MATERIALS TRANSACTIONS PY:2010 TC:4 AU: Kajihara, Masanori;
6:7:44:2:3 Analysis for Kinetics of Ferrite Growth due to Isothermal Decarburization of Austenite in the Binary Fe-C System
DOI:10.2320/matertrans.M2012161 JN:MATERIALS TRANSACTIONS PY:2012 TC:3 AU: Kajihara, Masanori;
6:7:44:2:4 Kinetics of Reactive Diffusion in the (Pd-Cu)/Sn System at Solid-State Temperatures
DOI:10.1007/s11664-013-2722-9 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:0 AU: Hashiba, M.;Shinmei, W.;Kajihara, M.;
6:7:45:1 Effect of iron and indium on IMC formation and mechanical properties of lead-free solder
DOI:10.1016/j.msea.2012.05.086 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:11 AU: Fallahi, H.;Nurulakmal, M. S.;Arezodar, A. Fallahi;Abdullah, Jamaluddin;
6:7:45:2 Heterogeneous nucleation of beta Sn on NiSn4, PdSn4 and PtSn4
DOI:10.1016/j.actamat.2014.02.044 JN:ACTA MATERIALIA PY:2014 TC:4 AU: Belyakov, S. A.;Gourlay, C. M.;
6:7:45:3 Intermetallic Formation and Fluidity in Sn-Rich Sn-Cu-Ni Alloys
DOI:10.1007/s11664-009-0962-5 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2010 TC:16 AU: Gourlay, C. M.;Nogita, K.;Read, J.;Dahle, A. K.;
6:7:45:4 NiSn4 Formation in As-Soldered Ni-Sn and ENIG-Sn Couples
DOI:10.1007/s11664-012-2277-1 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:4 AU: Belyakov, S. A.;Gourlay, C. M.;
6:7:45:5 Effects of Al and Fe additions on microstructure and mechanical properties of SnAgCu eutectic lead-free solders
DOI:10.1016/j.msea.2013.11.025 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:8 AU: Kantarcioglu, A.;Kalay, Y. E.;
6:7:45:6 Study on melt properties, microstructure, tensile properties of low Ag content Sn-Ag-Zn Lead-free solders
DOI:10.1016/j.msea.2012.07.086 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:11 AU: Luo, Tingbi;Chen, Zhuo;Hu, Anmin;Li, Ming;
6:7:45:7 Development of Sn-Ag-Cu-X Solders for Electronic Assembly by Micro-Alloying with Al
DOI:10.1007/s11664-012-1979-8 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:5 AU: Boesenberg, Adam J.;Anderson, Iver E.;Harringa, Joel L.;
6:7:45:8 IMC Growth at the Interface of Sn-2.0Ag-2.5Zn Solder Joints with Cu, Ni, and Ni-W Substrates
DOI:10.1007/s11664-014-3313-0 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:1 AU: Liang, Jiaxing;Wang, Haozhe;Hu, Anmin;Li, Ming;
6:7:46:1 The Wiedemann-Franz-Lorenz relation for lead-free solder and intermetallic materials
DOI:10.1016/j.actamat.2012.11.030 JN:ACTA MATERIALIA PY:2013 TC:5 AU: Yao, Yao;Fry, Jared;Fine, Morris E.;Keer, Leon M.;
6:7:46:2 Current density redistribution from no current crowding to current crowding in Pb-free solder joints with an extremely thick Cu layer
DOI:10.1016/j.actamat.2011.09.023 JN:ACTA MATERIALIA PY:2012 TC:8 AU: Han, Jung Kyu;Choi, Daechul;Fujiyoshi, Masaru;Chiwata, Nobuhiko;Tu, King-Ning;
6:7:46:3 Influence of Cu column under-bump-metallizations on current crowding and Joule heating effects of electromigration in flip-chip solder joints
DOI:10.1063/1.3682484 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:4 AU: Liang, Y. C.;Tsao, W. A.;Chen, Chih;Yao, Da-Jeng;Huang, Annie T.;Lai, Yi-Shao;
6:7:46:4 An Investigation of Diffusion Barrier Characteristics of an Electroless Co(W, P) Layer to Lead-Free SnBi Solder
DOI:10.1007/s11664-010-1488-6 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:5 AU: Pan, Hung-Chun;Hsieh, Tsung-Eong;
6:7:46:5 Dependence of Electrical Resistivity on Temperature and Sn Content in Pb-Sn Solders
DOI:10.1007/s11664-010-1425-8 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:4 AU: Cadirli, E.;Boyuk, U.;Kaya, H.;Marasli, N.;Aksoz, S.;Ocak, Y.;
6:7:46:6 Interfacial reaction between Sn-Ag-Cu solder and Co-P films with various microstructures
DOI:10.1016/j.actamat.2013.04.027 JN:ACTA MATERIALIA PY:2013 TC:5 AU: Lu, Nianduan;Yang, Donghua;Li, Liangliang;
6:7:46:7 Experimental and simulation analysis of concave-down resistance curve during electromigration in solder joints
DOI:10.1063/1.4867048 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Lin, C. K.;Chang, Yuan Wei;Chen, Chih;
6:7:47:1 Analysis of high speed shear characteristics of Sn-Ag-Cu solder joints
DOI:10.1007/s13391-011-0160-5 JN:ELECTRONIC MATERIALS LETTERS PY:2011 TC:11 AU: Kumar, Santosh;Park, Jae Yong;Jung, Jae Pil;
6:7:47:2 Electrical characteristics and thermal shock properties of Cu-filled TSV prepared by laser drilling
DOI:10.1007/s13391-013-0006-4 JN:ELECTRONIC MATERIALS LETTERS PY:2013 TC:5 AU: Jeong, Il Ho;Jung, Do Hyun;Shin, Kyu Sik;Shin, Dong Sik;Jung, Jae Pil;
6:7:47:3 Prediction of Reliability on Thermoelectric Module through Accelerated Life Test and Physics-of-Failure
DOI:10.1007/s13391-011-0917-x JN:ELECTRONIC MATERIALS LETTERS PY:2011 TC:8 AU: Choi, Hyoung-Seuk;Seo, Won-Seon;Choi, Duck-Kyun;
6:7:47:4 Analysis of the electrical characteristics and structure of Cu-Filled TSV with thermal shock test
DOI:10.1007/s13391-013-3260-6 JN:ELECTRONIC MATERIALS LETTERS PY:2014 TC:0 AU: Jeong, Il Ho;Roh, Myong Hoon;Jung, Flora;Song, Wan Ho;Mayer, Michael;Jung, Jae Pil;
6:7:47:5 Processing and Warpage Evaluation of Package-on-Packages with Various Epoxy Molding Compounds
DOI:10.1007/s13391-014-8004-8 JN:ELECTRONIC MATERIALS LETTERS PY:2014 TC:1 AU: Jung, Dong-Myung;Kim, Min-Young;Oh, Tae-Sung;
6:7:47:6 Electrochemical Process for 3D TSV without CMP and Lithographic Processes
DOI:10.1007/s13391-014-8007-5 JN:ELECTRONIC MATERIALS LETTERS PY:2014 TC:4 AU: Koo, Ja-Kyung;Lee, Jae-Ho;
6:7:47:7 Life and failure mechanism prediction of eco-friendly P2O5-SnO2-B2O3 glass frits
DOI:10.1007/s13391-012-2163-2 JN:ELECTRONIC MATERIALS LETTERS PY:2013 TC:0 AU: Choi, Hyoung-Seuk;Choi, Duck-Kyun;
6:7:47:8 Design for Reliability of Ferrite for Electronics Materials
DOI:10.1007/s13391-011-0310-9 JN:ELECTRONIC MATERIALS LETTERS PY:2011 TC:2 AU: Choi, Hyoung-Seuk;Kim, Kang-Dong;Jang, Joong Soon;
6:7:48:1 Influence of Asymmetrical Waveform on Low-Cycle Fatigue Life of Micro Solder Joint
DOI:10.1007/s11664-009-1003-0 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2010 TC:11 AU: Kanda, Yoshihiko;Kariya, Yoshiharu;
6:7:48:2 Influence of Cyclic Strain-Hardening Exponent on Fatigue Ductility Exponent for a Sn-Ag-Cu Micro-Solder Joint
DOI:10.1007/s11664-011-1830-7 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:11 AU: Kanda, Yoshihiko;Kariya, Yoshiharu;Oto, Yuji;
6:7:48:3 Low-Cycle Fatigue Behavior of 95.8Sn-3.5Ag-0.7Cu Solder Joints
DOI:10.1007/s11664-012-2258-4 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2013 TC:4 AU: Tang, Y.;Li, G. Y.;Shi, X. Q.;
6:7:48:4 Influence of Temperature and Dwelling Time on Low-Cycle Fatigue Characteristic of Isotropic Conductive Adhesive Joint
DOI:10.2320/matertrans.MJ201018 JN:MATERIALS TRANSACTIONS PY:2010 TC:6 AU: Kariya, Yoshiharu;Kanda, Yoshihiko;Iguchi, Keitaro;Furusawa, Hiromitsu;
6:7:48:5 Influence of Crystallographic Orientation on Fatigue Reliability of beta-Sn and beta-Sn Micro-Joint
DOI:10.2320/matertrans.MB201204 JN:MATERIALS TRANSACTIONS PY:2012 TC:3 AU: Kariya, Yoshiharu;Tajima, Sho;Yamada, Saori;
6:7:48:6 Effect of Strain-Enhanced Microstructural Coarsening on the Cyclic Strain-Hardening Exponent of Sn-Ag-Cu Joints
DOI:10.2320/matertrans.MB201205 JN:MATERIALS TRANSACTIONS PY:2012 TC:1 AU: Kanda, Yoshihiko;Kariya, Yoshiharu;Tasaka, Takeshi;
6:7:48:7 Influence of Dopant on Growth of Intermetallic Layers in Sn-Ag-Cu Solder Joints
DOI:10.1007/s11664-010-1441-8 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:8 AU: Li, G. Y.;Bi, X. D.;Chen, Q.;Shi, X. Q.;
6:7:49:1 Influences of Substrate Alloying and Reflow Temperature on Bi Segregation Behaviors at Sn-Bi/Cu Interface
DOI:10.1007/s11664-011-1742-6 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:6 AU: Zhang, Q. K.;Zou, H. F.;Zhang, Z. F.;
6:7:49:2 Interfacial Microstructure and Growth Kinetics of Intermetallic Compound Layers in Sn-4 wt.%Ag/Cu-X (X = Zn, Ag, Sn) Couples
DOI:10.1007/s11664-011-1645-6 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:4 AU: Zou, H. F.;Zhang, Q. K.;Zhang, Z. F.;
6:7:49:3 Microstructure, Thermal and Wetting Properties of Sn-Bi-Zn Lead-Free Solder
DOI:10.1007/s11664-013-2620-1 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2013 TC:3 AU: Chen, Xu;Xue, Feng;Zhou, Jian;Liu, Sidong;Qian, Guotong;
6:7:49:4 Improving tensile and fatigue properties of Sn-58Bi/Cu solder joints through alloying substrate
DOI:10.1557/JMR.2010.0035 JN:JOURNAL OF MATERIALS RESEARCH PY:2010 TC:9 AU: Zhang, QingKe;Zou, HeFei;Zhang, Zhe-Feng;
6:7:49:5 Transition of Bi embrittlement of SnBi/Cu joint couples with reflow temperature
DOI:10.1557/jmr.2010.40 JN:JOURNAL OF MATERIALS RESEARCH PY:2011 TC:1 AU: Zou, H. F.;Zhang, Q. K.;Zhang, Z. F.;
6:7:49:6 Weakening of the Cu/Cu3Sn(100) Interface by Bi Impurities
DOI:10.1007/s11664-010-1196-2 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2010 TC:3 AU: Pang, X. Y.;Shang, P. J.;Wang, S. Q.;Liu, Z. Q.;Shang, J. K.;
6:7:49:7 Physical Properties of Sn96.5Ag3.5-Based Solders with Additions of Bi, Ge, and In
DOI:10.1007/s11664-009-0952-7 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2010 TC:7 AU: Kaban, I.;Khalouk, K.;Koehler, M.;Hoyer, W.;Gasser, J. -G.;
6:7:50:1 Retardation of (Cu,Ni)(6)Sn-5 spalling in Sn-Ag-Cu/Ni solder joints via controlling the grain structure of Ni metallization layer
DOI:10.1016/j.matlet.2013.04.059 JN:MATERIALS LETTERS PY:2013 TC:2 AU: Wu, Yi-Hsin;Yu, Chi-Yang;Ho, Cheng-Ying;Duh, Jenq-Gong;
6:7:50:2 Uncovering the driving force for massive spalling in the Sn-Cu/Ni system
DOI:10.1016/j.scriptamat.2010.03.008 JN:SCRIPTA MATERIALIA PY:2010 TC:9 AU: Chen, W. M.;Yang, S. C.;Tsai, M. H.;Kao, C. R.;
6:7:50:3 Reaction kinetics of Ni/Sn soldering reaction
DOI:10.1016/j.actamat.2010.01.027 JN:ACTA MATERIALIA PY:2010 TC:10 AU: Goerlich, Jens;Baither, Dietmar;Schmitz, Guido;
6:7:50:4 Interfacial Reactions in Sn-Pb/Ni-8.0 at.%V Couples
DOI:10.1007/s11664-011-1636-7 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:4 AU: Chen, Sinn-wen;Lin, Yu-ren;Wu, Hsin-jay;Chang, Ru-Bo;
6:7:50:5 Effects of High-Temperature Treatment on the Reaction Between Sn-3%Ag-0.5%Cu Solder and Sputtered Ni-V Film on Ferrite Substrate
DOI:10.1007/s11664-012-2238-8 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:1 AU: Shen, Xiaohu;Jin, Hao;Dong, Shurong;Wong, Hei;Zhou, Jian;Guo, Zhaodi;Wang, Demiao;
6:7:50:6 Cu Substrates with Different Grain Sizes
DOI:10.1007/s11664-011-1646-5 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:3 AU: Wang, Jo-Mei;Wang, Kai-Jheng;Duh, Jenq-Gong;
6:7:50:7 Interfacial Reactions Between Columnar or Layered Ni(P) Layers and Sn-Ag-Cu Solder
DOI:10.1007/s11664-013-2786-6 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:0 AU: Hu, Y. J.;Hsu, Y. C.;Lu, C. T.;Huang, T. S.;Chen, C. Y.;Chuang, W. N.;Hsiao, C. Y.;Lin, C. P.;Liu, C. Y.;
6:7:51:1 Interfacial Reactions in Sn-Ag/Co Couples
DOI:10.1007/s11664-013-2927-y JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:2 AU: Chen, Sinn-wen;Chen, Tung-Kai;Chang, Jui-shen;Hsu, Chia-Ming;Chen, Wei-An;
6:7:51:2 Investigation of Sn Whisker Growth in Electroplated Sn and Sn-Ag as a Function of Plating Variables and Storage Conditions
DOI:10.1007/s11664-013-2800-z JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:2 AU: Chang, Jaewon;Kang, Sung K.;Lee, Jae-Ho;Kim, Keun-Soo;Lee, Hyuck Mo;
6:7:51:3 Interfacial reactions between eutectic Sn-Pb solder and Co substrate
DOI:10.1007/s10853-010-5121-0 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:11 AU: Wang, Chao-hong;Kuo, Chun-yi;
6:7:51:4 Effects of Be and Co addition on the growth of Sn whiskers and the properties of Sn-based Pb-free solders
DOI:10.1557/jmr.2012.182 JN:JOURNAL OF MATERIALS RESEARCH PY:2012 TC:3 AU: Chang, Jaewon;Seo, Sun-Kyoung;Cho, Moon Gi;Lee, Dong Nyung;Kang, Kyoo-Sik;Lee, Hyuck Mo;
6:7:51:5 Sn whisker growth on Sn plating with or without surface treatment during the room temperature exposure
DOI:10.1016/j.jallcom.2013.01.051 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:2 AU: Kim, Keun-Soo;Kim, Sun-Sik;Yorikado, Yuuhi;Suganuma, Katsuaki;Tsujimoto, Masanobu;Yanada, Isamu;
6:7:51:6 Seebeck Coefficient in Nonparabolic Bulk Materials
DOI:10.1007/s11664-011-1610-4 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:2 AU: Bhattacharya, Sitangshu;Mallik, Ramesh Chandra;
6:7:51:7 Diffusion barrier characteristics and shear fracture behaviors of eutectic PbSn solder/electroless Co(W,P) samples
DOI:10.1016/j.mseb.2011.09.037 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2012 TC:1 AU: Pan, Hung-Chun;Hsieh, Tsung-Eong;
6:7:52:1 In situ synchrotron tomographic investigation of the solidification of an AlMg4.7Si8 alloy
DOI:10.1016/j.actamat.2012.01.024 JN:ACTA MATERIALIA PY:2012 TC:16 AU: Tolnai, D.;Townsend, P.;Requena, G.;Salvo, L.;Lendvai, J.;Degischer, H. P.;
6:7:52:2 Laboratory micro- and nanoscale X-ray tomographic investigation of Al-7 at.%Cu solidification structures
DOI:10.1016/j.matchar.2014.06.004 JN:MATERIALS CHARACTERIZATION PY:2014 TC:1 AU: Patterson, B. M.;Henderson, K. C.;Gibbs, P. J.;Imhoff, S. D.;Clarke, A. J.;
6:7:52:3 Measure of morphological and performance properties in polymeric silicone foams by X-ray tomography
DOI:10.1007/s10853-012-6965-2 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:9 AU: Patterson, Brian M.;Henderson, Kevin;Smith, Zachary;
6:7:53:1 Enhanced diffusion caused by surface reactions in thin films of Sn-Cu-Mn
DOI:10.1016/j.tsf.2013.10.143 JN:THIN SOLID FILMS PY:2014 TC:0 AU: Oleshkevych, A. I.;Voloshko, S. M.;Sidorenko, S. I.;Langer, G. A.;Beke, D. L.;Rennie, A. R.;
6:7:53:2 Interfacial Reactions of Sn-3.0Ag-0.5Cu Solder with Cu-Mn UBM During Aging
DOI:10.1007/s11664-010-1371-5 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2010 TC:11 AU: Tseng, Chien-Fu;Wang, Kai-Jheng;Duh, Jenq-Gong;
6:7:53:3 Analysis on microstructure and characteristics of TiAlN/CrN nano-multilayer films deposited by cathodic arc deposition
DOI:10.1016/j.tsf.2010.05.037 JN:THIN SOLID FILMS PY:2010 TC:11 AU: Sun, P. L.;Hsu, C. H.;Liu, S. H.;Su, C. Y.;Lin, C. K.;
6:7:53:4 Oxidation of nano-multilayered CrN/AlMgSiN thin films between 600 and 900 degrees C in air
DOI:10.1016/j.tsf.2013.01.012 JN:THIN SOLID FILMS PY:2013 TC:1 AU: Lee, Dong Bok;Kim, Sun Kyu;
6:7:53:5 Calculating the diffusivity of Cu and Sn in Cu3Sn intermetallic by molecular dynamics simulations
DOI:10.1016/j.matlet.2012.01.014 JN:MATERIALS LETTERS PY:2012 TC:8 AU: Gao, Feng;Qu, Jianmin;
6:7:53:6 Interface Structure and Corrosion Resistance of Ti/Cr Nanomultilayer Film Prepared by Magnetron Sputtering on Depleted Uranium
DOI:10.1021/am401284e JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:0 AU: Zhu, Shengfa;Wu, Yanping;Liu, Tianwei;Tang, Kai;Wei, Qiang;
6:7:53:7 Surface morphology and texture of TiAlN/CrN multilayer coatings
DOI:10.1016/j.tsf.2012.09.073 JN:THIN SOLID FILMS PY:2012 TC:0 AU: Delisle, Dale A.;Krzanowski, James E.;
6:7:54:1 Study of Undercooling and Recalescence During Solidification of Sn62.5Pb36.5Ag1 and Sn96.5Ag3Cu0.5 Solders in Real Electronic Joints
DOI:10.1007/s11664-014-3121-6 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:1 AU: Rudajevova, A.;Dusek, K.;
6:7:54:2 Effect of liquid-liquid structure transition on solidification and wettability of Sn-0.7Cu solder
DOI:10.1016/j.jallcom.2010.06.087 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:14 AU: Li, Xianfen;Zhang, Fei;Zu, Fangqiu;Lv, Xue;Zhao, Zhenxing;Yang, Dongdong;
6:7:54:3 Undercooling Behavior and Intermetallic Compound Coalescence in Microscale Sn-3.0Ag-0.5Cu Solder Balls and Sn-3.0Ag-0.5Cu/Cu Joints
DOI:10.1007/s11664-012-2203-6 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:4 AU: Zhou, M. B.;Ma, X.;Zhang, X. P.;
6:7:54:4 Crystallographically Faceted Void Formation in the Matrix of Lead-Free Solder Joints
DOI:10.1007/s11664-010-1184-6 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2010 TC:8 AU: Belyakov, S.;Atkinson, H. V.;Gill, S. P. A.;
6:7:54:5 Effects of bump size on deformation and fracture behavior of Sn3.0Ag0.5Cu/Cu solder joints during shear testing
DOI:10.1016/j.msea.2011.09.063 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:10 AU: Tian, Yanhong;Hang, Chunjin;Wang, Chunqing;Yang, Shihua;Lin, Pengrong;
6:7:54:6 Dissolution of solid copper in liquid tin enhanced by the liquid structural transition
DOI:10.1063/1.4885915 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Qi, Xuan;Ding, Guo-Hua;Zhou, Guang-Wei;
6:7:55:1 Wetting of Cu by Bi-Ag based alloys with Sn and Zn additions
DOI:10.1007/s10853-010-4291-0 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:13 AU: Fima, Przemyslaw;Gasior, Wladyslaw;Sypien, Anna;Moser, Zbigniew;
6:7:55:2 Thermodynamic modeling of the Au-Sb-Si ternary system
DOI:10.1016/j.jallcom.2010.11.199 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:2 AU: Wang, J.;Liu, Y. J.;Liu, L. B.;Zhou, H. Y.;Jin, Z. P.;
6:7:55:3 Calorimetric investigations of Au-In, In-Sb and Au-In-Sb systems at 973 K
DOI:10.1016/j.jallcom.2011.12.074 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:6 AU: Hassam, S.;Boa, D.;Rogez, J.;
6:7:55:4 Wetting of Cu Pads by Bi-2.6Ag-xCu Alloys and Phase Equilibria in the Ag-Bi-Cu System
DOI:10.1007/s11664-014-3304-1 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:0 AU: Fima, Przemyslaw;Garzel, Grzegorz;Sypien, Anna;
6:7:55:5 Thermodynamic description of the binary Au-Sb and ternary Au-In-Sb systems
DOI:10.1016/j.jallcom.2013.04.186 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:1 AU: Gierlotka, Wojciech;
6:7:55:6 Wetting of Al pads by Sn-8.8Zn and Sn-8.7Zn-1.5(Ag, In) alloys
DOI:10.1007/s10853-012-6777-4 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:2 AU: Fima, Przemyslaw;Berent, Katarzyna;Pstrus, Janusz;Gancarz, Tomasz;
6:7:55:7 Surface Tension, Density, and Thermal Expansion of (Bi-Ag)(eut)-Zn Alloys
DOI:10.1007/s11664-011-1780-0 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:1 AU: Pstrus, Janusz;Fima, Przemyslaw;Gasior, Wladyslaw;
6:7:55:8 Mechanical Properties and Electrochemical Corrosion Behavior of Al/Sn-9Zn-xAg/Cu Joints
DOI:10.1007/s11664-010-1459-y JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:12 AU: Huang, M. L.;Huang, Y. Z.;Ma, H. T.;Zhao, J.;
6:7:56:1 Self-aligned Ni-P ohmic contact scheme for silicon solar cells by electroless deposition
DOI:10.1007/s13391-012-2015-0 JN:ELECTRONIC MATERIALS LETTERS PY:2012 TC:11 AU: Lee, Eun Kyung;Lim, Dong Chan;Lee, Kyu Hwan;Lim, Jae-Hong;
6:7:56:2 Effect of pre-cleaning treatment and contact wetting angle in the interface between P-doped Si surfaces and selective solar cell electrodes
DOI:10.1007/s13391-013-0051-z JN:ELECTRONIC MATERIALS LETTERS PY:2013 TC:5 AU: Cui, Yinhua;Choi, Eunmi;Kim, Areum;Oh, Leeseul;Lee, Seon Jea;Ryang, Ayeon;Park, Hansoo;Lim, Kyunghee;Pyo, Sung Gyu;
6:7:56:3 Analysis of Front Metal Contact for Plated Ni/Cu Silicon Solar Cells
DOI:10.1007/s13391-011-0250-4 JN:ELECTRONIC MATERIALS LETTERS PY:2011 TC:7 AU: Lee, Jae Doo;Kwon, Hyuk Yong;Lee, Soo Hong;
6:7:56:4 Investigation on plated Ni/Cu contact for mono-crystalline silicon solar cells
DOI:10.1007/s13391-013-2169-4 JN:ELECTRONIC MATERIALS LETTERS PY:2013 TC:10 AU: Kim, Dong Ho;Lee, Soo Hong;
6:7:56:5 Evolvement of cell-substrate interaction over time for cells cultivated on a 3-aminopropyltriethoxysilane (gamma-APTES) modified silicon dioxide (SiO2) surface
DOI:10.1016/j.apsusc.2012.05.066 JN:APPLIED SURFACE SCIENCE PY:2012 TC:2 AU: Hsu, Chung-Ping;Hsu, Po-Yen;Wu, You-Lin;Hsu, Wan-Yun;Lin, Jing-Jenn;
6:7:56:6 The growth characteristics of microcrystalline Si thin film deposited by atmospheric pressure plasma-enhanced chemical vapor deposition
DOI:10.1007/s13391-013-6033-3 JN:ELECTRONIC MATERIALS LETTERS PY:2013 TC:1 AU: Kwon, Jung-Dae;
6:7:56:7 Nickel silicide for Ni/Cu contact mono-silicon solar cells
DOI:10.1007/s13391-013-0026-0 JN:ELECTRONIC MATERIALS LETTERS PY:2013 TC:9 AU: Min, Seon Kyu;Kim, Dong Ho;Lee, Soo Hong;
6:7:56:8 Effect of electroless nickel on the series resistance of high-efficiency inkjet printed passivated emitter rear contacted solar cells
DOI:10.1016/j.solmat.2010.06.035 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:6 AU: Lenio, Martha A. T.;Lennon, A. J.;Ho-Baillie, A.;Wenham, S. R.;
6:7:57:1 Damage behavior of SnAgCu/Cu solder joints subjected to thermomechanical cycling
DOI:10.1016/j.jallcom.2013.05.026 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:6 AU: Xiao, H.;Li, X. Y.;Hu, Y.;Guo, F.;Shi, Y. W.;
6:7:57:2 The constitutive response of three solder materials
DOI:10.1016/j.jallcom.2012.02.049 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:2 AU: Perez-Bergquist, Alejandro G.;Cao, Fang;Perez-Bergquist, Sara J.;Lopez, Mike F.;Trujillo, Carl P.;Cerreta, Ellen K.;Gray, George T., III;
6:7:57:3 Creep-Fatigue Crack Growth Behavior of Pb-Containing and Pb-Free Solders at Room and Elevated Temperatures
DOI:10.1007/s11664-012-2061-2 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:6 AU: Fakpan, Kittichai;Otsuka, Yuichi;Mutoh, Yoshiharu;Inoue, Shunsuke;Nagata, Kohsoku;Kodani, Kazuya;
6:7:57:4 Effect of Hold Time on Crack Growth Behavior of Pb-Containing and Pb-Free Solders
DOI:10.1007/s11664-012-2229-9 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:1 AU: Fakpan, Kittichai;Otsuka, Yuichi;Mutoh, Yoshiharu;Nagata, Kohsoku;
6:7:57:5 Transient Crack Growth Behavior Under Cycle/Time-Dependent Step Loading for Pb-Containing and Pb-Free Solders
DOI:10.1007/s11664-013-2709-6 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2013 TC:0 AU: Fakpan, Kittichai;Otsuka, Yuichi;Miyashita, Yukio;Mutoh, Yoshiharu;Nagata, Kohsoku;
6:7:57:6 Maximum-Entropy Principle for Modeling Damage and Fracture in Solder Joints
DOI:10.1007/s11664-011-1804-9 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:7 AU: Chan, D.;Subbarayan, G.;Nguyen, L.;
6:7:58:1 Phase formation at the Sn/Cu interface during room temperature aging: Microstructural evolution, whiskering, and interface thermodynamics
DOI:10.1557/jmr.2011.162 JN:JOURNAL OF MATERIALS RESEARCH PY:2011 TC:13 AU: Sobiech, Matthias;Krueger, Carmen;Welzel, Udo;Wang, Jiang-Yang;Mittemeijer, Eric Jan;Huegel, Werner;
6:7:58:2 The Role of Silver in Mitigation of Whisker Formation on Thin Tin Films
DOI:10.1007/s11664-014-3328-6 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:1 AU: Stein, J.;Rehm, S.;Welzel, U.;Huegel, W.;Mittemeijer, E. J.;
6:7:58:3 Stress Relaxation Mechanisms of Sn and SnPb Coatings Electrodeposited on Cu: Avoidance of Whiskering
DOI:10.1007/s11664-011-1737-3 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:13 AU: Sobiech, M.;Teufel, J.;Welzel, U.;Mittemeijer, E. J.;Huegel, W.;
6:7:58:4 Equilibrium and kinetic surface segregations in Cu-Sn thin films
DOI:10.1007/s00339-013-7570-1 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2013 TC:0 AU: Yan, X. L.;Lin, M.;Wang, J. Y.;
6:7:58:5 Whisker Growth Behavior of Sn and Sn Alloy Lead-Free Finishes
DOI:10.1007/s11664-011-1712-z JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:16 AU: Baated, Alongheng;Hamasaki, Kyoko;Kim, Sun Sik;Kim, Keun-Soo;Suganuma, Katsuaki;
6:7:58:6 Size effects on surface segregation in Ni-Cu alloy thin films
DOI:10.1016/j.tsf.2012.03.061 JN:THIN SOLID FILMS PY:2013 TC:3 AU: Yan, X. L.;Wang, J. Y.;
6:7:58:7 Imposition of defined states of stress on thin films by a wafer-curvature method; validation and application to aging Sn films
DOI:10.1016/j.tsf.2014.08.007 JN:THIN SOLID FILMS PY:2014 TC:0 AU: Stein, J.;Pascher, M.;Welzel, U.;Huegel, W.;Mittemeijer, E. J.;
6:7:59:1 Rapid formation of Cu/Cu3Sn/Cu joints using ultrasonic bonding process at ambient temperature
DOI:10.1063/1.4794684 JN:APPLIED PHYSICS LETTERS PY:2013 TC:6 AU: Li, Mingyu;Li, Zhuolin;Xiao, Yong;Wang, Chunqing;
6:7:59:2 Phase transformation between Cu(In,Sn)(2) and Cu-2(In,Sn) compounds formed on single crystalline Cu substrate during solid state aging
DOI:10.1063/1.4863336 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Tian, Feifei;Liu, Zhi-Quan;Guo, Jingdong;
6:7:59:3 Growth mechanism of duplex structural Cu-2(In,Sn) compound on single crystalline Cu substrate
DOI:10.1016/j.jallcom.2013.11.136 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:2 AU: Tian, Feifei;Liu, Zhi-Quan;
6:7:59:4 Phase identification on the intermetallic compound formed between eutectic SnIn solder and single crystalline Cu substrate
DOI:10.1016/j.jallcom.2013.12.257 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:2 AU: Tian, Feifei;Liu, Zhi-Quan;Shang, Pan-Ju;Guo, Jingdong;
6:7:59:5 Precise Cr-marker investigation on the reactive interface in the eutectic SnIn solder joint
DOI:10.1016/j.matlet.2014.01.170 JN:MATERIALS LETTERS PY:2014 TC:0 AU: Tian, Feifei;Shang, Pan-Ju;Liu, Zhi-Quan;
6:7:60:1 Effects of aging time on the mechanical properties of Sn-9Zn-1.5Ag-xBi lead-free solder alloys
DOI:10.1016/j.jallcom.2013.08.022 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:4 AU: Liu, Chih-Yao;Hon, Min-Hsiung;Wang, Moo-Chin;Chen, Ying-Ru;Chang, Kuo-Ming;Li, Wang-Long;
6:7:60:2 Interfacial reactions between Sn-57Bi-1Ag solder and electroless Ni-P/immersion Au under solid-state aging
DOI:10.1007/s10853-012-6257-x JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:7 AU: Fuchs, Christopher;Schreck, Timo;Kaloudis, Michael;
6:7:60:3 The influence of silver content on structure and properties of Sn-Bi-Ag solder and Cu/solder/Cu joints
DOI:10.1016/j.msea.2013.02.013 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:1 AU: Sebo, P.;Svec, P., Sr.;Janickovic, D.;Illekova, E.;Zemankova, M.;Plevachuk, Yu;Sidorov, V.;Svec, P.;
6:7:60:4 Phase equilibria and solidification of ternary Sn-Bi-Ag alloys
DOI:10.1016/j.jallcom.2010.03.067 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:5 AU: Chen, Sinn-wen;Wu, Hsin-jay;Huang, Yu-chih;Gierlotka, Wojciech;
6:7:60:5 Mechanical property of the epoxy-contained Sn-58Bi solder with OSP surface finish
DOI:10.1016/j.jallcom.2014.01.078 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:2 AU: Myung, Woo-Ram;Kim, Yongil;Jung, Seung-Boo;
6:7:60:6 Analysing the growth of intermetallic compounds in lead-free solder joints by differential scanning calorimetry measurements
DOI:10.1007/s10853-012-7035-5 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:0 AU: Schreck, Timo;Schnorpfeil, Anna;Kaloudis, Michael;
6:7:61:1 Experimental study of density, surface tension, and contact angle of Sn-Sb-based alloys for high temperature soldering
DOI:10.1007/s10853-009-4120-5 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:18 AU: Plevachuk, Yu.;Hoyer, W.;Kaban, I.;Koehler, M.;Novakovic, R.;
6:7:61:2 The Isothermal Section of the Sn-Sb-Ni Ternary System at 270 degrees C
DOI:10.1007/s11664-014-3223-1 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:1 AU: Chen, Yue-ting;Fang, Gu;Chen, Chih-chi;
6:7:61:3 Phase Equilibria in the Sn-Rich Corner of the Ni-Sb-Sn System
DOI:10.1007/s11664-012-2395-9 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2013 TC:2 AU: Mishra, Ratikanta;Kroupa, Ales;Zemanova, Adela;Ipser, Herbert;
6:7:61:4 Phase equilibria of Sn-Sb-Cu system
DOI:10.1016/j.matchemphys.2011.11.088 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:6 AU: Chen, Sinn-wen;Zi, An-ren;Gierlotka, Wojciech;Yang, Ching-feng;Wang, Chao-hong;Lin, Shih-kang;Hsu, Chia-ming;
6:7:61:5 Interfacial reactions in the Sb-Sn/(Cu, Ni) systems: Wetting experiments
DOI:10.1016/j.matchemphys.2012.09.028 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:3 AU: Novakovic, R.;Lanata, T.;Delsante, S.;Borzone, G.;
6:7:61:6 Synthesis and characterization of Sn-rich Ni-Sb-Sn nanosolders
DOI:10.1016/j.jallcom.2011.10.023 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:2 AU: Mishra, Ratikanta;Zemanova, Adela;Kroupa, Ales;Flandorfer, Hans;Ipser, Herbert;
6:7:61:7 Physicochemical Properties of Sb-Sn-Zn Alloys
DOI:10.1007/s11664-014-3320-1 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:0 AU: Gancarz, Tomasz;
6:7:61:8 Measurement of surface tension and specific heat of Ni-18.8 at.% Si alloy melt by containerless processing
DOI:10.1007/s10853-011-5557-x JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:0 AU: Cao, Chongde;Zhang, Limin;Bai, Xiaojun;Duan, Libing;Wang, Fang;
6:7:62:1 A Method for Quantification of the Effects of Size and Geometry on the Microstructure of Miniature Interconnects
DOI:10.1007/s11664-013-2907-2 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:0 AU: Xiong, Hua;Huang, Zhiheng;Conway, Paul;
6:7:62:2 Effect of Electric Current on Trijunction Equilibrium and Grain Rotation of Lossy Dielectrics
DOI:10.1007/s11664-014-3445-2 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:0 AU: Yang, Fuqian;
6:7:62:3 Electromigration induced Kirkendall void growth in Sn-3.5Ag/Cu solder joints
DOI:10.1063/1.4867115 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:2 AU: Jung, Yong;Yu, Jin;
6:7:62:4 Effects of Solder Ball Geometry on Lap Shear Creep Rate
DOI:10.1007/s11664-010-1072-0 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2010 TC:5 AU: Kim, S. B.;Yu, Jin;
6:7:62:5 Microvoid Formation at Solder-Copper Interfaces During Annealing: a Systematic Study of the Root Cause
DOI:10.1007/s11664-011-1768-9 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:2 AU: Kumar, Santosh;Smetana, Joseph;Love, David;Watkowski, James;Parker, Richard;Handwerker, Carol A.;
6:7:62:6 Electromigration stress induced deformation mechanisms in free-standing platinum thin films
DOI:10.1016/j.scriptamat.2011.04.030 JN:SCRIPTA MATERIALIA PY:2011 TC:6 AU: Kumar, S.;Alam, M. T.;Connell, Z.;Haque, M. A.;
6:7:62:7 Gap Size Effects on the Shear Strength of Sn/Cu and Sn/FeNi Solder Joints
DOI:10.1007/s11664-012-2156-9 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:3 AU: Chen, Cai;Zhang, Lei;Zhao, Jiaxi;Cao, Lihua;Shang, J. K.;
6:7:63:1 Effects of Plasma Treatment on the Peel Strength of Ni on Polyimide
DOI:10.1007/s13391-012-1075-5 JN:ELECTRONIC MATERIALS LETTERS PY:2012 TC:11 AU: Woo, Tae-Gyu;Park, Il-Song;Jung, Kwang-Hee;Jeon, Woo-Yong;Hwang, Young-Kyu;Seol, Kyeong-Won;
6:7:63:2 Islands stretch test for measuring the interfacial fracture energy between a hard film and a soft substrate
DOI:10.1063/1.4810763 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:2 AU: Sun, Jeong-Yun;Lu, Nanshu;Oh, Kyu-Hwan;Suo, Zhigang;Vlassak, Joost J.;
6:7:63:3 Fluxless eutectic bonding of GaAs-on-Si by using Ag/Sn solder
DOI:10.1007/s13391-013-6012-8 JN:ELECTRONIC MATERIALS LETTERS PY:2013 TC:2 AU: Eo, Sung-Hwa;Kim, Dae-Seon;Jeong, Ho-Jung;Jang, Jae-Hyung;
6:7:63:4 Effect of permanganate treatment on through mold vias for an embedded wafer level package
DOI:10.1007/s13391-013-0011-7 JN:ELECTRONIC MATERIALS LETTERS PY:2013 TC:1 AU: Park, Se-Hoon;Park, Ji-Yeon;Kim, Young-Ho;
6:7:63:5 Chemical Bond Structure and MOSFET Device Damages of Electron Beam Cured Siloxane Spin-on-dielectric Films
DOI:10.1007/s13391-014-4199-y JN:ELECTRONIC MATERIALS LETTERS PY:2014 TC:0 AU: Pyo, Sung Gyu;
6:7:63:6 Debonding and fracture of ceramic islands on polymer substrates
DOI:10.1063/1.3673805 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:6 AU: Sun, Jeong-Yun;Lu, Nanshu;Yoon, Juil;Oh, Kyu-Hwan;Suo, Zhigang;Vlassak, Joost J.;
6:7:63:7 Tensile properties of copper-nickel fine clad prepared by surface activation bonding and subsequent heat treatment
DOI:10.1007/s13391-013-6005-7 JN:ELECTRONIC MATERIALS LETTERS PY:2013 TC:0 AU: Jung, Taek-Kyun;Kim, Kyung-Hoon;Joh, Dong-Woo;Heo, Kyu-Young;Lee, Hyo-Soo;Lim, Sung-Chul;Kwon, Hyouk-Chon;
6:7:64:1 Effect of torsional oscillations on the stress-strain behavior of Al-5 wt% Mg alloy
DOI:10.1016/j.msea.2011.04.061 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:5 AU: Mahmoud, M. A.;El-Rehim, A. F. Abd;Sobhy, M.;Rahman, R. M. Abdel;
6:7:64:2 Effect of Cu addition on the microstructure and mechanical properties of Al-30 wt% Zn alloy
DOI:10.1016/j.jallcom.2014.04.055 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:0 AU: Abd El-Rehim, A. F.;Sakr, M. S.;El-Sayed, M. M.;Abd El-Hafez, M.;
6:7:64:3 Transient and steady state creep of age-hardenable Al-5 wt% Mg alloy during superimposed torsional oscillations
DOI:10.1007/s10853-012-7059-x JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:2 AU: Abd El-Rehim, A. F.;Mahmoud, M. A.;
6:7:64:4 Influence of quenching conditions on the mechanical and structural properties of Al-30 wt% Zn alloy
DOI:10.1016/j.msea.2014.02.040 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Abd El-Rehim, A. F.;El-Sayed, M. M.;Nagy, M. R.;Abd El-Hafez, M.;
6:7:64:5 The enhancement of creep in Al-22 wt% Ag alloy by cyclic stressing
DOI:10.1007/s10853-009-4127-y JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:2 AU: Mahmoud, M. A.;Abd El-Rehim, A. F.;
6:7:64:6 The variation of tensile characteristics of Al-2 wt.%Ag and Al-2 wt.%Ag-1 wt.%Sn alloys during transformation
DOI:10.1016/j.msea.2010.10.010 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:1 AU: Nada, R. H.;
6:7:65:1 Elimination of voids in reactions between Ni and Sn: A novel effect of silver
DOI:10.1016/j.scriptamat.2011.10.032 JN:SCRIPTA MATERIALIA PY:2012 TC:22 AU: Chuang, H. Y.;Yu, J. J.;Kuo, M. S.;Tong, H. M.;Kao, C. R.;
6:7:65:2 Effects of silver addition on Cu-Sn microjoints for chip-stacking applications
DOI:10.1016/j.jallcom.2014.03.165 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:1 AU: Yang, T. L.;Yu, J. J.;Shih, W. L.;Hsueh, C. H.;Kao, C. R.;
6:7:65:3 Inhibition of Gold Embrittlement in Micro-joints for Three-Dimensional Integrated Circuits
DOI:10.1007/s11664-014-3360-6 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:1 AU: Shih, W. L.;Yang, T. L.;Chuang, H. Y.;Kuo, M. S.;Kao, C. R.;
6:7:65:4 Gold and palladium embrittlement issues in three-dimensional integrated circuit interconnections
DOI:10.1016/j.matlet.2013.07.078 JN:MATERIALS LETTERS PY:2013 TC:3 AU: Chen, Y. J.;Yang, T. L.;Yu, J. J.;Kao, C. L.;Kao, C. R.;
6:7:66:1 Plate-like cell growth during directional solidification of a Zn-20wt%Sn high-temperature lead-free solder alloy
DOI:10.1016/j.mseb.2013.11.016 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2014 TC:2 AU: Santos, Washington L. R.;Brito, Crystopher;Quaresma, Jose M. V.;Spinelli, Jose E.;Garcia, Amauri;
6:7:66:2 Effects of cell morphology and macrosegregation of directionally solidified Zn-rich Zn-Cu alloys on the resulting microhardness
DOI:10.1016/j.matlet.2012.04.095 JN:MATERIALS LETTERS PY:2012 TC:12 AU: Brito, Crystopher;Siqueira, Claudio A.;Spinelli, Jose E.;Garcia, Amauri;
6:7:66:3 The effects of microstructure and intermetallic phases of directionally solidified Al-Fe alloys on microhardness
DOI:10.1016/j.matlet.2012.08.130 JN:MATERIALS LETTERS PY:2012 TC:6 AU: Silva, Bismarck L.;Garcia, Amauri;Spinelli, Jose E.;
6:7:66:4 Effect of bismuth and silver on the corrosion behavior of Sn-9Zn alloy in NaCl 3 wt.% solution
DOI:10.1016/j.mseb.2011.05.034 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2011 TC:6 AU: Ahmido, A.;Sabbar, A.;Zouihri, H.;Dakhsi, K.;Guedira, F.;Serghini-Idrissi, M.;El Hajjaji, S.;
6:7:67:1 Effect of Cold-Rolling on Damping Characteristics of Multi-Component Al-12%Si Alloy Measured by Dynamic Mechanical Analyzer
DOI:10.2320/matertrans.M2012418 JN:MATERIALS TRANSACTIONS PY:2013 TC:0 AU: Wu, Shyi-Kaan;Chang, Shih-Hang;Chien, Chen;
6:7:67:2 Damping characteristics of Sn-3Ag-0.5Cu and Sn-37Pb solders studied by dynamic mechanical analysis
DOI:10.1016/j.scriptamat.2010.07.004 JN:SCRIPTA MATERIALIA PY:2010 TC:5 AU: Chang, S. H.;Wu, S. K.;
6:7:67:3 Low-frequency damping properties of eutectic Sn-Bi and In-Sn solders
DOI:10.1016/j.scriptamat.2010.12.035 JN:SCRIPTA MATERIALIA PY:2011 TC:3 AU: Chang, S. H.;Wu, S. K.;
6:7:67:4 Influence of microstructure on quasi-static and dynamic mechanical properties of bismuth-containing lead-free solder alloys
DOI:10.1016/j.msea.2011.10.082 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:5 AU: Witkin, David B.;
6:7:67:5 Damping Properties of Homogenized and Cold-Rolled Mg-14.3Li-0.8Zn beta-Phase Magnesium Alloy
DOI:10.2320/matertrans.M2011174 JN:MATERIALS TRANSACTIONS PY:2012 TC:1 AU: Chang, Shih-Hang;Wu, Shyi-Kaan;Li, Ying-Hsuan;Lin, Ke-Chun;Bor, Hui-Yun;
6:7:68:1 Microstructure Evolution and Defect Formation in Cu Through-Silicon Vias (TSVs) During Thermal Annealing
DOI:10.1007/s11664-012-1943-7 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:19 AU: Shin, Hae-A-Seul;Kim, Byoung-Joon;Kim, Ju-Heon;Hwang, Sung-Hwan;Budiman, Arief Suriadi;Son, Ho-Young;Byun, Kwang-Yoo;Tamura, Nobumichi;Kunz, Martin;Kim, Dong-Ik;Joo, Young-Chang;
6:7:68:2 Enabling thin silicon technologies for next generation c-Si solar PV renewable energy systems using synchrotron X-ray microdiffraction as stress and crack mechanism probe
DOI:10.1016/j.solmat.2014.07.029 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:1 AU: Budiman, A. S.;Illya, G.;Handara, V.;Caldwell, W. A.;Bonelli, C.;Kunz, M.;Tamura, N.;Verstraeten, D.;
6:7:68:3 Linkages Between Microstructure and Mechanical Properties of Ultrafine Interconnects
DOI:10.1007/s11664-012-2201-8 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2013 TC:1 AU: Wu, Zhiyong;Huang, Zhiheng;Xiong, Hua;Conway, Paul P.;Liu, Changqing;
6:7:68:4 High precision thermal stress study on flip chips by synchrotron polychromatic x-ray microdiffraction
DOI:10.1063/1.3309750 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:5 AU: Chen, Kai;Tamura, N.;Tang, Wei;Kunz, M.;Chou, Yi-Chia;Tu, K. N.;Lai, Yi-Shao;
6:7:68:5 Evaluation of Strain Measurement in a Die-to-Interposer Chip Using In Situ Synchrotron X-Ray Diffraction and Finite-Element Analysis
DOI:10.1007/s11664-013-2828-0 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:1 AU: Hsu, Hsueh-Hsien;Chiu, Tz-Cheng;Chang, Tao-Chih;Huang, Shin-Yi;Lee, Hsin-Yi;Ku, Ching-Shun;Lin, Yang-Yi;Su, Chien-Hao;Chou, Li-Wei;Ouyang, Yao-Tsung;Huang, Yi-Ting;Wu, Albert T.;
6:7:69:1 Effect of cooling rate during solidification of Sn-9Zn lead-free solder alloy on its microstructure, tensile strength and ductile-brittle transition temperature
DOI:10.1016/j.msea.2011.11.035 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:16 AU: Prabhu, K. N.;Deshapande, Parashuram;Satyanarayan;
6:7:69:2 Oxidation kinetics of thin copper films and wetting behaviour of copper and Organic Solderability Preservatives (OSP) with lead-free solder
DOI:10.1016/j.apsusc.2011.02.048 JN:APPLIED SURFACE SCIENCE PY:2011 TC:10 AU: Ramirez, Mauricio;Henneken, Lothar;Virtanen, Sannakaisa;
6:7:69:3 The critical oxide thickness for Pb-free reflow soldering on Cu substrate
DOI:10.1016/j.tsf.2012.03.034 JN:THIN SOLID FILMS PY:2012 TC:3 AU: Chung, C. Key;Chen, Y. J.;Li, C. C.;Kao, C. R.;
6:7:69:4 Effect of Ag on the Microstructure of Sn-8.5Zn-xAg-0.01Al-0.1Ga Solders Under High-Temperature and High-Humidity Conditions
DOI:10.1007/s11664-012-2389-7 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2013 TC:2 AU: Yeh, T. K.;Lin, K. L.;Mohanty, U. S.;
6:7:69:5 The role of oxide layers in solder joints
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6:7:69:6 Effect of polarizations on Sn-Zn solders alloys in alkaline electrolyte
DOI:10.1016/j.jallcom.2014.04.034 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:4 AU: Nazeri, Muhammad Firdaus Mohd;Ismail, Ahmad Badri;Mohamad, Ahmad Azmin;
6:7:70:1 Anisotropic solid-liquid interfacial energy measurement by grain boundary groove method
DOI:10.1016/j.jcrysgro.2014.08.017 JN:JOURNAL OF CRYSTAL GROWTH PY:2014 TC:0 AU: Wang, Lilin;Lin, Xin;Wang, Meng;Huang, Weidong;
6:7:70:2 A molecular dynamics simulation study of the crystal-melt interfacial free energy and its anisotropy in the Cu-Ag-Au ternary system
DOI:10.1016/j.jcrysgro.2011.05.015 JN:JOURNAL OF CRYSTAL GROWTH PY:2011 TC:9 AU: Potter, A. A.;Hoyt, J. J.;
6:7:70:3 The influence of solid-liquid interfacial energy anisotropy on equilibrium shapes, nucleation, triple lines and growth morphologies
DOI:10.1016/j.scriptamat.2010.02.039 JN:SCRIPTA MATERIALIA PY:2010 TC:8 AU: Rappaz, M.;Friedli, J.;Mariaux, A.;Salgado-Ordorica, M.;
6:7:70:4 Solid-liquid interfacial energy and its anisotropy measurement from double grain boundary grooves
DOI:10.1016/j.scriptamat.2013.03.028 JN:SCRIPTA MATERIALIA PY:2013 TC:1 AU: Wang, Lilin;Lin, Xin;Wang, Meng;Huang, Weidong;
6:7:70:5 Experimental determination of solid-liquid interfacial energy for solid Sn in the Sn-Mg system
DOI:10.1016/j.apsusc.2011.02.061 JN:APPLIED SURFACE SCIENCE PY:2011 TC:5 AU: Meydaneri, Fatma;Saatci, Buket;Ozdemir, Mehmet;
6:7:70:6 Calculation of crystal-melt interfacial free energies of fcc metals
DOI:10.1016/j.jcrysgro.2012.12.010 JN:JOURNAL OF CRYSTAL GROWTH PY:2013 TC:4 AU: Zhou, Huaguang;Lin, Xin;Wang, Meng;Huang, Weidong;
6:7:70:7 Calculation of solid-liquid interfacial free energy of Cu by two different methods
DOI:10.1016/j.jcrysgro.2013.05.007 JN:JOURNAL OF CRYSTAL GROWTH PY:2013 TC:3 AU: Zhou, Huaguang;Lin, Xin;Wang, Meng;Huang, Weidong;
6:7:71:1 The Effect of Sn Orientation on Intermetallic Compound Growth in Idealized Sn-Cu-Ag Interconnects
DOI:10.1007/s11664-012-2306-0 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2013 TC:8 AU: Kinney, Chris;Linares, Xioranny;Lee, Kyu-Oh;Morris, J. W., Jr.;
6:7:71:2 Effect of Constant and Cyclic Current Stressing on the Evolution of Intermetallic Compound Layers
DOI:10.1007/s11664-011-1632-y JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:6 AU: Laurila, T.;Karppinen, J.;Vuorinen, V.;Paul, A.;Paulasto-Krockel, M.;
6:7:71:3 The Influence of Sn Orientation on Intermetallic Compound Evolution in Idealized Sn-Ag-Cu 305 Interconnects: an Electron Backscatter Diffraction Study of Electromigration
DOI:10.1007/s11664-013-2789-3 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:0 AU: Linares, Xioranny;Kinney, Chris;Lee, Kyu-Oh;Morris, J. W., Jr.;
6:7:71:4 Effect of Isothermal Aging and Electromigration on the Microstructural Evolution of Solder Interconnections During Thermomechanical Loading
DOI:10.1007/s11664-012-2223-2 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:1 AU: Laurila, T.;Karppinen, J.;Vuorinen, V.;Li, J.;Paul, A.;Paulasto-Krockel, M.;
6:7:71:5 Effect of Grain Boundary Misorientation on Electromigration in Lead-Free Solder Joints
DOI:10.1007/s11664-014-3321-0 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:0 AU: Tasooji, Amaneh;Lara, Leticia;Lee, Kyuoh;
6:7:72:1 Multi-scale modeling of the viscoplastic response of As-fabricated microscale Pb-free Sn3.0Ag0.5Cu solder interconnects
DOI:10.1016/j.actamat.2010.07.016 JN:ACTA MATERIALIA PY:2010 TC:9 AU: Cuddalorepatta, Gayatri;Dasgupta, Abhijit;
6:7:72:2 Viscoplastic Creep Response and Microstructure of As-Fabricated Microscale Sn-3.0Ag-0.5Cu Solder Interconnects
DOI:10.1007/s11664-010-1296-z JN:JOURNAL OF ELECTRONIC MATERIALS PY:2010 TC:9 AU: Cuddalorepatta, Gayatri;Williams, Maureen;Dasgupta, Abhijit;
6:7:72:3 Multiscale Modeling of the Effect of Micro-alloying Mn and Sb on the Viscoplastic Response of SAC105 Solder
DOI:10.1007/s11664-014-3034-4 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:1 AU: Mukherjee, Subhasis;Dasgupta, Abhijit;Zhou, Bite;Bieler, Thomas R.;
6:7:72:4 Uniaxial Ratchetting Behavior of Solder Alloys and Its Simulation by an Elasto-Plastic-Creep Constitutive Model
DOI:10.1007/s11664-011-1773-z JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:0 AU: Sasaki, Katsuhiko;Ohguchi, Ken-Ichi;
6:7:73:1 Sn-In-Ag phase equilibria and Sn-In-(Ag)/Ag interfacial reactions
DOI:10.1016/j.matchemphys.2011.02.078 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2011 TC:7 AU: Chen, Sinn-wen;Lee, Wan-yu;Hsu, Chia-ming;Yang, Ching-feng;Hsu, Hsin-yun;Wu, Hsin-jay;
6:7:73:2 Precipitation of large Ag3Sn intermetallic compounds in SnAg2.5 microbumps after multiple reflows in 3D-IC packaging
DOI:10.1016/j.matchemphys.2012.02.074 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:8 AU: Yang, Ruo-Wei;Chang, Yuan-Wei;Sung, Wei-Chi;Chen, Chih;
6:7:73:3 Effects of zinc on the interfacial reactions of tin-indium solder joints with copper
DOI:10.1007/s10853-014-8092-8 JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:1 AU: Lin, Shih-Kang;Chang, Ru-Bo;Chen, Sinn-Wen;Tsai, Ming-Yueh;Hsu, Chia-Ming;
6:7:73:4 Reaction evolution in Sn-20.0 wt% In-2.8 wt% Ag/Ni couples
DOI:10.1557/jmr.2013.308 JN:JOURNAL OF MATERIALS RESEARCH PY:2013 TC:3 AU: Chen, Sinn-wen;Hsu, Che-wei;Lin, Shih-kang;Hsu, Chia-ming;
6:7:73:5 Interfacial reactions in Sn-20In-2.8Ag/Cu couples
DOI:10.1016/j.matchemphys.2013.07.014 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2013 TC:4 AU: Lin, Shih-kang;Hsu, Che-wei;Chen, Sinn-wen;Hsu, Chia-ming;
6:7:74:1 The Stressing Effect of Electromigration from the Maxwell Stress and a Preliminary Mean-Time-to-Failure Analysis
DOI:10.1007/s11664-013-2474-6 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2013 TC:0 AU: Zhou, Peng;
6:7:74:2 A Sharp Interface Model of Intermediate-Phase Growth Under the Influence of Electromigration
DOI:10.1007/s11664-011-1696-8 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:3 AU: Zhou, Peng;Johnson, William C.;Leo, Perry H.;
6:7:74:3 Discussion on the Mechanism of Electromigration from the Perspective of Electromagnetism
DOI:10.1007/s11664-010-1350-x JN:JOURNAL OF ELECTRONIC MATERIALS PY:2010 TC:4 AU: Zhou, Peng;Johnson, William C.;
6:7:74:4 A Diffuse Interface Model of Intermediate-Phase Growth Under the Influence of Electromigration
DOI:10.1007/s11664-011-1689-7 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:2 AU: Zhou, Peng;Johnson, William C.;
6:7:75:1 Anisotropic dissolution behavior of the second phase in SnCu solder alloys under current stress
DOI:10.1016/j.scriptamat.2012.11.001 JN:SCRIPTA MATERIALIA PY:2013 TC:5 AU: Chen, Wei-Yu;Chiu, Tsung-Chieh;Lin, Kwang-Lung;Wu, Albert T.;Jang, Wei-Luen;Dong, Chung-Li;Lee, Hsin-Yi;
6:7:75:2 Supersaturation induced by current stressing
DOI:10.1016/j.scriptamat.2011.06.041 JN:SCRIPTA MATERIALIA PY:2011 TC:4 AU: Chiu, Ying-Ta;Liu, Chia-Hao;Lin, Kwang-Lung;Lai, Yi-Shao;
6:7:75:3 Electrorecrystallization of Metal Alloy
DOI:10.1016/j.jallcom.2012.08.138 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:2 AU: Chiu, Ying-Ta;Lin, Kwang-Lung;Wu, Albert T.;Jang, Wei-Luen;Dong, Chung-Li;Lai, Yi-Shao;
6:7:76:1 Simplification of Low-Temperature Sintering Nanosilver for Power Electronics Packaging
DOI:10.1007/s11664-013-2561-8 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2013 TC:7 AU: Mei, Yunhui;Chen, Gang;Cao, Yunjiao;Li, Xin;Han, Dan;Chen, Xu;
6:7:76:2 Investigation of Post-Etch Copper Residue on Direct Bonded Copper (DBC) Substrates
DOI:10.1007/s11664-011-1716-8 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:11 AU: Mei, Yunhui;Lu, Guo-Quan;Chen, Xu;Gang, Chen;Luo, Shufang;Ibitayo, Dimeji;
6:7:76:3 Transient Thermal Impedance Measurements on Low-Temperature-Sintered Nanoscale Silver Joints
DOI:10.1007/s11664-012-2233-0 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:9 AU: Mei, Yunhui;Wang, Tao;Cao, Xiao;Chen, Gang;Lu, Guo-Quan;Chen, Xu;
6:7:77:1 Effects of POSS-Silanol Addition on Whisker Formation in Sn-Based Pb-Free Electronic Solders
DOI:10.1007/s11664-013-2672-2 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:0 AU: Liu, Sihan;Ma, Limin;Shu, Yutian;Subramanian, K. N.;Lee, Andre;Guo, Fu;
6:7:77:2 Effect of Crystal Orientation on Mechanically Induced Sn Whiskers on Sn-Cu Plating
DOI:10.1007/s11664-012-1962-4 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:4 AU: Mizuguchi, Yukiko;Murakami, Yosuke;Tomiya, Shigetaka;Asai, Tadashi;Kiga, Tomoya;Suganuma, Katsuaki;
6:7:77:3 Effects of Processing and Amount of Co Addition on Shear Strength and Microstructual Development in the Sn-3.0Ag-0.5Cu Solder Joint
DOI:10.1007/s11664-011-1577-1 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:3 AU: Ma, Limin;Tai, Feng;Xu, Guangchen;Guo, Fu;Wang, Xitao;
6:7:77:4 Effect of Crystal Orientation on Sn Whisker-Free Sn-Ag-Cu Plating
DOI:10.2320/matertrans.MB201202 JN:MATERIALS TRANSACTIONS PY:2012 TC:0 AU: Mizuguchi, Yukiko;Murakami, Yosuke;Tomiya, Shigetaka;Asai, Tadashi;Kiga, Tomoya;Suganuma, Katsuaki;
6:7:78:1 Characteristics of Isotropically Conductive Adhesive (ICA) Filled with Carbon Nanotubes (CNTs) and Low-Melting-Point Alloy Fillers
DOI:10.2320/matertrans.M2010301 JN:MATERIALS TRANSACTIONS PY:2010 TC:6 AU: Yim, Byung-Seung;Kim, Jong-Min;
6:7:78:2 Characteristics of Graphene-Filled Solderable Isotropically Conductive Adhesive (ICA)
DOI:10.2320/matertrans.M2011365 JN:MATERIALS TRANSACTIONS PY:2012 TC:1 AU: Yim, Byung-Seung;Oh, Seung-Hoon;Kim, Jiwon;Kim, Jooheon;Kim, Jong-Min;
6:7:78:3 Reliability Properties of Solderable Conductive Adhesives with Low-Melting-Point Alloy Fillers
DOI:10.2320/matertrans.MB201207 JN:MATERIALS TRANSACTIONS PY:2012 TC:2 AU: Yim, Byung-Seung;Lee, Jeong Il;Heo, Yuseon;Kim, Jooheon;Lee, Seong Hyuk;Shin, Young-Eui;Kim, Jong-Min;
6:7:79:1 Low-temperature solid state bonding method based on surface Cu-Ni alloying microcones
DOI:10.1016/j.apsusc.2012.12.102 JN:APPLIED SURFACE SCIENCE PY:2013 TC:4 AU: Lu, Qin;Chen, Zhuo;Zhang, Wenjing;Hu, Anmin;Li, Ming;
6:7:79:2 Experimental characterization and modeling of the mechanical properties of Cu-Cu thermocompression bonds for three-dimensional integrated circuits
DOI:10.1016/j.actamat.2011.09.038 JN:ACTA MATERIALIA PY:2012 TC:7 AU: Made, Riko I.;Gan, Chee Lip;Yan, Liling;Kor, Katherine Hwee Boon;Chia, Hong Ling;Pey, Kin Leong;Thompson, Carl V.;
6:7:80:1 Alternating reaction phases in Sn-Cu/Ni-Co solid-state reactions
DOI:10.1016/j.jallcom.2012.08.052 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:0 AU: Chen, Chih-chi;Chen, Yue-ting;
6:7:80:2 Interfacial reactions between Sn-Cu solders and Ni-Co alloys at 250 degrees C
DOI:10.1557/JMR.2010.0168 JN:JOURNAL OF MATERIALS RESEARCH PY:2010 TC:3 AU: Chen, Chih-Chi;Chan, Ya-Ting;Chen, Yue-Ting;
6:7:80:3 Study of Interfacial Reactions Between Sn(Cu) Solders and Ni-Co Alloy Layers
DOI:10.1007/s11664-010-1346-6 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2010 TC:5 AU: Huang, K. C.;Shieu, F. S.;Huang, T. S.;Lu, C. T.;Chen, C. W.;Tseng, H. W.;Cheng, S. L.;Liu, C. Y.;
6:7:81:1 Simulation of cooling of liquid Al-33 wt.% Cu droplet impinging on a metallic substrate and its experimental validation
DOI:10.1016/j.actamat.2009.08.063 JN:ACTA MATERIALIA PY:2010 TC:12 AU: Kumar, A.;Ghosh, S.;Dhindaw, B. K.;
6:7:81:2 3D numerical simulation of successive deposition of uniform molten Al droplets on a moving substrate and experimental validation
DOI:10.1016/j.commatsci.2012.07.034 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:3 AU: Li, Hejun;Wang, Pengyun;Qi, Lehua;Zuo, Hansong;Zhong, Songyi;Hou, Xianghui;
6:7:81:3 Gas Atomization of Aluminium Melts: Comparison of Analytical Models
DOI:10.3390/met2020202 JN:METALS PY:2012 TC:2 AU: Antipas, Georgios;
6:7:82:1 Characterizing the Mechanical Properties of Actual SAC105, SAC305, and SAC405 Solder Joints by Digital Image Correlation
DOI:10.1007/s11664-011-1534-z JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:13 AU: Nguyen, T. T.;Yu, D.;Park, S. B.;
6:7:82:2 Characterization of Stress-Strain Response of Lead-Free Solder Joints Using a Digital Image Correlation Technique and Finite-Element Modeling
DOI:10.1007/s11664-012-2276-2 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2013 TC:2 AU: Khatibi, G.;Lederer, M.;Byrne, E.;Kotas, A. Betzwar;Weiss, B.;Ipser, H.;
6:7:83:1 Formation Mechanism of Eutectic Cu6Sn5 and Ag3Sn after Growth of Primary beta-Sn in Sn-Ag-Cu Alloy
DOI:10.2320/matertrans.M2010325 JN:MATERIALS TRANSACTIONS PY:2011 TC:7 AU: Takamatsu, Yoshiko;Esaka, Hisao;Shinozuka, Kei;
6:7:83:2 Liquid-Phase Separation in the Interdendritic Region After Growth of Primary beta-Sn in Undercooled Sn-2.8Ag-0.3Cu Melt
DOI:10.1007/s11664-012-2075-9 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:3 AU: Takamatsu, Yoshiko;Esaka, Hisao;Shinozuka, Kei;
6:7:84:1 Growth kinetics of Ag3Sn in silicon solar cells with a sintered Ag metallization layer
DOI:10.1016/j.solmat.2014.01.018 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:2 AU: Yang, T. L.;Huang, K. Y.;Yang, S.;Hsieh, H. H.;Kao, C. R.;
6:7:84:2 Performance of low series-resistance interconnections on the polycrystalline solar cells
DOI:10.1016/j.solmat.2010.04.034 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:5 AU: Hsieh, Hsin-Hsin;Lin, Fu-Ming;Yu, Shan-Pu;
6:8:1:1 Microstructures and properties of high-entropy alloys
DOI:10.1016/j.pmatsci.2013.10.001 JN:PROGRESS IN MATERIALS SCIENCE PY:2014 TC:148 AU: Zhang, Yong;Zuo, Ting Ting;Tang, Zhi;Gao, Michael C.;Dahmen, Karin A.;Liaw, Peter K.;Lu, Zhao Ping;
6:8:1:2 Prediction of high-entropy stabilized solid-solution in multi-component alloys
DOI:10.1016/j.matchemphys.2011.11.021 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:94 AU: Yang, X.;Zhang, Y.;
6:8:1:3 Microstructure and room temperature properties of a high-entropy TaNbHfZrTi alloy
DOI:10.1016/j.jallcom.2011.02.171 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:69 AU: Senkov, O. N.;Scott, J. M.;Senkova, S. V.;Miracle, D. B.;Woodward, C. F.;
6:8:1:4 Decomposition in multi-component AlCoCrCuFeNi high-entropy alloy
DOI:10.1016/j.actamat.2010.09.023 JN:ACTA MATERIALIA PY:2011 TC:99 AU: Singh, S.;Wanderka, N.;Murty, B. S.;Glatzel, U.;Banhart, J.;
6:8:1:5 Effect of valence electron concentration on stability of fcc or bcc phase in high entropy alloys
DOI:10.1063/1.3587228 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:88 AU: Guo, Sheng;Ng, Chun;Lu, Jian;Liu, C. T.;
6:8:1:6 Sluggish diffusion in Co-Cr-Fe-Mn-Ni high-entropy alloys
DOI:10.1016/j.actamat.2013.04.058 JN:ACTA MATERIALIA PY:2013 TC:57 AU: Tsai, K. -Y.;Tsai, M. -H.;Yeh, J. -W.;
6:8:1:7 Effect of Cr addition on the alloying behavior, microstructure and mechanical properties of twinned CoFeNiAl0.5Ti0.5 alloy
DOI:10.1016/j.msea.2013.12.096 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Fu, Zhiqiang;Chen, Weiping;Fang, Sicong;Li, Xiaomei;
6:8:1:8 Microstructure and wear behavior of AlxCo1.5CrFeNi1.5Tiy high-entropy alloys
DOI:10.1016/j.actamat.2011.06.041 JN:ACTA MATERIALIA PY:2011 TC:74 AU: Chuang, Ming-Hao;Tsai, Ming-Hung;Wang, Woei-Ren;Lin, Su-Jien;Yeh, Jien-Wei;
6:8:1:9 The influences of temperature and microstructure on the tensile properties of a CoCrFeMnNi high-entropy alloy
DOI:10.1016/j.actamat.2013.06.018 JN:ACTA MATERIALIA PY:2013 TC:54 AU: Otto, F.;Dlouhy, A.;Somsen, Ch.;Bei, H.;Eggeler, G.;George, E. P.;
6:8:1:10 Relative effects of enthalpy and entropy on the phase stability of equiatomic high-entropy alloys
DOI:10.1016/j.actamat.2013.01.042 JN:ACTA MATERIALIA PY:2013 TC:72 AU: Otto, F.;Yang, Y.;Bei, H.;George, E. P.;
6:8:1:11 Influence of Ti addition and sintering method on microstructure and mechanical behavior of a medium-entropy Al0.6CoNiFe alloy
DOI:10.1016/j.msea.2014.09.077 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Fu, Zhiqiang;Chen, Weiping;Chen, Zhen;Wen, Haiming;Lavernia, Enrique J.;
6:8:1:12 The effects of secondary elemental Mo or Ti addition in Al0.3CoCrFeNi high-entropy alloy on age hardening at 700 degrees C
DOI:10.1016/j.jallcom.2010.02.032 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:34 AU: Shun, Tao-Tsung;Hung, Cheng-Hsin;Lee, Che-Fu;
6:8:1:13 Damping behavior of AlxCoCrFeNi high-entropy alloys by a dynamic mechanical analyzer
DOI:10.1016/j.jallcom.2014.03.050 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:3 AU: Ma, S. G.;Liaw, P. K.;Gao, M. C.;Qiao, J. W.;Wang, Z. H.;Zhang, Y.;
6:8:1:14 Phases, microstructure and mechanical properties of AlxCoCrFeNi high-entropy alloys at elevated temperatures
DOI:10.1016/j.jallcom.2013.11.084 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:17 AU: Wang, Woei-Ren;Wang, Wei-Lin;Yeh, Jien-Wei;
6:8:1:15 Phase stability and tensile properties of Co-free Al0.5CrCuFeNi2 high-entropy alloys
DOI:10.1016/j.jallcom.2013.09.105 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:8 AU: Ng, Chun;Guo, Sheng;Luan, Junhua;Wang, Qing;Lu, Jian;Shi, Sanqiang;Liu, C. T.;
6:8:1:16 Atomic-scale compositional characterization of a nanocrystalline AlCrCuFeNiZn high-entropy alloy using atom probe tomography
DOI:10.1016/j.actamat.2013.04.059 JN:ACTA MATERIALIA PY:2013 TC:23 AU: Pradeep, K. G.;Wanderka, N.;Choi, P.;Banhart, J.;Murty, B. S.;Raabe, D.;
6:8:1:17 Effect of temperature on mechanical properties of Al0.5CoCrCuFeNi wrought alloy
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6:8:1:18 Anomalous solidification microstructures in Co-free AlxCrCuFeNi2 high-entropy alloys
DOI:10.1016/j.jallcom.2013.01.007 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:17 AU: Guo, Sheng;Ng, Chun;Liu, C. T.;
6:8:1:19 Grain growth and the Hall-Petch relationship in a high-entropy FeCrNiCoMn alloy
DOI:10.1016/j.scriptamat.2012.12.002 JN:SCRIPTA MATERIALIA PY:2013 TC:43 AU: Liu, W. H.;Wu, Y.;He, J. Y.;Nieh, T. G.;Lu, Z. P.;
6:8:1:20 Ab initio investigation of high-entropy alloys of 3d elements
DOI:10.1103/PhysRevB.87.075144 JN:PHYSICAL REVIEW B PY:2013 TC:9 AU: Tian, Fuyang;Varga, Lajos Karoly;Chen, Nanxian;Delczeg, Lorand;Vitos, Levente;
6:8:1:21 Temperature dependence of the mechanical properties of equiatomic solid solution alloys with face-centered cubic crystal structures
DOI:10.1016/j.actamat.2014.08.026 JN:ACTA MATERIALIA PY:2014 TC:9 AU: Wu, Z.;Bei, H.;Pharr, G. M.;George, E. P.;
6:8:1:22 Electronic and thermodynamic criteria for the occurrence of high entropy alloys in metallic systems
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6:8:1:23 Electrical, magnetic, and Hall properties of AlxCoCrFeNi high-entropy alloys
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6:8:1:37 Processing, microstructure and properties of Al0.6CoNiFeTi0.4 high entropy alloy with nanoscale twins
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6:8:1:89 Sinter ageing of equiatomic Al20Co20Cu20Zn20Ni20 high entropy alloy via mechanical alloying
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6:8:1:95 Solid solutioning in equiatomic alloys: Limit set by topological instability
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6:8:1:97 Hot consolidation and mechanical properties of nanocrystalline equiatomic AlFeTiCrZnCu high entropy alloy after mechanical alloying
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6:8:1:99 Microstructure of a near-equimolar refractory high-entropy alloy
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6:8:1:100 A refractory Hf25Nb25Ti25Zr25 high-entropy alloy with excellent structural stability and tensile properties
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6:8:1:101 Evolution of structure and properties of multi-component (AlCrTaTiZr)O-x films
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6:8:1:103 Microstructure and compressive properties of multiprincipal component AlCoCrFeNiCx alloys
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6:8:1:104 Mechanical alloying synthesis and spark plasma sintering consolidation of CoCrFeNiAl high-entropy alloy
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6:8:1:105 The microstructure and strengthening mechanism of thermal spray coating NixCo0.6Fe0.2CrySizAlTi0.2 high-entropy alloys
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6:8:1:106 Microstructure and Magnetic Properties of FeNiCuMnTiSnx High Entropy Alloys
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6:8:1:107 Effect of W and Zr on structural, thermal and magnetic properties of AlCoCrCuFeNi high entropy alloy
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6:8:1:108 Intrinsic surface hardening and precipitation kinetics of Al0.3CrFe1.5MnNi0.5 multi-component alloy
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6:8:1:109 Solidification behaviour in laser cladding of AlCoCrCuFeNi high-entropy alloy on magnesium substrates
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6:8:1:110 Effect of Ti content on structure and properties of Al2CrFeNiCoCuTix high-entropy alloy coatings
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6:8:1:111 Discovery of a Superconducting High-Entropy Alloy
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6:8:1:112 Corrosion and Serration Behaviors of TiZr0.5NbCr0.5VxMoy High Entropy Alloys in Aqueous Environments
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6:8:1:113 Microstructures and mechanical properties of multiprincipal component CoCrFeNiTix alloys
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6:8:1:114 Microstructure and hydrogen storage properties of a TiZrNbMoV high entropy alloy synthesized using Laser Engineered Net Shaping (LENS)
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6:8:1:115 New structure in refractory high-entropy alloys
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6:8:1:116 Microstructure and properties of AlCrFeCuNix (0.6 <= x <= 1.4) high-entropy alloys
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6:8:1:118 Chemical state and phase structure of (TaNbTiW)N films prepared by combined magnetron sputtering and PBII
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6:8:1:119 Ru incorporation on marked enhancement of diffusion resistance of multi-component alloy barrier layers
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6:8:1:120 Microstructure and properties of AlCrFeNiCoCu high entropy alloy prepared by powder metallurgy
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6:8:1:121 Thermomagnetic analysis of FeCoCrxNi alloys: Magnetic entropy of high-entropy alloys
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6:8:1:122 Melt separation phenomena in CoNiCuAlCr high entropy alloy containing silver
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6:8:1:124 Microstructure and age characterization of Cu-15Ni-8Sn alloy coatings by laser cladding
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6:8:1:125 Effect of heat treatment on microstructure and hydrogen storage properties of mass-produced Ti0.85Zr0.13(Fe-x-V)(0.56)Mn1.47Ni0.05 alloy
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6:8:1:126 Effect of elemental interaction on microstructure of CuCrFeNiMn high-entropy alloy system (vol 493, pg 148, 2010)
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6:8:1:127 Solid/liquid interaction between a multicomponent FeCrNiCoMnAl high entropy alloy and molten aluminum
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6:8:1:128 Microstructure of NiCoAlFeCuCr multi-component systems synthesized by mechanical alloying
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6:8:1:129 Controllable electrochemical synthesis and magnetic behaviors of Mg-Mn-Fe-Co-Ni-Gd alloy films
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6:8:1:133 COMPLEX METALLIC ALLOYS Clarity through complexity
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6:8:2:1 Kinetics of dislocations in pure Fe. Part I. In situ straining experiments at room temperature
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6:8:2:2 Kinetics of dislocations in pure Fe. Part II. In situ straining experiments at low temperature
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6:8:2:3 First-principles study on the mobility of screw dislocations in bcc iron
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6:8:2:4 Ab initio investigation of the Peierls potential of screw dislocations in bcc Fe and W
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6:8:2:5 The effect of hydrogen atoms on the screw dislocation mobility in bcc iron: A first-principles study
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6:8:2:6 Core structure and Peierls stress of edge and screw dislocations in TiN: A density functional theory study
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6:8:2:7 Stress and temperature dependence of screw dislocation mobility in alpha-Fe by molecular dynamics
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6:8:2:8 Effect of Rhenium on the Dislocation Core Structure in Tungsten
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6:8:2:9 Dislocation core field. II. Screw dislocation in iron
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6:8:2:10 Generalized stacking-faults and screw-dislocation core-structure in bcc iron: A comparison between ab initio calculations and empirical potentials
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6:8:2:11 Prediction of the kink-pair formation enthalpy on screw dislocations in alpha-iron by a line tension model parametrized on empirical potentials and first-principles calculations
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6:8:2:12 Theory and simulation of the diffusion of kinks on dislocations in bcc metals
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6:8:2:13 Edge dislocation mobilities in bcc Fe obtained by molecular dynamics
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6:8:2:16 Screw dislocation mobility in BCC Metals: a refined potential description for alpha-Fe
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6:8:2:17 Dislocation core field. I. Modeling in anisotropic linear elasticity theory
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6:8:2:18 Ab initio modeling of the two-dimensional energy landscape of screw dislocations in bcc transition metals
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6:8:2:19 On the stress discrepancy at low-temperatures in pure iron
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6:8:2:20 Peierls potential of screw dislocations in bcc transition metals: Predictions from density functional theory
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6:8:2:21 Stress-dependent solute energetics in W-Re alloys from first-principles calculations
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6:8:2:22 Peierls Barrier of Screw Dislocation in bcc Iron at Finite Temperature
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6:8:2:23 A TEM in situ study of alloying effects in iron. I-Solid solution softening caused by low concentrations of Ni, Si and Cr
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6:8:2:24 Free Energy Generalization of the Peierls Potential in Iron
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6:8:2:25 Atomistically informed crystal plasticity model for body-centered cubic iron
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6:8:2:26 A TEM in situ study of alloying effects in iron. II-Solid solution hardening caused by high concentrations of Si and Cr
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6:8:2:27 Classical Mobility of Highly Mobile Crystal Defects
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6:8:2:28 Extrinsic obstacles and loop formation in deformed metals and alloys
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6:8:2:29 Stress dependence of the Peierls barrier of 1/2 < 111 > screw dislocations in bcc metals
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6:8:2:30 Temperature and high strain rate dependence of tensile deformation behavior in single-crystal iron from dislocation dynamics simulations
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6:8:2:31 Quantum effect on thermally activated glide of dislocations
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6:8:2:32 Simulations of bcc tantalum screw dislocations: Why classical inter-atomic potentials predict {112} slip
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6:8:2:33 Motion of Domain Walls and the Dynamics of Kinks in the Magnetic Peierls Potential
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6:8:2:34 Ab initio multi-string Frenkel-Kontorova model for a b = a/2[111] screw dislocation in bcc iron
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6:8:2:35 Dislocation core field. II. Screw dislocation in iron (vol 84, 224107, 2011)
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6:8:2:36 Bow-tie slip traces in Fe80Al20 single crystals deformed at room temperature
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6:8:2:37 Structural stability and generalized stacking fault energies in beta Ti-Nb alloys: Relation to dislocation properties
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6:8:2:38 Techniques to accelerate convergence of stress-controlled molecular dynamics simulations of dislocation motion
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6:8:2:39 Structure of screw dislocation core in Ta at high pressure
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6:8:2:40 Classical Mechanics of Nonconservative Systems
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6:8:2:42 The energy of dislocation dipoles
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6:8:3:1 Magnetic cluster expansion model for bcc-fcc transitions in Fe and Fe-Cr alloys
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6:8:3:2 Atomic forces at finite magnetic temperatures: Phonons in paramagnetic iron
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6:8:3:3 Longitudinal magnetic fluctuations in Langevin spin dynamics
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6:8:3:4 Ab initio based determination of thermodynamic properties of cementite including vibronic, magnetic, and electronic excitations
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6:8:3:5 Role of spin quantization in determining the thermodynamic properties of magnetic transition metals
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6:8:3:6 Spin-lattice-electron dynamics simulations of magnetic materials
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6:8:3:7 Temperature Dependent Magnon-Phonon Coupling in bcc Fe from Theory and Experiment
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6:8:3:8 Rescaled Monte Carlo approach for magnetic systems: Ab initio thermodynamics of bcc iron
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6:8:3:9 Calculated phonon spectra of paramagnetic iron at the alpha-gamma phase transition
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6:8:3:10 Ab Initio-Based Prediction of Phase Diagrams: Application to Magnetic Shape Memory Alloys
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6:8:3:11 Magnetic fluctuations and effective magnetic moments in gamma-iron due to electronic structure peculiarities
DOI:10.1103/PhysRevB.88.155120 JN:PHYSICAL REVIEW B PY:2013 TC:1 AU: Igoshev, P. A.;Efremov, A. V.;Poteryaev, A. I.;Katanin, A. A.;Anisimov, V. I.;
6:8:3:12 Langevin spin dynamics
DOI:10.1103/PhysRevB.83.134418 JN:PHYSICAL REVIEW B PY:2011 TC:8 AU: Ma, Pui-Wai;Dudarev, S. L.;
6:8:3:13 Nonharmonic phonons in alpha-iron at high temperatures
DOI:10.1103/PhysRevB.90.064303 JN:PHYSICAL REVIEW B PY:2014 TC:0 AU: Mauger, L.;Lucas, M. S.;Munoz, J. A.;Tracy, S. J.;Kresch, M.;Xiao, Yuming;Chow, Paul;Fultz, B.;
6:8:3:14 Dynamic magnetocaloric effect in bcc iron and hcp gadolinium
DOI:10.1103/PhysRevB.90.024425 JN:PHYSICAL REVIEW B PY:2014 TC:0 AU: Ma, Pui-Wai;Dudarev, S. L.;
6:8:3:15 Role of vibrational entropy in the stabilization of the high-temperature phases of iron
DOI:10.1103/PhysRevB.89.184302 JN:PHYSICAL REVIEW B PY:2014 TC:2 AU: Neuhaus, Juergen;Leitner, Michael;Nicolaus, Karl;Petry, Winfried;Hennion, Bernard;Hiess, Arno;
6:8:3:16 Computing solubility products using ab initio methods Precipitation of NbC in low alloyed steel
DOI:10.1007/s10853-012-6590-0 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:5 AU: Klymko, T.;Sluiter, M. H. F.;
6:8:3:17 Magnetoelastic coupling in gamma-iron investigated within an ab initio spin spiral approach
DOI:10.1103/PhysRevB.84.214422 JN:PHYSICAL REVIEW B PY:2011 TC:6 AU: Okatov, S. V.;Gornostyrev, Yu. N.;Lichtenstein, A. I.;Katsnelson, M. I.;
6:8:3:18 Exchange interaction function for spin-lattice coupling in bcc iron
DOI:10.1103/PhysRevB.82.144304 JN:PHYSICAL REVIEW B PY:2010 TC:4 AU: Wang, Hai;Ma, Pui-Wai;Woo, C. H.;
6:8:3:19 Phonon softening by magnetic moment in gamma-Fe
DOI:10.1016/j.jmmm.2011.03.032 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2011 TC:7 AU: Zhang, Wenxu;
6:8:3:20 Ab initio calculation of phonon dispersions in size-mismatched disordered alloys
DOI:10.1103/PhysRevB.82.134207 JN:PHYSICAL REVIEW B PY:2010 TC:3 AU: Dutta, Biswanath;Bisht, Konark;Ghosh, Subhradip;
6:8:3:21 Decomposition of modified Landau-Lifshitz-Gilbert equation and corresponding analytic solutions
DOI:10.1103/PhysRevB.86.104402 JN:PHYSICAL REVIEW B PY:2012 TC:0 AU: Kosugi, Taichi;
6:8:3:22 Effect of lattice vibrations on magnetic phase transition in bcc iron
DOI:10.1103/PhysRevB.86.214423 JN:PHYSICAL REVIEW B PY:2012 TC:15 AU: ;FN Thomson Reuters Web of Scienceâ„¢;1.0;J;Aizin, Gregory R.;Dyer, Gregory C.;Transmission line theory of collective plasma excitations in periodic;two-dimensional electron systems: Finite plasmonic crystals and Tamm;states;PHYSICAL REVIEW B;86;23;235316;10.1103/PhysRevB.86.235316;DEC 28 2012;2012;We present a comprehensive theory of the one-dimensional plasmonic;crystal formed in the grating-gated two-dimensional electron gas (2DEG);in semiconductor heterostructures. To describe collective plasma;excitations in the 2DEG, we develop a generalized transmission line;theoretical formalism consistent with the plasma hydrodynamic model. We;then apply this formalism to analyze the plasmonic spectra of 2DEG;systems with steplike periodic changes of electron density, gate;screening, or both. We show that in a periodically modulated 2DEG, a;plasmonic crystal is formed, and we derive closed-form analytical;expressions describing its energy band spectrum for both infinite and;finite size crystals. Our results demonstrate a nonmonotonic dependence;of the plasmonic band gap width on the electron density modulation. At;so-called transparency points, where the plasmon propagates through the;periodic 2DEG in a resonant manner, the plasmonic band gaps vanish. In;semi-infinite plasmonic crystals, we demonstrate the formation of;plasmonic Tamm states and analytically derive their energy dispersion;and spatial localization. Finally, we present detailed numerical;analysis of the plasmonic band structure of a finite four-period;plasmonic crystal terminated either by an ohmic contact or by an;infinite barrier on each side. We trace the evolution of the plasmonic;band spectrum, including the Tamm states, with changing electron density;modulation and analyze the boundary conditions necessary for formation;of the Tamm states. We also analyze interaction between the Tamm states;formed at the opposite edges of the short length plasmonic crystal. The;validity of our theoretical approach was confirmed in experimental;studies of plasmonic crystals in short, modulated plasmonic cavities;[Dyer et al., Phys. Rev. Lett. 109, 126803 (2012)], which demonstrated;excellent quantitative agreement between theory and experiment.;DOI:10.1103/PhysRevB.86.235316;9;0;0;0;9;1098-0121;WOS:000312833200005;;;J;Arakawa, Tomonori;Tanaka, Takahiro;Chida, Kensaku;Matsuo, Sadashige;Nishihara, Yoshitaka;Chiba, Daichi;Kobayashi, Kensuke;Ono, Teruo;Fukushima, Akio;Yuasa, Shinji;Low-frequency and shot noises in CoFeB/MgO/CoFeB magnetic tunneling;junctions;PHYSICAL REVIEW B;86;22;224423;10.1103/PhysRevB.86.224423;DEC 28 2012;2012;The low-frequency and shot noises in spin-valve CoFeB/MgO/CoFeB magnetic;tunneling junctions were studied at low temperature. The measured 1/f;noise around the magnetic hysteresis loops of the free layer indicates;that the main origin of the 1/f noise is the magnetic fluctuation, which;is discussed in terms of a fluctuation-dissipation relation. Random;telegraph noise (RTN) is observed to be symmetrically enhanced in the;hysteresis loop with regard to the two magnetic configurations. We found;that this enhancement is caused by the fluctuation between two magnetic;states in the free layer. Although the 1/f noise is almost independent;of the magnetic configuration, the RTN is enhanced in the antiparallel;configuration. These findings indicate the presence of spin-dependent;activation of RTN. Shot noise reveals the spin-dependent coherent;tunneling process via a crystalline MgO barrier. DOI:;10.1103/PhysRevB.86.224423;Kobayashi, Kensuke/E-5404-2010;Kobayashi, Kensuke/0000-0001-7072-5945;4;0;0;0;4;1098-0121;WOS:000312832400004;;;J;Cucchiara, J.;Le Gall, S.;Fullerton, E. E.;Kim, J. -V.;Ravelosona, D.;Henry, Y.;Katine, J. A.;Kent, A. D.;Bedau, D.;Gopman, D.;Mangin, S.;Domain wall motion in nanopillar spin-valves with perpendicular;anisotropy driven by spin-transfer torques;PHYSICAL REVIEW B;86;21;214429;10.1103/PhysRevB.86.214429;DEC 28 2012;2012;Using transport measurements and micromagnetic simulations we have;investigated the domain wall motion driven by spin-transfer torques in;all-perpendicular hexagonal nanopillar spin-valves. In particular, we;probe domain walls nucleated in the free layer of the spin-valves, which;are then pinned in the devices. We have determined both the;field-current state diagrams for the domain-wall state and the thermally;activated dynamics of the nucleation and depinning processes. We show;that the nucleation process is well-described by a modified Neel-Brown;model taking into account the spin-transfer torque, whereas the;depinning process is independent of the current. This is confirmed by an;analytical calculation which shows that spin-torques have no effect on;the Arrhenius escape rate associated with thermally activated domain;wall depinning in this geometry. Furthermore, micromagnetic simulations;indicate that spin-transfer only weakly affects the domain wall motion,;but instead modifies the inner domain wall structure. DOI:;10.1103/PhysRevB.86.214429;Kim, Joo-Von/B-3672-2008; Fullerton, Eric/H-8445-2013;Kim, Joo-Von/0000-0002-3849-649X; Fullerton, Eric/0000-0002-4725-9509;0;0;0;0;0;1098-0121;WOS:000312830800003;;;J;Fernandez-Dominguez, A. I.;Zhang, P.;Luo, Y.;Maier, S. A.;Garcia-Vidal, F. J.;Pendry, J. B.;Transformation-optics insight into nonlocal effects in separated;nanowires;PHYSICAL REVIEW B;86;24;241110;10.1103/PhysRevB.86.241110;DEC 28 2012;2012;We present a transformation-optics approach which sheds analytical;insight into the impact that spatial dispersion has on the optical;response of separated dimers of metallic nanowires. We show that;nonlocal effects are apparent at interparticle distances one order of;magnitude larger than the longitudinal plasmon decay length, which;coincides with the spatial regime where electron tunneling phenomena;occur. Our method also clarifies the interplay between nonlocal and;radiation effects taking place in the nanostructure, yielding the dimer;dimensions that optimize its light harvesting capabilities. DOI:;10.1103/PhysRevB.86.241110;Luo, Yu/C-7799-2009; Fernandez-Dominguez, Antonio I./C-4448-2013; Garcia-Vidal, Francisco /B-8280-2011;Luo, Yu/0000-0003-2925-682X; Fernandez-Dominguez, Antonio;I./0000-0002-8082-395X; Garcia-Vidal, Francisco /0000-0003-4354-0982;10;0;0;0;10;1098-0121;WOS:000312834100001;;;J;Gati, E.;Koehler, S.;Guterding, D.;Wolf, B.;Knoener, S.;Ran, S.;Bud'ko, S. L.;Canfield, P. C.;Lang, M.;Hydrostatic-pressure tuning of magnetic, nonmagnetic, and;superconducting states in annealed Ca(Fe1-xCox)(2)As-2;PHYSICAL REVIEW B;86;22;220511;10.1103/PhysRevB.86.220511;DEC 28 2012;2012;We report on measurements of the magnetic susceptibility and electrical;resistance under He-gas pressure on single crystals of;Ca(Fe1-xCox)(2)As-2. We find that for properly heat-treated crystals;with modest Co concentration, x = 0.028, the salient ground states;associated with iron-arsenide superconductors, i.e.,;orthorhombic/antiferromagnetic (o/afm), superconducting, and nonmagnetic;collapsed-tetragonal (cT) states can be accessed all in one sample with;reasonably small and truly hydrostatic pressure. This is possible owing;to the extreme sensitivity of the o/afm (for T <= T-s,T-N) and;superconducting (T <= T-c) states against variation of pressure,;disclosing pressure coefficients of dT(s,N)/dP = -(1100 +/- 50) K/GPa;and dT(c)/dP = -(60 +/- 3) K/GPa, respectively. Systematic;investigations of the various phase transitions and ground states via;pressure tuning revealed no coexistence of bulk superconductivity (sc);with the o/afm state which we link to the strongly first-order character;of the corresponding structural/magnetic transition in this compound.;Our results, together with literature results, indicate that preserving;fluctuations associated with the o/afm transition to low enough;temperatures is vital for sc to form. DOI: 10.1103/PhysRevB.86.220511;Canfield, Paul/H-2698-2014;14;0;0;0;14;1098-0121;WOS:000312832400001;;;J;Hakobyan, Ye.;Tadmor, E. B.;James, R. D.;Objective quasicontinuum approach for rod problems;PHYSICAL REVIEW B;86;24;245435;10.1103/PhysRevB.86.245435;DEC 28 2012;2012;An objective quasicontinuum (OQC) method is developed for simulating;rodlike systems that can be represented as a combination of locally;objective structures. An objective structure (OS) is one for which a;group of atoms, called a "fundamental domain" (FD), is repeated using;specific rules of translation and rotation to build a more complex;structure. An objective Cauchy-Born rule defines the kinematics of the;OS atoms in terms of a set of symmetry parameters and the positions of;the FD atoms. The computational advantage lies in the capability of;representing a large system of atoms through a small set of symmetry;parameters and FD atom positions. As an illustrative example, we;consider the deformation of a copper single-crystal nanobeam which can;be described as an OS. OQC simulations are performed for uniform and;nonuniform bending for two different orientations (nanobeam axis;oriented along [111] and [100]) and compared with elastica results. In;the uniform bending case, the [111]-oriented single-crystal nanobeam;experiences elongation, while the [100]-oriented nanobeam experiences;contraction in total length. The nonuniform bending allows for;stretching, contraction, and bending as deformation. Under certain;loading conditions, dislocation nucleation is observed within the FD.;DOI: 10.1103/PhysRevB.86.245435 PACS number(s): 61.46.Km, 62.23.Hj,;81.07.Gf, 02.70.Ns;1;0;0;0;1;1098-0121;WOS:000312834100006;;;J;He, Jing;Wang, Bo;Kou, Su-Peng;Ferromagnetism and antiferromagnetism of a correlated topological;insulator with a flat band;PHYSICAL REVIEW B;86;23;235146;10.1103/PhysRevB.86.235146;DEC 28 2012;2012;In this paper, based on the mean-field approach and random-phase;approximation, we studied the magnetic properties of the spinfull;Haldane model on honeycomb lattice of topological flat band with onsite;repulsive Coulomb interaction. We found that the antiferromagnetic (AF);order is more stable than the ferromagnetic (FM) order at, or near, half;filling. Away from half filling, the phase diagram becomes complex: at;large doping, the FM order is more stable than the AF order due to the;flatness of band structure. In particular, we found that at quarter;filling, the system becomes a Chern number Q = 1 topological insulator;induced by the FM order. DOI:10.1103/PhysRevB.86.235146;1;0;0;0;1;1098-0121;WOS:000312833200002;;;J;Hu, Jianbo;Misochko, Oleg V.;Goto, Arihiro;Nakamura, Kazutaka G.;Delayed formation of coherent LO phonon-plasmon coupled modes in n- and;p-type GaAs measured using a femtosecond coherent control technique;PHYSICAL REVIEW B;86;23;235145;10.1103/PhysRevB.86.235145;DEC 28 2012;2012;Coherent control experiments using a pair of collinear femtosecond laser;pulses have been carried out to manipulate longitudinal optical (LO);phonon-plasmon coupled (LOPC) modes in both p-and n-type GaAs. By tuning;the interpulse separation, remarkably distinct responses have been;observed in the two samples. To understand the results obtained a;phenomenological model taking the delayed formation of coherent LOPC;modes into account is proposed. The model suggests that the lifetime of;coherent LOPC modes plays a key role and the interference of the;coherent LO phonons excited successively by two pump pulses strongly;affects the manipulation of coherent LOPC modes.;DOI:10.1103/PhysRevB.86.235145;Oleg, Misochko/E-6136-2013; Nakamura, Kazutaka/F-4095-2014;0;0;0;0;0;1098-0121;WOS:000312833200001;;;J;Imura, Ken-Ichiro;Okamoto, Mayuko;Yoshimura, Yukinori;Takane, Yositake;Ohtsuki, Tomi;Finite-size energy gap in weak and strong topological insulators;PHYSICAL REVIEW B;86;24;245436;10.1103/PhysRevB.86.245436;DEC 28 2012;2012;The nontrivialness of a topological insulator (TI) is characterized;either by a bulk topological invariant or by the existence of a;protected metallic surface state. Yet, in realistic samples of finite;size, this nontrivialness does not necessarily guarantee the gaplessness;of the surface state. Depending on the geometry and on the topological;indices, a finite-size energy gap of different nature can appear, and,;correspondingly, exhibit various scaling behaviors of the gap. The;spin-to-surface locking provides one such gap-opening mechanism,;resulting in a power-law scaling of the energy gap. Weak and strong TIs;show different degrees of sensitivity to the geometry of the sample. As;a noteworthy example, a strong TI nanowire of a rectangular-prism shape;is shown to be more gapped than that of a weak TI of precisely the same;geometry. DOI: 10.1103/PhysRevB.86.245436 PACS number(s): 73.22.-f,;73.20.At, 72.80.Sk;Imura, Ken/D-6633-2013;11;0;0;0;11;1098-0121;WOS:000312834100007;;;J;Lenertz, M.;Alaria, J.;Stoeffler, D.;Colis, S.;Dinia, A.;Mentre, O.;Andre, G.;Porcher, F.;Suard, E.;Magnetic structure of ground and field-induced ordered states of;low-dimensional alpha-CoV2O6: Experiment and theory;PHYSICAL REVIEW B;86;21;214428;10.1103/PhysRevB.86.214428;DEC 28 2012;2012;In this work, we investigate the magnetic properties of the monoclinic;alpha-CoV2O6 by powder neutron diffraction measurements and ab initio;calculations. An emphasis has been pointed towards the magnetic;structure and the interaction between the Co ions leading to magnetic;frustrations in this compound. Neutron diffraction experiments were;carried out both in the ground state (zero magnetic field) and under;applied external field of 2.5 and 5 T corresponding to the ferrimagnetic;and ferromagnetic states, respectively. The antiferromagnetic ground;state below 14 K corresponds to k = (1,0, 1/2) magnetic propagation;vector in C1 space group. The magnetic structure can be described by;ferromagnetic interactions along the chains (b axis) and;antiferromagnetic coupling between the chains (along a and c axes). The;ferrimagnetic structure implies a ninefold unit cell (3a, b, 3c) in;which ferromagnetic chains follow an "up-up-down" sequence along the a;and c axes. In the ferromagnetic state, the spin orientations remain;unchanged while every chain lies ferromagnetically ordered. In all;cases, the magnetic moments lie in the ac plane, along the CoO6;octahedra axis, at an angle of 9.3 degrees with respect to the c axis.;The magnetic structure of alpha-CoV2O6 resolved for all the ordered;states is successfully related to a theoretical model. Ab initio;calculations allowed us to (i) confirm the ground-state magnetic;structure, (ii) calculate the interactions between the Co ions, (iii);explain the frustration leading to the stepped variation of the;magnetization curves, (iv) calculate the orbital magnetic moment (1.5;mu(B)) on Co atoms, and (v) confirm the direction of the magnetic;moments near the c direction. DOI: 10.1103/PhysRevB.86.214428;10;0;0;0;10;1098-0121;WOS:000312830800002;;;J;Nakajima, Nobuo;Oki, Megumi;Isohama, Yoichi;Maruyama, Hiroshi;Tezuka, Yasuhisa;Ishiji, Kotaro;Iwazumi, Toshiaki;Okada, Kozo;Enhancement of dielectric constant of BaTiO3 nanoparticles studied by;resonant x-ray emission spectroscopy;PHYSICAL REVIEW B;86;22;224114;10.1103/PhysRevB.86.224114;DEC 28 2012;2012;The nanoscopic origin of the enhancement of the dielectric constant of;BaTiO3 nanoparticles was investigated by means of Ti K beta resonant;x-ray emission spectroscopy. Two inelastic peaks due to charge-transfer;excitations were observed, one of which disappeared as the particle size;(d) was reduced, while the other remained unchanged. This is consistent;with the fact that tetragonality was also reduced with decreasing d. The;origin of the large enhancement in the dielectric constant is briefly;discussed from a microscopic point of view. DOI:;10.1103/PhysRevB.86.224114;3;0;0;0;3;1098-0121;WOS:000312832400003;;;J;Olmon, Robert L.;Slovick, Brian;Johnson, Timothy W.;Shelton, David;Oh, Sang-Hyun;Boreman, Glenn D.;Raschke, Markus B.;Optical dielectric function of gold;PHYSICAL REVIEW B;86;23;235147;10.1103/PhysRevB.86.235147;DEC 28 2012;2012;In metal optics gold assumes a special status because of its practical;importance in optoelectronic and nano-optical devices, and its role as a;model system for the study of the elementary electronic excitations that;underlie the interaction of electromagnetic fields with metals. However,;largely inconsistent values for the frequency dependence of the;dielectric function describing the optical response of gold are found in;the literature. We performed precise spectroscopic ellipsometry;measurements on evaporated gold, template-stripped gold, and;single-crystal gold to determine the optical dielectric function across;a broad spectral range from 300 nm to 25 mu m (0.05-4.14 eV) with high;spectral resolution. We fit the data to the Drude free-electron model,;with an electron relaxation time tau(D) = 14 +/- 3 fs and plasma energy;h omega(p) = 8.45 eV. We find that the variation in dielectric functions;for the different types of samples is small compared to the range of;values reported in the literature. Our values, however, are comparable;to the aggregate mean of the collection of previous measurements from;over the past six decades. This suggests that although some variation;can be attributed to surface morphology, the past measurements using;different approaches seem to have been plagued more by systematic errors;than previously assumed. DOI:10.1103/PhysRevB.86.235147;22;2;0;0;22;1098-0121;WOS:000312833200003;;;J;Phuong, L. Q.;Ichimiya, M.;Ishihara, H.;Ashida, M.;Multiple light-coupling modes of confined excitons observable in;photoluminescence spectra of high-quality CuCl thin films;PHYSICAL REVIEW B;86;23;235449;10.1103/PhysRevB.86.235449;DEC 28 2012;2012;We report the observation of multiple light-coupling modes of excitons;confined in CuCl thin films with thicknesses of a few hundred nanometers;beyond the long-wavelength approximation in photoluminescence spectra.;Due to a remarkably long coupling length between light and;multinode-type excitons resulted from very high crystalline quality of;thin films, photoluminescence signals from the excitonic states;corresponding to not only odd but also even quantum numbers, which are;optically forbidden in the long-wavelength approximation, are clearly;observed. The full width at half maximum of the excitonic state deduced;qualitatively from the corresponding photoluminescence band shows almost;the same dependence on the quantum number as the theoretical prediction.;DOI:10.1103/PhysRevB.86.235449;0;0;0;0;0;1098-0121;WOS:000312833200008;;;J;Reynoso, Andres A.;Usaj, Gonzalo;Balseiro, C. A.;Feinberg, D.;Avignon, M.;Spin-orbit-induced chirality of Andreev states in Josephson junctions;PHYSICAL REVIEW B;86;21;214519;10.1103/PhysRevB.86.214519;DEC 28 2012;2012;We study Josephson junctions (JJs) in which the region between the two;superconductors is a multichannel system with Rashba spin-orbit coupling;(SOC) where a barrier or a quantum point contact (QPC) is present. These;systems might present unconventional Josephson effects such as Josephson;currents for zero phase difference or critical currents that depend on;the current direction. Here, we discuss how the spin polarizing;properties of the system in the normal state affect the spin;characteristics of the Andreev bound states inside the junction. This;results in a strong correlation between the spin of the Andreev states;and the direction in which they transport Cooper pairs. While the;current-phase relation for the JJ at zero magnetic field is;qualitatively unchanged by SOC, in the presence of a weak magnetic;field, a strongly anisotropic behavior and the mentioned anomalous;Josephson effects follow. We show that the situation is not restricted;to barriers based on constrictions such as QPCs and should generically;arise if in the normal system the direction of the carrier's spin is;linked to its direction of motion. DOI: 10.1103/PhysRevB.86.214519;Usaj, Gonzalo/E-6394-2010;Usaj, Gonzalo/0000-0002-3044-5778;5;0;0;0;5;1098-0121;WOS:000312830800005;;;J;Sato, W.;Komatsuda, S.;Ohkubo, Y.;Characteristic local association of In impurities dispersed in ZnO;PHYSICAL REVIEW B;86;23;235209;10.1103/PhysRevB.86.235209;DEC 28 2012;2012;Local environments in 0.5 at.% In-doped ZnO were investigated by means;of the time-differential perturbed angular correlation (TDPAC) method.;In a comparative study, using the Cd-111 probe nuclei as the decay;products of different parents, In-111 and Cd-111m, we found that In-111;microscopically forms a unique structure with nonradioactive In ion(s);dispersed in ZnO, whereas (111)mCd has no specific interaction with the;In impurities. The spectral damping of the TDPAC spectra is attributed;to the aftereffect following the EC decay of In-111. It was demonstrated;from the aftereffect that the local density and/or mobility of;conduction electrons at the In-111 probe site in the In-doped ZnO is;lowered due to the characteristic structure locally formed by the;dispersed In ion(s). DOI:10.1103/PhysRevB.86.235209;1;0;0;0;1;1098-0121;WOS:000312833200004;;;J;Sherman, Benjamin L.;Wilson, Hugh F.;Weeraratne, Dayanthie;Militzer, Burkhard;Ab initio simulations of hot dense methane during shock experiments;PHYSICAL REVIEW B;86;22;224113;10.1103/PhysRevB.86.224113;DEC 28 2012;2012;Using density functional theory molecular dynamics simulations, we;predict shock Hugoniot curves of precompressed methane up to 75 000 K;for initial densities ranging from 0.35 to 0.70 g cm(-3). At 4000 K, we;observe the transformation into a metallic, polymeric state consisting;of long hydrocarbon chains. These chains persist when the sample is;quenched to 300 K, leading to an increase in shock compression. At 6000;K, the sample transforms into a plasma composed of many, short-lived;chemical species. We conclude by discussing implications for the;interiors of Uranus and Neptune and analyzing the possibility of;creating a superionic state of methane in high pressure experiments.;DOI:10.1103/PhysRevB.86.224113;Wilson, Hugh/B-3447-2009;4;0;0;0;4;1098-0121;WOS:000312832400002;;;J;Trescher, Maximilian;Bergholtz, Emil J.;Flat bands with higher Chern number in pyrochlore slabs;PHYSICAL REVIEW B;86;24;241111;10.1103/PhysRevB.86.241111;DEC 28 2012;2012;A large number of recent works point to the emergence of intriguing;analogs of fractional quantum Hall states in lattice models due to;effective interactions in nearly flat bands with Chern number C = 1.;Here, we provide an intuitive and efficient construction of almost;dispersionless bands with higher Chern numbers. Inspired by the physics;of quantum Hall multilayers and pyrochlore-based transition-metal;oxides, we study a tight-binding model describing spin-orbit coupled;electrons in N parallel kagome layers connected by apical sites forming;N - 1 intermediate triangular layers (as in the pyrochlore lattice). For;each N, we find finite regions in parameter space giving a virtually;flat band with C = N. We analytically express the states within these;topological bands in terms of single-layer states and thereby explicitly;demonstrate that the C = N wave functions have an appealing structure in;which layer index and translations in reciprocal space are intricately;coupled. This provides a promising arena for new collective states of;matter. DOI: 10.1103/PhysRevB.86.241111;Bergholtz, Emil/C-3820-2008;Bergholtz, Emil/0000-0002-9739-2930;29;0;1;0;29;1098-0121;WOS:000312834100002;;;J;van Duijn, J.;Ruiz-Bustos, R.;Daoud-Aladine, A.;Kagome-like lattice distortion in the pyrochlore material Hg2Ru2O7;PHYSICAL REVIEW B;86;21;214111;10.1103/PhysRevB.86.214111;DEC 28 2012;2012;The structural transition which accompanies the metal to insulator;transition (MIT), at T = 107 K, in the pyrochlore material Hg2Ru2O7, was;investigated by high-resolution neutron powder diffraction measurements.;Below the MIT the symmetry is lowered from cubic to monoclinic and the;Ru-Ru bonds, which are equal in the pyrochlore phase (3.60147 angstrom),;become split into short (3.599 37 angstrom), medium (3.6028 angstrom),;and long bonds (3.6047 angstrom). As a result the exchange interactions;between the Ru atoms become more two dimensional. The short and medium;bonds form layers, which are separated by the long bonds, that run;parallel to the monoclinic ab plane. Overall the low-temperature;structure of Hg2Ru2O7 can best be described as a stacking of Kagome-like;layers. DOI: 10.1103/PhysRevB.86.214111;0;0;0;0;0;1098-0121;WOS:000312830800001;;;J;Vanevic, Mihajlo;Belzig, Wolfgang;Control of electron-hole pair generation by biharmonic voltage drive of;a quantum point contact;PHYSICAL REVIEW B;86;24;241306;10.1103/PhysRevB.86.241306;DEC 28 2012;2012;A time-dependent electromagnetic field creates electron-hole excitations;in a Fermi sea at low temperature. We show that the electron-hole pairs;can be generated in a controlled way using harmonic and biharmonic;time-dependent voltages applied to a quantum contact, and we obtain the;probabilities of the pair creations. For a biharmonic voltage drive, we;find that the probability of a pair creation decreases in the presence;of an in-phase second harmonic. This accounts for the suppression of the;excess noise observed experimentally (Gabelli and Reulet,;arXiv:1205.3638), proving that dynamic control and detection of;elementary excitations in quantum conductors are within the reach of the;present technology. DOI: 10.1103/PhysRevB.86.241306;6;1;0;0;6;1098-0121;WOS:000312834100004;;;J;Virgus, Yudistira;Purwanto, Wirawan;Krakauer, Henry;Zhang, Shiwei;Ab initio many-body study of cobalt adatoms adsorbed on graphene;PHYSICAL REVIEW B;86;24;241406;10.1103/PhysRevB.86.241406;DEC 28 2012;2012;Many recent calculations have been performed to study a Co atom adsorbed;on graphene, with significantly varying results on the nature of the;bonding. We use the auxiliary-field quantum Monte Carlo method and a;size-correction embedding scheme to accurately calculate the binding;energy of Co on graphene. We find that as a function of the distance h;between the Co atom and the sixfold hollow site, there are three;distinct ground states corresponding to three electronic configurations;of the Co atom. Two of these states provide binding and exhibit a;double-well feature with nearly equal binding energy of 0.4 eV at h =;1.51 and h = 1.65 angstrom, corresponding to low-spin Co-2 (3d(9) 4s(0));and high-spin Co-4 (3d(8) 4s(1)), respectively. DOI:;10.1103/PhysRevB.86.241406;3;0;0;0;3;1098-0121;WOS:000312834100005;;;J;Xing, Jie;Li, Sheng;Ding, Xiaxin;Yang, Huan;Wen, Hai-Hu;Superconductivity appears in the vicinity of semiconducting-like;behavior in CeO1-xFxBiS2;PHYSICAL REVIEW B;86;21;214518;10.1103/PhysRevB.86.214518;DEC 28 2012;2012;Resistive and magnetic properties have been measured in BiS2-based;samples CeO1-xFxBiS2 with a systematic substitution of O with F (0 < x <;0.6). In contrast to the band-structure calculations, it is found that;the parent phase of CeOBiS2 is a bad metal instead of a band insulator.;By doping electrons into the system, it is surprising to find that;superconductivity appears together with a semiconducting normal state.;This evolution is clearly different from the cuprate and the iron;pnictide systems, and is interpreted as approaching the Pomeranchuk;transition with a von Hove singularity and the possible;charge-density-wave instability. Furthermore, ferromagnetism, which may;arise from the Ce magnetic moments, has been observed in the;low-temperature region in all samples, suggesting the coexistence of;superconductivity and ferromagnetism in the superconducting samples.;DOI: 10.1103/PhysRevB.86.214518;55;0;1;0;56;1098-0121;WOS:000312830800004;;;J;Yaji, Koichiro;Hatta, Shinichiro;Aruga, Tetsuya;Okuyama, Hiroshi;Structural and electronic properties of the Pb/Ge(111)-beta(root 3 x;root 3)R30 degrees surface studied by photoelectron spectroscopy and;first-principles calculations;PHYSICAL REVIEW B;86;23;235317;10.1103/PhysRevB.86.235317;DEC 28 2012;2012;We have studied structural and electronic properties of a Ge(111);surface covered with a monatomic Pb layer [Pb/Ge(111)-beta] by means of;core-level photoelectron spectroscopy, angle-resolved photoelectron;spectroscopy (ARPES), and a first-principles band structure calculation.;There has been a controversy about the surface structure of;Pb/Ge(111)-beta between a close-packed model with a coverage of 4/3;monolayers and a trimer model with a coverage of 1 monolayer. This;problem has been examined by analyzing the line shape of a Pb 5d;core-level spectrum and comparing the experimental band structure with;those calculated for two models. The line shape of the core-level;spectrum agrees with a close-packed model. The valence band structure;observed by ARPES has been well reproduced by the calculation employing;the close-packed model. The close-packed model therefore describes;correctly the surface structure of Pb/Ge(111)-beta. The;scanning-tunneling microscopy (STM) image simulated for the close-packed;model is in good agreement with the experimental filled-state STM image,;in which three protrusions per unit cell were observed.;DOI:10.1103/PhysRevB.86.235317;Aruga, Tetsuya/B-7782-2010; Okuyama, Hiroshi/H-7570-2014;2;1;0;0;2;1098-0121;WOS:000312833200006;;;J;Yang, Shuo;Gu, Zheng-Cheng;Sun, Kai;Das Sarma, S.;Topological flat band models with arbitrary Chern numbers;PHYSICAL REVIEW B;86;24;241112;10.1103/PhysRevB.86.241112;DEC 28 2012;2012;We report the theoretical discovery of a systematic scheme to produce;topological flat bands (TFBs) with arbitrary Chern numbers. We find that;generically a multiorbital high Chern number TFB model can be;constructed by considering multilayer Chern number C = 1 TFB models with;enhanced translational symmetry. A series of models are presented as;examples, including a two-band model on a triangular lattice with a;Chern number C = 3 and an N-band square lattice model with C = N for an;arbitrary integer N. In all these models, the flatness ratio for the;TFBs is larger than 30 and increases with increasing Chern number. In;the presence of appropriate interparticle interactions, these models are;likely to lead to the formation of Abelian and non-Abelian fractional;Chern insulators. As a simple example, we test the C = 2 model with;hardcore bosons at 1/3 filling, and an intriguing fractional quantum;Hall state is observed. DOI: 10.1103/PhysRevB.86.241112;Sun, Kai/F-2282-2010; Yang, Shuo/D-1372-2011; Das Sarma, Sankar/B-2400-2009; Gu, Zheng-Cheng/L-5415-2014;Sun, Kai/0000-0001-9595-7646; Yang, Shuo/0000-0001-9733-8566;;24;0;1;0;24;1098-0121;WOS:000312834100003;;;J;Yue, Qu;Chang, Shengli;Tan, Jichun;Qin, Shiqiao;Kang, Jun;Li, Jingbo;Symmetry-dependent transport properties and bipolar spin filtering in;zigzag alpha-graphyne nanoribbons;PHYSICAL REVIEW B;86;23;235448;10.1103/PhysRevB.86.235448;DEC 28 2012;2012;First-principles calculations are performed to investigate the transport;properties of zigzag alpha-graphyne nanoribbons (ZaGNRs). It is found;that asymmetric Z alpha GNRs behave as conductors with linear;current-voltage relationships, whereas symmetric Z alpha GNRs have very;small currents under finite bias voltages, similar to those of zigzag;graphene nanoribbons. The symmetry-dependent transport properties arise;from different coupling rules between the pi and pi* subbands around the;Fermi level, which are dependent on the wave-function symmetry of the;two subbands. Based on the coupling rules, we further demonstrate the;bipolar spin-filtering effect in the symmetric Z alpha GNRs. It is shown;that nearly 100% spin-polarized current can be produced and modulated by;the direction of bias voltage and/or magnetization configuration of the;electrodes. Moreover, the magnetoresistance effect with the order larger;than 500 000% is also predicted. Our calculations suggest Z alpha GNRs;as a promising candidate material for spintronics.;DOI:10.1103/PhysRevB.86.235448;Kang, Jun/F-7105-2011;7;1;0;0;7;1098-0121;WOS:000312833200007;;;J;Berry, Joel;Provatas, Nikolas;Rottler, Joerg;Sinclair, Chad W.;Defect stability in phase-field crystal models: Stacking faults and;partial dislocations;PHYSICAL REVIEW B;86;22;224112;10.1103/PhysRevB.86.224112;DEC 27 2012;2012;The primary factors controlling defect stability in phase-field crystal;(PFC) models are examined, with illustrative examples involving several;existing variations of the model. Guidelines are presented for;constructing models with stable defect structures that maintain high;numerical efficiency. The general framework combines both long-range;elastic fields and basic features of atomic-level core structures, with;defect dynamics operable over diffusive time scales. Fundamental;elements of the resulting defect physics are characterized for the case;of fcc crystals. Stacking faults and split Shockley partial dislocations;are stabilized for the first time within the PFC formalism, and various;properties of associated defect structures are characterized. These;include the dissociation width of perfect edge and screw dislocations,;the effect of applied stresses on dissociation, Peierls strains for;glide, and dynamic contraction of gliding pairs of partials. Our results;in general are shown to compare favorably with continuum elastic;theories and experimental findings. DOI: 10.1103/PhysRevB.86.224112;Rottler, Joerg/L-5539-2013;8;0;0;0;8;1098-0121;WOS:000312831900001;;;J;Emary, Clive;Lambert, Neill;Nori, Franco;Leggett-Garg inequality in electron interferometers;PHYSICAL REVIEW B;86;23;235447;10.1103/PhysRevB.86.235447;DEC 27 2012;2012;We consider the violation of the Leggett-Garg inequality in electronic;Mach-Zehnder inteferometers. This setup has two distinct advantages over;earlier quantum-transport proposals: Firstly, the required correlation;functions can be obtained without time-resolved measurements. Secondly,;the geometry of an interferometer allows one to construct the;correlation functions from ideal negative measurements, which addresses;the noninvasiveness requirement of the Leggett-Garg inequality. We;discuss two concrete realizations of these ideas: the first in quantum;Hall edge-channels, the second in a double quantum dot interferometer.;DOI: 10.1103/PhysRevB.86.235447 PACS number(s): 03.65.Ud, 73.23.-b,;03.65.Ta, 42.50.Lc;Lambert, Neill/B-4998-2009; Emary, Clive/B-9596-2008; Nori, Franco/B-1222-2009;Emary, Clive/0000-0002-9822-8390; Nori, Franco/0000-0003-3682-7432;3;0;0;0;3;1098-0121;WOS:000312832900004;;;J;Kato, Yuto;Endo, Akira;Katsumoto, Shingo;Iye, Yasuhiro;Geometric resonances in the magnetoresistance of hexagonal lateral;superlattices;PHYSICAL REVIEW B;86;23;235315;10.1103/PhysRevB.86.235315;DEC 27 2012;2012;We have measured magnetoresistance of hexagonal lateral superlattices.;We observe three types of oscillations engendered by periodic potential;modulation having hexagonal-lattice symmetry: amplitude modulation of;the Shubnikov-de Haas oscillations, commensurability oscillations, and;the geometric resonances of open orbits generated by Bragg reflections.;The latter two reveal the presence of two characteristic periodicities,;root 3a/2 and a/2, inherent in a hexagonal lattice with the lattice;constant a. The formation of the hexagonal-superlattice minibands;manifested by the observation of open orbits marks the first step toward;realizing massless Dirac fermions in semiconductor 2DEGs. DOI:;10.1103/PhysRevB.86.235315 PACS number(s): 73.43.Qt, 73.23.-b, 73.21.Cd;1;0;0;0;1;1098-0121;WOS:000312832900002;;;J;Lin, I-Tan;Liu, Jia-Ming;Shi, Kai-Yao;Tseng, Pei-Shan;Wu, Kuang-Hsiung;Luo, Chih-Wei;Li, Lain-Jong;Terahertz optical properties of multilayer graphene: Experimental;observation of strong dependence on stacking arrangements and;misorientation angles;PHYSICAL REVIEW B;86;23;235446;10.1103/PhysRevB.86.235446;DEC 27 2012;2012;The optical conductivity of monolayer and multilayer graphene in the;terahertz spectral region is experimentally measured using terahertz;time-domain spectroscopy. The stacking arrangement and the;misorientation angle of each sample are determined by Raman;spectroscopy. The chemical potential of each sample is measured using;ultrafast midinfrared pump-probe spectroscopy to be 63 or 64 meV for all;samples. The intraband scattering rate can be obtained by fitting the;measured data with theoretical models. Other physical parameters,;including carrier density, dc conductivity, and carrier mobility, of;each sample can also be deduced from the theoretical fitting. The;fitting results show the existence of misoriented or AA-stacked layers;with an interaction energy of alpha(1) = 217 meV in our multilayer;samples. Here we show that the scattering rate strongly depends on the;stacking arrangement of the sample. High scattering rates and high;optical conductivity are associated with AA-stacked samples, while lower;ones are associated with misoriented multilayer graphene. This implies;that the THz optoelectronic properties of multilayer graphene can be;tuned by purposefully misorienting layers or employing different;stacking schemes. DOI: 10.1103/PhysRevB.86.235446 PACS number(s):;78.67.Wj, 61.48.Gh, 72.80.Vp, 73.50.Mx;Li, Lain-Jong/D-5244-2011; Luo, Chih Wei/D-3485-2013;Li, Lain-Jong/0000-0002-4059-7783; Luo, Chih Wei/0000-0002-6453-7435;11;0;0;0;11;1098-0121;WOS:000312832900003;;;J;Lundgren, Rex;Chua, Victor;Fiete, Gregory A.;Entanglement entropy and spectra of the one-dimensional Kugel-Khomskii;model;PHYSICAL REVIEW B;86;22;224422;10.1103/PhysRevB.86.224422;DEC 27 2012;2012;We study the quantum entanglement of the spin and orbital degrees of;freedom in the one-dimensional Kugel-Khomskii model, which includes both;gapless and gapped phases, using analytical techniques and exact;diagonalization with up to 16 sites. We compute the entanglement entropy;and the entanglement spectra using a variety of partitions or "cuts" of;the Hilbert space, including two distinct real-space cuts and a;momentum-space cut. Our results show that the Kugel-Khomski model;possesses a number of new features not previously encountered in studies;of the entanglement spectra. Notably, we find robust gaps in the;entanglement spectra for both gapped and gapless phases with the orbital;partition, and show these are not connected to each other. The counting;of the low-lying entanglement eigenvalues shows that the "virtual edge";picture, which equates the low-energy Hamiltonian of a virtual edge,;here one gapless leg of a two-leg ladder, to the "low-energy";entanglement Hamiltonian, breaks down for this model, even though the;equivalence has been shown to hold for a similar cut in a large class of;closely related models. In addition, we show that a momentum space cut;in the gapless phase leads to qualitative differences in the;entanglement spectrum when compared with the same cut in the gapless;spin-1/2 Heisenberg spin chain. We emphasize the new information content;in the entanglement spectra compared to the entanglement entropy, and;using quantum entanglement, we present a refined phase diagram of the;model. Using analytical arguments, exploiting various symmetries of the;model, and applying arguments of adiabatic continuity from two exactly;solvable points of the model, we are also able to prove several results;regarding the structure of the low-lying entanglement eigenvalues. DOI:;10.1103/PhysRevB.86.224422;11;0;1;0;12;1098-0121;WOS:000312831900002;;;J;L'vov, Victor S.;Nazarenko, Sergey V.;Comment on "Symmetry of Kelvin-wave dynamics and the Kelvin-wave cascade;in the T=0 superfluid turbulence";PHYSICAL REVIEW B;86;22;226501;10.1103/PhysRevB.86.226501;DEC 27 2012;2012;We comment on the paper by Sonin [Phys. Rev. B 85, 104516 (2012)] with;most statements of which we disagree. We use this option to shed light;on some important issues of a theory of Kelvin-wave turbulence, touched;on in Sonin's paper, in particular, on the relation between the Vinen;spectrum of strong and the L'vov-Nazarenko spectrum of weak turbulence;of Kelvin waves. We also discuss the role of explicit calculation of the;Kelvin-wave interaction Hamiltonian and "symmetry arguments" that have;to resolve a contradiction between the Kozik-Svistunov and the;L'vov-Nazarenko spectrum of weak turbulence of Kelvin waves. DOI:;10.1103/PhysRevB.86.226501;5;1;0;0;5;1098-0121;WOS:000312831900003;;;J;Misguich, G.;Schwinger boson mean-field theory: Numerics for the energy landscape and;gauge excitations in two-dimensional antiferromagnets;PHYSICAL REVIEW B;86;24;245132;10.1103/PhysRevB.86.245132;DEC 27 2012;2012;We perform some systematic numerical search for Schwinger boson;mean-field states on square and triangular clusters. We look for;possible inhomogeneous ground states as well as low-energy excited;saddle points. The spectrum of the Hessian is also computed for each;solution. On the square lattice, we find gapless U(1) gauge modes in the;nonmagnetic phase. In the Z(2) liquid phase of the triangular lattice,;we identify the topological degeneracy as well as vison states.;DOI:10.1103/PhysRevB.86.245132;2;0;0;0;2;1098-0121;WOS:000312833600001;;;J;Mokhlespour, Salman;Haverkort, J. E. M.;Slepyan, Gregory;Maksimenko, Sergey;Hoffmann, A.;Collective spontaneous emission in coupled quantum dots: Physical;mechanism of quantum nanoantenna;PHYSICAL REVIEW B;86;24;245322;10.1103/PhysRevB.86.245322;DEC 27 2012;2012;We investigate the collective spontaneous emission in a system of two;identical quantum dots (QDs) strongly coupled through the dipole-dipole;(d-d) interaction. The QDs are modeled as two-level quantum objects,;while the d-d interaction is described as the exchange of a virtual;photon through the photonic reservoir. The master equation approach is;used in the analysis. The main attention is focused on antenna;characteristics of the two-QD system-the radiation intensity dependence;on the meridian and azimuthal angles of observation. We show that the;radiation pattern of such a system is nonstationary and its temporal;behavior depends on the initial quantum state. In particular, for;entangled initial states the radiative pattern exhibits oscillations on;the frequency which corresponds to the d-d interaction energy. We also;analyze spectral properties of the directional diagram. The comparison;of radiation patterns is carried out for two QDs and two classical;dipoles. The concept of quantum nanoantenna is proposed based on;collective spontaneous emission in QD ensembles.;DOI:10.1103/PhysRevB.86.245322;Maksimenko, Sergey/F-1888-2011;Maksimenko, Sergey/0000-0002-8271-0449;8;1;0;0;8;1098-0121;WOS:000312833600002;;;J;Muravev, V. M.;Gusikhin, P. A.;Tsydynzhapov, G. E.;Fortunatov, A. A.;Kukushkin, I. V.;Spectroscopy of terahertz radiation using high-Q photonic crystal;microcavities;PHYSICAL REVIEW B;86;23;235144;10.1103/PhysRevB.86.235144;DEC 27 2012;2012;We report observation of high-Q resonance in the photoresponse of a;detector embedded in the 2D photonic crystal slab (PCS) microcavity;illuminated by terahertz radiation. The detector and PCS are fabricated;from a single GaAs wafer in a unified process. The influence of the;period of PCS lattice, microcavity geometry, and detector location on;the resonant photoresponse is studied. The resonance is found to;originate from coupling of the fundamental PCS microcavity photon mode;to the detector. The phenomenon can be exploited to devise a;spectrometer-on-a-chip for terahertz range. DOI:;10.1103/PhysRevB.86.235144 PACS number(s): 42.50.-p, 42.70.Qs, 42.79.-e,;73.21.-b;0;0;0;0;0;1098-0121;WOS:000312832900001;;;J;Reguzzoni, M.;Fasolino, A.;Molinari, E.;Righi, M. C.;Potential energy surface for graphene on graphene: Ab initio derivation,;analytical description, and microscopic interpretation;PHYSICAL REVIEW B;86;24;245434;10.1103/PhysRevB.86.245434;DEC 27 2012;2012;We derive an analytical expression that describes the interaction energy;between two graphene layers identically oriented as a function of the;relative lateral and vertical positions, in excellent agreement with;first principles calculations. Thanks to its formal simplicity, the;proposed model allows for an immediate interpretation of the;interactions, in particular of the potential corrugation. This last;quantity plays a crucial role in determining the intrinsic resistance to;interlayer sliding and its increase upon compression influences the;frictional behavior under load. We show that, for these weakly adherent;layers, the corrugation possesses the same nature and z dependence of;Pauli repulsion. We investigate the microscopic origin of these;phenomena by analyzing the electronic charge distribution: We observe a;pressure-induced charge transfer from the interlayer region toward the;near-layer regions, with a much more consistent depletion of charge;occurring for the AA stacking than for the AB stacking of the two;layers. DOI:10.1103/PhysRevB.86.245434;8;0;0;0;8;1098-0121;WOS:000312833600003;;;J;Sonin, E. B.;Reply to "Comment on 'Symmetry of Kelvin-wave dynamics and the;Kelvin-wave cascade in the T=0 superfluid turbulence'";PHYSICAL REVIEW B;86;22;226502;10.1103/PhysRevB.86.226502;DEC 27 2012;2012;The goal of the Comment by L'vov and Nazarenko is to refute my;perviously published criticism of their mechanism of the Kelvin-wave;cascade. It is important, however, that, in their Comment, L'vov and;Nazarenko admitted that the Hamiltonian, from which they derived their;mechanism, is not tilt invariant. This provides full ammunition to their;critics, who believe that their mechanism is in conflict with the tilt;symmetry of the Kelvin-wave dynamics and, therefore, is not valid for;the real isotropic world. DOI: 10.1103/PhysRevB.86.226502;3;1;0;0;3;1098-0121;WOS:000312831900004;;;J;Swaminathan, Narasimhan;Morgan, Dane;Szlufarska, Izabela;Role of recombination kinetics and grain size in radiation-induced;amorphization;PHYSICAL REVIEW B;86;21;214110;10.1103/PhysRevB.86.214110;DEC 27 2012;2012;Using a rate theory model for a generic one-component material, we;investigated interactions between grain size and recombination kinetics;of radiation-induced defects. Specifically, by varying parametrically;nondimensional kinetic barriers for defect diffusion and recombination,;we determined the effect of these parameters on the shape of the dose to;amorphization versus temperature curves. We found that whether grain;refinement to the nanometer regime improves or deteriorates radiation;resistance of a material depends on the barriers to defect migration and;recombination, as well as on the temperature for the intended use of the;material. We show that the effects of recombination barriers and of;grain refinement can be coupled to each other to produce a phenomenon of;interstitial starvation. In interstitial starvation, a significant;number of interstitials annihilate at the grain boundary, leaving behind;unrecombined vacancies, which in turn amorphize the material. The same;rate theory model with material-specific parameters was used to predict;the grain-size dependence of the critical amorphization temperature in;SiC. Parameters for the SiC model were taken from ab initio;calculations. We find that the fine-grained SiC has a lower radiation;resistance when compared to the polycrystalline SiC due to the presence;of high-energy barrier for recombination of carbon Frenkel pairs and due;to the interstitial starvation phenomenon. DOI:;10.1103/PhysRevB.86.214110;Morgan, Dane/B-7972-2008;Morgan, Dane/0000-0002-4911-0046;5;0;0;0;5;1098-0121;WOS:000312830600001;;;J;Ahart, Muhtar;Sinogeikin, Stanislav;Shebanova, Olga;Ikuta, Daijo;Ye, Zuo-Guang;Mao, Ho-kwang;Cohen, R. E.;Hemley, Russell J.;Pressure dependence of the monoclinic phase in;(1-x)Pb(Mg1/3Nb2/3)O-3-xPbTiO(3) solid solutions;PHYSICAL REVIEW B;86;22;224111;10.1103/PhysRevB.86.224111;DEC 26 2012;2012;We combine high-pressure x-ray diffraction, high-pressure Raman;scattering, and optical microscopy to investigate a series of (1 -;x)Pb(Mg1/3Nb2/3)O-3-xPbTiO(3) (PMN-xPT) solid solutions (x = 0.2, 0.3,;0.33, 0.35, 0.37, 0.4) in diamond anvil cells up to 20 GPa at 300 K. The;Raman spectra show a peak centered at 380 cm(-1) starting above 6 GPa;for all samples, in agreement with previous observations. X-ray;diffraction measurements are consistent with this spectral change;indicating a structural phase transition; we find that the triplet at;the pseudocubic (220) Bragg peak merges into a doublet above 6 GPa. Our;results indicate that the morphotropic phase boundary region (x = 0.33 -;0.37) with the presence of monoclinic symmetry persists up to 7 GPa. The;pressure dependence of ferroelectric domains in PMN-0.32PT single;crystals was observed using a polarizing optical microscope. The domain;wall density decreases with pressure and the domains disappear at a;modest pressure of 3 GPa. We propose a pressure-composition phase;diagram for PMN-xPT solid solutions. DOI: 10.1103/PhysRevB.86.224111;Cohen, Ronald/B-3784-2010;Cohen, Ronald/0000-0001-5871-2359;2;0;0;0;2;1098-0121;WOS:000312831800006;;;J;Akrap, Ana;Tran, Michael;Ubaldini, Alberto;Teyssier, Jeremie;Giannini, Enrico;van der Marel, Dirk;Lerch, Philippe;Homes, Christopher C.;Optical properties of Bi2Te2Se at ambient and high pressures;PHYSICAL REVIEW B;86;23;235207;10.1103/PhysRevB.86.235207;DEC 26 2012;2012;The temperature dependence of the complex optical properties of the;three-dimensional topological insulator Bi2Te2Se is reported for light;polarized in the a-b planes at ambient pressure, as well as the effects;of pressure at room temperature. This material displays a semiconducting;character with a bulk optical gap of E-g similar or equal to 300 meV at;295 K. In addition to the two expected infrared-active vibrations;observed in the planes, there is an additional fine structure that is;attributed to either the removal of degeneracy or the activation of;Raman modes due to disorder. A strong impurity band located at similar;or equal to 200 cm(-1) is also observed. At and just above the optical;gap, several interband absorptions are found to show a strong;temperature and pressure dependence. As the temperature is lowered these;features increase in strength and harden. The application of pressure;leads to a very abrupt closing of the gap above 8 GPa, and strongly;modifies the interband absorptions in the midinfrared spectral range.;While ab initio calculations fail to predict the collapse of the gap,;they do successfully describe the size of the band gap at ambient;pressure, and the magnitude and shape of the optical conductivity. DOI:;10.1103/PhysRevB.86.235207;Teyssier, Jeremie/A-6867-2013; Akrap, Ana/G-1409-2013;Akrap, Ana/0000-0003-4493-5273;10;0;0;0;10;1098-0121;WOS:000312832600007;;;J;Andersen, Kirsten;Jacobsen, Karsten W.;Thygesen, Kristian S.;Spatially resolved quantum plasmon modes in metallic nano-films from;first-principles;PHYSICAL REVIEW B;86;24;245129;10.1103/PhysRevB.86.245129;DEC 26 2012;2012;Electron energy loss spectroscopy (EELS) can be used to probe plasmon;excitations in nanostructured materials with atomic-scale spatial;resolution. For structures smaller than a few nanometers, quantum;effects are expected to be important, limiting the validity of widely;used semiclassical response models. Here we present a method to identify;and compute spatially resolved plasmon modes from first-principles based;on a spectral analysis of the dynamical dielectric function. As an;example we calculate the plasmon modes of 0.5 to 4 nm thick Na films and;find that they can be classified as (conventional) surface modes,;subsurface modes, and a discrete set of bulk modes resembling standing;waves across the film. We find clear effects of both quantum confinement;and nonlocal response. The quantum plasmon modes provide an intuitive;picture of collective excitations of confined electron systems and offer;a clear interpretation of spatially resolved EELS spectra. DOI:;10.1103/PhysRevB.86.245129;Jacobsen, Karsten/B-3602-2009; Thygesen, Kristian /B-1062-2011;6;0;0;0;6;1098-0121;WOS:000312833400007;;;J;Baker, A. M. R.;Alexander-Webber, J. A.;Altebaeumer, T.;Janssen, T. J. B. M.;Tzalenchuk, A.;Lara-Avila, S.;Kubatkin, S.;Yakimova, R.;Lin, C. -T.;Li, L. -J.;Nicholas, R. J.;Weak localization scattering lengths in epitaxial, and CVD graphene;PHYSICAL REVIEW B;86;23;235441;10.1103/PhysRevB.86.235441;DEC 26 2012;2012;Weak localization in graphene is studied as a function of carrier;density in the range from 1 x 10(11) cm(-2) to 1.43 x 10(13) cm(-2);using devices produced by epitaxial growth onto SiC and CVD growth on;thin metal film. The magnetic field dependent weak localization is found;to be well fitted by theory, which is then used to analyze the;dependence of the scattering lengths L-phi, L-i, and L-* on carrier;density. We find no significant carrier dependence for L-phi, a weak;decrease for L-i with increasing carrier density just beyond a large;standard error, and a n(-1/4) dependence for L-*. We demonstrate that;currents as low as 0.01 nA are required in smaller devices to avoid;hot-electron artifacts in measurements of the quantum corrections to;conductivity. DOI: 10.1103/PhysRevB.86.235441;Lara-Avila, Samuel/B-4878-2013; Lin, Cheng-Te/D-5203-2011; Materials, Semiconductor/I-6323-2013;Lara-Avila, Samuel/0000-0002-8331-718X; Lin,;Cheng-Te/0000-0002-7090-9610;;11;0;0;0;11;1098-0121;WOS:000312832600015;;;J;Bergeret, F. S.;Verso, A.;Volkov, A. F.;Electronic transport through ferromagnetic and superconducting junctions;with spin-filter tunneling barriers;PHYSICAL REVIEW B;86;21;214516;10.1103/PhysRevB.86.214516;DEC 26 2012;2012;We present a theoretical study of the quasiparticle and subgap;conductance of generic X/I-sf/S-M junctions with a spin-filter barrier;I-sf, where X is either a normal N or a ferromagnetic metal F and S-M is;a superconductor with a built-in exchange field. Our study is based on;the tunneling Hamiltonian and the Green's-function technique. First, we;focus on the quasiparticle transport, both above and below the;superconducting critical temperature. We obtain a general expression for;the tunneling conductance which is valid for arbitrary values of the;exchange field and arbitrary magnetization directions in the electrodes;and in the spin-filter barrier. In the second part, we consider the;subgap conductance of a N/I-sf/S junction, where S is a conventional;superconductor. In order to account for the spin-filter effect at;interfaces, we heuristically derive boundary conditions for the;quasiclassical Green's functions. With the help of these boundary;conditions, we show that the proximity effect and the subgap conductance;are suppressed by spin filtering in a N/I-sf/S junction. Our work;provides useful tools for the study of spin-polarized transport in;hybrid structures both in the normal and in the superconducting state.;DOI: 10.1103/PhysRevB.86.214516;CSIC-UPV/EHU, CFM/F-4867-2012; DONOSTIA INTERNATIONAL PHYSICS CTR., DIPC/C-3171-2014;7;1;0;0;7;1098-0121;WOS:000312830400009;;;J;Beugnot, Jean-Charles;Laude, Vincent;Electrostriction and guidance of acoustic phonons in optical fibers;PHYSICAL REVIEW B;86;22;224304;10.1103/PhysRevB.86.224304;DEC 26 2012;2012;We investigate the generation of acoustic phonons in optical fibers via;electrostriction from coherent optical waves. Solving the elastodynamic;equation subject to the electrostrictive force, we are able to reproduce;the experimental spectra found in standard and photonic crystal fibers.;We discuss the two important practical cases of forward interaction,;dominated by elastic resonances of the fiber, and backward interaction,;for which an efficient mechanism of phonon guidance is found. The last;result describes the formation of the coherent phonon beam involved in;stimulated Brillouin scattering. DOI: 10.1103/PhysRevB.86.224304;Laude, Vincent/C-4484-2008;Laude, Vincent/0000-0001-8930-8797;3;0;0;0;3;1098-0121;WOS:000312831800007;;;J;Blanc, Nils;Coraux, Johann;Vo-Van, Chi;N'Diaye, Alpha T.;Geaymond, Olivier;Renaud, Gilles;Local deformations and incommensurability of high-quality epitaxial;graphene on a weakly interacting transition metal;PHYSICAL REVIEW B;86;23;235439;10.1103/PhysRevB.86.235439;DEC 26 2012;2012;We investigate the fine structure of graphene on iridium, which is a;model for graphene weakly interacting with a transition-metal substrate.;Even the highest-quality epitaxial graphene displays tiny imperfections,;i.e., small biaxial strains of similar to 0.3%, rotations of similar to;0.5 degrees, and shears over distances of similar to 100 nm, and is;found incommensurate, as revealed by x-ray diffraction and scanning;tunneling microscopy. These structural variations are mostly induced by;the increase of the lattice parameter mismatch when cooling the sample;from the graphene preparation temperature to the measurement;temperature. Although graphene weakly interacts with iridium, its;thermal expansion is found to be positive, contrary to free-standing;graphene. The structure of graphene and its variations is very sensitive;to the preparation conditions. All these effects are consistent with;initial growth and subsequent pinning of graphene at steps. DOI:;10.1103/PhysRevB.86.235439;Coraux, Johann/A-7897-2008;5;0;0;0;5;1098-0121;WOS:000312832600013;;;J;Blomeier, S.;Candeloro, P.;Hillebrands, B.;Reuscher, B.;Brodyanski, A.;Kopnarski, M.;Micromagnetism and magnetization reversal of embedded ferromagnetic;elements (vol 74, 184405, 2006);PHYSICAL REVIEW B;86;21;219904;10.1103/PhysRevB.86.219904;DEC 26 2012;2012;Hillebrands, Burkard/C-6242-2008;Hillebrands, Burkard/0000-0001-8910-0355;0;0;0;0;0;1098-0121;WOS:000312830400011;;;J;Bud'ko, Sergey L.;Liu, Yong;Lograsso, Thomas A.;Canfield, Paul C.;Hydrostatic and uniaxial pressure dependence of superconducting;transition temperature of KFe2As2 single crystals;PHYSICAL REVIEW B;86;22;224514;10.1103/PhysRevB.86.224514;DEC 26 2012;2012;We present heat capacity, c-axis thermal expansion and;pressure-dependent, low-field, temperature-dependent magnetization for;pressures up to similar to 12 kbar, data for KFe2As2 single crystals.;T-c decreases under pressure with dT(c)/dP approximate to -0.10 K/kbar.;The inferred uniaxial, c-axis, pressure derivative is positive,;dT(c)/dp(c) approximate to 0.11 K/kbar. The data are analyzed in;comparison with those for overdoped Fe-based superconductors. Arguments;are presented that superconductivity in KFe2As2 may be different from;the other overdoped, Fe-based materials in the 122 family. DOI:;10.1103/PhysRevB.86.224514;Canfield, Paul/H-2698-2014;9;0;0;0;9;1098-0121;WOS:000312831800013;;;J;Bulaevskii, Lev N.;Lin, Shi-Zeng;Self-induced pinning of vortices in the presence of ac driving force in;magnetic superconductors;PHYSICAL REVIEW B;86;22;224513;10.1103/PhysRevB.86.224513;DEC 26 2012;2012;We derive the response of the magnetic superconductors in the vortex;state to the ac Lorentz force, F-L (t) = F-ac sin(omega t), taking into;account the interaction of vortices with the magnetic moments described;by the relaxation dynamics (polaronic effect). At low amplitudes of the;driving force F-ac the dissipation in the system is suppressed due to;the enhancement of the effective viscosity at low frequencies and due to;formation of the magnetic pinning at high frequencies omega. In the;adiabatic limit with low frequencies omega and high amplitude of the;driving force F-ac, the vortex and magnetic polarization form a vortex;polaron when F-L (t) is small. When F-L increases, the vortex polaron;accelerates and at a threshold driving force, the vortex polaron;dissociates and the motion of vortex and the relaxation of magnetization;are decoupled. When F-L decreases, the vortex is retrapped by the;background of remnant magnetization and they again form vortex polaron.;This process repeats when F-L (t) increases in the opposite direction.;Remarkably, after dissociation, decoupled vortices move in the periodic;potential induced by magnetization which remains for some periods of;time due to retardation after the decoupling. At this stage vortices;oscillate with high frequencies determined by the Lorentz force at the;moment of dissociation. We derive also the creep rate of vortices and;show that magnetic moments suppress creep rate. DOI:;10.1103/PhysRevB.86.224513;Lin, Shi-Zeng/B-2906-2008;Lin, Shi-Zeng/0000-0002-4368-5244;3;0;0;0;3;1098-0121;WOS:000312831800012;;;J;Butler, C. A. M.;Hobson, P. A.;Hibbins, A. P.;Sambles, J. R.;Resonant microwave transmission from a double layer of subwavelength;metal square arrays: Evanescent handedness;PHYSICAL REVIEW B;86;24;241109;10.1103/PhysRevB.86.241109;DEC 26 2012;2012;Adouble layer of identical subwavelengthmetal patch arrays is;experimentally shown to be electromagnetically chiral due to the;evanescent coupling of the near fields between nonchiral layers-it;exhibits "evanescent handedness." Despite each layer being intrinsically;isotropic in the plane with four mirror planes orthogonal to the plane;of the structure, circular dichroism, leading to significant;polarization rotation, is found in the resonant microwave transmission;for any incident linear polarization. DOI: 10.1103/PhysRevB.86.241109;1;0;0;0;1;1098-0121;WOS:000312833400002;;;J;Calder, S.;Cao, G. -X.;Lumsden, M. D.;Kim, J. W.;Gai, Z.;Sales, B. C.;Mandrus, D.;Christianson, A. D.;Magnetic structural change of Sr2IrO4 upon Mn doping;PHYSICAL REVIEW B;86;22;220403;10.1103/PhysRevB.86.220403;DEC 26 2012;2012;The layered 5d transition-metal oxide Sr2IrO4 has been shown to host a;novel J(eff) = 1/2 Mott spin-orbit insulating state with;antiferromagnetic ordering, leading to comparisons with the layered;cuprates. Here we study the effect of substituting Mn for Ir in single;crystals of Sr2Ir0.9Mn0.1O4 through an investigation involving bulk;measurements and resonant x-ray and neutron scattering. We observe a new;long-range magnetic structure emerge upon doping through a reordering of;the spins from the basal plane to the c axis with a reduced ordering;temperature compared to Sr2IrO4 . The strong enhancement of the magnetic;x-ray scattering intensity at the L-3 edge relative to the L-2 edge;indicates that the J(eff) = 1/2 state is robust and capable of hosting a;variety of ground states. DOI: 10.1103/PhysRevB.86.220403;Gai, Zheng/B-5327-2012; Mandrus, David/H-3090-2014;Gai, Zheng/0000-0002-6099-4559;;9;1;0;0;9;1098-0121;WOS:000312831800002;;;J;Camjayi, Alberto;Arrachea, Liliana;Conductance of a quantum dot in the Kondo regime connected to dirty;wires;PHYSICAL REVIEW B;86;23;235143;10.1103/PhysRevB.86.235143;DEC 26 2012;2012;We study the transport behavior induced by a small bias voltage through;a quantum dot connected to one-channel disordered wires by means of a;quantum Monte Carlo method. We model the quantum dot by the;Hubbard-Anderson impurity and the wires by the one-dimensional Anderson;model with diagonal disorder within a length. We present a complete;description of the probability distribution function of the conductance;within the Kondo regime. DOI: 10.1103/PhysRevB.86.235143;1;0;0;0;1;1098-0121;WOS:000312832600005;;;J;Chen, Ying;Liu, Rui;Cai, Min;Shinar, Ruth;Shinar, Joseph;Extremely strong room-temperature transient photocurrent-detected;magnetic resonance in organic devices;PHYSICAL REVIEW B;86;23;235442;10.1103/PhysRevB.86.235442;DEC 26 2012;2012;An extremely strong room-temperature photocurrent- (PC- or I-PC-);detected magnetic resonance (PCDMR) that elucidates transport and;trapping phenomena in organic devices, in particular solar cells, is;described. When monitoring the transient PCDMR in indium tin oxide;(ITO)/poly(2-methoxy-5-(2'-ethyl)-hexoxy-1,4-phenylenevinylene);(MEH-PPV)/Al devices, where the MEH-PPV film was baked overnight at 100;degrees C in O-2, it is observed that | Delta I-PC/I-PC| peaks at values;>> 1, where Delta I-PC is the change in I-PC induced by magnetic;resonance conditions. Importantly, Delta I-PC and I-PC are of different;origin. The mechanism most likely responsible for this effect is the;spin-dependent formation of spinless bipolarons adjacent to negatively;charged deep traps, apparently induced in particular by oxygen centers,;to form trions. DOI: 10.1103/PhysRevB.86.235442;Cai, Min/A-2678-2014;1;0;0;0;1;1098-0121;WOS:000312832600016;;;J;Cho, Gil Young;Bardarson, Jens H.;Lu, Yuan-Ming;Moore, Joel E.;Superconductivity of doped Weyl semimetals: Finite-momentum pairing and;electronic analog of the He-3-A phase;PHYSICAL REVIEW B;86;21;214514;10.1103/PhysRevB.86.214514;DEC 26 2012;2012;We study superconducting states of doped inversion-symmetric Weyl;semimetals. Specifically, we consider a lattice model realizing a Weyl;semimetal with an inversion symmetry and study the superconducting;instability in the presence of a short-ranged attractive interaction.;With a phonon-mediated attractive interaction, we find two competing;states: a fully gapped finite-momentum Fulde-Ferrell-Larkin-Ovchinnikov;pairing state and a nodal even-parity pairing state. We show that, in a;BCS-type approximation, the finite-momentum pairing state is;energetically favored over the usual even-parity paired state and is;robust against weak disorder. Although energetically unfavorable, the;even-parity pairing state provides an electronic analog of the He-3-A;phase in that the nodes of the even-parity state carry nontrivial;winding numbers and therefore support a surface flat band. We briefly;discuss other possible superconducting states that may be realized in;Weyl semimetals. DOI: 10.1103/PhysRevB.86.214514;12;0;0;0;12;1098-0121;WOS:000312830400007;;;J;Duivenvoorden, Kasper;Quella, Thomas;Discriminating string order parameter for topological phases of gapped;SU(N) spin chains;PHYSICAL REVIEW B;86;23;235142;10.1103/PhysRevB.86.235142;DEC 26 2012;2012;One-dimensional gapped spin chains with symmetry PSU(N) = SU(N)/Z(N) are;known to possess N different topological phases. In this paper, we;introduce a nonlocal string order parameter which characterizes each of;these N phases unambiguously. Numerics confirm that our order parameter;allows one to extract a quantized topological invariant from a given;nondegenerate gapped ground state wave function. Discontinuous jumps in;the discrete topological order that arise when varying physical;couplings in the Hamiltonian may be used to detect quantum phase;transitions between different topological phases. DOI:;10.1103/PhysRevB.86.235142;Quella, Thomas/A-2630-2012;Quella, Thomas/0000-0002-5441-4124;6;0;0;0;6;1098-0121;WOS:000312832600004;;;J;Gao Xianlong;Chen, A-Hai;Tokatly, I. V.;Kurth, S.;Lattice density functional theory at finite temperature with strongly;density-dependent exchange-correlation potentials;PHYSICAL REVIEW B;86;23;235139;10.1103/PhysRevB.86.235139;DEC 26 2012;2012;The derivative discontinuity of the exchange-correlation (xc) energy at;an integer particle number is a property of the exact, unknown xc;functional of density functional theory (DFT) which is absent in many;popular local and semilocal approximations. In lattice DFT,;approximations exist which exhibit a discontinuity in the xc potential;at half-filling. However, due to convergence problems of the Kohn-Sham;(KS) self-consistency cycle, the use of these functionals is mostly;restricted to situations where the local density is away from;half-filling. Here a numerical scheme for the self-consistent solution;of the lattice KS Hamiltonian with a local xc potential with rapid (or;quasidiscontinuous) density dependence is suggested. The problem is;formulated in terms of finite-temperature DFT where the discontinuity in;the xc potential emerges naturally in the limit of zero temperature. A;simple parametrization is suggested for the xc potential of the uniform;one-dimensional (1D) Hubbard model at finite temperature which is;obtained from the solution of the thermodynamic Bethe ansatz. The;feasibility of the numerical scheme is demonstrated by application to a;model of fermionic atoms in a harmonic trap. The corresponding density;profile exhibits a plateau of integer occupation at low temperatures;which melts away for higher temperatures. DOI:;10.1103/PhysRevB.86.235139;Tokatly, Ilya/D-9554-2011; Chen, Ahai/D-6169-2013; Xianlong, Gao/K-8744-2012;Tokatly, Ilya/0000-0001-6288-0689; Xianlong, Gao/0000-0001-6914-3163;4;0;0;0;4;1098-0121;WOS:000312832600001;;;J;Hanson, George W.;Forati, Ebrahim;Linz, Whitney;Yakovlev, Alexander B.;Excitation of terahertz surface plasmons on graphene surfaces by an;elementary dipole and quantum emitter: Strong electrodynamic effect of;dielectric support;PHYSICAL REVIEW B;86;23;235440;10.1103/PhysRevB.86.235440;DEC 26 2012;2012;The excitation of transverse magnetic (TM) surface plasmons by a point;dipole in the vicinity of a multilayered graphene/dielectric system is;examined. It was previously shown that the surface plasmon (SP) excited;by a vertical dipole on an isolated graphene sheet exhibits a strong;excitation peak in the THz region; here we show that, in the presence of;a finite-thickness dielectric support layer such as SiO2, considerable;spectral content is transferred to a second (perturbed dielectric slab);mode, greatly decreasing and redshifting the excitation peak. The;presence of a Si half-space also diminishes the excitation strength, but;for graphene on top of SiO2-Si the presence of the SiO2 layer creates a;spacer restoring the excitation peak. A two-level quantum emitter is;also considered, where it is shown that the addition of a thin;dielectric support slab and SiO2-Si geometries affects the spontaneous;decay rate in a manner similar to the classical dipole SP excitation;peak. DOI: 10.1103/PhysRevB.86.235440;10;0;0;0;10;1098-0121;WOS:000312832600014;;;J;Hillier, N. J.;Foroozani, N.;Zocco, D. A.;Hamlin, J. J.;Baumbach, R. E.;Lum, I. K.;Maple, M. B.;Schilling, J. S.;Intrinsic dependence of T-c on hydrostatic (He-gas) pressure for;superconducting LaFePO, PrFePO, and NdFePO single crystals;PHYSICAL REVIEW B;86;21;214517;10.1103/PhysRevB.86.214517;DEC 26 2012;2012;Since their discovery in 2008, the Fe-based superconductors have;attracted a great deal of interest. Regrettably, themechanism(s);responsible for the superconductivity has yet to be unequivocally;identified. High pressure is an important variable since its application;moderates the pairing interaction. Thus far, the LnFePO (Ln = La, Pr,;Nd, Sm, Gd) family of superconductors has received relatively little;attention. Early high-pressure studies on LaFePO found that T-c;initially increased with pressure before passing through a maximum at;higher pressures. The present studies on both polycrystalline and;single-crystalline LaFePO, PrFePO, and NdFePO utilize the most;hydrostatic pressure medium available, i.e., dense He. Surprisingly, for;all samples, T-c is found to initially decrease rapidly with pressure at;the rate dT(c)/dP similar or equal to -2 to -3K/GPa. Less hydrostatic;pressure media thus appear to enhance the value of T-c in these;materials. These results give yet further evidence that the;superconducting state in Fe-based superconductors is extraordinarly;sensitive to lattice strain. DOI: 10.1103/PhysRevB.86.214517;Foroozani, Neda/H-2720-2013; Zocco, Diego/O-3440-2014;2;0;0;0;2;1098-0121;WOS:000312830400010;;;J;Hinuma, Yoyo;Oba, Fumiyasu;Kumagai, Yu;Tanaka, Isao;Ionization potentials of (112) and (11(2)over-bar) facet surfaces of;CuInSe2 and CuGaSe2;PHYSICAL REVIEW B;86;24;245433;10.1103/PhysRevB.86.245433;DEC 26 2012;2012;The ionization potentials of the faceted and nonfaceted (110) surfaces;of CuInSe2 (CIS) and CuGaSe2 (CGS), which are key components of;CuIn1-xGaxSe2 (CIGS) thin-film solar cells, are investigated using;first-principles calculations based on a hybrid Hartree-Fock density;functional theory approach. Slab models of the chalcopyrite (110);surface with both (112) and (11 (2) over bar) facets on each surface of;the slab are employed. Surface energy evaluations point out that two;types of faceted surfaces with point defects, namely a combination of;Cu-In (Cu-Ga) and In-Cu (Ga-Cu) antisites and a combination of Cu;vacancies and In-Cu (Ga-Cu) antisites, are the most stable depending on;the chemical potentials. The ionization potentials are evaluated with;two definitions: One highly sensitive to and the other less sensitive to;localized surface states. The latter varies by 0.4 eV in CIS and 0.5 eV;in CGS with the surface structure. The ionization potentials are reduced;by 0.2 eV for faceted surfaces with Cu-In (Cu-Ga) and In-Cu (Ga-Cu);antisites when the effects of the localized surface states are;considered. The values of both ionization potentials are similar between;CIS and CGS with a difference of about 0.1 eV for the most stable;surface structures. DOI: 10.1103/PhysRevB.86.245433;Kumagai, Yu/H-8104-2012; Tanaka, Isao/B-5941-2009; Oba, Fumiyasu/J-9723-2014;9;0;1;0;9;1098-0121;WOS:000312833400018;;;J;Hortamani, M.;Wiesendanger, R.;Role of hybridization in the Rashba splitting of noble metal monolayers;on W(110);PHYSICAL REVIEW B;86;23;235437;10.1103/PhysRevB.86.235437;DEC 26 2012;2012;In contradiction to the nature of the spin-orbit driven Rashba splitting;of surface states which increases with atomic number, Shikin et al.;[Phys. Rev. Lett. 100, 057601 (2008)] have observed that the size of the;splitting in Au overlayers on W(110) is smaller than for Ag overlayers.;In the framework of first-principle density functional theory, we have;studied the origin of the Rashba splitting at Au/Ag overlayers on the;W(110) surface. We show how the asymmetric behavior of the wave function;in the vicinity of the surface atom nucleus, in addition to the strength;of the nuclear potential gradient, plays a crucial role for the size of;the splitting. The influence of the electronic structure and spin;dependent hybridization on the Rashba splitting is discussed. The;asymmetric behavior of the surface wave function originates from the;surface-interface sp-d hybridization. We find that a spin dependent;hybridization in the Ag overlayer influences strongly the size of the;Rashba splitting. DOI: 10.1103/PhysRevB.86.235437;1;0;0;0;1;1098-0121;WOS:000312832600011;;;J;Hu, Xiang;Rueegg, Andreas;Fiete, Gregory A.;Topological phases in layered pyrochlore oxide thin films along the;[111] direction;PHYSICAL REVIEW B;86;23;235141;10.1103/PhysRevB.86.235141;DEC 26 2012;2012;We theoretically study a multiband Hubbard model of pyrochlore oxides of;the form A(2)B(2)O(7), where B is a heavy transition metal ion with;strong spin-orbit coupling, in a thin-film geometry orientated along the;[111] direction. Along this direction, the pyrochlore lattice consists;of alternating kagome and triangular lattice planes of B ions. We;consider a single kagome layer, a bilayer, and the two different;trilayers. As a function of the strength of the spin-orbit coupling, the;direct and indirect d-orbital hopping, and the band filling, we identify;a number of scenarios where a noninteracting time-reversal-invariant;Z(2) topological phase is expected and we suggest some candidate;materials. We study the interactions in the half-filled d shell within;Hartree-Fock theory and identify parameter regimes where a zero magnetic;field Chern insulator with Chern number +/- 1 can be found. The most;promising geometries for topological phases appear to be the bilayer;which supports both a Z(2) topological insulator and a Chern insulator,;and the triangular-kagome-triangular trilayer which supports a;relatively robust Chern insulator phase. DOI: 10.1103/PhysRevB.86.235141;Ruegg, Andreas/B-4498-2010;12;0;0;0;12;1098-0121;WOS:000312832600003;;;J;Janotti, A.;Bjaalie, L.;Gordon, L.;Van de Walle, C. G.;Controlling the density of the two-dimensional electron gas at the;SrTiO3/LaAlO3 interface;PHYSICAL REVIEW B;86;24;241108;10.1103/PhysRevB.86.241108;DEC 26 2012;2012;The polar discontinuity at the SrTiO3/LaAlO3 interface (STO/LAO) can in;principle sustain an electron density of 3.3 x 10(14) cm(-2) (0.5;electrons per unit cell). However, experimentally observed densities are;more than an order of magnitude lower. Using a combination of;first-principles and Schrodinger-Poisson simulations we show that the;problem lies in the asymmetric nature of the structure, i.e., the;inability to form a second LAO/STO interface that is a mirror image of;the first, or to fully passivate the LAO surface. Our insights apply to;oxide interfaces in general, explaining for instance why the;SrTiO3/GdTiO3 interface has been found to exhibit the full density of;3.3 x 10(14) cm(-2). DOI: 10.1103/PhysRevB.86.241108;Janotti, Anderson/F-1773-2011; Van de Walle, Chris/A-6623-2012;Janotti, Anderson/0000-0001-5028-8338; Van de Walle,;Chris/0000-0002-4212-5990;11;0;0;0;11;1098-0121;WOS:000312833400001;;;J;Kim, Changsoo;Jo, Euna;Kang, Byeongki;Kwon, Sangil;Lee, Soonchil;Shim, Jeong Hyun;Suzuki, Takehiko;Katsufuji, Takuro;Giant magnetic anisotropy in Mn3O4 investigated by Mn-55(2+) and;Mn-55(3+) NMR;PHYSICAL REVIEW B;86;22;224420;10.1103/PhysRevB.86.224420;DEC 26 2012;2012;In Mn3O4, the magnetization along the c axis is different from that;along the ab plane even in the strong field of 30 T. To investigate the;origin of the huge magnetic anisotropy, Mn2+ and Mn3+ nuclear magnetic;resonance spectra were measured in the 7-T magnetic field. The canting;angle of the magnetic moments was estimated for various directions of;field by rotating a single-crystalline Mn3O4 sample. One of the main;results is that Mn3+ moments lie nearly in the ab plane in the external;field perpendicular to the plane, meaning that the macroscopic magnetic;anisotropy of Mn3O4 originates from the magnetic anisotropy of Mn3+ in;the ab plane. The anisotropy field is estimated to be about 65 T. It is;obvious that the Yafet-Kittel structure made of Mn2+ and Mn3+ spins lies;in the ab plane due to this huge magnetic anisotropy, contrary to the;previous reports. By the least-squares fit of the canting angle data for;various field directions to a simple model, we obtained that J(BB) =;1.88J(AB) - 0.09 meV and K-A = -14.7J(AB) + 2.0 meV, where J(AB), J(BB),;and K-A are the exchange interaction constants between Mn2+ moments,;Mn2+ and Mn3+ moments, and an anisotropy constant of Mn2+, respectively.;DOI: 10.1103/PhysRevB.86.224420;Suzuki, Takehito/B-3038-2013; Lee, Soonchil/C-1963-2011;3;0;0;0;3;1098-0121;WOS:000312831800010;;;J;Kimber, Robin G. E.;Wright, Edward N.;O'Kane, Simon E. J.;Walker, Alison B.;Blakesley, James C.;Mesoscopic kinetic Monte Carlo modeling of organic photovoltaic device;characteristics;PHYSICAL REVIEW B;86;23;235206;10.1103/PhysRevB.86.235206;DEC 26 2012;2012;Measured mobility and current-voltage characteristics of single layer;and photovoltaic (PV) devices composed of;poly{9,9-dioctylfluorene-co-bis[N,N'-(4-butylphenyl)]bis(N,N'-phenyl-1,4;-phenylene)diamine} (PFB) and;poly(9,9-dioctylfluorene-co-benzothiadiazole) (F8BT) have been;reproduced by a mesoscopic model employing the kinetic Monte Carlo (KMC);approach. Our aim is to show how to avoid the uncertainties common in;electrical transport models arising from the need to fit a large number;of parameters when little information is available, for example, a;single current-voltage curve. Here, simulation parameters are derived;from a series of measurements using a self-consistent "building-blocks";approach, starting from data on the simplest systems. We found that site;energies show disorder and that correlations in the site energies and a;distribution of deep traps must be included in order to reproduce;measured charge mobility-field curves at low charge densities in bulk;PFB and F8BT. The parameter set from the mobility-field curves;reproduces the unipolar current in single layers of PFB and F8BT and;allows us to deduce charge injection barriers. Finally, by combining;these disorder descriptions and injection barriers with an optical;model, the external quantum efficiency and current densities of blend;and bilayer organic PV devices can be successfully reproduced across a;voltage range encompassing reverse and forward bias, with the;recombination rate the only parameter to be fitted, found to be 1 x;10(7) s(-1). These findings demonstrate an approach that removes some of;the arbitrariness present in transport models of organic devices, which;validates the KMC as an accurate description of organic optoelectronic;systems, and provides information on the microscopic origins of the;device behavior. DOI: 10.1103PhysRevB.86.235206;20;0;1;0;20;1098-0121;WOS:000312832600006;;;J;Kishine, Jun-ichiro;Bostrem, I. G.;Ovchinnikov, A. S.;Sinitsyn, Vl. E.;Coherent sliding dynamics and spin motive force driven by crossed;magnetic fields in a chiral helimagnet;PHYSICAL REVIEW B;86;21;214426;10.1103/PhysRevB.86.214426;DEC 26 2012;2012;We demonstrate that the chiral soliton lattice formed from a chiral;helimagnet exhibits a coherent sliding motion when a time-dependent;magnetic field is applied parallel to the helical axis, in addition to a;static field perpendicular to the helical axis. To describe the coherent;sliding, we use the collective coordinate method and a numerical;analysis. We also show that the time-dependent sliding velocity causes a;time-varying Berry cap which creates a spin motive force. A salient;feature of the chiral soliton lattice is the appearance of a strongly;amplified spin motive force which is directly proportional to the;macroscopic number of solitons (magnetic kinks). DOI:;10.1103/PhysRevB.86.214426;2;0;0;0;2;1098-0121;WOS:000312830400005;;;J;Kratzer, M.;Rubezhanska, M.;Prehal, C.;Beinik, I.;Kondratenko, S. V.;Kozyrev, Yu N.;Teichert, C.;Electrical and photovoltaic properties of self-assembled Ge nanodomes on;Si(001);PHYSICAL REVIEW B;86;24;245320;10.1103/PhysRevB.86.245320;DEC 26 2012;2012;SiGe nano-size islands play a key role in novel electronic and;optoelectronic devices. Therefore, the understanding of basic electrical;properties of individual nanoislands is crucial. Here, the electrical;and photovoltaic properties of individual self-assembled Ge nanodomes;(NDs) on Si(001) have been studied by conductive and photoconductive;atomic force microscopy (AFM). The transition areas between the {113};and {15 3 23} facets turned out to be most conductive whereas the {113};facets exhibit minimum conductivity, which is attributed to a local;increase in Si concentration. Local current-to-voltage measurements;revealed that the NDs show an ohmic resistance, which is in the M Omega;region and scales with the ND-substrate interface area. Upon;illumination by the AFM feedback laser at 860 nm, a photovoltage is;generated. This photovoltage originates in the p-i-n structure formed;between the p-type substrate, the Ge ND, and the n-type diamond AFM;probe. DOI: 10.1103/PhysRevB.86.245320;Teichert, Christian/F-1003-2013;3;0;0;0;3;1098-0121;WOS:000312833400010;;;J;Kudasov, Yu. B.;Maslov, D. A.;Frustration and charge order in LuFe2O4;PHYSICAL REVIEW B;86;21;214427;10.1103/PhysRevB.86.214427;DEC 26 2012;2012;The nature of a transition from two-to three-dimensional charge order;(2D-CO -> 3D-CO) in the multiferroic material LuFe2O4 is discussed. It;is shown that a high-temperature ordered phase of the Ising model with;antiferromagnetic or antiferroelectric (AF) interactions on a triangular;bilayer (W layer) is a dimer partially disordered AF (DPDA) state, which;is a generalization of a well-known partially disordered AF structure;for the triangular lattice. The DPDA state is stable against a variation;of interaction parameters in a wide range. It is demonstrated that the;transition of W layers to the DPDA state gives rise to the 2D-CO phase;in LuFe2O4 at a high temperature. DOI: 10.1103/PhysRevB.86.214427;1;1;0;0;1;1098-0121;WOS:000312830400006;;;J;Lee, Janghee;Park, Joonbum;Lee, Jae-Hyeong;Kim, Jun Sung;Lee, Hu-Jong;Gate-tuned differentiation of surface-conducting states in;Bi1.5Sb0.5Te1.7Se1.3 topological-insulator thin crystals;PHYSICAL REVIEW B;86;24;245321;10.1103/PhysRevB.86.245321;DEC 26 2012;2012;Using field-angle, temperature, and back-gate-voltage dependence of the;weak antilocalization (WAL) and universal conductance fluctuations of;thin Bi1.5Sb0.5Te1.7Se1.3 topological-insulator single crystals, in;combination with gate-tuned Hall resistivity measurements, we reliably;separated the surface conduction of the topological nature from both the;bulk conduction and topologically trivial surface conduction. We;minimized the bulk conduction in the crystals and back-gate tuned the;Fermi level to the topological bottom-surface band while keeping the top;surface insensitive to back-gating with the optimal crystal thickness of;similar to 100 nm. We argue that the WAL effect occurring by the;coherent diffusive motion of carriers in relatively low magnetic fields;is more essential than other transport tools such as the Shubnikov-de;Hass oscillations for confirming the conduction by the topologically;protected surface state. Our approach provides a highly coherent picture;of the surface transport properties of topological insulators and a;reliable means of investigating the fundamental topological nature of;surface conduction and possible quantum-device applications related to;momentum-locked spin polarization in surface states. DOI:;10.1103/PhysRevB.86.245321;Kim, Jun Sung/G-8861-2012; Lee, Janghee/E-7471-2013;Lee, Janghee/0000-0002-7398-9097;11;2;1;0;11;1098-0121;WOS:000312833400011;;;J;Lee, Soo-Yong;Lee, Hyun-Woo;Sim, H. -S.;Visibility recovery by strong interaction in an electronic Mach-Zehnder;interferometer;PHYSICAL REVIEW B;86;23;235444;10.1103/PhysRevB.86.235444;DEC 26 2012;2012;We study the evolution of a single-electron packet of Lorentzian shape;along an edge of the integer quantum Hall regime or in a Mach-Zehnder;interferometer, considering a capacitive Coulomb interaction and using a;bosonization approach. When the packet propagates along a chiral quantum;Hall edge, we find that its electron density profile becomes more;distorted from Lorentzian due to the generation of electron-hole;excitations, as the interaction strength increases yet stays in a;weak-interaction regime. However, as the interaction strength becomes;larger and enters a strong-interaction regime, the distortion becomes;weaker and eventually the Lorentzian packet shape is recovered. The;recovery of the packet shape leads to an interesting feature of the;interference visibility of the symmetric Mach-Zehnder interferometer;whose two arms have the same interaction strength. As the interaction;strength increases, the visibility decreases from the maximum value in;the weak-interaction regime and then increases to the maximum value in;the strong-interaction regime. We argue that this counterintuitive;result also occurs under other types of interactions. DOI:;10.1103/PhysRevB.86.235444;Lee, Hyun-Woo/B-8995-2008; Sim, Heung-Sun/C-1624-2011;Lee, Hyun-Woo/0000-0002-1648-8093;;1;0;0;0;1;1098-0121;WOS:000312832600018;;;J;Li, Qiuzi;Rossi, E.;Das Sarma, S.;Two-dimensional electronic transport on the surface of three-dimensional;topological insulators;PHYSICAL REVIEW B;86;23;235443;10.1103/PhysRevB.86.235443;DEC 26 2012;2012;We present a theoretical approach to describe the two-dimensional (2D);transport properties of the surfaces of three-dimensional topological;insulators (3DTIs) including disorder and phonon scattering effects. The;method that we present is able to take into account the effects of the;strong disorder-induced carrier density inhomogeneities that;characterize the ground state of the surfaces of 3DTIs, especially at;low doping, as recently shown experimentally. Due to the inhomogeneous;nature of the carrier density landscape, standard theoretical techniques;based on ensemble averaging over disorder assuming a spatially uniform;average carrier density are inadequate. Moreover the presence of strong;spatial potential and density fluctuations greatly enhances the effect;of thermally activated processes on the transport properties. The theory;presented is able to take into account all the effects due to the;disorder-induced inhomogeneities, momentum scattering by disorder, and;the effect of electron-phonon scattering processes. As a result the;developed theory is able to accurately describe the transport properties;of the surfaces of 3DTIs both at zero and finite temperature. DOI:;10.1103/PhysRevB.86.235443;Rossi, Enrico/K-2837-2012; Li, Qiuzi/F-6474-2011; Das Sarma, Sankar/B-2400-2009;Rossi, Enrico/0000-0002-2647-3610;;8;1;0;0;8;1098-0121;WOS:000312832600017;;;J;Liang, S. H.;Liu, D. P.;Tao, L. L.;Han, X. F.;Guo, Hong;Organic magnetic tunnel junctions: The role of metal-molecule interface;PHYSICAL REVIEW B;86;22;224419;10.1103/PhysRevB.86.224419;DEC 26 2012;2012;We report a first-principles theoretical investigation of spin-polarized;quantum transport in organic magnetic tunnel junctions (OMTJs) to;provide a microscopic understanding on the sign of the tunnel;magnetoresistance ratio (TMR). We consider two different OMTJs, formed;by sandwiching 1-stearic acid radicals (1-SAR) or 1,18-stearic diacid;radicals (1,18-SDR) between two Ni electrodes. Even though the main;difference between them is only on one of the Ni/molecule contacts, such;a structure difference is found to induce a significant sign change of;the TMR. The TMR is negative for 1-SAR at -19.6%, but is positive for;1,18-SDR at 13.7%. By investigating the concept of scattering density of;states (SDOS), we found that scattering processes of p electrons at the;Ni/molecule interface determines the sign of TMR. Based on spin;polarization of the SDOS, we extend the Julliere model to explain both;the sign and the value of the TMR qualitatively and semiquantitatively.;It is concluded that understanding spin-polarized quantum transport in;organic magnetic tunnel junction requires a comprehensive knowledge of;the electronic structures of the molecule, the metal electrode, and the;metal-molecule contacts. DOI: 10.1103/PhysRevB.86.224419;Guo, Hong/A-8084-2010;4;0;0;0;4;1098-0121;WOS:000312831800009;;;J;Liew, T. C. H.;Holographic arrays based on semiconductor microstructures;PHYSICAL REVIEW B;86;23;235314;10.1103/PhysRevB.86.235314;DEC 26 2012;2012;A concept of complex reflectivity modulation is proposed based on the;electrical control of quantum well exciton resonances that influence the;propagation of light in a layered semiconductor structure. By variation;in exciton energies, both the intensity and the phase of reflected light;can be fully controlled. Unlike previous devices, for full complex light;modulation, the design is based on a single device in a single;structure. The device allows complete 100% intensity contrast and allows;for the construction of small pixel sizes with fast response times. DOI:;10.1103/PhysRevB.86.235314;1;0;0;0;1;1098-0121;WOS:000312832600010;;;J;Lin, Chien-Hung;Sensarma, Rajdeep;Sengupta, K.;Sarma, S. Das;Quantum dynamics of disordered bosons in an optical lattice;PHYSICAL REVIEW B;86;21;214207;10.1103/PhysRevB.86.214207;DEC 26 2012;2012;We study the equilibrium and nonequilibrium properties of strongly;interacting bosons on a lattice in the presence of a random bounded;disorder potential. Using a Gutzwiller projected variational technique,;we study the equilibrium phase diagram of the disordered Bose-Hubbard;model and obtain the Mott insulator, Bose glass, and superfluid phases.;We also study the nonequilibrium response of the system under a periodic;temporal drive where, starting from the superfluid phase, the hopping;parameter is ramped down linearly in time, and back to its initial;value. We study the density of excitations created, the change in the;superfluid order parameter, and the energy pumped into the system in;this process as a function of the inverse ramp rate tau. For the clean;case the density of excitations goes to a constant, while the order;parameter and energy relax as 1/tau and 1/tau(2) respectively. With;disorder, the excitation density decays exponentially with t, with the;decay rate increasing with the disorder, to an asymptotic value;independent of the disorder. The energy and change in order parameter;also decrease as tau is increased. DOI: 10.1103/PhysRevB.86.214207;Das Sarma, Sankar/B-2400-2009;1;0;0;0;1;1098-0121;WOS:000312830400001;;;J;Luo, Yongkang;Bao, Jinke;Shen, Chenyi;Han, Jieke;Yang, Xiaojun;Lv, Chen;Li, Yuke;Jiao, Wenhe;Si, Bingqi;Feng, Chunmu;Dai, Jianhui;Cao, Guanghan;Xu, Zhu-An;Magnetism and crystalline electric field effect in ThCr2Si2-type;CeNi2As2;PHYSICAL REVIEW B;86;24;245130;10.1103/PhysRevB.86.245130;DEC 26 2012;2012;A millimeter-sized ThCr2Si2-type CeNi2As2 single crystal was synthesized;by the NaAs flux method and its physical properties were investigated by;magnetization, transport, and specific-heat measurements. In contrast to;the previously reported CaBe2Ge2-type CeNi2As2, the ThCr2Si2-type;CeNi2As2 is a highly anisotropic uniaxial antiferromagnet with the;transition temperature T-N = 4.8 K. A magnetic-field-induced spin-flop;transition was seen below T-N when the applied B is parallel to the c;axis, the magnetic easy axis, together with a huge frustration parameter;f = theta(W)/T-N. A pronounced Schottky-type anomaly in specific heat;was also found around 160 K, which could be attributed to the;crystalline electric field effect with the excitation energies being;fitted to Delta(1) = 325 K and Delta(2) = 520 K, respectively. Moreover,;the in-plane resistivity anisotropy and low-temperature x-ray;diffractions suggest that this compound is a rare example exhibiting a;possible structure distortion induced by the 4f-electron magnetic;frustration. DOI: 10.1103/PhysRevB.86.245130;Cao, Guanghan/C-4753-2008;5;0;0;0;5;1098-0121;WOS:000312833400008;;;J;Margaris, G.;Trohidou, K. N.;Iannotti, V.;Ausanio, G.;Lanotte, L.;Fiorani, D.;Magnetic behavior of dense nanoparticle assemblies: Interplay of;interparticle interactions and particle system morphology;PHYSICAL REVIEW B;86;21;214425;10.1103/PhysRevB.86.214425;DEC 26 2012;2012;The role of interparticle interactions and the morphology in the;magnetic behavior of dense assemblies of Fe nanoparticles with;concentration well above the percolation threshold has been studied;using the Monte Carlo simulations technique. The initial and;temperature-dependent magnetization curves have been calculated for;different conditions of the assembly morphology and the interparticle;interaction strengths. Our simulations showed that the strong;competition between the anisotropy and exchange energies in nonuniform;dense assemblies results in a frustration of the nanoparticles moments;coupling and creates plateaus and abrupt steps, which indicate a sudden,;collective spin reversal, for low and intermediate dipolar strengths. In;the case of strong dipolar interactions, the stepwise behavior becomes;smoother and gradually disappears. DOI: 10.1103/PhysRevB.86.214425;2;0;0;0;2;1098-0121;WOS:000312830400004;;;J;Marom, Noa;Caruso, Fabio;Ren, Xinguo;Hofmann, Oliver T.;Koerzdoerfer, Thomas;Chelikowsky, James R.;Rubio, Angel;Scheffler, Matthias;Rinke, Patrick;Benchmark of GW methods for azabenzenes;PHYSICAL REVIEW B;86;24;245127;10.1103/PhysRevB.86.245127;DEC 26 2012;2012;Many-body perturbation theory in the GW approximation is a useful method;for describing electronic properties associated with charged;excitations. A hierarchy of GW methods exists, starting from;non-self-consistent G(0)W(0), through partial self-consistency in the;eigenvalues and in the Green's function (scGW(0)), to fully;self-consistent GW (scGW). Here, we assess the performance of these;methods for benzene, pyridine, and the diazines. The quasiparticle;spectra are compared to photoemission spectroscopy (PES) experiments;with respect to all measured particle removal energies and the ordering;of the frontier orbitals. We find that the accuracy of the calculated;spectra does not match the expectations based on their level of;self-consistency. In particular, for certain starting points G(0)W(0);and scGW(0) provide spectra in better agreement with the PES than scGW.;DOI: 10.1103/PhysRevB.86.245127;Rinke, Patrick/A-4208-2010; Caruso, Fabio/D-5917-2013; Korzdorfer, Thomas/B-8266-2014; DONOSTIA INTERNATIONAL PHYSICS CTR., DIPC/C-3171-2014; Ren, Xinguo/N-4768-2014;Rinke, Patrick/0000-0002-5967-9965;;17;0;0;0;17;1098-0121;WOS:000312833400006;;;J;Marty, K.;Christianson, A. D.;dos Santos, A. M.;Sipos, B.;Matsubayashi, K.;Uwatoko, Y.;Fernandez-Baca, J. A.;Tulk, C. A.;Maier, T. A.;Sales, B. C.;Lumsden, M. D.;Effect of pressure on the neutron spin resonance in the unconventional;superconductor FeTe0.6Se0.4;PHYSICAL REVIEW B;86;22;220509;10.1103/PhysRevB.86.220509;DEC 26 2012;2012;We have carried out a pressure study of the unconventional;superconductor FeTe0.6Se0.4 up to 1.5 GPa by neutron scattering,;resistivity, and magnetic susceptibility measurements. The neutron spin;resonance energy and the superconducting transition temperature have;been extracted as a function of applied pressure in samples obtained;from the same crystal. Both increase with pressure up to amaximum at;approximate to 1.3 GPa, directly demonstrating a correlation between;these two fundamental parameters of unconventional superconductivity. A;comparison between the quantitative evolution of T-c and the resonance;energy as a function of applied pressure is also discussed. These;measurements serve to demonstrate the feasibility of using pressure;dependent inelastic neutron scattering to explore the relationship;between the resonance energy and T-c in unconventional superconductors.;DOI: 10.1103/PhysRevB.86.220509;Maier, Thomas/F-6759-2012; Fernandez-Baca, Jaime/C-3984-2014; Matsubayashi, Kazuyuki/F-7696-2013;3;0;0;0;3;1098-0121;WOS:000312831800004;;;J;Mesterhazy, D.;Berges, J.;von Smekal, L.;Effect of short-range interactions on the quantum critical behavior of;spinless fermions on the honeycomb lattice;PHYSICAL REVIEW B;86;24;245431;10.1103/PhysRevB.86.245431;DEC 26 2012;2012;We present a functional renormalization group investigation of an;Euclidean three-dimensional matrix Yukawa model with U(N) symmetry,;which describes N = 2 Weyl fermions that effectively interact via a;short-range repulsive interaction. This system relates to an effective;low-energy theory of spinless electrons on the honeycomb lattice and can;be seen as a simple model for suspended graphene. We find a continuous;phase transition characterized by large anomalous dimensions for the;fermions and composite degrees of freedom. The critical exponents define;a new universality class distinct from Gross-Neveu type models,;typically considered in this context. DOI: 10.1103/PhysRevB.86.245431;7;0;0;0;7;1098-0121;WOS:000312833400016;;;J;Mizuguchi, Yoshikazu;Fujihisa, Hiroshi;Gotoh, Yoshito;Suzuki, Katsuhiro;Usui, Hidetomo;Kuroki, Kazuhiko;Demura, Satoshi;Takano, Yoshihiko;Izawa, Hiroki;Miura, Osuke;BiS2-based layered superconductor Bi4O4S3;PHYSICAL REVIEW B;86;22;220510;10.1103/PhysRevB.86.220510;DEC 26 2012;2012;Exotic superconductivity has often been discovered in materials with a;layered (two-dimensional) crystal structure. The low dimensionality can;affect the electronic structure and can realize high transition;temperatures (T-c) and/or unconventional superconductivity mechanisms.;We show superconductivity in a new bismuth-oxysulfide compound Bi4O4S3.;Crystal structure analysis indicates that this superconductor has a;layered structure composed of a stacking of spacer layers and BiS2;layers. Band calculation suggests that the Fermi level for Bi4O4S3 is;just on the peak position of the partial density of states of the Bi 6p;orbital within the BiS2 layer. The BiS2 layer will be a basic structure;which provides another universality class for a layered superconducting;family, and this opens up a new field in the physics and chemistry of;low-dimensional superconductors. DOI: 10.1103/PhysRevB.86.220510;68;0;3;0;70;1098-0121;WOS:000312831800005;;;J;Mutiso, Rose M.;Sherrott, Michelle C.;Li, Ju;Winey, Karen I.;Simulations and generalized model of the effect of filler size;dispersity on electrical percolation in rod networks;PHYSICAL REVIEW B;86;21;214306;10.1103/PhysRevB.86.214306;DEC 26 2012;2012;We present a three-dimensional simulation of electrical conductivity in;isotropic, polydisperse rod networks from which we determine the;percolation threshold (phi(c)). Existing analytical models that account;for size dispersity are formulated in the slender-rod limit and are less;accurate for predicting phi(c) in composites with rods of modest L/D.;Using empirical approximations from our simulation data, we generalized;the excluded volume percolation model to account for both finite L/D and;size dispersity, providing a solution for phi(c) of polydisperse rod;networks that is quantitatively accurate across the entire L/D range.;DOI: 10.1103/PhysRevB.86.214306;Li, Ju/A-2993-2008;Li, Ju/0000-0002-7841-8058;12;0;0;0;12;1098-0121;WOS:000312830400002;;;J;Nishikawa, Y.;Hewson, A. C.;Hund's rule coupling in models of magnetic impurities and quantum dots;PHYSICAL REVIEW B;86;24;245131;10.1103/PhysRevB.86.245131;DEC 26 2012;2012;Studies of the effects of the Hund's rule coupling J(H) in multiple;orbit impurities or quantum dots using different models have led to;quite different predictions for the Kondo temperature T-K as a function;of J(H). We show that the differences depend on whether or not the;models conserve orbital angular momentum about the impurity site. Using;numerical renormalization-group calculations, we deduce the renormalized;parameters for the Fermi liquid regime and show that, despite the;differences between the models, the low-energy fixed point in the;strong-correlation regime is universal, with a single energy scale T-K;and just two renormalized interaction parameters, a renormalized single;orbital term, (U) over tilde = 4T(K), and a renormalized Hund's rule;term, (J) over tilde (H) = 8T(K)/3. DOI: 10.1103/PhysRevB.86.245131;3;0;0;0;3;1098-0121;WOS:000312833400009;;;J;Oliveira, G. N. P.;Pereira, A. M.;Lopes, A. M. L.;Amaral, J. S.;dos Santos, A. M.;Ren, Y.;Mendonca, T. M.;Sousa, C. T.;Amaral, V. S.;Correia, J. G.;Araujo, J. P.;Dynamic off-centering of Cr3+ ions and short-range magneto-electric;clusters in CdCr2S4;PHYSICAL REVIEW B;86;22;224418;10.1103/PhysRevB.86.224418;DEC 26 2012;2012;The cubic spinel CdCr2S4 gained recently a vivid interest, given the;relevance of relaxor-like dielectric behavior in its paramagnetic phase.;By a singular combination of local probe techniques, namely, pair;distribution function and perturbed angular correlation, we firmly;establish that the Cr ion plays the central key role on this exotic;phenomenon, namely, through a dynamic off-centering displacement of its;coordination sphere. We further show that this off-centering of the;magnetic Cr ion gives rise to a peculiar entanglement between the polar;and magnetic degrees of freedom, stabilizing, in the paramagnetic phase,;short-range magnetic clusters, clearly seen in ultralow-field;susceptibility measurements. Moreover, the Landau theory is here used to;demonstrate that a linear coupling between the magnetic and polar order;parameters is sufficient to justify the appearance of magnetic cluster;in the paramagnetic phase of this compound. These results open insights;on the hotly debated magnetic and polar interaction, setting a step;forward in the reinterpretation of the coupling of different physical;degrees of freedom. DOI: 10.1103/PhysRevB.86.224418;Universidade Aveiro, Departamento Fisica/E-4128-2013; Amaral, Vitor/A-1570-2009; Pereira, Andre/B-4648-2008; Amaral, Joao/C-6354-2009; Lopes, Armandina/I-5066-2013; Martins Correia, Joao Guilherme/J-5473-2013; Esteves de Araujo, Joao Pedro/D-4389-2011;Amaral, Vitor/0000-0003-3359-7133; Pereira, Andre/0000-0002-8587-262X;;Amaral, Joao/0000-0003-0488-9372; Lopes, Armandina/0000-0001-8776-0894;;Martins Correia, Joao Guilherme/0000-0002-8848-0824; Esteves de Araujo,;Joao Pedro/0000-0002-1646-7727;7;1;0;0;7;1098-0121;WOS:000312831800008;;;J;Olund, Christopher T.;Zhao, Erhai;Current-phase relation for Josephson effect through helical metal;PHYSICAL REVIEW B;86;21;214515;10.1103/PhysRevB.86.214515;DEC 26 2012;2012;Josephson junctions fabricated on the surface of three-dimensional;topological insulators ( TI) show a few unusual properties distinct from;conventional Josephson junctions. In these devices, the Josephson;coupling and the supercurrent are mediated by helical metal, the;two-dimensional surface state of the TI. A line junction of this kind is;known to support Andreev bound states at zero energy for phase bias pi;and, consequently, the so-called fractional ac Josephson effect.;Motivated by recent experiments on TI-based Josephson junctions, here we;describe a convenient algorithm to compute the bound-state spectrum and;the current-phase relation for junctions of finite length and width. We;present analytical results for the bound-state spectrum, and discuss the;dependence of the current-phase relation on the length and width of the;junction, the chemical potential of the helical metal, and temperature.;A thorough understanding of the current-phase relation may help in;designing topological superconducting qubits and manipulating Majorana;fermions. DOI: 10.1103/PhysRevB.86.214515;Zhao, Erhai/B-3463-2010;Zhao, Erhai/0000-0001-8954-1601;5;0;0;0;5;1098-0121;WOS:000312830400008;;;J;Pakdel, Sahar;Miri, MirFaez;Faraday rotation and circular dichroism spectra of gold and silver;nanoparticle aggregates;PHYSICAL REVIEW B;86;23;235445;10.1103/PhysRevB.86.235445;DEC 26 2012;2012;We study the magneto-optical response of noble metal nanoparticle;clusters. We consider the interaction between the light-induced dipoles;of particles. In the presence of a magnetic field, the simplest achiral;cluster, a dimer, exhibits circular dichroism (CD). The CD of a dimer;depends on the directions of the magnetic field and the light wave;vector. The CD of a populous cluster weakly depends on the magnetic;field. Upon scattering from the cluster, an incident linearly polarized;light with polarization azimuth. becomes elliptically polarized. The;polarization azimuth rotation and ellipticity angle variation are;sinusoidal functions of 2 phi.. The anisotropy and the chirality of the;cluster control the amplitude and offset of these sinusoidal functions.;The Faraday rotation and Faraday ellipticity are also sinusoidal;functions of 2 phi. Near the surface plasmon frequency, Faraday rotation;and Faraday ellipticity increase. DOI: 10.1103/PhysRevB.86.235445;6;0;0;0;6;1098-0121;WOS:000312832600019;;;J;Pedersen, Jesper Goor;Brynildsen, Mikkel H.;Cornean, Horia D.;Pedersen, Thomas Garm;Optical Hall conductivity in bulk and nanostructured graphene beyond the;Dirac approximation;PHYSICAL REVIEW B;86;23;235438;10.1103/PhysRevB.86.235438;DEC 26 2012;2012;We present a perturbative method for calculating the optical Hall;conductivity in a tight-binding framework based on the Kubo formalism.;The method involves diagonalization only of the Hamiltonian in absence;of the magnetic field, and thus avoids the computational problems;usually arising due to the huge magnetic unit cells required to maintain;translational invariance in the presence of a Peierls phase. A recipe;for applying the method to numerical calculations of the magneto-optical;response is presented. We apply the formalism to the case of ordinary;and gapped graphene in a next-nearest-neighbor tight-binding model as;well as graphene antidot lattices. In both cases, we find unique;signatures in the Hall response that are not captured in continuum;(Dirac) approximations. These include a nonzero optical Hall;conductivity even when the chemical potential is at the Dirac point;energy. Numerical results suggest that this effect should be measurable;in experiments. DOI: 10.1103/PhysRevB.86.235438;Goor Pedersen, Jesper/C-3965-2008; Cornean, Horia/A-4064-2008;Goor Pedersen, Jesper/0000-0002-8411-240X; Cornean,;Horia/0000-0003-2700-8785;1;0;0;0;1;1098-0121;WOS:000312832600012;;;J;Rodriguez, Alejandro W.;Reid, M. T. Homer;Johnson, Steven G.;Fluctuating-surface-current formulation of radiative heat transfer for;arbitrary geometries;PHYSICAL REVIEW B;86;22;220302;10.1103/PhysRevB.86.220302;DEC 26 2012;2012;We describe a fluctuating-surface-current formulation of radiative heat;transfer, applicable to arbitrary geometries in both the near and far;field, that directly exploits efficient and sophisticated techniques;from the boundary-element method. We validate as well as extend previous;results for spheres and cylinders, and also compute the heat transfer in;a more complicated geometry consisting of two interlocked rings.;Finally, we demonstrate how this method can be adapted to compute the;spatial distribution of heat flux on the surfaces of the bodies. DOI:;10.1103/PhysRevB.86.220302;13;0;0;0;13;1098-0121;WOS:000312831800001;;;J;Saidi, Wissam A.;Lee, Minyoung;Li, Liang;Zhou, Guangwen;McGaughey, Alan J. H.;Ab initio atomistic thermodynamics study of the early stages of Cu(100);oxidation;PHYSICAL REVIEW B;86;24;245429;10.1103/PhysRevB.86.245429;DEC 26 2012;2012;Using an ab initio atomistic thermodynamics framework, we identify the;stable surface structures during the early stages of Cu(100) oxidation;at finite temperature and pressure conditions. We predict the clean;surface, the 0.25 monolayer oxygen-covered surface, and the missing-row;reconstruction as thermodynamically stable structures in range of;100-1000 K and 10(-15)-10(5) atm, consistent with previous experimental;and theoretical results. We also investigate the thermodynamic;stabilities of possible precursors to Cu2O formation including;missing-row reconstruction structures that include extra on-or;subsurface oxygen atoms as well as boundary phases formed from two;missing-row nanodomains. While these structures are not predicted to be;thermodynamically stable for oxygen chemical potentials below the;nucleation limit of Cu2O, they are likely to exist due to kinetic;hindrance. DOI: 10.1103/PhysRevB.86.245429;Li, Liang/C-5782-2012;7;0;0;0;7;1098-0121;WOS:000312833400014;;;J;Sakuma, R.;Miyake, T.;Aryasetiawan, F.;Self-energy and spectral function of Ce within the GW approximation;PHYSICAL REVIEW B;86;24;245126;10.1103/PhysRevB.86.245126;DEC 26 2012;2012;To investigate how far the GW approximation can treat systems with;strong on-site correlations, we perform calculations of the;self-energies and spectral functions of alpha-and gamma-Ce within the GW;approximation. For this strongly correlated material, the screened;interaction exhibits a complex and rich structure which is attributed to;strong particle-hole transitions involving localized 4f states. This;structure in the screened interaction is carried over to the;self-energy, which in turn yields spectral functions with multiple;peaks. A satellite at around 5 eV above the Fermi level is formed, which;is reminiscent of the experimentally observed upper Hubbard band, while;the experimentally observed peak structure below the Fermi level at -2;eV and disappearance of the quasiparticle peak in the. phase are not;reproduced. DOI: 10.1103/PhysRevB.86.245126;6;0;0;0;6;1098-0121;WOS:000312833400005;;;J;Schulze, T. P.;Smereka, P.;Kinetic Monte Carlo simulation of heteroepitaxial growth: Wetting;layers, quantum dots, capping, and nanorings;PHYSICAL REVIEW B;86;23;235313;10.1103/PhysRevB.86.235313;DEC 26 2012;2012;A new kinetic Monte Carlo algorithm that efficiently accounts for;elastic strain is presented and applied to study various phenomena that;take place during heteroepitaxial growth. For example, it is;demonstrated that faceted quantum dots occur via the layer-by-layer;nucleation of prepyramids on top of a critical layer with faceting;occurring by anisotropic surface diffusion. It is also shown that the;dot growth is enhanced by the depletion of the critical layer which;leaves behind a wetting layer. Capping simulations provide insight into;the mechanisms behind dot erosion and ring formation. The algorithm used;for the simulations presented here is based on the observation that;adatom and dimer motion is essentially decoupled from the elastic field.;This is exploited by decomposing the film into two parts: the weakly;bonded portion and the strongly bonded portion. The weakly bonded;portion is taken to evolve independent of the elastic field. In this way;the elastic field need only be updated infrequently. Extensive;validation reveals that there is little loss of fidelity but the;algorithm is fifteen to twenty times faster. DOI:;10.1103/PhysRevB.86.235313;Smereka, Peter/F-9974-2013;7;0;0;0;7;1098-0121;WOS:000312832600009;;;J;Shukla, D. K.;Francoual, S.;Skaugen, A.;von Zimmermann, M.;Walker, H. C.;Bezmaternykh, L. N.;Gudim, I. A.;Temerov, V. L.;Strempfer, J.;Ho and Fe magnetic ordering in multiferroic HoFe3(BO3)(4);PHYSICAL REVIEW B;86;22;224421;10.1103/PhysRevB.86.224421;DEC 26 2012;2012;Resonant and nonresonant x-ray scattering studies on HoFe3(BO3)(4);reveal competing magnetic ordering of Ho and Fe moments. Temperature and;x-ray polarization dependent measurements employed at the Ho L-3 edge;directly reveal a spiral spin order of the induced Ho moments in the ab;plane propagating along the c axis, a screw-type magnetic structure. At;about 22.5 K the Fe spins are observed to rotate within the basal plane;inducing spontaneous electric polarization, P. Components of P in the;basal plane and along the c axis can be scaled with the separated;magnetic x-ray scattering intensities of the Fe and Ho magnetic;sublattices, respectively. DOI: 10.1103/PhysRevB.86.224421;Walker, Helen/C-4201-2011; Shukla, Dinesh /D-2232-2012;Walker, Helen/0000-0002-7859-5388;;1;0;0;0;1;1098-0121;WOS:000312831800011;;;J;Smolenski, T.;Kazimierczuk, T.;Goryca, M.;Jakubczyk, T.;Klopotowski, L.;Cywinski, L.;Wojnar, P.;Golnik, A.;Kossacki, P.;In-plane radiative recombination channel of a dark exciton in;self-assembled quantum dots;PHYSICAL REVIEW B;86;24;241305;10.1103/PhysRevB.86.241305;DEC 26 2012;2012;We demonstrate evidence for a radiative recombination channel of dark;excitons in self-assembled quantum dots. This channel is due to a light;hole admixture in the excitonic ground state. Its presence was;experimentally confirmed by a direct observation of the dark exciton;photoluminescence from a cleaved edge of the sample. The;polarization-resolved measurements revealed that a photon created from;the dark exciton recombination is emitted only in the direction;perpendicular to the growth axis. Strong correlation between the dark;exciton lifetime and the in-plane hole g factor enabled us to show that;the radiative recombination is a dominant decay channel of the dark;excitons in CdTe/ZnTe quantum dots. DOI: 10.1103/PhysRevB.86.241305;Cywinski, Lukasz/E-5348-2010;8;0;0;0;8;1098-0121;WOS:000312833400004;;;J;Tahara, H.;Bamba, M.;Ogawa, Y.;Minami, F.;Observation of a dynamical mixing process of exciton-polaritons in a;ZnSe epitaxial layer using four-wave mixing spectroscopy;PHYSICAL REVIEW B;86;23;235208;10.1103/PhysRevB.86.235208;DEC 26 2012;2012;We have observed a coherent spectral change of exciton-polaritons in a;ZnSe epitaxial layer through spectrally resolved four-wave mixing;spectroscopy. The spectra exhibit an exchange of the dominant peak;position between the different polariton branches depending on the delay;time of the second pulse. This result reflects the initial creation;process of polaritons with many-body interactions. The calculation based;on the exciton-photon microscopic model reveals that the spectral change;occurs due to the four-particle correlations between heavy-hole and;light-hole excitons; it clearly shows the dynamical mixing process of;exciton-polaritons in the initial creation. DOI:;10.1103/PhysRevB.86.235208;1;0;0;0;1;1098-0121;WOS:000312832600008;;;J;Tomio, Yuh;Suzuura, Hidekatsu;Ando, Tsuneya;Cross-polarized excitons in double-wall carbon nanotubes;PHYSICAL REVIEW B;86;24;245428;10.1103/PhysRevB.86.245428;DEC 26 2012;2012;Optical absorption in double-wall carbon nanotubes for light polarized;perpendicular to the tube axis is studied by taking into account exciton;effects and depolarization effects within an effective-mass theory. The;Coulomb interaction is suppressed by not only intrawall screening;effects but also interwall screening, leading to the reduction of;exciton binding energies and band gaps. When two tubes are both;semiconducting, a clear exciton peak still survives even under;depolarization effects for the outer tube, but the exciton peak of the;inner tube has an asymmetric Fano line shape due to the coupling with;continuum states of the outer tube. When a double-wall nanotube contains;a metallic tube, either inner or outer, the exciton of the;semiconducting tube loses its peak structure under depolarization;effects. DOI: 10.1103/PhysRevB.86.245428;SUZUURA, Hidekatsu/F-7605-2012;0;0;0;0;0;1098-0121;WOS:000312833400013;;;J;Tsvelik, A. M.;Model description of the supersolid state in YBa2Cu3O6+x;PHYSICAL REVIEW B;86;22;220508;10.1103/PhysRevB.86.220508;DEC 26 2012;2012;I employ a semiphenomenological model introduced by Tsvelik and Chubukov;[Phys. Rev. Lett. 98, 237001 (2007)] to describe the state with;coexisting superconductivity (SC) and charge density wave (CDW) recently;discovered in YBa2Cu3O6+x (YBCO). The SC and the CDW order parameter;fields are united in a single pseudospin and can be rotated into each;other. It is suggested that disorder creates isolated pseudospins which;become centers of inelastic scattering of electrons. It is suggested;that this scattering is responsible for the logarithmic upturn in the;resistivity rho(T) similar to - ln T observed at low doping. DOI:;10.1103/PhysRevB.86.220508;0;0;0;0;0;1098-0121;WOS:000312831800003;;;J;Uebelacker, Stefan;Honerkamp, Carsten;Self-energy feedback and frequency-dependent interactions in the;functional renormalization group flow for the two-dimensional Hubbard;model;PHYSICAL REVIEW B;86;23;235140;10.1103/PhysRevB.86.235140;DEC 26 2012;2012;We study the impact of including self-energy feedback and;frequency-dependent interactions on functional renormalization group;flows for the two-dimensional Hubbard model on the square lattice at;weak to moderate coupling strength. Previous studies using the;functional renormalization group had ignored these two ingredients to a;large extent, and the question is how much the flows to strong coupling;analyzed by this method depend on these approximations. Here we include;the imaginary part of the self-energy on the imaginary axis and the;frequency dependence of the running interactions on a frequency mesh of;10 frequencies on the Matsubara axis. We find that (i) the critical;scales for the flows to strong coupling are shifted downward by a factor;that is usually of order 1 but can get larger in specific parameter;regions, and (ii) that the leading channel in this flow does not depend;strongly on whether self-energies and frequency dependence is included;or not. We also discuss the main features of the self-energies;developing during the flows. DOI: 10.1103/PhysRevB.86.235140;5;0;0;0;5;1098-0121;WOS:000312832600002;;;J;Velizhanin, Kirill A.;Shahbazyan, Tigran V.;Long-range plasmon-assisted energy transfer over doped graphene;PHYSICAL REVIEW B;86;24;245432;10.1103/PhysRevB.86.245432;DEC 26 2012;2012;We demonstrate that longitudinal plasmons in doped monolayer graphene;can mediate highly efficient long-range energy transfer between nearby;fluorophores, e.g., semiconductor quantum dots. We derive a simple;analytical expression for the energy transfer efficiency that;incorporates all the essential processes involved. We perform numerical;calculations of the transfer efficiency for a pair of PbSe quantum dots;near graphene for interfluorophore distances of up to 1 mu m and find;that the plasmon-assisted long-range energy transfer can be enhanced by;up to a factor of similar to 10(4) relative to the Forster's transfer in;vacuum.;Velizhanin, Kirill/C-4835-2008;3;0;0;0;3;1098-0121;WOS:000312833400017;;;J;Vivo, Edoardo;Nicoli, Matteo;Engler, Martin;Michely, Thomas;Vazquez, Luis;Cuerno, Rodolfo;Strong anisotropy in surface kinetic roughening: Analysis and;experiments;PHYSICAL REVIEW B;86;24;245427;10.1103/PhysRevB.86.245427;DEC 26 2012;2012;We report an experimental assessment of surface kinetic roughening;properties that are anisotropic in space. Working for two specific;instances of silicon surfaces irradiated by ion-beam sputtering under;diverse conditions (with and without concurrent metallic impurity;codeposition), we verify the predictions and consistency of a recently;proposed scaling Ansatz for surface observables like the two-dimensional;(2D) height power spectral density (PSD). In contrast with other;formulations, this ansatz is naturally tailored to the study of;two-dimensional surfaces, and allows us to readily explore the;implications of anisotropic scaling for other observables, such as;real-space correlation functions and PSD functions for 1D profiles of;the surface. Our results confirm that there are indeed actual;experimental systems whose kinetic roughening is strongly anisotropic,;as consistently described by this scaling analysis. In the light of our;work, some types of experimental measurements are seen to be more;affected by issues like finite space resolution effects, etc. that may;hinder a clear-cut assessment of strongly anisotropic scaling in the;present and other practical contexts. DOI: 10.1103/PhysRevB.86.245427;VAZQUEZ, LUIS/A-1272-2009;VAZQUEZ, LUIS/0000-0001-6220-2810;2;0;0;0;2;1098-0121;WOS:000312833400012;;;J;Weiler, S.;Ulhaq, A.;Ulrich, S. M.;Richter, D.;Jetter, M.;Michler, P.;Roy, C.;Hughes, S.;Phonon-assisted incoherent excitation of a quantum dot and its emission;properties;PHYSICAL REVIEW B;86;24;241304;10.1103/PhysRevB.86.241304;DEC 26 2012;2012;We present a detailed study of a phonon-assisted incoherent excitation;mechanism of single quantum dots. A spectrally detuned continuous-wave;laser couples to a quantum dot transition by mediation of acoustic;phonons, whereby excitation efficiencies up to 20% with respect to;strictly resonant excitation can be achieved at T = 9 K.;Laser-frequency-dependent analysis of the quantum dot intensity;distinctly maps the underlying acoustic phonon bath and shows good;agreement with our polaron master equation theory. An analytical;solution for the steady-state exciton density (which is proportional to;the photoluminescence) is introduced which predicts a broadband;incoherent coupling process mediated by electron-phonon scattering.;Moreover, we investigate the coherence properties of the emitted light;with respect to strictly resonant versus phonon-assisted excitation,;revealing the importance of narrow band triggered emitter-state;initialization for possible applications of a quantum dot exciton system;as a qubit. DOI: 10.1103/PhysRevB.86.241304;Jetter, Michael/I-8270-2012;8;0;0;0;8;1098-0121;WOS:000312833400003;;;J;Zhang, L.;Schwertfager, N.;Cheiwchanchamnangij, T.;Lin, X.;Glans-Suzuki, P. -A.;Piper, L. F. J.;Limpijumnong, S.;Luo, Y.;Zhu, J. F.;Lambrecht, W. R. L.;Guo, J. -H.;Electronic band structure of graphene from resonant soft x-ray;spectroscopy: The role of core-hole effects;PHYSICAL REVIEW B;86;24;245430;10.1103/PhysRevB.86.245430;DEC 26 2012;2012;The electronic structure and band dispersion of graphene on SiO2 have;been studied by x-ray-absorption spectroscopy (XAS), x-ray-emission;spectroscopy (XES), and resonant inelastic x-ray scattering (RIXS).;Using first-principles calculations, it is found that the core-hole;effect is dramatic in XAS while it has negligible consequences in XES.;Strong dispersive features, due to the conservation of crystal momentum,;are observed in RIXS spectra. Simulated RIXS spectra based on the;Kramers-Heisenberg theory agree well with the experimental results,;provided a shift between RIXS and XAS due to the absence or presence of;the core hole is taken into account. DOI: 10.1103/PhysRevB.86.245430;Luo, Yi/B-1449-2009; Zhu, Junfa/E-4020-2010;Luo, Yi/0000-0003-0007-0394; Zhu, Junfa/0000-0003-0888-4261;10;1;0;0;10;1098-0121;WOS:000312833400015;;;J;Zhang, Steven S. -L.;Zhang, Shufeng;Spin convertance at magnetic interfaces;PHYSICAL REVIEW B;86;21;214424;10.1103/PhysRevB.86.214424;DEC 26 2012;2012;Exchange interaction between conduction electrons and magnetic moments;at magnetic interfaces leads to mutual conversion between spin current;and magnon current. We introduce a concept of spin convertance which;quantitatively measures magnon current induced by spin accumulation and;spin current created by magnon accumulation at a magnetic interface. We;predict several phenomena on charge and spin drag across a magnetic;insulator spacer for a few layered structures. DOI:;10.1103/PhysRevB.86.214424;Zhang, Shufeng/G-7833-2011;10;1;0;0;10;1098-0121;WOS:000312830400003;;;J;Nakhmedov, Enver;Alekperov, Oktay;Oppermann, Reinhold;Effects of randomness on the critical temperature in;quasi-two-dimensional organic superconductors;PHYSICAL REVIEW B;86;21;214513;10.1103/PhysRevB.86.214513;DEC 21 2012;2012;The effects of nonmagnetic disorder on the critical temperature T-c of;organic weak-linked layered superconductors with singlet in-plane;pairing are considered. A randomness in the interlayer Josephson;coupling is shown to destroy phase coherence between the layers, and T-c;suppresses smoothly in a large extent of the disorder strength.;Nevertheless, the disorder of arbitrarily high strength cannot destroy;completely the superconducting phase. The obtained quasilinear decrease;of the critical temperature with increasing disorder strength is in good;agreement with experimental measurements. DOI:;10.1103/PhysRevB.86.214513;0;0;0;0;0;1098-0121;WOS:000312693200004;;;J;Sanson, Andrea;Giarola, Marco;Rossi, Barbara;Mariotto, Gino;Cazzanelli, Enzo;Speghini, Adolfo;Vibrational dynamics of single-crystal YVO4 studied by polarized;micro-Raman spectroscopy and ab initio calculations;PHYSICAL REVIEW B;86;21;214305;10.1103/PhysRevB.86.214305;DEC 21 2012;2012;The vibrational properties of yttrium orthovanadate (YVO4) single;crystals, with tetragonal zircon structure, have been investigated by;means of polarized micro-Raman spectroscopy and ab initio calculations.;Raman spectra were taken at different polarizations and orientations;carefully set by the use of a micromanipulator, so that all of the;twelve Raman-active modes, expected on the basis of the group theory,;were selected in turn and definitively assigned in wave number and;symmetry. In particular the E-g(4) mode, assigned incorrectly in;previous literature, has been observed at 387 cm(-1). Moreover, the very;weak E-g(1) mode, peaked at about 137 cm(-1), was clearly observed only;under some excitation wavelengths, and its peculiar Raman excitation;profile was measured within a wide region of the visible. Finally, ab;initio calculations based on density-functional theory have been;performed in order to determine both Raman and infrared vibrational;modes and to corroborate the experimental results. The rather good;agreement between computational and experimental frequencies is slightly;better than in previous computational works and supports our;experimental symmetry assignments. DOI: 10.1103/PhysRevB.86.214305;Mariotto, Gino/B-1629-2013; Speghini, Adolfo/G-3474-2012;1;0;0;0;1;1098-0121;WOS:000312693200002;;;J;Thomson, R. I.;Jain, P.;Cheetham, A. K.;Carpenter, M. A.;Elastic relaxation behavior, magnetoelastic coupling, and order-disorder;processes in multiferroic metal-organic frameworks;PHYSICAL REVIEW B;86;21;214304;10.1103/PhysRevB.86.214304;DEC 21 2012;2012;Resonant ultrasound spectroscopy has been used to analyze magnetic and;ferroelectric phase transitions in two multiferroic metal-organic;frameworks (MOFs) with perovskite-like structures;[(CH3)(2)NH2]M(HCOO)(3)(DMA[M] F, M = Co, Mn). Elastic and anelastic;anomalies are evident at both the magnetic ordering temperature and;above the higher temperature ferroelectric transition. Broadening of;peaks above the ferroelectric transition implies the diminishing;presence of a dynamic process and is caused by an ordering of the;central DMA ([(CH3)(2)NH2](+)) cation which ultimately causes a change;in the hydrogen bond conformation and provides the driving mechanism for;ferroelectricity. This is unlike traditional mechanisms for;ferroelectricity in perovskites which typically involve ionic;displacements. A comparison of these mechanisms is made by drawing on;examples from the literature. Small elastic stiffening at low;temperatures suggests weak magnetoelastic coupling in these materials.;This behavior is consistent with other magnetic systems studied,;although there is no change in Q(-1) associated with magnetic;order-disorder, and is the first evidence of magnetoelastic coupling in;MOFs. This could help lead to the tailoring of MOFs with a larger;coupling leading to magnetoelectric coupling via a common strain;mechanism. DOI: 10.1103/PhysRevB.86.214304;Jain, Prashant/C-8135-2009;15;4;0;0;15;1098-0121;WOS:000312693200001;;;J;Yin, Junqi;Eisenbach, Markus;Nicholson, Don M.;Rusanu, Aurelian;
6:8:3:23 Investigating the magnetovolume effect in isotropic body-centered-cubic iron using spin-lattice dynamics simulations
DOI:10.1063/1.4893469 JN:AIP ADVANCES PY:2014 TC:0 AU: Chui, C. P.;Zhou, Yan;
6:8:3:24 Vibrational properties of NixPt1-x alloys: An understanding from ab initio calculations
DOI:10.1063/1.3553390 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:1 AU: Dutta, Biswanath;Ghosh, Subhradip;
6:8:3:25 Spin-lattice dynamics model for magnon-phonon-electron heat transfer on a million atom scale
DOI:10.1063/1.3673859 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:4 AU: Ma, Pui-Wai;Dudarev, S. L.;Woo, C. H.;
6:8:3:26 Effect of longitudinal degree of freedom of magnetic moment in body-centered-cubic iron
DOI:10.1063/1.4794136 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:0 AU: Yin, Junqi;Eisenbach, Markus;Nicholson, Don M.;Rusanu, Aurelian;
6:8:3:27 Phonon-magnon interactions in body centered cubic iron: A combined molecular and spin dynamics study
DOI:10.1063/1.4863488 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:2 AU: Perera, Dilina;Landau, David P.;Nicholson, Don M.;Stocks, G. Malcolm;Eisenbach, Markus;Yin, Junqi;Brown, Gregory;
6:8:3:28 Spin-wave method for the total energy of paramagnetic state (vol 85, 174407, 2012)
DOI:10.1103/PhysRevB.89.179901 JN:PHYSICAL REVIEW B PY:2014 TC:0 AU: Ruban, A. V.;Razumovskiy, V. I.;Koermann, F.;
6:8:4:1 First-principles thermodynamics from phonon and Debye model: Application to Ni and Ni3Al
DOI:10.1016/j.commatsci.2009.12.006 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2010 TC:90 AU: Shang, Shun-Li;Wang, Yi;Kim, DongEung;Liu, Zi-Kui;
6:8:4:2 First-principles calculations of pure elements: Equations of state and elastic stiffness constants
DOI:10.1016/j.commatsci.2010.03.041 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2010 TC:74 AU: Shang, S. L.;Saengdeejing, A.;Mei, Z. G.;Kim, D. E.;Zhang, H.;Ganeshan, S.;Wang, Y.;Liu, Z. K.;
6:8:4:3 Thermodynamic fluctuations between magnetic states from first-principles phonon calculations: The case of bcc Fe
DOI:10.1103/PhysRevB.82.014425 JN:PHYSICAL REVIEW B PY:2010 TC:19 AU: Shang, Shun-Li;Wang, Yi;Liu, Zi-Kui;
6:8:4:4 Structural, vibrational, and thermodynamic properties of ordered and disordered Ni1-xPtx alloys from first-principles calculations
DOI:10.1103/PhysRevB.83.144204 JN:PHYSICAL REVIEW B PY:2011 TC:16 AU: Shang, S. L.;Wang, Y.;Kim, D. E.;Zacherl, C. L.;Du, Y.;Liu, Z. K.;
6:8:4:5 Magnetic thermodynamics of fcc Ni from first-principles partition function approach
DOI:10.1063/1.3524480 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:17 AU: Shang, Shun-Li;Saal, James E.;Mei, Zhi-Gang;Wang, Yi;Liu, Zi-Kui;
6:8:4:6 Atomistic simulation for the size effect on the mechanical properties of Ni/Ni3Al nanowire
DOI:10.1063/1.4820257 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:3 AU: Yang, Xiyuan;Xiao, Shifang;Hu, Wangyu;
6:8:4:7 Effects of pressure and vibration on the thermal decomposition of cubic Ti1-xAlxN, Ti1-xZrxN, and Zr1-xAlxN coatings: a first-principles study
DOI:10.1007/s10853-011-6223-z JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:5 AU: Wang, Aijun;Shang, Shun-Li;Du, Yong;Chen, Li;Wang, Jianchuan;Liu, Zi-Kui;
6:8:4:8 Effects of alloying elements and temperature on the elastic properties of dilute Ni-base superalloys from first-principles calculations
DOI:10.1063/1.4749406 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:7 AU: Shang, S. L.;Kim, D. E.;Zacherl, C. L.;Wang, Y.;Du, Y.;Liu, Z. K.;
6:8:4:9 Thermodynamic stability of Co-Al-W L1(2) gamma '
DOI:10.1016/j.actamat.2013.01.004 JN:ACTA MATERIALIA PY:2013 TC:9 AU: Saal, James E.;Wolverton, C.;
6:8:4:10 Integrating computational modeling and first-principles calculations to predict stacking fault energy of dilute multicomponent Ni-base alloys
DOI:10.1016/j.commatsci.2014.04.040 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:0 AU: Shang, ShunLi;Wang, Yi;Du, Yong;Tschopp, Mart A.;Liu, Zi-Kui;
6:8:4:11 Low energy structures of lithium-ion battery materials Li(MnxNixCo1-2x)O-2 revealed by first-principles calculations
DOI:10.1063/1.4817763 JN:APPLIED PHYSICS LETTERS PY:2013 TC:4 AU: Shang, ShunLi;Wang, Yi;Wang, William Y.;Fang, Huazhi;Liu, Zi-Kui;
6:8:4:12 Phonon and thermodynamic properties of Al-Mn compounds: A first-principles study
DOI:10.1016/j.commatsci.2011.02.015 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:8 AU: Shang, S. L.;Wang, J.;Wang, Y.;Du, Y.;Liu, Z. K.;
6:8:4:13 Effects of alloying elements on thermal expansions of gamma-Ni and gamma '-Ni3Al by first-principles calculations
DOI:10.1016/j.actamat.2011.12.005 JN:ACTA MATERIALIA PY:2012 TC:10 AU: Kim, DongEung;Shang, Shun-Li;Liu, Zi-Kui;
6:8:4:14 Computational modeling of effects of alloying elements on elastic coefficients
DOI:10.1016/j.scriptamat.2010.03.049 JN:SCRIPTA MATERIALIA PY:2010 TC:11 AU: Liu, Z. K.;Zhang, H.;Ganeshan, S.;Wang, Y.;Mathaudhu, S. N.;
6:8:4:15 Bulk modulus prediction of austenitic stainless steel using a hybrid GA-ANN as a data mining tools
DOI:10.1016/j.commatsci.2013.04.058 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:1 AU: Benyelloul, Kamel;Aourag, Hafid;
6:8:4:16 Elastic constants of austenitic stainless steel: Investigation by the first-principles calculations and the artificial neural network approach
DOI:10.1016/j.commatsci.2012.09.005 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:4 AU: Benyelloul, Kamel;Aourag, Hafid;
6:8:4:17 Assessment of a low-cost protocol for an ab initio based prediction of the mixing enthalpy at elevated temperatures: The Fe-Mo system
DOI:10.1103/PhysRevB.83.184201 JN:PHYSICAL REVIEW B PY:2011 TC:7 AU: Lejaeghere, Kurt;Cottenier, Stefaan;Claessens, Serge;Waroquier, Michel;Van Speybroeck, Veronique;
6:8:4:18 Defects in boron carbide: First-principles calculations and CALPHAD modeling
DOI:10.1016/j.actamat.2012.09.029 JN:ACTA MATERIALIA PY:2012 TC:2 AU: Saengdeejing, Arkapol;Saal, James E.;Manga, Venkateswara Rao;Liu, Zi-Kui;
6:8:4:19 Effects of spin structures on phonons in BaFe2As2
DOI:10.1063/1.3464166 JN:APPLIED PHYSICS LETTERS PY:2010 TC:1 AU: Wang, Y.;Shang, S. L.;Hui, X. D.;Chen, L. Q.;Liu, Z. K.;
6:8:4:20 Stability domains of Nb(CN) during the carburization/nitridation of metallic niobium
DOI:10.1016/j.ceramint.2014.01.034 JN:CERAMICS INTERNATIONAL PY:2014 TC:0 AU: Kwon, Hanjung;Kim, Jiwoong;Kim, Wonbaek;
6:8:4:21 Designing cold rolled IF steel sheets with optimized tensile properties using ANN and GA
DOI:10.1016/j.commatsci.2011.03.007 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:8 AU: Mohanty, Itishree;Bhattacharjee, Debashish;Datta, Shubhabrata;
6:8:4:22 Crystal Structure and Nuclear Density Distribution of LiCo1/3Ni1/3Mn1/3O2 Analyzed by Rietveld/Maximum Entropy Method
DOI:10.1111/j.1551-2916.2010.03688.x JN:JOURNAL OF THE AMERICAN CERAMIC SOCIETY PY:2010 TC:7 AU: Igawa, Naoki;Taguchi, Tomitsugu;Fukazawa, Hiroshi;Yamauchi, Hiroki;Utsumi, Wataru;
6:8:4:23 Ni3N compound layers produced by gaseous nitriding of nickel substrates; layer growth, macrostresses and intrinsic elastic anisotropy
DOI:10.1557/jmr.2012.40 JN:JOURNAL OF MATERIALS RESEARCH PY:2012 TC:4 AU: Leineweber, Andreas;Lienert, Franziska;Shang, Shun Li;Liu, Zi-Kui;Mittemeijer, Eric Jan;
6:8:4:24 Experimental Determination and Thermodynamic Assessment of Phase Equilibria in the Co-Mo System
DOI:10.2320/matertrans.M2012149 JN:MATERIALS TRANSACTIONS PY:2012 TC:5 AU: Oikawa, K.;Kattner, U. R.;Sato, J.;Omori, T.;Jiang, M.;Anzai, K.;Ishida, K.;
6:8:4:25 Elastic, electronic and optical properties of baddeleyite TiO2 by first-principles
DOI:10.1016/j.mssp.2014.09.001 JN:MATERIALS SCIENCE IN SEMICONDUCTOR PROCESSING PY:2014 TC:1 AU: Mahmood, Tariq;Cao, Chuanbao;Zafar, Abrar Ahmed;Hussain, Talab;Ahmed, Maqsood;Saeed, M. A.;Usman, Zahid;Khan, Waheed S.;
6:8:5:1 Magnetic Bond-Order Potential for Iron
DOI:10.1103/PhysRevLett.106.246402 JN:PHYSICAL REVIEW LETTERS PY:2011 TC:27 AU: Mrovec, M.;Nguyen-Manh, D.;Elsaesser, C.;Gumbsch, P.;
6:8:5:2 Bond order potentials for fracture, wear, and plasticity
DOI:10.1557/mrs.2012.94 JN:MRS BULLETIN PY:2012 TC:15 AU: Pastewka, Lars;Mrovec, Matous;Moseler, Michael;Gumbsch, Peter;
6:8:5:3 DFT-based tight-binding modeling of iron-carbon
DOI:10.1103/PhysRevB.86.155115 JN:PHYSICAL REVIEW B PY:2012 TC:5 AU: Hatcher, Nicholas;Madsen, Georg K. H.;Drautz, Ralf;
6:8:5:4 Parameterization of tight-binding models from density functional theory calculations
DOI:10.1103/PhysRevB.84.155119 JN:PHYSICAL REVIEW B PY:2011 TC:14 AU: Urban, A.;Reese, M.;Mrovec, M.;Elsaesser, C.;Meyer, B.;
6:8:5:5 Screened empirical bond-order potentials for Si-C
DOI:10.1103/PhysRevB.87.205410 JN:PHYSICAL REVIEW B PY:2013 TC:5 AU: Pastewka, Lars;Klemenz, Andreas;Gumbsch, Peter;Moseler, Michael;
6:8:5:6 Development of orthogonal tight-binding models for Ti-C and Ti-N systems
DOI:10.1103/PhysRevB.84.155120 JN:PHYSICAL REVIEW B PY:2011 TC:9 AU: Margine, E. R.;Kolmogorov, A. N.;Reese, M.;Mrovec, M.;Elsaesser, C.;Meyer, B.;Drautz, R.;Pettifor, D. G.;
6:8:5:7 Valence-dependent analytic bond-order potential for magnetic transition metals
DOI:10.1103/PhysRevB.84.214114 JN:PHYSICAL REVIEW B PY:2011 TC:10 AU: Drautz, Ralf;Pettifor, D. G.;
6:8:5:8 TCP phase predictions in Ni-based superalloys: Structure maps revisited
DOI:10.1016/j.actamat.2010.10.013 JN:ACTA MATERIALIA PY:2011 TC:30 AU: Seiser, B.;Drautz, R.;Pettifor, D. G.;
6:8:5:9 Electronic structure and total energy of interstitial hydrogen in iron: Tight-binding models
DOI:10.1103/PhysRevB.82.235125 JN:PHYSICAL REVIEW B PY:2010 TC:9 AU: Paxton, A. T.;Elsaesser, C.;
6:8:5:10 Optimized orthogonal tight-binding basis: Application to iron
DOI:10.1103/PhysRevB.83.184119 JN:PHYSICAL REVIEW B PY:2011 TC:16 AU: Madsen, Georg K. H.;McEniry, Eunan J.;Drautz, Ralf;
6:8:5:11 Analysis of a carbon dimer bound to a vacancy in iron using density functional theory and a tight binding model
DOI:10.1103/PhysRevB.87.224110 JN:PHYSICAL REVIEW B PY:2013 TC:3 AU: Paxton, A. T.;Elsaesser, C.;
6:8:5:12 Theory of structural trends within 4d and 5d transition metal topologically close-packed phases
DOI:10.1103/PhysRevB.83.224116 JN:PHYSICAL REVIEW B PY:2011 TC:18 AU: Seiser, B.;Hammerschmidt, T.;Kolmogorov, A. N.;Drautz, R.;Pettifor, D. G.;
6:8:5:13 Magnetic analytic bond-order potential for modeling the different phases of Mn at zero Kelvin
DOI:10.1103/PhysRevB.89.134102 JN:PHYSICAL REVIEW B PY:2014 TC:0 AU: Drain, John F.;Drautz, Ralf;Pettifor, D. G.;
6:8:5:14 Size versus electronic factors in transition metal carbide and TCP phase stability
DOI:10.1080/14786435.2013.771824 JN:PHILOSOPHICAL MAGAZINE PY:2013 TC:2 AU: Pettifor, D. G.;Seiser, B.;Margine, E. R.;Kolmogorov, A. N.;Drautz, R.;
6:8:5:15 Analytic bond-order potential expansion of recursion-based methods
DOI:10.1103/PhysRevB.87.094105 JN:PHYSICAL REVIEW B PY:2013 TC:5 AU: Seiser, Bernhard;Pettifor, D. G.;Drautz, Ralf;
6:8:5:16 Competition between crystal-field, overlap, and three-center contributions in H-N eigenspectra
DOI:10.1103/PhysRevB.89.235134 JN:PHYSICAL REVIEW B PY:2014 TC:0 AU: Margine, E. R.;Pettifor, D. G.;
6:8:5:17 First-principles-based phase diagrams and thermodynamic properties of TCP phases in Re-X systems (X = Ta, V, W)
DOI:10.1016/j.commatsci.2013.08.051 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:8 AU: Palumbo, Mauro;Fries, Suzana G.;Hammerschmidt, Thomas;Abe, Taichi;Crivello, Jean-Claude;Breidi, Abed Al Hasan;Joubert, Jean-Marc;Drautz, Ralf;
6:8:5:18 Comparative study of tight-binding and ab initio electronic structure calculations focused on magnetic anisotropy in ordered CoPt alloy
DOI:10.1016/j.jmmm.2013.12.040 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2014 TC:2 AU: Zemen, J.;Masek, J.;Kucera, J.;Mol, J. A.;Motloch, P.;Jungwirth, T.;
6:8:5:19 First-principles approach to phase stability for a ternary sigma phase: Application to Cr-Ni-Re
DOI:10.1103/PhysRevB.83.144109 JN:PHYSICAL REVIEW B PY:2011 TC:7 AU: Palumbo, Mauro;Abe, Taichi;Fries, Suzana G.;Pasturel, Alain;
6:8:5:20 Nano scale sliding friction phenomena at the interface of diamond-like carbon and tungsten
DOI:10.1016/j.actamat.2013.12.029 JN:ACTA MATERIALIA PY:2014 TC:2 AU: Stoyanov, Pantcho;Romero, Pedro A.;Merz, Rolf;Kopnarski, Michael;Stricker, Markus;Stemmer, Priska;Dienwiebel, Martin;Moseler, Michael;
6:8:5:21 Electron microscopic evidence for a tribologically induced phase transformation as the origin of wear in diamond
DOI:10.1063/1.4865742 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Zhang, Xinyi;Schneider, Reinhard;Mueller, Erich;Mee, Manuel;Meier, Sven;Gumbsch, Peter;Gerthsen, Dagmar;
6:8:5:22 Approximating densities of states with gaps
DOI:10.1103/PhysRevB.82.205114 JN:PHYSICAL REVIEW B PY:2010 TC:1 AU: Haydock, Roger;Nex, C. M. M.;
6:8:5:23 Analysis of polished polycrystalline diamond using dual beam focused ion beam microscopy
DOI:10.1080/14786435.2012.657706 JN:PHILOSOPHICAL MAGAZINE PY:2012 TC:4 AU: Tang, Fengzai;Chen, Yiqing;Zhang, Liangchi;
6:8:6:1 Novel features of radiation-induced segregation and radiation-induced precipitation in austenitic stainless steels
DOI:10.1016/j.actamat.2010.10.055 JN:ACTA MATERIALIA PY:2011 TC:37 AU: Jiao, Z.;Was, G. S.;
6:8:6:2 Coarse-grained kinetic Monte Carlo simulation of diffusion in alloys
DOI:10.1103/PhysRevB.88.134207 JN:PHYSICAL REVIEW B PY:2013 TC:1 AU: Garnier, Thomas;Nastar, Maylise;
6:8:6:3 Solute drag by vacancies in body-centered cubic alloys
DOI:10.1103/PhysRevB.88.134201 JN:PHYSICAL REVIEW B PY:2013 TC:5 AU: Garnier, Thomas;Nastar, Maylise;Bellon, Pascal;Trinkle, Dallas R.;
6:8:6:4 Quantitative modeling of solute drag by vacancies in face-centered-cubic alloys
DOI:10.1103/PhysRevB.89.144202 JN:PHYSICAL REVIEW B PY:2014 TC:3 AU: Garnier, Thomas;Trinkle, Dallas R.;Nastar, Maylise;Bellon, Pascal;
6:8:6:5 Interaction between vacancies and interstitial solutes (C, N, and O) in alpha-Fe: From electronic structure to thermodynamics
DOI:10.1103/PhysRevB.90.054112 JN:PHYSICAL REVIEW B PY:2014 TC:0 AU: Barouh, Caroline;Schuler, Thomas;Fu, Chu-Chun;Nastar, Maylise;
6:8:6:6 Influence of cluster mobility on Cu precipitation in alpha-Fe: A cluster dynamics modeling
DOI:10.1016/j.actamat.2010.02.014 JN:ACTA MATERIALIA PY:2010 TC:19 AU: Jourdan, T.;Soisson, F.;Clouet, E.;Barbu, A.;
6:8:6:7 Effects of coherency stress and vacancy sources/sinks on interdiffusion across coherent multilayer interfaces - Part I: Theory
DOI:10.1016/j.actamat.2012.01.021 JN:ACTA MATERIALIA PY:2012 TC:5 AU: Wan, Haibo;Shen, Yao;Jin, Xuejun;Chen, Youxing;Sun, Jian;
6:8:6:8 Stress-induced anisotropic diffusion in alloys: Complex Si solute flow near a dislocation core in Ni
DOI:10.1103/PhysRevB.88.134108 JN:PHYSICAL REVIEW B PY:2013 TC:5 AU: Garnier, Thomas;Manga, Venkateswara R.;Trinkle, Dallas R.;Nastar, Maylise;Bellon, Pascal;
6:8:6:9 Atomistic simulations of the decomposition kinetics in Fe-Cr alloys: Influence of magnetism
DOI:10.1016/j.actamat.2014.03.019 JN:ACTA MATERIALIA PY:2014 TC:2 AU: Senninger, Oriane;Martinez, Enrique;Soisson, Frederic;Nastar, Maylise;Brechet, Yves;
6:8:6:10 Simulation of alloy thermodynamics: From an atomic to a mesoscale Hamiltonian
DOI:10.1103/PhysRevB.86.054103 JN:PHYSICAL REVIEW B PY:2012 TC:4 AU: Garnier, T.;Finel, A.;Le Bouar, Y.;Nastar, M.;
6:8:6:11 Diffusion of Si impurities in Ni under stress: A first-principles study
DOI:10.1103/PhysRevB.90.024306 JN:PHYSICAL REVIEW B PY:2014 TC:0 AU: Garnier, Thomas;Manga, Venkateswara R.;Bellon, Pascal;Trinkle, Dallas R.;
6:8:6:12 Comparison of atomistic and elasticity approaches for carbon diffusion near line defects in alpha-iron
DOI:10.1016/j.actamat.2011.07.048 JN:ACTA MATERIALIA PY:2011 TC:13 AU: Veiga, R. G. A.;Perez, M.;Becquart, C. S.;Clouet, E.;Domain, C.;
6:8:6:13 Effect of the stress field of an edge dislocation on carbon diffusion in alpha-iron: Coupling molecular statics and atomistic kinetic Monte Carlo
DOI:10.1103/PhysRevB.82.054103 JN:PHYSICAL REVIEW B PY:2010 TC:10 AU: Veiga, R. G. A.;Perez, M.;Becquart, C. S.;Domain, C.;Garruchet, S.;
6:8:6:14 Atomistic modeling of phase transformations: Point-defect concentrations and the time-scale problem
DOI:10.1103/PhysRevB.86.220102 JN:PHYSICAL REVIEW B PY:2012 TC:2 AU: ;FN Thomson Reuters Web of Scienceâ„¢;1.0;J;Aizin, Gregory R.;Dyer, Gregory C.;Transmission line theory of collective plasma excitations in periodic;two-dimensional electron systems: Finite plasmonic crystals and Tamm;states;PHYSICAL REVIEW B;86;23;235316;10.1103/PhysRevB.86.235316;DEC 28 2012;2012;We present a comprehensive theory of the one-dimensional plasmonic;crystal formed in the grating-gated two-dimensional electron gas (2DEG);in semiconductor heterostructures. To describe collective plasma;excitations in the 2DEG, we develop a generalized transmission line;theoretical formalism consistent with the plasma hydrodynamic model. We;then apply this formalism to analyze the plasmonic spectra of 2DEG;systems with steplike periodic changes of electron density, gate;screening, or both. We show that in a periodically modulated 2DEG, a;plasmonic crystal is formed, and we derive closed-form analytical;expressions describing its energy band spectrum for both infinite and;finite size crystals. Our results demonstrate a nonmonotonic dependence;of the plasmonic band gap width on the electron density modulation. At;so-called transparency points, where the plasmon propagates through the;periodic 2DEG in a resonant manner, the plasmonic band gaps vanish. In;semi-infinite plasmonic crystals, we demonstrate the formation of;plasmonic Tamm states and analytically derive their energy dispersion;and spatial localization. Finally, we present detailed numerical;analysis of the plasmonic band structure of a finite four-period;plasmonic crystal terminated either by an ohmic contact or by an;infinite barrier on each side. We trace the evolution of the plasmonic;band spectrum, including the Tamm states, with changing electron density;modulation and analyze the boundary conditions necessary for formation;of the Tamm states. We also analyze interaction between the Tamm states;formed at the opposite edges of the short length plasmonic crystal. The;validity of our theoretical approach was confirmed in experimental;studies of plasmonic crystals in short, modulated plasmonic cavities;[Dyer et al., Phys. Rev. Lett. 109, 126803 (2012)], which demonstrated;excellent quantitative agreement between theory and experiment.;DOI:10.1103/PhysRevB.86.235316;9;0;0;0;9;1098-0121;WOS:000312833200005;;;J;Arakawa, Tomonori;Tanaka, Takahiro;Chida, Kensaku;Matsuo, Sadashige;Nishihara, Yoshitaka;Chiba, Daichi;Kobayashi, Kensuke;Ono, Teruo;Fukushima, Akio;Yuasa, Shinji;Low-frequency and shot noises in CoFeB/MgO/CoFeB magnetic tunneling;junctions;PHYSICAL REVIEW B;86;22;224423;10.1103/PhysRevB.86.224423;DEC 28 2012;2012;The low-frequency and shot noises in spin-valve CoFeB/MgO/CoFeB magnetic;tunneling junctions were studied at low temperature. The measured 1/f;noise around the magnetic hysteresis loops of the free layer indicates;that the main origin of the 1/f noise is the magnetic fluctuation, which;is discussed in terms of a fluctuation-dissipation relation. Random;telegraph noise (RTN) is observed to be symmetrically enhanced in the;hysteresis loop with regard to the two magnetic configurations. We found;that this enhancement is caused by the fluctuation between two magnetic;states in the free layer. Although the 1/f noise is almost independent;of the magnetic configuration, the RTN is enhanced in the antiparallel;configuration. These findings indicate the presence of spin-dependent;activation of RTN. Shot noise reveals the spin-dependent coherent;tunneling process via a crystalline MgO barrier. DOI:;10.1103/PhysRevB.86.224423;Kobayashi, Kensuke/E-5404-2010;Kobayashi, Kensuke/0000-0001-7072-5945;4;0;0;0;4;1098-0121;WOS:000312832400004;;;J;Cucchiara, J.;Le Gall, S.;Fullerton, E. E.;Kim, J. -V.;Ravelosona, D.;Henry, Y.;Katine, J. A.;Kent, A. D.;Bedau, D.;Gopman, D.;Mangin, S.;Domain wall motion in nanopillar spin-valves with perpendicular;anisotropy driven by spin-transfer torques;PHYSICAL REVIEW B;86;21;214429;10.1103/PhysRevB.86.214429;DEC 28 2012;2012;Using transport measurements and micromagnetic simulations we have;investigated the domain wall motion driven by spin-transfer torques in;all-perpendicular hexagonal nanopillar spin-valves. In particular, we;probe domain walls nucleated in the free layer of the spin-valves, which;are then pinned in the devices. We have determined both the;field-current state diagrams for the domain-wall state and the thermally;activated dynamics of the nucleation and depinning processes. We show;that the nucleation process is well-described by a modified Neel-Brown;model taking into account the spin-transfer torque, whereas the;depinning process is independent of the current. This is confirmed by an;analytical calculation which shows that spin-torques have no effect on;the Arrhenius escape rate associated with thermally activated domain;wall depinning in this geometry. Furthermore, micromagnetic simulations;indicate that spin-transfer only weakly affects the domain wall motion,;but instead modifies the inner domain wall structure. DOI:;10.1103/PhysRevB.86.214429;Kim, Joo-Von/B-3672-2008; Fullerton, Eric/H-8445-2013;Kim, Joo-Von/0000-0002-3849-649X; Fullerton, Eric/0000-0002-4725-9509;0;0;0;0;0;1098-0121;WOS:000312830800003;;;J;Fernandez-Dominguez, A. I.;Zhang, P.;Luo, Y.;Maier, S. A.;Garcia-Vidal, F. J.;Pendry, J. B.;Transformation-optics insight into nonlocal effects in separated;nanowires;PHYSICAL REVIEW B;86;24;241110;10.1103/PhysRevB.86.241110;DEC 28 2012;2012;We present a transformation-optics approach which sheds analytical;insight into the impact that spatial dispersion has on the optical;response of separated dimers of metallic nanowires. We show that;nonlocal effects are apparent at interparticle distances one order of;magnitude larger than the longitudinal plasmon decay length, which;coincides with the spatial regime where electron tunneling phenomena;occur. Our method also clarifies the interplay between nonlocal and;radiation effects taking place in the nanostructure, yielding the dimer;dimensions that optimize its light harvesting capabilities. DOI:;10.1103/PhysRevB.86.241110;Luo, Yu/C-7799-2009; Fernandez-Dominguez, Antonio I./C-4448-2013; Garcia-Vidal, Francisco /B-8280-2011;Luo, Yu/0000-0003-2925-682X; Fernandez-Dominguez, Antonio;I./0000-0002-8082-395X; Garcia-Vidal, Francisco /0000-0003-4354-0982;10;0;0;0;10;1098-0121;WOS:000312834100001;;;J;Gati, E.;Koehler, S.;Guterding, D.;Wolf, B.;Knoener, S.;Ran, S.;Bud'ko, S. L.;Canfield, P. C.;Lang, M.;Hydrostatic-pressure tuning of magnetic, nonmagnetic, and;superconducting states in annealed Ca(Fe1-xCox)(2)As-2;PHYSICAL REVIEW B;86;22;220511;10.1103/PhysRevB.86.220511;DEC 28 2012;2012;We report on measurements of the magnetic susceptibility and electrical;resistance under He-gas pressure on single crystals of;Ca(Fe1-xCox)(2)As-2. We find that for properly heat-treated crystals;with modest Co concentration, x = 0.028, the salient ground states;associated with iron-arsenide superconductors, i.e.,;orthorhombic/antiferromagnetic (o/afm), superconducting, and nonmagnetic;collapsed-tetragonal (cT) states can be accessed all in one sample with;reasonably small and truly hydrostatic pressure. This is possible owing;to the extreme sensitivity of the o/afm (for T <= T-s,T-N) and;superconducting (T <= T-c) states against variation of pressure,;disclosing pressure coefficients of dT(s,N)/dP = -(1100 +/- 50) K/GPa;and dT(c)/dP = -(60 +/- 3) K/GPa, respectively. Systematic;investigations of the various phase transitions and ground states via;pressure tuning revealed no coexistence of bulk superconductivity (sc);with the o/afm state which we link to the strongly first-order character;of the corresponding structural/magnetic transition in this compound.;Our results, together with literature results, indicate that preserving;fluctuations associated with the o/afm transition to low enough;temperatures is vital for sc to form. DOI: 10.1103/PhysRevB.86.220511;Canfield, Paul/H-2698-2014;14;0;0;0;14;1098-0121;WOS:000312832400001;;;J;Hakobyan, Ye.;Tadmor, E. B.;James, R. D.;Objective quasicontinuum approach for rod problems;PHYSICAL REVIEW B;86;24;245435;10.1103/PhysRevB.86.245435;DEC 28 2012;2012;An objective quasicontinuum (OQC) method is developed for simulating;rodlike systems that can be represented as a combination of locally;objective structures. An objective structure (OS) is one for which a;group of atoms, called a "fundamental domain" (FD), is repeated using;specific rules of translation and rotation to build a more complex;structure. An objective Cauchy-Born rule defines the kinematics of the;OS atoms in terms of a set of symmetry parameters and the positions of;the FD atoms. The computational advantage lies in the capability of;representing a large system of atoms through a small set of symmetry;parameters and FD atom positions. As an illustrative example, we;consider the deformation of a copper single-crystal nanobeam which can;be described as an OS. OQC simulations are performed for uniform and;nonuniform bending for two different orientations (nanobeam axis;oriented along [111] and [100]) and compared with elastica results. In;the uniform bending case, the [111]-oriented single-crystal nanobeam;experiences elongation, while the [100]-oriented nanobeam experiences;contraction in total length. The nonuniform bending allows for;stretching, contraction, and bending as deformation. Under certain;loading conditions, dislocation nucleation is observed within the FD.;DOI: 10.1103/PhysRevB.86.245435 PACS number(s): 61.46.Km, 62.23.Hj,;81.07.Gf, 02.70.Ns;1;0;0;0;1;1098-0121;WOS:000312834100006;;;J;He, Jing;Wang, Bo;Kou, Su-Peng;Ferromagnetism and antiferromagnetism of a correlated topological;insulator with a flat band;PHYSICAL REVIEW B;86;23;235146;10.1103/PhysRevB.86.235146;DEC 28 2012;2012;In this paper, based on the mean-field approach and random-phase;approximation, we studied the magnetic properties of the spinfull;Haldane model on honeycomb lattice of topological flat band with onsite;repulsive Coulomb interaction. We found that the antiferromagnetic (AF);order is more stable than the ferromagnetic (FM) order at, or near, half;filling. Away from half filling, the phase diagram becomes complex: at;large doping, the FM order is more stable than the AF order due to the;flatness of band structure. In particular, we found that at quarter;filling, the system becomes a Chern number Q = 1 topological insulator;induced by the FM order. DOI:10.1103/PhysRevB.86.235146;1;0;0;0;1;1098-0121;WOS:000312833200002;;;J;Hu, Jianbo;Misochko, Oleg V.;Goto, Arihiro;Nakamura, Kazutaka G.;Delayed formation of coherent LO phonon-plasmon coupled modes in n- and;p-type GaAs measured using a femtosecond coherent control technique;PHYSICAL REVIEW B;86;23;235145;10.1103/PhysRevB.86.235145;DEC 28 2012;2012;Coherent control experiments using a pair of collinear femtosecond laser;pulses have been carried out to manipulate longitudinal optical (LO);phonon-plasmon coupled (LOPC) modes in both p-and n-type GaAs. By tuning;the interpulse separation, remarkably distinct responses have been;observed in the two samples. To understand the results obtained a;phenomenological model taking the delayed formation of coherent LOPC;modes into account is proposed. The model suggests that the lifetime of;coherent LOPC modes plays a key role and the interference of the;coherent LO phonons excited successively by two pump pulses strongly;affects the manipulation of coherent LOPC modes.;DOI:10.1103/PhysRevB.86.235145;Oleg, Misochko/E-6136-2013; Nakamura, Kazutaka/F-4095-2014;0;0;0;0;0;1098-0121;WOS:000312833200001;;;J;Imura, Ken-Ichiro;Okamoto, Mayuko;Yoshimura, Yukinori;Takane, Yositake;Ohtsuki, Tomi;Finite-size energy gap in weak and strong topological insulators;PHYSICAL REVIEW B;86;24;245436;10.1103/PhysRevB.86.245436;DEC 28 2012;2012;The nontrivialness of a topological insulator (TI) is characterized;either by a bulk topological invariant or by the existence of a;protected metallic surface state. Yet, in realistic samples of finite;size, this nontrivialness does not necessarily guarantee the gaplessness;of the surface state. Depending on the geometry and on the topological;indices, a finite-size energy gap of different nature can appear, and,;correspondingly, exhibit various scaling behaviors of the gap. The;spin-to-surface locking provides one such gap-opening mechanism,;resulting in a power-law scaling of the energy gap. Weak and strong TIs;show different degrees of sensitivity to the geometry of the sample. As;a noteworthy example, a strong TI nanowire of a rectangular-prism shape;is shown to be more gapped than that of a weak TI of precisely the same;geometry. DOI: 10.1103/PhysRevB.86.245436 PACS number(s): 73.22.-f,;73.20.At, 72.80.Sk;Imura, Ken/D-6633-2013;11;0;0;0;11;1098-0121;WOS:000312834100007;;;J;Lenertz, M.;Alaria, J.;Stoeffler, D.;Colis, S.;Dinia, A.;Mentre, O.;Andre, G.;Porcher, F.;Suard, E.;Magnetic structure of ground and field-induced ordered states of;low-dimensional alpha-CoV2O6: Experiment and theory;PHYSICAL REVIEW B;86;21;214428;10.1103/PhysRevB.86.214428;DEC 28 2012;2012;In this work, we investigate the magnetic properties of the monoclinic;alpha-CoV2O6 by powder neutron diffraction measurements and ab initio;calculations. An emphasis has been pointed towards the magnetic;structure and the interaction between the Co ions leading to magnetic;frustrations in this compound. Neutron diffraction experiments were;carried out both in the ground state (zero magnetic field) and under;applied external field of 2.5 and 5 T corresponding to the ferrimagnetic;and ferromagnetic states, respectively. The antiferromagnetic ground;state below 14 K corresponds to k = (1,0, 1/2) magnetic propagation;vector in C1 space group. The magnetic structure can be described by;ferromagnetic interactions along the chains (b axis) and;antiferromagnetic coupling between the chains (along a and c axes). The;ferrimagnetic structure implies a ninefold unit cell (3a, b, 3c) in;which ferromagnetic chains follow an "up-up-down" sequence along the a;and c axes. In the ferromagnetic state, the spin orientations remain;unchanged while every chain lies ferromagnetically ordered. In all;cases, the magnetic moments lie in the ac plane, along the CoO6;octahedra axis, at an angle of 9.3 degrees with respect to the c axis.;The magnetic structure of alpha-CoV2O6 resolved for all the ordered;states is successfully related to a theoretical model. Ab initio;calculations allowed us to (i) confirm the ground-state magnetic;structure, (ii) calculate the interactions between the Co ions, (iii);explain the frustration leading to the stepped variation of the;magnetization curves, (iv) calculate the orbital magnetic moment (1.5;mu(B)) on Co atoms, and (v) confirm the direction of the magnetic;moments near the c direction. DOI: 10.1103/PhysRevB.86.214428;10;0;0;0;10;1098-0121;WOS:000312830800002;;;J;Nakajima, Nobuo;Oki, Megumi;Isohama, Yoichi;Maruyama, Hiroshi;Tezuka, Yasuhisa;Ishiji, Kotaro;Iwazumi, Toshiaki;Okada, Kozo;Enhancement of dielectric constant of BaTiO3 nanoparticles studied by;resonant x-ray emission spectroscopy;PHYSICAL REVIEW B;86;22;224114;10.1103/PhysRevB.86.224114;DEC 28 2012;2012;The nanoscopic origin of the enhancement of the dielectric constant of;BaTiO3 nanoparticles was investigated by means of Ti K beta resonant;x-ray emission spectroscopy. Two inelastic peaks due to charge-transfer;excitations were observed, one of which disappeared as the particle size;(d) was reduced, while the other remained unchanged. This is consistent;with the fact that tetragonality was also reduced with decreasing d. The;origin of the large enhancement in the dielectric constant is briefly;discussed from a microscopic point of view. DOI:;10.1103/PhysRevB.86.224114;3;0;0;0;3;1098-0121;WOS:000312832400003;;;J;Olmon, Robert L.;Slovick, Brian;Johnson, Timothy W.;Shelton, David;Oh, Sang-Hyun;Boreman, Glenn D.;Raschke, Markus B.;Optical dielectric function of gold;PHYSICAL REVIEW B;86;23;235147;10.1103/PhysRevB.86.235147;DEC 28 2012;2012;In metal optics gold assumes a special status because of its practical;importance in optoelectronic and nano-optical devices, and its role as a;model system for the study of the elementary electronic excitations that;underlie the interaction of electromagnetic fields with metals. However,;largely inconsistent values for the frequency dependence of the;dielectric function describing the optical response of gold are found in;the literature. We performed precise spectroscopic ellipsometry;measurements on evaporated gold, template-stripped gold, and;single-crystal gold to determine the optical dielectric function across;a broad spectral range from 300 nm to 25 mu m (0.05-4.14 eV) with high;spectral resolution. We fit the data to the Drude free-electron model,;with an electron relaxation time tau(D) = 14 +/- 3 fs and plasma energy;h omega(p) = 8.45 eV. We find that the variation in dielectric functions;for the different types of samples is small compared to the range of;values reported in the literature. Our values, however, are comparable;to the aggregate mean of the collection of previous measurements from;over the past six decades. This suggests that although some variation;can be attributed to surface morphology, the past measurements using;different approaches seem to have been plagued more by systematic errors;than previously assumed. DOI:10.1103/PhysRevB.86.235147;22;2;0;0;22;1098-0121;WOS:000312833200003;;;J;Phuong, L. Q.;Ichimiya, M.;Ishihara, H.;Ashida, M.;Multiple light-coupling modes of confined excitons observable in;photoluminescence spectra of high-quality CuCl thin films;PHYSICAL REVIEW B;86;23;235449;10.1103/PhysRevB.86.235449;DEC 28 2012;2012;We report the observation of multiple light-coupling modes of excitons;confined in CuCl thin films with thicknesses of a few hundred nanometers;beyond the long-wavelength approximation in photoluminescence spectra.;Due to a remarkably long coupling length between light and;multinode-type excitons resulted from very high crystalline quality of;thin films, photoluminescence signals from the excitonic states;corresponding to not only odd but also even quantum numbers, which are;optically forbidden in the long-wavelength approximation, are clearly;observed. The full width at half maximum of the excitonic state deduced;qualitatively from the corresponding photoluminescence band shows almost;the same dependence on the quantum number as the theoretical prediction.;DOI:10.1103/PhysRevB.86.235449;0;0;0;0;0;1098-0121;WOS:000312833200008;;;J;Reynoso, Andres A.;Usaj, Gonzalo;Balseiro, C. A.;Feinberg, D.;Avignon, M.;Spin-orbit-induced chirality of Andreev states in Josephson junctions;PHYSICAL REVIEW B;86;21;214519;10.1103/PhysRevB.86.214519;DEC 28 2012;2012;We study Josephson junctions (JJs) in which the region between the two;superconductors is a multichannel system with Rashba spin-orbit coupling;(SOC) where a barrier or a quantum point contact (QPC) is present. These;systems might present unconventional Josephson effects such as Josephson;currents for zero phase difference or critical currents that depend on;the current direction. Here, we discuss how the spin polarizing;properties of the system in the normal state affect the spin;characteristics of the Andreev bound states inside the junction. This;results in a strong correlation between the spin of the Andreev states;and the direction in which they transport Cooper pairs. While the;current-phase relation for the JJ at zero magnetic field is;qualitatively unchanged by SOC, in the presence of a weak magnetic;field, a strongly anisotropic behavior and the mentioned anomalous;Josephson effects follow. We show that the situation is not restricted;to barriers based on constrictions such as QPCs and should generically;arise if in the normal system the direction of the carrier's spin is;linked to its direction of motion. DOI: 10.1103/PhysRevB.86.214519;Usaj, Gonzalo/E-6394-2010;Usaj, Gonzalo/0000-0002-3044-5778;5;0;0;0;5;1098-0121;WOS:000312830800005;;;J;Sato, W.;Komatsuda, S.;Ohkubo, Y.;Characteristic local association of In impurities dispersed in ZnO;PHYSICAL REVIEW B;86;23;235209;10.1103/PhysRevB.86.235209;DEC 28 2012;2012;Local environments in 0.5 at.% In-doped ZnO were investigated by means;of the time-differential perturbed angular correlation (TDPAC) method.;In a comparative study, using the Cd-111 probe nuclei as the decay;products of different parents, In-111 and Cd-111m, we found that In-111;microscopically forms a unique structure with nonradioactive In ion(s);dispersed in ZnO, whereas (111)mCd has no specific interaction with the;In impurities. The spectral damping of the TDPAC spectra is attributed;to the aftereffect following the EC decay of In-111. It was demonstrated;from the aftereffect that the local density and/or mobility of;conduction electrons at the In-111 probe site in the In-doped ZnO is;lowered due to the characteristic structure locally formed by the;dispersed In ion(s). DOI:10.1103/PhysRevB.86.235209;1;0;0;0;1;1098-0121;WOS:000312833200004;;;J;Sherman, Benjamin L.;Wilson, Hugh F.;Weeraratne, Dayanthie;Militzer, Burkhard;Ab initio simulations of hot dense methane during shock experiments;PHYSICAL REVIEW B;86;22;224113;10.1103/PhysRevB.86.224113;DEC 28 2012;2012;Using density functional theory molecular dynamics simulations, we;predict shock Hugoniot curves of precompressed methane up to 75 000 K;for initial densities ranging from 0.35 to 0.70 g cm(-3). At 4000 K, we;observe the transformation into a metallic, polymeric state consisting;of long hydrocarbon chains. These chains persist when the sample is;quenched to 300 K, leading to an increase in shock compression. At 6000;K, the sample transforms into a plasma composed of many, short-lived;chemical species. We conclude by discussing implications for the;interiors of Uranus and Neptune and analyzing the possibility of;creating a superionic state of methane in high pressure experiments.;DOI:10.1103/PhysRevB.86.224113;Wilson, Hugh/B-3447-2009;4;0;0;0;4;1098-0121;WOS:000312832400002;;;J;Trescher, Maximilian;Bergholtz, Emil J.;Flat bands with higher Chern number in pyrochlore slabs;PHYSICAL REVIEW B;86;24;241111;10.1103/PhysRevB.86.241111;DEC 28 2012;2012;A large number of recent works point to the emergence of intriguing;analogs of fractional quantum Hall states in lattice models due to;effective interactions in nearly flat bands with Chern number C = 1.;Here, we provide an intuitive and efficient construction of almost;dispersionless bands with higher Chern numbers. Inspired by the physics;of quantum Hall multilayers and pyrochlore-based transition-metal;oxides, we study a tight-binding model describing spin-orbit coupled;electrons in N parallel kagome layers connected by apical sites forming;N - 1 intermediate triangular layers (as in the pyrochlore lattice). For;each N, we find finite regions in parameter space giving a virtually;flat band with C = N. We analytically express the states within these;topological bands in terms of single-layer states and thereby explicitly;demonstrate that the C = N wave functions have an appealing structure in;which layer index and translations in reciprocal space are intricately;coupled. This provides a promising arena for new collective states of;matter. DOI: 10.1103/PhysRevB.86.241111;Bergholtz, Emil/C-3820-2008;Bergholtz, Emil/0000-0002-9739-2930;29;0;1;0;29;1098-0121;WOS:000312834100002;;;J;van Duijn, J.;Ruiz-Bustos, R.;Daoud-Aladine, A.;Kagome-like lattice distortion in the pyrochlore material Hg2Ru2O7;PHYSICAL REVIEW B;86;21;214111;10.1103/PhysRevB.86.214111;DEC 28 2012;2012;The structural transition which accompanies the metal to insulator;transition (MIT), at T = 107 K, in the pyrochlore material Hg2Ru2O7, was;investigated by high-resolution neutron powder diffraction measurements.;Below the MIT the symmetry is lowered from cubic to monoclinic and the;Ru-Ru bonds, which are equal in the pyrochlore phase (3.60147 angstrom),;become split into short (3.599 37 angstrom), medium (3.6028 angstrom),;and long bonds (3.6047 angstrom). As a result the exchange interactions;between the Ru atoms become more two dimensional. The short and medium;bonds form layers, which are separated by the long bonds, that run;parallel to the monoclinic ab plane. Overall the low-temperature;structure of Hg2Ru2O7 can best be described as a stacking of Kagome-like;layers. DOI: 10.1103/PhysRevB.86.214111;0;0;0;0;0;1098-0121;WOS:000312830800001;;;J;Vanevic, Mihajlo;Belzig, Wolfgang;Control of electron-hole pair generation by biharmonic voltage drive of;a quantum point contact;PHYSICAL REVIEW B;86;24;241306;10.1103/PhysRevB.86.241306;DEC 28 2012;2012;A time-dependent electromagnetic field creates electron-hole excitations;in a Fermi sea at low temperature. We show that the electron-hole pairs;can be generated in a controlled way using harmonic and biharmonic;time-dependent voltages applied to a quantum contact, and we obtain the;probabilities of the pair creations. For a biharmonic voltage drive, we;find that the probability of a pair creation decreases in the presence;of an in-phase second harmonic. This accounts for the suppression of the;excess noise observed experimentally (Gabelli and Reulet,;arXiv:1205.3638), proving that dynamic control and detection of;elementary excitations in quantum conductors are within the reach of the;present technology. DOI: 10.1103/PhysRevB.86.241306;6;1;0;0;6;1098-0121;WOS:000312834100004;;;J;Virgus, Yudistira;Purwanto, Wirawan;Krakauer, Henry;Zhang, Shiwei;Ab initio many-body study of cobalt adatoms adsorbed on graphene;PHYSICAL REVIEW B;86;24;241406;10.1103/PhysRevB.86.241406;DEC 28 2012;2012;Many recent calculations have been performed to study a Co atom adsorbed;on graphene, with significantly varying results on the nature of the;bonding. We use the auxiliary-field quantum Monte Carlo method and a;size-correction embedding scheme to accurately calculate the binding;energy of Co on graphene. We find that as a function of the distance h;between the Co atom and the sixfold hollow site, there are three;distinct ground states corresponding to three electronic configurations;of the Co atom. Two of these states provide binding and exhibit a;double-well feature with nearly equal binding energy of 0.4 eV at h =;1.51 and h = 1.65 angstrom, corresponding to low-spin Co-2 (3d(9) 4s(0));and high-spin Co-4 (3d(8) 4s(1)), respectively. DOI:;10.1103/PhysRevB.86.241406;3;0;0;0;3;1098-0121;WOS:000312834100005;;;J;Xing, Jie;Li, Sheng;Ding, Xiaxin;Yang, Huan;Wen, Hai-Hu;Superconductivity appears in the vicinity of semiconducting-like;behavior in CeO1-xFxBiS2;PHYSICAL REVIEW B;86;21;214518;10.1103/PhysRevB.86.214518;DEC 28 2012;2012;Resistive and magnetic properties have been measured in BiS2-based;samples CeO1-xFxBiS2 with a systematic substitution of O with F (0 < x <;0.6). In contrast to the band-structure calculations, it is found that;the parent phase of CeOBiS2 is a bad metal instead of a band insulator.;By doping electrons into the system, it is surprising to find that;superconductivity appears together with a semiconducting normal state.;This evolution is clearly different from the cuprate and the iron;pnictide systems, and is interpreted as approaching the Pomeranchuk;transition with a von Hove singularity and the possible;charge-density-wave instability. Furthermore, ferromagnetism, which may;arise from the Ce magnetic moments, has been observed in the;low-temperature region in all samples, suggesting the coexistence of;superconductivity and ferromagnetism in the superconducting samples.;DOI: 10.1103/PhysRevB.86.214518;55;0;1;0;56;1098-0121;WOS:000312830800004;;;J;Yaji, Koichiro;Hatta, Shinichiro;Aruga, Tetsuya;Okuyama, Hiroshi;Structural and electronic properties of the Pb/Ge(111)-beta(root 3 x;root 3)R30 degrees surface studied by photoelectron spectroscopy and;first-principles calculations;PHYSICAL REVIEW B;86;23;235317;10.1103/PhysRevB.86.235317;DEC 28 2012;2012;We have studied structural and electronic properties of a Ge(111);surface covered with a monatomic Pb layer [Pb/Ge(111)-beta] by means of;core-level photoelectron spectroscopy, angle-resolved photoelectron;spectroscopy (ARPES), and a first-principles band structure calculation.;There has been a controversy about the surface structure of;Pb/Ge(111)-beta between a close-packed model with a coverage of 4/3;monolayers and a trimer model with a coverage of 1 monolayer. This;problem has been examined by analyzing the line shape of a Pb 5d;core-level spectrum and comparing the experimental band structure with;those calculated for two models. The line shape of the core-level;spectrum agrees with a close-packed model. The valence band structure;observed by ARPES has been well reproduced by the calculation employing;the close-packed model. The close-packed model therefore describes;correctly the surface structure of Pb/Ge(111)-beta. The;scanning-tunneling microscopy (STM) image simulated for the close-packed;model is in good agreement with the experimental filled-state STM image,;in which three protrusions per unit cell were observed.;DOI:10.1103/PhysRevB.86.235317;Aruga, Tetsuya/B-7782-2010; Okuyama, Hiroshi/H-7570-2014;2;1;0;0;2;1098-0121;WOS:000312833200006;;;J;Yang, Shuo;Gu, Zheng-Cheng;Sun, Kai;Das Sarma, S.;Topological flat band models with arbitrary Chern numbers;PHYSICAL REVIEW B;86;24;241112;10.1103/PhysRevB.86.241112;DEC 28 2012;2012;We report the theoretical discovery of a systematic scheme to produce;topological flat bands (TFBs) with arbitrary Chern numbers. We find that;generically a multiorbital high Chern number TFB model can be;constructed by considering multilayer Chern number C = 1 TFB models with;enhanced translational symmetry. A series of models are presented as;examples, including a two-band model on a triangular lattice with a;Chern number C = 3 and an N-band square lattice model with C = N for an;arbitrary integer N. In all these models, the flatness ratio for the;TFBs is larger than 30 and increases with increasing Chern number. In;the presence of appropriate interparticle interactions, these models are;likely to lead to the formation of Abelian and non-Abelian fractional;Chern insulators. As a simple example, we test the C = 2 model with;hardcore bosons at 1/3 filling, and an intriguing fractional quantum;Hall state is observed. DOI: 10.1103/PhysRevB.86.241112;Sun, Kai/F-2282-2010; Yang, Shuo/D-1372-2011; Das Sarma, Sankar/B-2400-2009; Gu, Zheng-Cheng/L-5415-2014;Sun, Kai/0000-0001-9595-7646; Yang, Shuo/0000-0001-9733-8566;;24;0;1;0;24;1098-0121;WOS:000312834100003;;;J;Yue, Qu;Chang, Shengli;Tan, Jichun;Qin, Shiqiao;Kang, Jun;Li, Jingbo;Symmetry-dependent transport properties and bipolar spin filtering in;zigzag alpha-graphyne nanoribbons;PHYSICAL REVIEW B;86;23;235448;10.1103/PhysRevB.86.235448;DEC 28 2012;2012;First-principles calculations are performed to investigate the transport;properties of zigzag alpha-graphyne nanoribbons (ZaGNRs). It is found;that asymmetric Z alpha GNRs behave as conductors with linear;current-voltage relationships, whereas symmetric Z alpha GNRs have very;small currents under finite bias voltages, similar to those of zigzag;graphene nanoribbons. The symmetry-dependent transport properties arise;from different coupling rules between the pi and pi* subbands around the;Fermi level, which are dependent on the wave-function symmetry of the;two subbands. Based on the coupling rules, we further demonstrate the;bipolar spin-filtering effect in the symmetric Z alpha GNRs. It is shown;that nearly 100% spin-polarized current can be produced and modulated by;the direction of bias voltage and/or magnetization configuration of the;electrodes. Moreover, the magnetoresistance effect with the order larger;than 500 000% is also predicted. Our calculations suggest Z alpha GNRs;as a promising candidate material for spintronics.;DOI:10.1103/PhysRevB.86.235448;Kang, Jun/F-7105-2011;7;1;0;0;7;1098-0121;WOS:000312833200007;;;J;Berry, Joel;Provatas, Nikolas;Rottler, Joerg;Sinclair, Chad W.;Defect stability in phase-field crystal models: Stacking faults and;partial dislocations;PHYSICAL REVIEW B;86;22;224112;10.1103/PhysRevB.86.224112;DEC 27 2012;2012;The primary factors controlling defect stability in phase-field crystal;(PFC) models are examined, with illustrative examples involving several;existing variations of the model. Guidelines are presented for;constructing models with stable defect structures that maintain high;numerical efficiency. The general framework combines both long-range;elastic fields and basic features of atomic-level core structures, with;defect dynamics operable over diffusive time scales. Fundamental;elements of the resulting defect physics are characterized for the case;of fcc crystals. Stacking faults and split Shockley partial dislocations;are stabilized for the first time within the PFC formalism, and various;properties of associated defect structures are characterized. These;include the dissociation width of perfect edge and screw dislocations,;the effect of applied stresses on dissociation, Peierls strains for;glide, and dynamic contraction of gliding pairs of partials. Our results;in general are shown to compare favorably with continuum elastic;theories and experimental findings. DOI: 10.1103/PhysRevB.86.224112;Rottler, Joerg/L-5539-2013;8;0;0;0;8;1098-0121;WOS:000312831900001;;;J;Emary, Clive;Lambert, Neill;Nori, Franco;Leggett-Garg inequality in electron interferometers;PHYSICAL REVIEW B;86;23;235447;10.1103/PhysRevB.86.235447;DEC 27 2012;2012;We consider the violation of the Leggett-Garg inequality in electronic;Mach-Zehnder inteferometers. This setup has two distinct advantages over;earlier quantum-transport proposals: Firstly, the required correlation;functions can be obtained without time-resolved measurements. Secondly,;the geometry of an interferometer allows one to construct the;correlation functions from ideal negative measurements, which addresses;the noninvasiveness requirement of the Leggett-Garg inequality. We;discuss two concrete realizations of these ideas: the first in quantum;Hall edge-channels, the second in a double quantum dot interferometer.;DOI: 10.1103/PhysRevB.86.235447 PACS number(s): 03.65.Ud, 73.23.-b,;03.65.Ta, 42.50.Lc;Lambert, Neill/B-4998-2009; Emary, Clive/B-9596-2008; Nori, Franco/B-1222-2009;Emary, Clive/0000-0002-9822-8390; Nori, Franco/0000-0003-3682-7432;3;0;0;0;3;1098-0121;WOS:000312832900004;;;J;Kato, Yuto;Endo, Akira;Katsumoto, Shingo;Iye, Yasuhiro;Geometric resonances in the magnetoresistance of hexagonal lateral;superlattices;PHYSICAL REVIEW B;86;23;235315;10.1103/PhysRevB.86.235315;DEC 27 2012;2012;We have measured magnetoresistance of hexagonal lateral superlattices.;We observe three types of oscillations engendered by periodic potential;modulation having hexagonal-lattice symmetry: amplitude modulation of;the Shubnikov-de Haas oscillations, commensurability oscillations, and;the geometric resonances of open orbits generated by Bragg reflections.;The latter two reveal the presence of two characteristic periodicities,;root 3a/2 and a/2, inherent in a hexagonal lattice with the lattice;constant a. The formation of the hexagonal-superlattice minibands;manifested by the observation of open orbits marks the first step toward;realizing massless Dirac fermions in semiconductor 2DEGs. DOI:;10.1103/PhysRevB.86.235315 PACS number(s): 73.43.Qt, 73.23.-b, 73.21.Cd;1;0;0;0;1;1098-0121;WOS:000312832900002;;;J;Lin, I-Tan;Liu, Jia-Ming;Shi, Kai-Yao;Tseng, Pei-Shan;Wu, Kuang-Hsiung;Luo, Chih-Wei;Li, Lain-Jong;Terahertz optical properties of multilayer graphene: Experimental;observation of strong dependence on stacking arrangements and;misorientation angles;PHYSICAL REVIEW B;86;23;235446;10.1103/PhysRevB.86.235446;DEC 27 2012;2012;The optical conductivity of monolayer and multilayer graphene in the;terahertz spectral region is experimentally measured using terahertz;time-domain spectroscopy. The stacking arrangement and the;misorientation angle of each sample are determined by Raman;spectroscopy. The chemical potential of each sample is measured using;ultrafast midinfrared pump-probe spectroscopy to be 63 or 64 meV for all;samples. The intraband scattering rate can be obtained by fitting the;measured data with theoretical models. Other physical parameters,;including carrier density, dc conductivity, and carrier mobility, of;each sample can also be deduced from the theoretical fitting. The;fitting results show the existence of misoriented or AA-stacked layers;with an interaction energy of alpha(1) = 217 meV in our multilayer;samples. Here we show that the scattering rate strongly depends on the;stacking arrangement of the sample. High scattering rates and high;optical conductivity are associated with AA-stacked samples, while lower;ones are associated with misoriented multilayer graphene. This implies;that the THz optoelectronic properties of multilayer graphene can be;tuned by purposefully misorienting layers or employing different;stacking schemes. DOI: 10.1103/PhysRevB.86.235446 PACS number(s):;78.67.Wj, 61.48.Gh, 72.80.Vp, 73.50.Mx;Li, Lain-Jong/D-5244-2011; Luo, Chih Wei/D-3485-2013;Li, Lain-Jong/0000-0002-4059-7783; Luo, Chih Wei/0000-0002-6453-7435;11;0;0;0;11;1098-0121;WOS:000312832900003;;;J;Lundgren, Rex;Chua, Victor;Fiete, Gregory A.;Entanglement entropy and spectra of the one-dimensional Kugel-Khomskii;model;PHYSICAL REVIEW B;86;22;224422;10.1103/PhysRevB.86.224422;DEC 27 2012;2012;We study the quantum entanglement of the spin and orbital degrees of;freedom in the one-dimensional Kugel-Khomskii model, which includes both;gapless and gapped phases, using analytical techniques and exact;diagonalization with up to 16 sites. We compute the entanglement entropy;and the entanglement spectra using a variety of partitions or "cuts" of;the Hilbert space, including two distinct real-space cuts and a;momentum-space cut. Our results show that the Kugel-Khomski model;possesses a number of new features not previously encountered in studies;of the entanglement spectra. Notably, we find robust gaps in the;entanglement spectra for both gapped and gapless phases with the orbital;partition, and show these are not connected to each other. The counting;of the low-lying entanglement eigenvalues shows that the "virtual edge";picture, which equates the low-energy Hamiltonian of a virtual edge,;here one gapless leg of a two-leg ladder, to the "low-energy";entanglement Hamiltonian, breaks down for this model, even though the;equivalence has been shown to hold for a similar cut in a large class of;closely related models. In addition, we show that a momentum space cut;in the gapless phase leads to qualitative differences in the;entanglement spectrum when compared with the same cut in the gapless;spin-1/2 Heisenberg spin chain. We emphasize the new information content;in the entanglement spectra compared to the entanglement entropy, and;using quantum entanglement, we present a refined phase diagram of the;model. Using analytical arguments, exploiting various symmetries of the;model, and applying arguments of adiabatic continuity from two exactly;solvable points of the model, we are also able to prove several results;regarding the structure of the low-lying entanglement eigenvalues. DOI:;10.1103/PhysRevB.86.224422;11;0;1;0;12;1098-0121;WOS:000312831900002;;;J;L'vov, Victor S.;Nazarenko, Sergey V.;Comment on "Symmetry of Kelvin-wave dynamics and the Kelvin-wave cascade;in the T=0 superfluid turbulence";PHYSICAL REVIEW B;86;22;226501;10.1103/PhysRevB.86.226501;DEC 27 2012;2012;We comment on the paper by Sonin [Phys. Rev. B 85, 104516 (2012)] with;most statements of which we disagree. We use this option to shed light;on some important issues of a theory of Kelvin-wave turbulence, touched;on in Sonin's paper, in particular, on the relation between the Vinen;spectrum of strong and the L'vov-Nazarenko spectrum of weak turbulence;of Kelvin waves. We also discuss the role of explicit calculation of the;Kelvin-wave interaction Hamiltonian and "symmetry arguments" that have;to resolve a contradiction between the Kozik-Svistunov and the;L'vov-Nazarenko spectrum of weak turbulence of Kelvin waves. DOI:;10.1103/PhysRevB.86.226501;5;1;0;0;5;1098-0121;WOS:000312831900003;;;J;Misguich, G.;Schwinger boson mean-field theory: Numerics for the energy landscape and;gauge excitations in two-dimensional antiferromagnets;PHYSICAL REVIEW B;86;24;245132;10.1103/PhysRevB.86.245132;DEC 27 2012;2012;We perform some systematic numerical search for Schwinger boson;mean-field states on square and triangular clusters. We look for;possible inhomogeneous ground states as well as low-energy excited;saddle points. The spectrum of the Hessian is also computed for each;solution. On the square lattice, we find gapless U(1) gauge modes in the;nonmagnetic phase. In the Z(2) liquid phase of the triangular lattice,;we identify the topological degeneracy as well as vison states.;DOI:10.1103/PhysRevB.86.245132;2;0;0;0;2;1098-0121;WOS:000312833600001;;;J;Mokhlespour, Salman;Haverkort, J. E. M.;Slepyan, Gregory;Maksimenko, Sergey;Hoffmann, A.;Collective spontaneous emission in coupled quantum dots: Physical;mechanism of quantum nanoantenna;PHYSICAL REVIEW B;86;24;245322;10.1103/PhysRevB.86.245322;DEC 27 2012;2012;We investigate the collective spontaneous emission in a system of two;identical quantum dots (QDs) strongly coupled through the dipole-dipole;(d-d) interaction. The QDs are modeled as two-level quantum objects,;while the d-d interaction is described as the exchange of a virtual;photon through the photonic reservoir. The master equation approach is;used in the analysis. The main attention is focused on antenna;characteristics of the two-QD system-the radiation intensity dependence;on the meridian and azimuthal angles of observation. We show that the;radiation pattern of such a system is nonstationary and its temporal;behavior depends on the initial quantum state. In particular, for;entangled initial states the radiative pattern exhibits oscillations on;the frequency which corresponds to the d-d interaction energy. We also;analyze spectral properties of the directional diagram. The comparison;of radiation patterns is carried out for two QDs and two classical;dipoles. The concept of quantum nanoantenna is proposed based on;collective spontaneous emission in QD ensembles.;DOI:10.1103/PhysRevB.86.245322;Maksimenko, Sergey/F-1888-2011;Maksimenko, Sergey/0000-0002-8271-0449;8;1;0;0;8;1098-0121;WOS:000312833600002;;;J;Muravev, V. M.;Gusikhin, P. A.;Tsydynzhapov, G. E.;Fortunatov, A. A.;Kukushkin, I. V.;Spectroscopy of terahertz radiation using high-Q photonic crystal;microcavities;PHYSICAL REVIEW B;86;23;235144;10.1103/PhysRevB.86.235144;DEC 27 2012;2012;We report observation of high-Q resonance in the photoresponse of a;detector embedded in the 2D photonic crystal slab (PCS) microcavity;illuminated by terahertz radiation. The detector and PCS are fabricated;from a single GaAs wafer in a unified process. The influence of the;period of PCS lattice, microcavity geometry, and detector location on;the resonant photoresponse is studied. The resonance is found to;originate from coupling of the fundamental PCS microcavity photon mode;to the detector. The phenomenon can be exploited to devise a;spectrometer-on-a-chip for terahertz range. DOI:;10.1103/PhysRevB.86.235144 PACS number(s): 42.50.-p, 42.70.Qs, 42.79.-e,;73.21.-b;0;0;0;0;0;1098-0121;WOS:000312832900001;;;J;Reguzzoni, M.;Fasolino, A.;Molinari, E.;Righi, M. C.;Potential energy surface for graphene on graphene: Ab initio derivation,;analytical description, and microscopic interpretation;PHYSICAL REVIEW B;86;24;245434;10.1103/PhysRevB.86.245434;DEC 27 2012;2012;We derive an analytical expression that describes the interaction energy;between two graphene layers identically oriented as a function of the;relative lateral and vertical positions, in excellent agreement with;first principles calculations. Thanks to its formal simplicity, the;proposed model allows for an immediate interpretation of the;interactions, in particular of the potential corrugation. This last;quantity plays a crucial role in determining the intrinsic resistance to;interlayer sliding and its increase upon compression influences the;frictional behavior under load. We show that, for these weakly adherent;layers, the corrugation possesses the same nature and z dependence of;Pauli repulsion. We investigate the microscopic origin of these;phenomena by analyzing the electronic charge distribution: We observe a;pressure-induced charge transfer from the interlayer region toward the;near-layer regions, with a much more consistent depletion of charge;occurring for the AA stacking than for the AB stacking of the two;layers. DOI:10.1103/PhysRevB.86.245434;8;0;0;0;8;1098-0121;WOS:000312833600003;;;J;Sonin, E. B.;Reply to "Comment on 'Symmetry of Kelvin-wave dynamics and the;Kelvin-wave cascade in the T=0 superfluid turbulence'";PHYSICAL REVIEW B;86;22;226502;10.1103/PhysRevB.86.226502;DEC 27 2012;2012;The goal of the Comment by L'vov and Nazarenko is to refute my;perviously published criticism of their mechanism of the Kelvin-wave;cascade. It is important, however, that, in their Comment, L'vov and;Nazarenko admitted that the Hamiltonian, from which they derived their;mechanism, is not tilt invariant. This provides full ammunition to their;critics, who believe that their mechanism is in conflict with the tilt;symmetry of the Kelvin-wave dynamics and, therefore, is not valid for;the real isotropic world. DOI: 10.1103/PhysRevB.86.226502;3;1;0;0;3;1098-0121;WOS:000312831900004;;;J;Swaminathan, Narasimhan;Morgan, Dane;Szlufarska, Izabela;Role of recombination kinetics and grain size in radiation-induced;amorphization;PHYSICAL REVIEW B;86;21;214110;10.1103/PhysRevB.86.214110;DEC 27 2012;2012;Using a rate theory model for a generic one-component material, we;investigated interactions between grain size and recombination kinetics;of radiation-induced defects. Specifically, by varying parametrically;nondimensional kinetic barriers for defect diffusion and recombination,;we determined the effect of these parameters on the shape of the dose to;amorphization versus temperature curves. We found that whether grain;refinement to the nanometer regime improves or deteriorates radiation;resistance of a material depends on the barriers to defect migration and;recombination, as well as on the temperature for the intended use of the;material. We show that the effects of recombination barriers and of;grain refinement can be coupled to each other to produce a phenomenon of;interstitial starvation. In interstitial starvation, a significant;number of interstitials annihilate at the grain boundary, leaving behind;unrecombined vacancies, which in turn amorphize the material. The same;rate theory model with material-specific parameters was used to predict;the grain-size dependence of the critical amorphization temperature in;SiC. Parameters for the SiC model were taken from ab initio;calculations. We find that the fine-grained SiC has a lower radiation;resistance when compared to the polycrystalline SiC due to the presence;of high-energy barrier for recombination of carbon Frenkel pairs and due;to the interstitial starvation phenomenon. DOI:;10.1103/PhysRevB.86.214110;Morgan, Dane/B-7972-2008;Morgan, Dane/0000-0002-4911-0046;5;0;0;0;5;1098-0121;WOS:000312830600001;;;J;Ahart, Muhtar;Sinogeikin, Stanislav;Shebanova, Olga;Ikuta, Daijo;Ye, Zuo-Guang;Mao, Ho-kwang;Cohen, R. E.;Hemley, Russell J.;Pressure dependence of the monoclinic phase in;(1-x)Pb(Mg1/3Nb2/3)O-3-xPbTiO(3) solid solutions;PHYSICAL REVIEW B;86;22;224111;10.1103/PhysRevB.86.224111;DEC 26 2012;2012;We combine high-pressure x-ray diffraction, high-pressure Raman;scattering, and optical microscopy to investigate a series of (1 -;x)Pb(Mg1/3Nb2/3)O-3-xPbTiO(3) (PMN-xPT) solid solutions (x = 0.2, 0.3,;0.33, 0.35, 0.37, 0.4) in diamond anvil cells up to 20 GPa at 300 K. The;Raman spectra show a peak centered at 380 cm(-1) starting above 6 GPa;for all samples, in agreement with previous observations. X-ray;diffraction measurements are consistent with this spectral change;indicating a structural phase transition; we find that the triplet at;the pseudocubic (220) Bragg peak merges into a doublet above 6 GPa. Our;results indicate that the morphotropic phase boundary region (x = 0.33 -;0.37) with the presence of monoclinic symmetry persists up to 7 GPa. The;pressure dependence of ferroelectric domains in PMN-0.32PT single;crystals was observed using a polarizing optical microscope. The domain;wall density decreases with pressure and the domains disappear at a;modest pressure of 3 GPa. We propose a pressure-composition phase;diagram for PMN-xPT solid solutions. DOI: 10.1103/PhysRevB.86.224111;Cohen, Ronald/B-3784-2010;Cohen, Ronald/0000-0001-5871-2359;2;0;0;0;2;1098-0121;WOS:000312831800006;;;J;Akrap, Ana;Tran, Michael;Ubaldini, Alberto;Teyssier, Jeremie;Giannini, Enrico;van der Marel, Dirk;Lerch, Philippe;Homes, Christopher C.;Optical properties of Bi2Te2Se at ambient and high pressures;PHYSICAL REVIEW B;86;23;235207;10.1103/PhysRevB.86.235207;DEC 26 2012;2012;The temperature dependence of the complex optical properties of the;three-dimensional topological insulator Bi2Te2Se is reported for light;polarized in the a-b planes at ambient pressure, as well as the effects;of pressure at room temperature. This material displays a semiconducting;character with a bulk optical gap of E-g similar or equal to 300 meV at;295 K. In addition to the two expected infrared-active vibrations;observed in the planes, there is an additional fine structure that is;attributed to either the removal of degeneracy or the activation of;Raman modes due to disorder. A strong impurity band located at similar;or equal to 200 cm(-1) is also observed. At and just above the optical;gap, several interband absorptions are found to show a strong;temperature and pressure dependence. As the temperature is lowered these;features increase in strength and harden. The application of pressure;leads to a very abrupt closing of the gap above 8 GPa, and strongly;modifies the interband absorptions in the midinfrared spectral range.;While ab initio calculations fail to predict the collapse of the gap,;they do successfully describe the size of the band gap at ambient;pressure, and the magnitude and shape of the optical conductivity. DOI:;10.1103/PhysRevB.86.235207;Teyssier, Jeremie/A-6867-2013; Akrap, Ana/G-1409-2013;Akrap, Ana/0000-0003-4493-5273;10;0;0;0;10;1098-0121;WOS:000312832600007;;;J;Andersen, Kirsten;Jacobsen, Karsten W.;Thygesen, Kristian S.;Spatially resolved quantum plasmon modes in metallic nano-films from;first-principles;PHYSICAL REVIEW B;86;24;245129;10.1103/PhysRevB.86.245129;DEC 26 2012;2012;Electron energy loss spectroscopy (EELS) can be used to probe plasmon;excitations in nanostructured materials with atomic-scale spatial;resolution. For structures smaller than a few nanometers, quantum;effects are expected to be important, limiting the validity of widely;used semiclassical response models. Here we present a method to identify;and compute spatially resolved plasmon modes from first-principles based;on a spectral analysis of the dynamical dielectric function. As an;example we calculate the plasmon modes of 0.5 to 4 nm thick Na films and;find that they can be classified as (conventional) surface modes,;subsurface modes, and a discrete set of bulk modes resembling standing;waves across the film. We find clear effects of both quantum confinement;and nonlocal response. The quantum plasmon modes provide an intuitive;picture of collective excitations of confined electron systems and offer;a clear interpretation of spatially resolved EELS spectra. DOI:;10.1103/PhysRevB.86.245129;Jacobsen, Karsten/B-3602-2009; Thygesen, Kristian /B-1062-2011;6;0;0;0;6;1098-0121;WOS:000312833400007;;;J;Baker, A. M. R.;Alexander-Webber, J. A.;Altebaeumer, T.;Janssen, T. J. B. M.;Tzalenchuk, A.;Lara-Avila, S.;Kubatkin, S.;Yakimova, R.;Lin, C. -T.;Li, L. -J.;Nicholas, R. J.;Weak localization scattering lengths in epitaxial, and CVD graphene;PHYSICAL REVIEW B;86;23;235441;10.1103/PhysRevB.86.235441;DEC 26 2012;2012;Weak localization in graphene is studied as a function of carrier;density in the range from 1 x 10(11) cm(-2) to 1.43 x 10(13) cm(-2);using devices produced by epitaxial growth onto SiC and CVD growth on;thin metal film. The magnetic field dependent weak localization is found;to be well fitted by theory, which is then used to analyze the;dependence of the scattering lengths L-phi, L-i, and L-* on carrier;density. We find no significant carrier dependence for L-phi, a weak;decrease for L-i with increasing carrier density just beyond a large;standard error, and a n(-1/4) dependence for L-*. We demonstrate that;currents as low as 0.01 nA are required in smaller devices to avoid;hot-electron artifacts in measurements of the quantum corrections to;conductivity. DOI: 10.1103/PhysRevB.86.235441;Lara-Avila, Samuel/B-4878-2013; Lin, Cheng-Te/D-5203-2011; Materials, Semiconductor/I-6323-2013;Lara-Avila, Samuel/0000-0002-8331-718X; Lin,;Cheng-Te/0000-0002-7090-9610;;11;0;0;0;11;1098-0121;WOS:000312832600015;;;J;Bergeret, F. S.;Verso, A.;Volkov, A. F.;Electronic transport through ferromagnetic and superconducting junctions;with spin-filter tunneling barriers;PHYSICAL REVIEW B;86;21;214516;10.1103/PhysRevB.86.214516;DEC 26 2012;2012;We present a theoretical study of the quasiparticle and subgap;conductance of generic X/I-sf/S-M junctions with a spin-filter barrier;I-sf, where X is either a normal N or a ferromagnetic metal F and S-M is;a superconductor with a built-in exchange field. Our study is based on;the tunneling Hamiltonian and the Green's-function technique. First, we;focus on the quasiparticle transport, both above and below the;superconducting critical temperature. We obtain a general expression for;the tunneling conductance which is valid for arbitrary values of the;exchange field and arbitrary magnetization directions in the electrodes;and in the spin-filter barrier. In the second part, we consider the;subgap conductance of a N/I-sf/S junction, where S is a conventional;superconductor. In order to account for the spin-filter effect at;interfaces, we heuristically derive boundary conditions for the;quasiclassical Green's functions. With the help of these boundary;conditions, we show that the proximity effect and the subgap conductance;are suppressed by spin filtering in a N/I-sf/S junction. Our work;provides useful tools for the study of spin-polarized transport in;hybrid structures both in the normal and in the superconducting state.;DOI: 10.1103/PhysRevB.86.214516;CSIC-UPV/EHU, CFM/F-4867-2012; DONOSTIA INTERNATIONAL PHYSICS CTR., DIPC/C-3171-2014;7;1;0;0;7;1098-0121;WOS:000312830400009;;;J;Beugnot, Jean-Charles;Laude, Vincent;Electrostriction and guidance of acoustic phonons in optical fibers;PHYSICAL REVIEW B;86;22;224304;10.1103/PhysRevB.86.224304;DEC 26 2012;2012;We investigate the generation of acoustic phonons in optical fibers via;electrostriction from coherent optical waves. Solving the elastodynamic;equation subject to the electrostrictive force, we are able to reproduce;the experimental spectra found in standard and photonic crystal fibers.;We discuss the two important practical cases of forward interaction,;dominated by elastic resonances of the fiber, and backward interaction,;for which an efficient mechanism of phonon guidance is found. The last;result describes the formation of the coherent phonon beam involved in;stimulated Brillouin scattering. DOI: 10.1103/PhysRevB.86.224304;Laude, Vincent/C-4484-2008;Laude, Vincent/0000-0001-8930-8797;3;0;0;0;3;1098-0121;WOS:000312831800007;;;J;Blanc, Nils;Coraux, Johann;Vo-Van, Chi;N'Diaye, Alpha T.;Geaymond, Olivier;Renaud, Gilles;Local deformations and incommensurability of high-quality epitaxial;graphene on a weakly interacting transition metal;PHYSICAL REVIEW B;86;23;235439;10.1103/PhysRevB.86.235439;DEC 26 2012;2012;We investigate the fine structure of graphene on iridium, which is a;model for graphene weakly interacting with a transition-metal substrate.;Even the highest-quality epitaxial graphene displays tiny imperfections,;i.e., small biaxial strains of similar to 0.3%, rotations of similar to;0.5 degrees, and shears over distances of similar to 100 nm, and is;found incommensurate, as revealed by x-ray diffraction and scanning;tunneling microscopy. These structural variations are mostly induced by;the increase of the lattice parameter mismatch when cooling the sample;from the graphene preparation temperature to the measurement;temperature. Although graphene weakly interacts with iridium, its;thermal expansion is found to be positive, contrary to free-standing;graphene. The structure of graphene and its variations is very sensitive;to the preparation conditions. All these effects are consistent with;initial growth and subsequent pinning of graphene at steps. DOI:;10.1103/PhysRevB.86.235439;Coraux, Johann/A-7897-2008;5;0;0;0;5;1098-0121;WOS:000312832600013;;;J;Blomeier, S.;Candeloro, P.;Hillebrands, B.;Reuscher, B.;Brodyanski, A.;Kopnarski, M.;Micromagnetism and magnetization reversal of embedded ferromagnetic;elements (vol 74, 184405, 2006);PHYSICAL REVIEW B;86;21;219904;10.1103/PhysRevB.86.219904;DEC 26 2012;2012;Hillebrands, Burkard/C-6242-2008;Hillebrands, Burkard/0000-0001-8910-0355;0;0;0;0;0;1098-0121;WOS:000312830400011;;;J;Bud'ko, Sergey L.;Liu, Yong;Lograsso, Thomas A.;Canfield, Paul C.;Hydrostatic and uniaxial pressure dependence of superconducting;transition temperature of KFe2As2 single crystals;PHYSICAL REVIEW B;86;22;224514;10.1103/PhysRevB.86.224514;DEC 26 2012;2012;We present heat capacity, c-axis thermal expansion and;pressure-dependent, low-field, temperature-dependent magnetization for;pressures up to similar to 12 kbar, data for KFe2As2 single crystals.;T-c decreases under pressure with dT(c)/dP approximate to -0.10 K/kbar.;The inferred uniaxial, c-axis, pressure derivative is positive,;dT(c)/dp(c) approximate to 0.11 K/kbar. The data are analyzed in;comparison with those for overdoped Fe-based superconductors. Arguments;are presented that superconductivity in KFe2As2 may be different from;the other overdoped, Fe-based materials in the 122 family. DOI:;10.1103/PhysRevB.86.224514;Canfield, Paul/H-2698-2014;9;0;0;0;9;1098-0121;WOS:000312831800013;;;J;Bulaevskii, Lev N.;Lin, Shi-Zeng;Self-induced pinning of vortices in the presence of ac driving force in;magnetic superconductors;PHYSICAL REVIEW B;86;22;224513;10.1103/PhysRevB.86.224513;DEC 26 2012;2012;We derive the response of the magnetic superconductors in the vortex;state to the ac Lorentz force, F-L (t) = F-ac sin(omega t), taking into;account the interaction of vortices with the magnetic moments described;by the relaxation dynamics (polaronic effect). At low amplitudes of the;driving force F-ac the dissipation in the system is suppressed due to;the enhancement of the effective viscosity at low frequencies and due to;formation of the magnetic pinning at high frequencies omega. In the;adiabatic limit with low frequencies omega and high amplitude of the;driving force F-ac, the vortex and magnetic polarization form a vortex;polaron when F-L (t) is small. When F-L increases, the vortex polaron;accelerates and at a threshold driving force, the vortex polaron;dissociates and the motion of vortex and the relaxation of magnetization;are decoupled. When F-L decreases, the vortex is retrapped by the;background of remnant magnetization and they again form vortex polaron.;This process repeats when F-L (t) increases in the opposite direction.;Remarkably, after dissociation, decoupled vortices move in the periodic;potential induced by magnetization which remains for some periods of;time due to retardation after the decoupling. At this stage vortices;oscillate with high frequencies determined by the Lorentz force at the;moment of dissociation. We derive also the creep rate of vortices and;show that magnetic moments suppress creep rate. DOI:;10.1103/PhysRevB.86.224513;Lin, Shi-Zeng/B-2906-2008;Lin, Shi-Zeng/0000-0002-4368-5244;3;0;0;0;3;1098-0121;WOS:000312831800012;;;J;Butler, C. A. M.;Hobson, P. A.;Hibbins, A. P.;Sambles, J. R.;Resonant microwave transmission from a double layer of subwavelength;metal square arrays: Evanescent handedness;PHYSICAL REVIEW B;86;24;241109;10.1103/PhysRevB.86.241109;DEC 26 2012;2012;Adouble layer of identical subwavelengthmetal patch arrays is;experimentally shown to be electromagnetically chiral due to the;evanescent coupling of the near fields between nonchiral layers-it;exhibits "evanescent handedness." Despite each layer being intrinsically;isotropic in the plane with four mirror planes orthogonal to the plane;of the structure, circular dichroism, leading to significant;polarization rotation, is found in the resonant microwave transmission;for any incident linear polarization. DOI: 10.1103/PhysRevB.86.241109;1;0;0;0;1;1098-0121;WOS:000312833400002;;;J;Calder, S.;Cao, G. -X.;Lumsden, M. D.;Kim, J. W.;Gai, Z.;Sales, B. C.;Mandrus, D.;Christianson, A. D.;Magnetic structural change of Sr2IrO4 upon Mn doping;PHYSICAL REVIEW B;86;22;220403;10.1103/PhysRevB.86.220403;DEC 26 2012;2012;The layered 5d transition-metal oxide Sr2IrO4 has been shown to host a;novel J(eff) = 1/2 Mott spin-orbit insulating state with;antiferromagnetic ordering, leading to comparisons with the layered;cuprates. Here we study the effect of substituting Mn for Ir in single;crystals of Sr2Ir0.9Mn0.1O4 through an investigation involving bulk;measurements and resonant x-ray and neutron scattering. We observe a new;long-range magnetic structure emerge upon doping through a reordering of;the spins from the basal plane to the c axis with a reduced ordering;temperature compared to Sr2IrO4 . The strong enhancement of the magnetic;x-ray scattering intensity at the L-3 edge relative to the L-2 edge;indicates that the J(eff) = 1/2 state is robust and capable of hosting a;variety of ground states. DOI: 10.1103/PhysRevB.86.220403;Gai, Zheng/B-5327-2012; Mandrus, David/H-3090-2014;Gai, Zheng/0000-0002-6099-4559;;9;1;0;0;9;1098-0121;WOS:000312831800002;;;J;Camjayi, Alberto;Arrachea, Liliana;Conductance of a quantum dot in the Kondo regime connected to dirty;wires;PHYSICAL REVIEW B;86;23;235143;10.1103/PhysRevB.86.235143;DEC 26 2012;2012;We study the transport behavior induced by a small bias voltage through;a quantum dot connected to one-channel disordered wires by means of a;quantum Monte Carlo method. We model the quantum dot by the;Hubbard-Anderson impurity and the wires by the one-dimensional Anderson;model with diagonal disorder within a length. We present a complete;description of the probability distribution function of the conductance;within the Kondo regime. DOI: 10.1103/PhysRevB.86.235143;1;0;0;0;1;1098-0121;WOS:000312832600005;;;J;Chen, Ying;Liu, Rui;Cai, Min;Shinar, Ruth;Shinar, Joseph;Extremely strong room-temperature transient photocurrent-detected;magnetic resonance in organic devices;PHYSICAL REVIEW B;86;23;235442;10.1103/PhysRevB.86.235442;DEC 26 2012;2012;An extremely strong room-temperature photocurrent- (PC- or I-PC-);detected magnetic resonance (PCDMR) that elucidates transport and;trapping phenomena in organic devices, in particular solar cells, is;described. When monitoring the transient PCDMR in indium tin oxide;(ITO)/poly(2-methoxy-5-(2'-ethyl)-hexoxy-1,4-phenylenevinylene);(MEH-PPV)/Al devices, where the MEH-PPV film was baked overnight at 100;degrees C in O-2, it is observed that | Delta I-PC/I-PC| peaks at values;>> 1, where Delta I-PC is the change in I-PC induced by magnetic;resonance conditions. Importantly, Delta I-PC and I-PC are of different;origin. The mechanism most likely responsible for this effect is the;spin-dependent formation of spinless bipolarons adjacent to negatively;charged deep traps, apparently induced in particular by oxygen centers,;to form trions. DOI: 10.1103/PhysRevB.86.235442;Cai, Min/A-2678-2014;1;0;0;0;1;1098-0121;WOS:000312832600016;;;J;Cho, Gil Young;Bardarson, Jens H.;Lu, Yuan-Ming;Moore, Joel E.;Superconductivity of doped Weyl semimetals: Finite-momentum pairing and;electronic analog of the He-3-A phase;PHYSICAL REVIEW B;86;21;214514;10.1103/PhysRevB.86.214514;DEC 26 2012;2012;We study superconducting states of doped inversion-symmetric Weyl;semimetals. Specifically, we consider a lattice model realizing a Weyl;semimetal with an inversion symmetry and study the superconducting;instability in the presence of a short-ranged attractive interaction.;With a phonon-mediated attractive interaction, we find two competing;states: a fully gapped finite-momentum Fulde-Ferrell-Larkin-Ovchinnikov;pairing state and a nodal even-parity pairing state. We show that, in a;BCS-type approximation, the finite-momentum pairing state is;energetically favored over the usual even-parity paired state and is;robust against weak disorder. Although energetically unfavorable, the;even-parity pairing state provides an electronic analog of the He-3-A;phase in that the nodes of the even-parity state carry nontrivial;winding numbers and therefore support a surface flat band. We briefly;discuss other possible superconducting states that may be realized in;Weyl semimetals. DOI: 10.1103/PhysRevB.86.214514;12;0;0;0;12;1098-0121;WOS:000312830400007;;;J;Duivenvoorden, Kasper;Quella, Thomas;Discriminating string order parameter for topological phases of gapped;SU(N) spin chains;PHYSICAL REVIEW B;86;23;235142;10.1103/PhysRevB.86.235142;DEC 26 2012;2012;One-dimensional gapped spin chains with symmetry PSU(N) = SU(N)/Z(N) are;known to possess N different topological phases. In this paper, we;introduce a nonlocal string order parameter which characterizes each of;these N phases unambiguously. Numerics confirm that our order parameter;allows one to extract a quantized topological invariant from a given;nondegenerate gapped ground state wave function. Discontinuous jumps in;the discrete topological order that arise when varying physical;couplings in the Hamiltonian may be used to detect quantum phase;transitions between different topological phases. DOI:;10.1103/PhysRevB.86.235142;Quella, Thomas/A-2630-2012;Quella, Thomas/0000-0002-5441-4124;6;0;0;0;6;1098-0121;WOS:000312832600004;;;J;Gao Xianlong;Chen, A-Hai;Tokatly, I. V.;Kurth, S.;Lattice density functional theory at finite temperature with strongly;density-dependent exchange-correlation potentials;PHYSICAL REVIEW B;86;23;235139;10.1103/PhysRevB.86.235139;DEC 26 2012;2012;The derivative discontinuity of the exchange-correlation (xc) energy at;an integer particle number is a property of the exact, unknown xc;functional of density functional theory (DFT) which is absent in many;popular local and semilocal approximations. In lattice DFT,;approximations exist which exhibit a discontinuity in the xc potential;at half-filling. However, due to convergence problems of the Kohn-Sham;(KS) self-consistency cycle, the use of these functionals is mostly;restricted to situations where the local density is away from;half-filling. Here a numerical scheme for the self-consistent solution;of the lattice KS Hamiltonian with a local xc potential with rapid (or;quasidiscontinuous) density dependence is suggested. The problem is;formulated in terms of finite-temperature DFT where the discontinuity in;the xc potential emerges naturally in the limit of zero temperature. A;simple parametrization is suggested for the xc potential of the uniform;one-dimensional (1D) Hubbard model at finite temperature which is;obtained from the solution of the thermodynamic Bethe ansatz. The;feasibility of the numerical scheme is demonstrated by application to a;model of fermionic atoms in a harmonic trap. The corresponding density;profile exhibits a plateau of integer occupation at low temperatures;which melts away for higher temperatures. DOI:;10.1103/PhysRevB.86.235139;Tokatly, Ilya/D-9554-2011; Chen, Ahai/D-6169-2013; Xianlong, Gao/K-8744-2012;Tokatly, Ilya/0000-0001-6288-0689; Xianlong, Gao/0000-0001-6914-3163;4;0;0;0;4;1098-0121;WOS:000312832600001;;;J;Hanson, George W.;Forati, Ebrahim;Linz, Whitney;Yakovlev, Alexander B.;Excitation of terahertz surface plasmons on graphene surfaces by an;elementary dipole and quantum emitter: Strong electrodynamic effect of;dielectric support;PHYSICAL REVIEW B;86;23;235440;10.1103/PhysRevB.86.235440;DEC 26 2012;2012;The excitation of transverse magnetic (TM) surface plasmons by a point;dipole in the vicinity of a multilayered graphene/dielectric system is;examined. It was previously shown that the surface plasmon (SP) excited;by a vertical dipole on an isolated graphene sheet exhibits a strong;excitation peak in the THz region; here we show that, in the presence of;a finite-thickness dielectric support layer such as SiO2, considerable;spectral content is transferred to a second (perturbed dielectric slab);mode, greatly decreasing and redshifting the excitation peak. The;presence of a Si half-space also diminishes the excitation strength, but;for graphene on top of SiO2-Si the presence of the SiO2 layer creates a;spacer restoring the excitation peak. A two-level quantum emitter is;also considered, where it is shown that the addition of a thin;dielectric support slab and SiO2-Si geometries affects the spontaneous;decay rate in a manner similar to the classical dipole SP excitation;peak. DOI: 10.1103/PhysRevB.86.235440;10;0;0;0;10;1098-0121;WOS:000312832600014;;;J;Hillier, N. J.;Foroozani, N.;Zocco, D. A.;Hamlin, J. J.;Baumbach, R. E.;Lum, I. K.;Maple, M. B.;Schilling, J. S.;Intrinsic dependence of T-c on hydrostatic (He-gas) pressure for;superconducting LaFePO, PrFePO, and NdFePO single crystals;PHYSICAL REVIEW B;86;21;214517;10.1103/PhysRevB.86.214517;DEC 26 2012;2012;Since their discovery in 2008, the Fe-based superconductors have;attracted a great deal of interest. Regrettably, themechanism(s);responsible for the superconductivity has yet to be unequivocally;identified. High pressure is an important variable since its application;moderates the pairing interaction. Thus far, the LnFePO (Ln = La, Pr,;Nd, Sm, Gd) family of superconductors has received relatively little;attention. Early high-pressure studies on LaFePO found that T-c;initially increased with pressure before passing through a maximum at;higher pressures. The present studies on both polycrystalline and;single-crystalline LaFePO, PrFePO, and NdFePO utilize the most;hydrostatic pressure medium available, i.e., dense He. Surprisingly, for;all samples, T-c is found to initially decrease rapidly with pressure at;the rate dT(c)/dP similar or equal to -2 to -3K/GPa. Less hydrostatic;pressure media thus appear to enhance the value of T-c in these;materials. These results give yet further evidence that the;superconducting state in Fe-based superconductors is extraordinarly;sensitive to lattice strain. DOI: 10.1103/PhysRevB.86.214517;Foroozani, Neda/H-2720-2013; Zocco, Diego/O-3440-2014;2;0;0;0;2;1098-0121;WOS:000312830400010;;;J;Hinuma, Yoyo;Oba, Fumiyasu;Kumagai, Yu;Tanaka, Isao;Ionization potentials of (112) and (11(2)over-bar) facet surfaces of;CuInSe2 and CuGaSe2;PHYSICAL REVIEW B;86;24;245433;10.1103/PhysRevB.86.245433;DEC 26 2012;2012;The ionization potentials of the faceted and nonfaceted (110) surfaces;of CuInSe2 (CIS) and CuGaSe2 (CGS), which are key components of;CuIn1-xGaxSe2 (CIGS) thin-film solar cells, are investigated using;first-principles calculations based on a hybrid Hartree-Fock density;functional theory approach. Slab models of the chalcopyrite (110);surface with both (112) and (11 (2) over bar) facets on each surface of;the slab are employed. Surface energy evaluations point out that two;types of faceted surfaces with point defects, namely a combination of;Cu-In (Cu-Ga) and In-Cu (Ga-Cu) antisites and a combination of Cu;vacancies and In-Cu (Ga-Cu) antisites, are the most stable depending on;the chemical potentials. The ionization potentials are evaluated with;two definitions: One highly sensitive to and the other less sensitive to;localized surface states. The latter varies by 0.4 eV in CIS and 0.5 eV;in CGS with the surface structure. The ionization potentials are reduced;by 0.2 eV for faceted surfaces with Cu-In (Cu-Ga) and In-Cu (Ga-Cu);antisites when the effects of the localized surface states are;considered. The values of both ionization potentials are similar between;CIS and CGS with a difference of about 0.1 eV for the most stable;surface structures. DOI: 10.1103/PhysRevB.86.245433;Kumagai, Yu/H-8104-2012; Tanaka, Isao/B-5941-2009; Oba, Fumiyasu/J-9723-2014;9;0;1;0;9;1098-0121;WOS:000312833400018;;;J;Hortamani, M.;Wiesendanger, R.;Role of hybridization in the Rashba splitting of noble metal monolayers;on W(110);PHYSICAL REVIEW B;86;23;235437;10.1103/PhysRevB.86.235437;DEC 26 2012;2012;In contradiction to the nature of the spin-orbit driven Rashba splitting;of surface states which increases with atomic number, Shikin et al.;[Phys. Rev. Lett. 100, 057601 (2008)] have observed that the size of the;splitting in Au overlayers on W(110) is smaller than for Ag overlayers.;In the framework of first-principle density functional theory, we have;studied the origin of the Rashba splitting at Au/Ag overlayers on the;W(110) surface. We show how the asymmetric behavior of the wave function;in the vicinity of the surface atom nucleus, in addition to the strength;of the nuclear potential gradient, plays a crucial role for the size of;the splitting. The influence of the electronic structure and spin;dependent hybridization on the Rashba splitting is discussed. The;asymmetric behavior of the surface wave function originates from the;surface-interface sp-d hybridization. We find that a spin dependent;hybridization in the Ag overlayer influences strongly the size of the;Rashba splitting. DOI: 10.1103/PhysRevB.86.235437;1;0;0;0;1;1098-0121;WOS:000312832600011;;;J;Hu, Xiang;Rueegg, Andreas;Fiete, Gregory A.;Topological phases in layered pyrochlore oxide thin films along the;[111] direction;PHYSICAL REVIEW B;86;23;235141;10.1103/PhysRevB.86.235141;DEC 26 2012;2012;We theoretically study a multiband Hubbard model of pyrochlore oxides of;the form A(2)B(2)O(7), where B is a heavy transition metal ion with;strong spin-orbit coupling, in a thin-film geometry orientated along the;[111] direction. Along this direction, the pyrochlore lattice consists;of alternating kagome and triangular lattice planes of B ions. We;consider a single kagome layer, a bilayer, and the two different;trilayers. As a function of the strength of the spin-orbit coupling, the;direct and indirect d-orbital hopping, and the band filling, we identify;a number of scenarios where a noninteracting time-reversal-invariant;Z(2) topological phase is expected and we suggest some candidate;materials. We study the interactions in the half-filled d shell within;Hartree-Fock theory and identify parameter regimes where a zero magnetic;field Chern insulator with Chern number +/- 1 can be found. The most;promising geometries for topological phases appear to be the bilayer;which supports both a Z(2) topological insulator and a Chern insulator,;and the triangular-kagome-triangular trilayer which supports a;relatively robust Chern insulator phase. DOI: 10.1103/PhysRevB.86.235141;Ruegg, Andreas/B-4498-2010;12;0;0;0;12;1098-0121;WOS:000312832600003;;;J;Janotti, A.;Bjaalie, L.;Gordon, L.;Van de Walle, C. G.;Controlling the density of the two-dimensional electron gas at the;SrTiO3/LaAlO3 interface;PHYSICAL REVIEW B;86;24;241108;10.1103/PhysRevB.86.241108;DEC 26 2012;2012;The polar discontinuity at the SrTiO3/LaAlO3 interface (STO/LAO) can in;principle sustain an electron density of 3.3 x 10(14) cm(-2) (0.5;electrons per unit cell). However, experimentally observed densities are;more than an order of magnitude lower. Using a combination of;first-principles and Schrodinger-Poisson simulations we show that the;problem lies in the asymmetric nature of the structure, i.e., the;inability to form a second LAO/STO interface that is a mirror image of;the first, or to fully passivate the LAO surface. Our insights apply to;oxide interfaces in general, explaining for instance why the;SrTiO3/GdTiO3 interface has been found to exhibit the full density of;3.3 x 10(14) cm(-2). DOI: 10.1103/PhysRevB.86.241108;Janotti, Anderson/F-1773-2011; Van de Walle, Chris/A-6623-2012;Janotti, Anderson/0000-0001-5028-8338; Van de Walle,;Chris/0000-0002-4212-5990;11;0;0;0;11;1098-0121;WOS:000312833400001;;;J;Kim, Changsoo;Jo, Euna;Kang, Byeongki;Kwon, Sangil;Lee, Soonchil;Shim, Jeong Hyun;Suzuki, Takehiko;Katsufuji, Takuro;Giant magnetic anisotropy in Mn3O4 investigated by Mn-55(2+) and;Mn-55(3+) NMR;PHYSICAL REVIEW B;86;22;224420;10.1103/PhysRevB.86.224420;DEC 26 2012;2012;In Mn3O4, the magnetization along the c axis is different from that;along the ab plane even in the strong field of 30 T. To investigate the;origin of the huge magnetic anisotropy, Mn2+ and Mn3+ nuclear magnetic;resonance spectra were measured in the 7-T magnetic field. The canting;angle of the magnetic moments was estimated for various directions of;field by rotating a single-crystalline Mn3O4 sample. One of the main;results is that Mn3+ moments lie nearly in the ab plane in the external;field perpendicular to the plane, meaning that the macroscopic magnetic;anisotropy of Mn3O4 originates from the magnetic anisotropy of Mn3+ in;the ab plane. The anisotropy field is estimated to be about 65 T. It is;obvious that the Yafet-Kittel structure made of Mn2+ and Mn3+ spins lies;in the ab plane due to this huge magnetic anisotropy, contrary to the;previous reports. By the least-squares fit of the canting angle data for;various field directions to a simple model, we obtained that J(BB) =;1.88J(AB) - 0.09 meV and K-A = -14.7J(AB) + 2.0 meV, where J(AB), J(BB),;and K-A are the exchange interaction constants between Mn2+ moments,;Mn2+ and Mn3+ moments, and an anisotropy constant of Mn2+, respectively.;DOI: 10.1103/PhysRevB.86.224420;Suzuki, Takehito/B-3038-2013; Lee, Soonchil/C-1963-2011;3;0;0;0;3;1098-0121;WOS:000312831800010;;;J;Kimber, Robin G. E.;Wright, Edward N.;O'Kane, Simon E. J.;Walker, Alison B.;Blakesley, James C.;Mesoscopic kinetic Monte Carlo modeling of organic photovoltaic device;characteristics;PHYSICAL REVIEW B;86;23;235206;10.1103/PhysRevB.86.235206;DEC 26 2012;2012;Measured mobility and current-voltage characteristics of single layer;and photovoltaic (PV) devices composed of;poly{9,9-dioctylfluorene-co-bis[N,N'-(4-butylphenyl)]bis(N,N'-phenyl-1,4;-phenylene)diamine} (PFB) and;poly(9,9-dioctylfluorene-co-benzothiadiazole) (F8BT) have been;reproduced by a mesoscopic model employing the kinetic Monte Carlo (KMC);approach. Our aim is to show how to avoid the uncertainties common in;electrical transport models arising from the need to fit a large number;of parameters when little information is available, for example, a;single current-voltage curve. Here, simulation parameters are derived;from a series of measurements using a self-consistent "building-blocks";approach, starting from data on the simplest systems. We found that site;energies show disorder and that correlations in the site energies and a;distribution of deep traps must be included in order to reproduce;measured charge mobility-field curves at low charge densities in bulk;PFB and F8BT. The parameter set from the mobility-field curves;reproduces the unipolar current in single layers of PFB and F8BT and;allows us to deduce charge injection barriers. Finally, by combining;these disorder descriptions and injection barriers with an optical;model, the external quantum efficiency and current densities of blend;and bilayer organic PV devices can be successfully reproduced across a;voltage range encompassing reverse and forward bias, with the;recombination rate the only parameter to be fitted, found to be 1 x;10(7) s(-1). These findings demonstrate an approach that removes some of;the arbitrariness present in transport models of organic devices, which;validates the KMC as an accurate description of organic optoelectronic;systems, and provides information on the microscopic origins of the;device behavior. DOI: 10.1103PhysRevB.86.235206;20;0;1;0;20;1098-0121;WOS:000312832600006;;;J;Kishine, Jun-ichiro;Bostrem, I. G.;Ovchinnikov, A. S.;Sinitsyn, Vl. E.;Coherent sliding dynamics and spin motive force driven by crossed;magnetic fields in a chiral helimagnet;PHYSICAL REVIEW B;86;21;214426;10.1103/PhysRevB.86.214426;DEC 26 2012;2012;We demonstrate that the chiral soliton lattice formed from a chiral;helimagnet exhibits a coherent sliding motion when a time-dependent;magnetic field is applied parallel to the helical axis, in addition to a;static field perpendicular to the helical axis. To describe the coherent;sliding, we use the collective coordinate method and a numerical;analysis. We also show that the time-dependent sliding velocity causes a;time-varying Berry cap which creates a spin motive force. A salient;feature of the chiral soliton lattice is the appearance of a strongly;amplified spin motive force which is directly proportional to the;macroscopic number of solitons (magnetic kinks). DOI:;10.1103/PhysRevB.86.214426;2;0;0;0;2;1098-0121;WOS:000312830400005;;;J;Kratzer, M.;Rubezhanska, M.;Prehal, C.;Beinik, I.;Kondratenko, S. V.;Kozyrev, Yu N.;Teichert, C.;Electrical and photovoltaic properties of self-assembled Ge nanodomes on;Si(001);PHYSICAL REVIEW B;86;24;245320;10.1103/PhysRevB.86.245320;DEC 26 2012;2012;SiGe nano-size islands play a key role in novel electronic and;optoelectronic devices. Therefore, the understanding of basic electrical;properties of individual nanoislands is crucial. Here, the electrical;and photovoltaic properties of individual self-assembled Ge nanodomes;(NDs) on Si(001) have been studied by conductive and photoconductive;atomic force microscopy (AFM). The transition areas between the {113};and {15 3 23} facets turned out to be most conductive whereas the {113};facets exhibit minimum conductivity, which is attributed to a local;increase in Si concentration. Local current-to-voltage measurements;revealed that the NDs show an ohmic resistance, which is in the M Omega;region and scales with the ND-substrate interface area. Upon;illumination by the AFM feedback laser at 860 nm, a photovoltage is;generated. This photovoltage originates in the p-i-n structure formed;between the p-type substrate, the Ge ND, and the n-type diamond AFM;probe. DOI: 10.1103/PhysRevB.86.245320;Teichert, Christian/F-1003-2013;3;0;0;0;3;1098-0121;WOS:000312833400010;;;J;Kudasov, Yu. B.;Maslov, D. A.;Frustration and charge order in LuFe2O4;PHYSICAL REVIEW B;86;21;214427;10.1103/PhysRevB.86.214427;DEC 26 2012;2012;The nature of a transition from two-to three-dimensional charge order;(2D-CO -> 3D-CO) in the multiferroic material LuFe2O4 is discussed. It;is shown that a high-temperature ordered phase of the Ising model with;antiferromagnetic or antiferroelectric (AF) interactions on a triangular;bilayer (W layer) is a dimer partially disordered AF (DPDA) state, which;is a generalization of a well-known partially disordered AF structure;for the triangular lattice. The DPDA state is stable against a variation;of interaction parameters in a wide range. It is demonstrated that the;transition of W layers to the DPDA state gives rise to the 2D-CO phase;in LuFe2O4 at a high temperature. DOI: 10.1103/PhysRevB.86.214427;1;1;0;0;1;1098-0121;WOS:000312830400006;;;J;Lee, Janghee;Park, Joonbum;Lee, Jae-Hyeong;Kim, Jun Sung;Lee, Hu-Jong;Gate-tuned differentiation of surface-conducting states in;Bi1.5Sb0.5Te1.7Se1.3 topological-insulator thin crystals;PHYSICAL REVIEW B;86;24;245321;10.1103/PhysRevB.86.245321;DEC 26 2012;2012;Using field-angle, temperature, and back-gate-voltage dependence of the;weak antilocalization (WAL) and universal conductance fluctuations of;thin Bi1.5Sb0.5Te1.7Se1.3 topological-insulator single crystals, in;combination with gate-tuned Hall resistivity measurements, we reliably;separated the surface conduction of the topological nature from both the;bulk conduction and topologically trivial surface conduction. We;minimized the bulk conduction in the crystals and back-gate tuned the;Fermi level to the topological bottom-surface band while keeping the top;surface insensitive to back-gating with the optimal crystal thickness of;similar to 100 nm. We argue that the WAL effect occurring by the;coherent diffusive motion of carriers in relatively low magnetic fields;is more essential than other transport tools such as the Shubnikov-de;Hass oscillations for confirming the conduction by the topologically;protected surface state. Our approach provides a highly coherent picture;of the surface transport properties of topological insulators and a;reliable means of investigating the fundamental topological nature of;surface conduction and possible quantum-device applications related to;momentum-locked spin polarization in surface states. DOI:;10.1103/PhysRevB.86.245321;Kim, Jun Sung/G-8861-2012; Lee, Janghee/E-7471-2013;Lee, Janghee/0000-0002-7398-9097;11;2;1;0;11;1098-0121;WOS:000312833400011;;;J;Lee, Soo-Yong;Lee, Hyun-Woo;Sim, H. -S.;Visibility recovery by strong interaction in an electronic Mach-Zehnder;interferometer;PHYSICAL REVIEW B;86;23;235444;10.1103/PhysRevB.86.235444;DEC 26 2012;2012;We study the evolution of a single-electron packet of Lorentzian shape;along an edge of the integer quantum Hall regime or in a Mach-Zehnder;interferometer, considering a capacitive Coulomb interaction and using a;bosonization approach. When the packet propagates along a chiral quantum;Hall edge, we find that its electron density profile becomes more;distorted from Lorentzian due to the generation of electron-hole;excitations, as the interaction strength increases yet stays in a;weak-interaction regime. However, as the interaction strength becomes;larger and enters a strong-interaction regime, the distortion becomes;weaker and eventually the Lorentzian packet shape is recovered. The;recovery of the packet shape leads to an interesting feature of the;interference visibility of the symmetric Mach-Zehnder interferometer;whose two arms have the same interaction strength. As the interaction;strength increases, the visibility decreases from the maximum value in;the weak-interaction regime and then increases to the maximum value in;the strong-interaction regime. We argue that this counterintuitive;result also occurs under other types of interactions. DOI:;10.1103/PhysRevB.86.235444;Lee, Hyun-Woo/B-8995-2008; Sim, Heung-Sun/C-1624-2011;Lee, Hyun-Woo/0000-0002-1648-8093;;1;0;0;0;1;1098-0121;WOS:000312832600018;;;J;Li, Qiuzi;Rossi, E.;Das Sarma, S.;Two-dimensional electronic transport on the surface of three-dimensional;topological insulators;PHYSICAL REVIEW B;86;23;235443;10.1103/PhysRevB.86.235443;DEC 26 2012;2012;We present a theoretical approach to describe the two-dimensional (2D);transport properties of the surfaces of three-dimensional topological;insulators (3DTIs) including disorder and phonon scattering effects. The;method that we present is able to take into account the effects of the;strong disorder-induced carrier density inhomogeneities that;characterize the ground state of the surfaces of 3DTIs, especially at;low doping, as recently shown experimentally. Due to the inhomogeneous;nature of the carrier density landscape, standard theoretical techniques;based on ensemble averaging over disorder assuming a spatially uniform;average carrier density are inadequate. Moreover the presence of strong;spatial potential and density fluctuations greatly enhances the effect;of thermally activated processes on the transport properties. The theory;presented is able to take into account all the effects due to the;disorder-induced inhomogeneities, momentum scattering by disorder, and;the effect of electron-phonon scattering processes. As a result the;developed theory is able to accurately describe the transport properties;of the surfaces of 3DTIs both at zero and finite temperature. DOI:;10.1103/PhysRevB.86.235443;Rossi, Enrico/K-2837-2012; Li, Qiuzi/F-6474-2011; Das Sarma, Sankar/B-2400-2009;Rossi, Enrico/0000-0002-2647-3610;;8;1;0;0;8;1098-0121;WOS:000312832600017;;;J;Liang, S. H.;Liu, D. P.;Tao, L. L.;Han, X. F.;Guo, Hong;Organic magnetic tunnel junctions: The role of metal-molecule interface;PHYSICAL REVIEW B;86;22;224419;10.1103/PhysRevB.86.224419;DEC 26 2012;2012;We report a first-principles theoretical investigation of spin-polarized;quantum transport in organic magnetic tunnel junctions (OMTJs) to;provide a microscopic understanding on the sign of the tunnel;magnetoresistance ratio (TMR). We consider two different OMTJs, formed;by sandwiching 1-stearic acid radicals (1-SAR) or 1,18-stearic diacid;radicals (1,18-SDR) between two Ni electrodes. Even though the main;difference between them is only on one of the Ni/molecule contacts, such;a structure difference is found to induce a significant sign change of;the TMR. The TMR is negative for 1-SAR at -19.6%, but is positive for;1,18-SDR at 13.7%. By investigating the concept of scattering density of;states (SDOS), we found that scattering processes of p electrons at the;Ni/molecule interface determines the sign of TMR. Based on spin;polarization of the SDOS, we extend the Julliere model to explain both;the sign and the value of the TMR qualitatively and semiquantitatively.;It is concluded that understanding spin-polarized quantum transport in;organic magnetic tunnel junction requires a comprehensive knowledge of;the electronic structures of the molecule, the metal electrode, and the;metal-molecule contacts. DOI: 10.1103/PhysRevB.86.224419;Guo, Hong/A-8084-2010;4;0;0;0;4;1098-0121;WOS:000312831800009;;;J;Liew, T. C. H.;Holographic arrays based on semiconductor microstructures;PHYSICAL REVIEW B;86;23;235314;10.1103/PhysRevB.86.235314;DEC 26 2012;2012;A concept of complex reflectivity modulation is proposed based on the;electrical control of quantum well exciton resonances that influence the;propagation of light in a layered semiconductor structure. By variation;in exciton energies, both the intensity and the phase of reflected light;can be fully controlled. Unlike previous devices, for full complex light;modulation, the design is based on a single device in a single;structure. The device allows complete 100% intensity contrast and allows;for the construction of small pixel sizes with fast response times. DOI:;10.1103/PhysRevB.86.235314;1;0;0;0;1;1098-0121;WOS:000312832600010;;;J;Lin, Chien-Hung;Sensarma, Rajdeep;Sengupta, K.;Sarma, S. Das;Quantum dynamics of disordered bosons in an optical lattice;PHYSICAL REVIEW B;86;21;214207;10.1103/PhysRevB.86.214207;DEC 26 2012;2012;We study the equilibrium and nonequilibrium properties of strongly;interacting bosons on a lattice in the presence of a random bounded;disorder potential. Using a Gutzwiller projected variational technique,;we study the equilibrium phase diagram of the disordered Bose-Hubbard;model and obtain the Mott insulator, Bose glass, and superfluid phases.;We also study the nonequilibrium response of the system under a periodic;temporal drive where, starting from the superfluid phase, the hopping;parameter is ramped down linearly in time, and back to its initial;value. We study the density of excitations created, the change in the;superfluid order parameter, and the energy pumped into the system in;this process as a function of the inverse ramp rate tau. For the clean;case the density of excitations goes to a constant, while the order;parameter and energy relax as 1/tau and 1/tau(2) respectively. With;disorder, the excitation density decays exponentially with t, with the;decay rate increasing with the disorder, to an asymptotic value;independent of the disorder. The energy and change in order parameter;also decrease as tau is increased. DOI: 10.1103/PhysRevB.86.214207;Das Sarma, Sankar/B-2400-2009;1;0;0;0;1;1098-0121;WOS:000312830400001;;;J;Luo, Yongkang;Bao, Jinke;Shen, Chenyi;Han, Jieke;Yang, Xiaojun;Lv, Chen;Li, Yuke;Jiao, Wenhe;Si, Bingqi;Feng, Chunmu;Dai, Jianhui;Cao, Guanghan;Xu, Zhu-An;Magnetism and crystalline electric field effect in ThCr2Si2-type;CeNi2As2;PHYSICAL REVIEW B;86;24;245130;10.1103/PhysRevB.86.245130;DEC 26 2012;2012;A millimeter-sized ThCr2Si2-type CeNi2As2 single crystal was synthesized;by the NaAs flux method and its physical properties were investigated by;magnetization, transport, and specific-heat measurements. In contrast to;the previously reported CaBe2Ge2-type CeNi2As2, the ThCr2Si2-type;CeNi2As2 is a highly anisotropic uniaxial antiferromagnet with the;transition temperature T-N = 4.8 K. A magnetic-field-induced spin-flop;transition was seen below T-N when the applied B is parallel to the c;axis, the magnetic easy axis, together with a huge frustration parameter;f = theta(W)/T-N. A pronounced Schottky-type anomaly in specific heat;was also found around 160 K, which could be attributed to the;crystalline electric field effect with the excitation energies being;fitted to Delta(1) = 325 K and Delta(2) = 520 K, respectively. Moreover,;the in-plane resistivity anisotropy and low-temperature x-ray;diffractions suggest that this compound is a rare example exhibiting a;possible structure distortion induced by the 4f-electron magnetic;frustration. DOI: 10.1103/PhysRevB.86.245130;Cao, Guanghan/C-4753-2008;5;0;0;0;5;1098-0121;WOS:000312833400008;;;J;Margaris, G.;Trohidou, K. N.;Iannotti, V.;Ausanio, G.;Lanotte, L.;Fiorani, D.;Magnetic behavior of dense nanoparticle assemblies: Interplay of;interparticle interactions and particle system morphology;PHYSICAL REVIEW B;86;21;214425;10.1103/PhysRevB.86.214425;DEC 26 2012;2012;The role of interparticle interactions and the morphology in the;magnetic behavior of dense assemblies of Fe nanoparticles with;concentration well above the percolation threshold has been studied;using the Monte Carlo simulations technique. The initial and;temperature-dependent magnetization curves have been calculated for;different conditions of the assembly morphology and the interparticle;interaction strengths. Our simulations showed that the strong;competition between the anisotropy and exchange energies in nonuniform;dense assemblies results in a frustration of the nanoparticles moments;coupling and creates plateaus and abrupt steps, which indicate a sudden,;collective spin reversal, for low and intermediate dipolar strengths. In;the case of strong dipolar interactions, the stepwise behavior becomes;smoother and gradually disappears. DOI: 10.1103/PhysRevB.86.214425;2;0;0;0;2;1098-0121;WOS:000312830400004;;;J;Marom, Noa;Caruso, Fabio;Ren, Xinguo;Hofmann, Oliver T.;Koerzdoerfer, Thomas;Chelikowsky, James R.;Rubio, Angel;Scheffler, Matthias;Rinke, Patrick;Benchmark of GW methods for azabenzenes;PHYSICAL REVIEW B;86;24;245127;10.1103/PhysRevB.86.245127;DEC 26 2012;2012;Many-body perturbation theory in the GW approximation is a useful method;for describing electronic properties associated with charged;excitations. A hierarchy of GW methods exists, starting from;non-self-consistent G(0)W(0), through partial self-consistency in the;eigenvalues and in the Green's function (scGW(0)), to fully;self-consistent GW (scGW). Here, we assess the performance of these;methods for benzene, pyridine, and the diazines. The quasiparticle;spectra are compared to photoemission spectroscopy (PES) experiments;with respect to all measured particle removal energies and the ordering;of the frontier orbitals. We find that the accuracy of the calculated;spectra does not match the expectations based on their level of;self-consistency. In particular, for certain starting points G(0)W(0);and scGW(0) provide spectra in better agreement with the PES than scGW.;DOI: 10.1103/PhysRevB.86.245127;Rinke, Patrick/A-4208-2010; Caruso, Fabio/D-5917-2013; Korzdorfer, Thomas/B-8266-2014; DONOSTIA INTERNATIONAL PHYSICS CTR., DIPC/C-3171-2014; Ren, Xinguo/N-4768-2014;Rinke, Patrick/0000-0002-5967-9965;;17;0;0;0;17;1098-0121;WOS:000312833400006;;;J;Marty, K.;Christianson, A. D.;dos Santos, A. M.;Sipos, B.;Matsubayashi, K.;Uwatoko, Y.;Fernandez-Baca, J. A.;Tulk, C. A.;Maier, T. A.;Sales, B. C.;Lumsden, M. D.;Effect of pressure on the neutron spin resonance in the unconventional;superconductor FeTe0.6Se0.4;PHYSICAL REVIEW B;86;22;220509;10.1103/PhysRevB.86.220509;DEC 26 2012;2012;We have carried out a pressure study of the unconventional;superconductor FeTe0.6Se0.4 up to 1.5 GPa by neutron scattering,;resistivity, and magnetic susceptibility measurements. The neutron spin;resonance energy and the superconducting transition temperature have;been extracted as a function of applied pressure in samples obtained;from the same crystal. Both increase with pressure up to amaximum at;approximate to 1.3 GPa, directly demonstrating a correlation between;these two fundamental parameters of unconventional superconductivity. A;comparison between the quantitative evolution of T-c and the resonance;energy as a function of applied pressure is also discussed. These;measurements serve to demonstrate the feasibility of using pressure;dependent inelastic neutron scattering to explore the relationship;between the resonance energy and T-c in unconventional superconductors.;DOI: 10.1103/PhysRevB.86.220509;Maier, Thomas/F-6759-2012; Fernandez-Baca, Jaime/C-3984-2014; Matsubayashi, Kazuyuki/F-7696-2013;3;0;0;0;3;1098-0121;WOS:000312831800004;;;J;Mesterhazy, D.;Berges, J.;von Smekal, L.;Effect of short-range interactions on the quantum critical behavior of;spinless fermions on the honeycomb lattice;PHYSICAL REVIEW B;86;24;245431;10.1103/PhysRevB.86.245431;DEC 26 2012;2012;We present a functional renormalization group investigation of an;Euclidean three-dimensional matrix Yukawa model with U(N) symmetry,;which describes N = 2 Weyl fermions that effectively interact via a;short-range repulsive interaction. This system relates to an effective;low-energy theory of spinless electrons on the honeycomb lattice and can;be seen as a simple model for suspended graphene. We find a continuous;phase transition characterized by large anomalous dimensions for the;fermions and composite degrees of freedom. The critical exponents define;a new universality class distinct from Gross-Neveu type models,;typically considered in this context. DOI: 10.1103/PhysRevB.86.245431;7;0;0;0;7;1098-0121;WOS:000312833400016;;;J;Mizuguchi, Yoshikazu;Fujihisa, Hiroshi;Gotoh, Yoshito;Suzuki, Katsuhiro;Usui, Hidetomo;Kuroki, Kazuhiko;Demura, Satoshi;Takano, Yoshihiko;Izawa, Hiroki;Miura, Osuke;BiS2-based layered superconductor Bi4O4S3;PHYSICAL REVIEW B;86;22;220510;10.1103/PhysRevB.86.220510;DEC 26 2012;2012;Exotic superconductivity has often been discovered in materials with a;layered (two-dimensional) crystal structure. The low dimensionality can;affect the electronic structure and can realize high transition;temperatures (T-c) and/or unconventional superconductivity mechanisms.;We show superconductivity in a new bismuth-oxysulfide compound Bi4O4S3.;Crystal structure analysis indicates that this superconductor has a;layered structure composed of a stacking of spacer layers and BiS2;layers. Band calculation suggests that the Fermi level for Bi4O4S3 is;just on the peak position of the partial density of states of the Bi 6p;orbital within the BiS2 layer. The BiS2 layer will be a basic structure;which provides another universality class for a layered superconducting;family, and this opens up a new field in the physics and chemistry of;low-dimensional superconductors. DOI: 10.1103/PhysRevB.86.220510;68;0;3;0;70;1098-0121;WOS:000312831800005;;;J;Mutiso, Rose M.;Sherrott, Michelle C.;Li, Ju;Winey, Karen I.;Simulations and generalized model of the effect of filler size;dispersity on electrical percolation in rod networks;PHYSICAL REVIEW B;86;21;214306;10.1103/PhysRevB.86.214306;DEC 26 2012;2012;We present a three-dimensional simulation of electrical conductivity in;isotropic, polydisperse rod networks from which we determine the;percolation threshold (phi(c)). Existing analytical models that account;for size dispersity are formulated in the slender-rod limit and are less;accurate for predicting phi(c) in composites with rods of modest L/D.;Using empirical approximations from our simulation data, we generalized;the excluded volume percolation model to account for both finite L/D and;size dispersity, providing a solution for phi(c) of polydisperse rod;networks that is quantitatively accurate across the entire L/D range.;DOI: 10.1103/PhysRevB.86.214306;Li, Ju/A-2993-2008;Li, Ju/0000-0002-7841-8058;12;0;0;0;12;1098-0121;WOS:000312830400002;;;J;Nishikawa, Y.;Hewson, A. C.;Hund's rule coupling in models of magnetic impurities and quantum dots;PHYSICAL REVIEW B;86;24;245131;10.1103/PhysRevB.86.245131;DEC 26 2012;2012;Studies of the effects of the Hund's rule coupling J(H) in multiple;orbit impurities or quantum dots using different models have led to;quite different predictions for the Kondo temperature T-K as a function;of J(H). We show that the differences depend on whether or not the;models conserve orbital angular momentum about the impurity site. Using;numerical renormalization-group calculations, we deduce the renormalized;parameters for the Fermi liquid regime and show that, despite the;differences between the models, the low-energy fixed point in the;strong-correlation regime is universal, with a single energy scale T-K;and just two renormalized interaction parameters, a renormalized single;orbital term, (U) over tilde = 4T(K), and a renormalized Hund's rule;term, (J) over tilde (H) = 8T(K)/3. DOI: 10.1103/PhysRevB.86.245131;3;0;0;0;3;1098-0121;WOS:000312833400009;;;J;Oliveira, G. N. P.;Pereira, A. M.;Lopes, A. M. L.;Amaral, J. S.;dos Santos, A. M.;Ren, Y.;Mendonca, T. M.;Sousa, C. T.;Amaral, V. S.;Correia, J. G.;Araujo, J. P.;Dynamic off-centering of Cr3+ ions and short-range magneto-electric;clusters in CdCr2S4;PHYSICAL REVIEW B;86;22;224418;10.1103/PhysRevB.86.224418;DEC 26 2012;2012;The cubic spinel CdCr2S4 gained recently a vivid interest, given the;relevance of relaxor-like dielectric behavior in its paramagnetic phase.;By a singular combination of local probe techniques, namely, pair;distribution function and perturbed angular correlation, we firmly;establish that the Cr ion plays the central key role on this exotic;phenomenon, namely, through a dynamic off-centering displacement of its;coordination sphere. We further show that this off-centering of the;magnetic Cr ion gives rise to a peculiar entanglement between the polar;and magnetic degrees of freedom, stabilizing, in the paramagnetic phase,;short-range magnetic clusters, clearly seen in ultralow-field;susceptibility measurements. Moreover, the Landau theory is here used to;demonstrate that a linear coupling between the magnetic and polar order;parameters is sufficient to justify the appearance of magnetic cluster;in the paramagnetic phase of this compound. These results open insights;on the hotly debated magnetic and polar interaction, setting a step;forward in the reinterpretation of the coupling of different physical;degrees of freedom. DOI: 10.1103/PhysRevB.86.224418;Universidade Aveiro, Departamento Fisica/E-4128-2013; Amaral, Vitor/A-1570-2009; Pereira, Andre/B-4648-2008; Amaral, Joao/C-6354-2009; Lopes, Armandina/I-5066-2013; Martins Correia, Joao Guilherme/J-5473-2013; Esteves de Araujo, Joao Pedro/D-4389-2011;Amaral, Vitor/0000-0003-3359-7133; Pereira, Andre/0000-0002-8587-262X;;Amaral, Joao/0000-0003-0488-9372; Lopes, Armandina/0000-0001-8776-0894;;Martins Correia, Joao Guilherme/0000-0002-8848-0824; Esteves de Araujo,;Joao Pedro/0000-0002-1646-7727;7;1;0;0;7;1098-0121;WOS:000312831800008;;;J;Olund, Christopher T.;Zhao, Erhai;Current-phase relation for Josephson effect through helical metal;PHYSICAL REVIEW B;86;21;214515;10.1103/PhysRevB.86.214515;DEC 26 2012;2012;Josephson junctions fabricated on the surface of three-dimensional;topological insulators ( TI) show a few unusual properties distinct from;conventional Josephson junctions. In these devices, the Josephson;coupling and the supercurrent are mediated by helical metal, the;two-dimensional surface state of the TI. A line junction of this kind is;known to support Andreev bound states at zero energy for phase bias pi;and, consequently, the so-called fractional ac Josephson effect.;Motivated by recent experiments on TI-based Josephson junctions, here we;describe a convenient algorithm to compute the bound-state spectrum and;the current-phase relation for junctions of finite length and width. We;present analytical results for the bound-state spectrum, and discuss the;dependence of the current-phase relation on the length and width of the;junction, the chemical potential of the helical metal, and temperature.;A thorough understanding of the current-phase relation may help in;designing topological superconducting qubits and manipulating Majorana;fermions. DOI: 10.1103/PhysRevB.86.214515;Zhao, Erhai/B-3463-2010;Zhao, Erhai/0000-0001-8954-1601;5;0;0;0;5;1098-0121;WOS:000312830400008;;;J;Pakdel, Sahar;Miri, MirFaez;Faraday rotation and circular dichroism spectra of gold and silver;nanoparticle aggregates;PHYSICAL REVIEW B;86;23;235445;10.1103/PhysRevB.86.235445;DEC 26 2012;2012;We study the magneto-optical response of noble metal nanoparticle;clusters. We consider the interaction between the light-induced dipoles;of particles. In the presence of a magnetic field, the simplest achiral;cluster, a dimer, exhibits circular dichroism (CD). The CD of a dimer;depends on the directions of the magnetic field and the light wave;vector. The CD of a populous cluster weakly depends on the magnetic;field. Upon scattering from the cluster, an incident linearly polarized;light with polarization azimuth. becomes elliptically polarized. The;polarization azimuth rotation and ellipticity angle variation are;sinusoidal functions of 2 phi.. The anisotropy and the chirality of the;cluster control the amplitude and offset of these sinusoidal functions.;The Faraday rotation and Faraday ellipticity are also sinusoidal;functions of 2 phi. Near the surface plasmon frequency, Faraday rotation;and Faraday ellipticity increase. DOI: 10.1103/PhysRevB.86.235445;6;0;0;0;6;1098-0121;WOS:000312832600019;;;J;Pedersen, Jesper Goor;Brynildsen, Mikkel H.;Cornean, Horia D.;Pedersen, Thomas Garm;Optical Hall conductivity in bulk and nanostructured graphene beyond the;Dirac approximation;PHYSICAL REVIEW B;86;23;235438;10.1103/PhysRevB.86.235438;DEC 26 2012;2012;We present a perturbative method for calculating the optical Hall;conductivity in a tight-binding framework based on the Kubo formalism.;The method involves diagonalization only of the Hamiltonian in absence;of the magnetic field, and thus avoids the computational problems;usually arising due to the huge magnetic unit cells required to maintain;translational invariance in the presence of a Peierls phase. A recipe;for applying the method to numerical calculations of the magneto-optical;response is presented. We apply the formalism to the case of ordinary;and gapped graphene in a next-nearest-neighbor tight-binding model as;well as graphene antidot lattices. In both cases, we find unique;signatures in the Hall response that are not captured in continuum;(Dirac) approximations. These include a nonzero optical Hall;conductivity even when the chemical potential is at the Dirac point;energy. Numerical results suggest that this effect should be measurable;in experiments. DOI: 10.1103/PhysRevB.86.235438;Goor Pedersen, Jesper/C-3965-2008; Cornean, Horia/A-4064-2008;Goor Pedersen, Jesper/0000-0002-8411-240X; Cornean,;Horia/0000-0003-2700-8785;1;0;0;0;1;1098-0121;WOS:000312832600012;;;J;Rodriguez, Alejandro W.;Reid, M. T. Homer;Johnson, Steven G.;Fluctuating-surface-current formulation of radiative heat transfer for;arbitrary geometries;PHYSICAL REVIEW B;86;22;220302;10.1103/PhysRevB.86.220302;DEC 26 2012;2012;We describe a fluctuating-surface-current formulation of radiative heat;transfer, applicable to arbitrary geometries in both the near and far;field, that directly exploits efficient and sophisticated techniques;from the boundary-element method. We validate as well as extend previous;results for spheres and cylinders, and also compute the heat transfer in;a more complicated geometry consisting of two interlocked rings.;Finally, we demonstrate how this method can be adapted to compute the;spatial distribution of heat flux on the surfaces of the bodies. DOI:;10.1103/PhysRevB.86.220302;13;0;0;0;13;1098-0121;WOS:000312831800001;;;J;Saidi, Wissam A.;Lee, Minyoung;Li, Liang;Zhou, Guangwen;McGaughey, Alan J. H.;Ab initio atomistic thermodynamics study of the early stages of Cu(100);oxidation;PHYSICAL REVIEW B;86;24;245429;10.1103/PhysRevB.86.245429;DEC 26 2012;2012;Using an ab initio atomistic thermodynamics framework, we identify the;stable surface structures during the early stages of Cu(100) oxidation;at finite temperature and pressure conditions. We predict the clean;surface, the 0.25 monolayer oxygen-covered surface, and the missing-row;reconstruction as thermodynamically stable structures in range of;100-1000 K and 10(-15)-10(5) atm, consistent with previous experimental;and theoretical results. We also investigate the thermodynamic;stabilities of possible precursors to Cu2O formation including;missing-row reconstruction structures that include extra on-or;subsurface oxygen atoms as well as boundary phases formed from two;missing-row nanodomains. While these structures are not predicted to be;thermodynamically stable for oxygen chemical potentials below the;nucleation limit of Cu2O, they are likely to exist due to kinetic;hindrance. DOI: 10.1103/PhysRevB.86.245429;Li, Liang/C-5782-2012;7;0;0;0;7;1098-0121;WOS:000312833400014;;;J;Sakuma, R.;Miyake, T.;Aryasetiawan, F.;Self-energy and spectral function of Ce within the GW approximation;PHYSICAL REVIEW B;86;24;245126;10.1103/PhysRevB.86.245126;DEC 26 2012;2012;To investigate how far the GW approximation can treat systems with;strong on-site correlations, we perform calculations of the;self-energies and spectral functions of alpha-and gamma-Ce within the GW;approximation. For this strongly correlated material, the screened;interaction exhibits a complex and rich structure which is attributed to;strong particle-hole transitions involving localized 4f states. This;structure in the screened interaction is carried over to the;self-energy, which in turn yields spectral functions with multiple;peaks. A satellite at around 5 eV above the Fermi level is formed, which;is reminiscent of the experimentally observed upper Hubbard band, while;the experimentally observed peak structure below the Fermi level at -2;eV and disappearance of the quasiparticle peak in the. phase are not;reproduced. DOI: 10.1103/PhysRevB.86.245126;6;0;0;0;6;1098-0121;WOS:000312833400005;;;J;Schulze, T. P.;Smereka, P.;Kinetic Monte Carlo simulation of heteroepitaxial growth: Wetting;layers, quantum dots, capping, and nanorings;PHYSICAL REVIEW B;86;23;235313;10.1103/PhysRevB.86.235313;DEC 26 2012;2012;A new kinetic Monte Carlo algorithm that efficiently accounts for;elastic strain is presented and applied to study various phenomena that;take place during heteroepitaxial growth. For example, it is;demonstrated that faceted quantum dots occur via the layer-by-layer;nucleation of prepyramids on top of a critical layer with faceting;occurring by anisotropic surface diffusion. It is also shown that the;dot growth is enhanced by the depletion of the critical layer which;leaves behind a wetting layer. Capping simulations provide insight into;the mechanisms behind dot erosion and ring formation. The algorithm used;for the simulations presented here is based on the observation that;adatom and dimer motion is essentially decoupled from the elastic field.;This is exploited by decomposing the film into two parts: the weakly;bonded portion and the strongly bonded portion. The weakly bonded;portion is taken to evolve independent of the elastic field. In this way;the elastic field need only be updated infrequently. Extensive;validation reveals that there is little loss of fidelity but the;algorithm is fifteen to twenty times faster. DOI:;10.1103/PhysRevB.86.235313;Smereka, Peter/F-9974-2013;7;0;0;0;7;1098-0121;WOS:000312832600009;;;J;Shukla, D. K.;Francoual, S.;Skaugen, A.;von Zimmermann, M.;Walker, H. C.;Bezmaternykh, L. N.;Gudim, I. A.;Temerov, V. L.;Strempfer, J.;Ho and Fe magnetic ordering in multiferroic HoFe3(BO3)(4);PHYSICAL REVIEW B;86;22;224421;10.1103/PhysRevB.86.224421;DEC 26 2012;2012;Resonant and nonresonant x-ray scattering studies on HoFe3(BO3)(4);reveal competing magnetic ordering of Ho and Fe moments. Temperature and;x-ray polarization dependent measurements employed at the Ho L-3 edge;directly reveal a spiral spin order of the induced Ho moments in the ab;plane propagating along the c axis, a screw-type magnetic structure. At;about 22.5 K the Fe spins are observed to rotate within the basal plane;inducing spontaneous electric polarization, P. Components of P in the;basal plane and along the c axis can be scaled with the separated;magnetic x-ray scattering intensities of the Fe and Ho magnetic;sublattices, respectively. DOI: 10.1103/PhysRevB.86.224421;Walker, Helen/C-4201-2011; Shukla, Dinesh /D-2232-2012;Walker, Helen/0000-0002-7859-5388;;1;0;0;0;1;1098-0121;WOS:000312831800011;;;J;Smolenski, T.;Kazimierczuk, T.;Goryca, M.;Jakubczyk, T.;Klopotowski, L.;Cywinski, L.;Wojnar, P.;Golnik, A.;Kossacki, P.;In-plane radiative recombination channel of a dark exciton in;self-assembled quantum dots;PHYSICAL REVIEW B;86;24;241305;10.1103/PhysRevB.86.241305;DEC 26 2012;2012;We demonstrate evidence for a radiative recombination channel of dark;excitons in self-assembled quantum dots. This channel is due to a light;hole admixture in the excitonic ground state. Its presence was;experimentally confirmed by a direct observation of the dark exciton;photoluminescence from a cleaved edge of the sample. The;polarization-resolved measurements revealed that a photon created from;the dark exciton recombination is emitted only in the direction;perpendicular to the growth axis. Strong correlation between the dark;exciton lifetime and the in-plane hole g factor enabled us to show that;the radiative recombination is a dominant decay channel of the dark;excitons in CdTe/ZnTe quantum dots. DOI: 10.1103/PhysRevB.86.241305;Cywinski, Lukasz/E-5348-2010;8;0;0;0;8;1098-0121;WOS:000312833400004;;;J;Tahara, H.;Bamba, M.;Ogawa, Y.;Minami, F.;Observation of a dynamical mixing process of exciton-polaritons in a;ZnSe epitaxial layer using four-wave mixing spectroscopy;PHYSICAL REVIEW B;86;23;235208;10.1103/PhysRevB.86.235208;DEC 26 2012;2012;We have observed a coherent spectral change of exciton-polaritons in a;ZnSe epitaxial layer through spectrally resolved four-wave mixing;spectroscopy. The spectra exhibit an exchange of the dominant peak;position between the different polariton branches depending on the delay;time of the second pulse. This result reflects the initial creation;process of polaritons with many-body interactions. The calculation based;on the exciton-photon microscopic model reveals that the spectral change;occurs due to the four-particle correlations between heavy-hole and;light-hole excitons; it clearly shows the dynamical mixing process of;exciton-polaritons in the initial creation. DOI:;10.1103/PhysRevB.86.235208;1;0;0;0;1;1098-0121;WOS:000312832600008;;;J;Tomio, Yuh;Suzuura, Hidekatsu;Ando, Tsuneya;Cross-polarized excitons in double-wall carbon nanotubes;PHYSICAL REVIEW B;86;24;245428;10.1103/PhysRevB.86.245428;DEC 26 2012;2012;Optical absorption in double-wall carbon nanotubes for light polarized;perpendicular to the tube axis is studied by taking into account exciton;effects and depolarization effects within an effective-mass theory. The;Coulomb interaction is suppressed by not only intrawall screening;effects but also interwall screening, leading to the reduction of;exciton binding energies and band gaps. When two tubes are both;semiconducting, a clear exciton peak still survives even under;depolarization effects for the outer tube, but the exciton peak of the;inner tube has an asymmetric Fano line shape due to the coupling with;continuum states of the outer tube. When a double-wall nanotube contains;a metallic tube, either inner or outer, the exciton of the;semiconducting tube loses its peak structure under depolarization;effects. DOI: 10.1103/PhysRevB.86.245428;SUZUURA, Hidekatsu/F-7605-2012;0;0;0;0;0;1098-0121;WOS:000312833400013;;;J;Tsvelik, A. M.;Model description of the supersolid state in YBa2Cu3O6+x;PHYSICAL REVIEW B;86;22;220508;10.1103/PhysRevB.86.220508;DEC 26 2012;2012;I employ a semiphenomenological model introduced by Tsvelik and Chubukov;[Phys. Rev. Lett. 98, 237001 (2007)] to describe the state with;coexisting superconductivity (SC) and charge density wave (CDW) recently;discovered in YBa2Cu3O6+x (YBCO). The SC and the CDW order parameter;fields are united in a single pseudospin and can be rotated into each;other. It is suggested that disorder creates isolated pseudospins which;become centers of inelastic scattering of electrons. It is suggested;that this scattering is responsible for the logarithmic upturn in the;resistivity rho(T) similar to - ln T observed at low doping. DOI:;10.1103/PhysRevB.86.220508;0;0;0;0;0;1098-0121;WOS:000312831800003;;;J;Uebelacker, Stefan;Honerkamp, Carsten;Self-energy feedback and frequency-dependent interactions in the;functional renormalization group flow for the two-dimensional Hubbard;model;PHYSICAL REVIEW B;86;23;235140;10.1103/PhysRevB.86.235140;DEC 26 2012;2012;We study the impact of including self-energy feedback and;frequency-dependent interactions on functional renormalization group;flows for the two-dimensional Hubbard model on the square lattice at;weak to moderate coupling strength. Previous studies using the;functional renormalization group had ignored these two ingredients to a;large extent, and the question is how much the flows to strong coupling;analyzed by this method depend on these approximations. Here we include;the imaginary part of the self-energy on the imaginary axis and the;frequency dependence of the running interactions on a frequency mesh of;10 frequencies on the Matsubara axis. We find that (i) the critical;scales for the flows to strong coupling are shifted downward by a factor;that is usually of order 1 but can get larger in specific parameter;regions, and (ii) that the leading channel in this flow does not depend;strongly on whether self-energies and frequency dependence is included;or not. We also discuss the main features of the self-energies;developing during the flows. DOI: 10.1103/PhysRevB.86.235140;5;0;0;0;5;1098-0121;WOS:000312832600002;;;J;Velizhanin, Kirill A.;Shahbazyan, Tigran V.;Long-range plasmon-assisted energy transfer over doped graphene;PHYSICAL REVIEW B;86;24;245432;10.1103/PhysRevB.86.245432;DEC 26 2012;2012;We demonstrate that longitudinal plasmons in doped monolayer graphene;can mediate highly efficient long-range energy transfer between nearby;fluorophores, e.g., semiconductor quantum dots. We derive a simple;analytical expression for the energy transfer efficiency that;incorporates all the essential processes involved. We perform numerical;calculations of the transfer efficiency for a pair of PbSe quantum dots;near graphene for interfluorophore distances of up to 1 mu m and find;that the plasmon-assisted long-range energy transfer can be enhanced by;up to a factor of similar to 10(4) relative to the Forster's transfer in;vacuum.;Velizhanin, Kirill/C-4835-2008;3;0;0;0;3;1098-0121;WOS:000312833400017;;;J;Vivo, Edoardo;Nicoli, Matteo;Engler, Martin;Michely, Thomas;Vazquez, Luis;Cuerno, Rodolfo;Strong anisotropy in surface kinetic roughening: Analysis and;experiments;PHYSICAL REVIEW B;86;24;245427;10.1103/PhysRevB.86.245427;DEC 26 2012;2012;We report an experimental assessment of surface kinetic roughening;properties that are anisotropic in space. Working for two specific;instances of silicon surfaces irradiated by ion-beam sputtering under;diverse conditions (with and without concurrent metallic impurity;codeposition), we verify the predictions and consistency of a recently;proposed scaling Ansatz for surface observables like the two-dimensional;(2D) height power spectral density (PSD). In contrast with other;formulations, this ansatz is naturally tailored to the study of;two-dimensional surfaces, and allows us to readily explore the;implications of anisotropic scaling for other observables, such as;real-space correlation functions and PSD functions for 1D profiles of;the surface. Our results confirm that there are indeed actual;experimental systems whose kinetic roughening is strongly anisotropic,;as consistently described by this scaling analysis. In the light of our;work, some types of experimental measurements are seen to be more;affected by issues like finite space resolution effects, etc. that may;hinder a clear-cut assessment of strongly anisotropic scaling in the;present and other practical contexts. DOI: 10.1103/PhysRevB.86.245427;VAZQUEZ, LUIS/A-1272-2009;VAZQUEZ, LUIS/0000-0001-6220-2810;2;0;0;0;2;1098-0121;WOS:000312833400012;;;J;Weiler, S.;Ulhaq, A.;Ulrich, S. M.;Richter, D.;Jetter, M.;Michler, P.;Roy, C.;Hughes, S.;Phonon-assisted incoherent excitation of a quantum dot and its emission;properties;PHYSICAL REVIEW B;86;24;241304;10.1103/PhysRevB.86.241304;DEC 26 2012;2012;We present a detailed study of a phonon-assisted incoherent excitation;mechanism of single quantum dots. A spectrally detuned continuous-wave;laser couples to a quantum dot transition by mediation of acoustic;phonons, whereby excitation efficiencies up to 20% with respect to;strictly resonant excitation can be achieved at T = 9 K.;Laser-frequency-dependent analysis of the quantum dot intensity;distinctly maps the underlying acoustic phonon bath and shows good;agreement with our polaron master equation theory. An analytical;solution for the steady-state exciton density (which is proportional to;the photoluminescence) is introduced which predicts a broadband;incoherent coupling process mediated by electron-phonon scattering.;Moreover, we investigate the coherence properties of the emitted light;with respect to strictly resonant versus phonon-assisted excitation,;revealing the importance of narrow band triggered emitter-state;initialization for possible applications of a quantum dot exciton system;as a qubit. DOI: 10.1103/PhysRevB.86.241304;Jetter, Michael/I-8270-2012;8;0;0;0;8;1098-0121;WOS:000312833400003;;;J;Zhang, L.;Schwertfager, N.;Cheiwchanchamnangij, T.;Lin, X.;Glans-Suzuki, P. -A.;Piper, L. F. J.;Limpijumnong, S.;Luo, Y.;Zhu, J. F.;Lambrecht, W. R. L.;Guo, J. -H.;Electronic band structure of graphene from resonant soft x-ray;spectroscopy: The role of core-hole effects;PHYSICAL REVIEW B;86;24;245430;10.1103/PhysRevB.86.245430;DEC 26 2012;2012;The electronic structure and band dispersion of graphene on SiO2 have;been studied by x-ray-absorption spectroscopy (XAS), x-ray-emission;spectroscopy (XES), and resonant inelastic x-ray scattering (RIXS).;Using first-principles calculations, it is found that the core-hole;effect is dramatic in XAS while it has negligible consequences in XES.;Strong dispersive features, due to the conservation of crystal momentum,;are observed in RIXS spectra. Simulated RIXS spectra based on the;Kramers-Heisenberg theory agree well with the experimental results,;provided a shift between RIXS and XAS due to the absence or presence of;the core hole is taken into account. DOI: 10.1103/PhysRevB.86.245430;Luo, Yi/B-1449-2009; Zhu, Junfa/E-4020-2010;Luo, Yi/0000-0003-0007-0394; Zhu, Junfa/0000-0003-0888-4261;10;1;0;0;10;1098-0121;WOS:000312833400015;;;J;Zhang, Steven S. -L.;Zhang, Shufeng;Spin convertance at magnetic interfaces;PHYSICAL REVIEW B;86;21;214424;10.1103/PhysRevB.86.214424;DEC 26 2012;2012;Exchange interaction between conduction electrons and magnetic moments;at magnetic interfaces leads to mutual conversion between spin current;and magnon current. We introduce a concept of spin convertance which;quantitatively measures magnon current induced by spin accumulation and;spin current created by magnon accumulation at a magnetic interface. We;predict several phenomena on charge and spin drag across a magnetic;insulator spacer for a few layered structures. DOI:;10.1103/PhysRevB.86.214424;Zhang, Shufeng/G-7833-2011;10;1;0;0;10;1098-0121;WOS:000312830400003;;;J;Nakhmedov, Enver;Alekperov, Oktay;Oppermann, Reinhold;Effects of randomness on the critical temperature in;quasi-two-dimensional organic superconductors;PHYSICAL REVIEW B;86;21;214513;10.1103/PhysRevB.86.214513;DEC 21 2012;2012;The effects of nonmagnetic disorder on the critical temperature T-c of;organic weak-linked layered superconductors with singlet in-plane;pairing are considered. A randomness in the interlayer Josephson;coupling is shown to destroy phase coherence between the layers, and T-c;suppresses smoothly in a large extent of the disorder strength.;Nevertheless, the disorder of arbitrarily high strength cannot destroy;completely the superconducting phase. The obtained quasilinear decrease;of the critical temperature with increasing disorder strength is in good;agreement with experimental measurements. DOI:;10.1103/PhysRevB.86.214513;0;0;0;0;0;1098-0121;WOS:000312693200004;;;J;Sanson, Andrea;Giarola, Marco;Rossi, Barbara;Mariotto, Gino;Cazzanelli, Enzo;Speghini, Adolfo;Vibrational dynamics of single-crystal YVO4 studied by polarized;micro-Raman spectroscopy and ab initio calculations;PHYSICAL REVIEW B;86;21;214305;10.1103/PhysRevB.86.214305;DEC 21 2012;2012;The vibrational properties of yttrium orthovanadate (YVO4) single;crystals, with tetragonal zircon structure, have been investigated by;means of polarized micro-Raman spectroscopy and ab initio calculations.;Raman spectra were taken at different polarizations and orientations;carefully set by the use of a micromanipulator, so that all of the;twelve Raman-active modes, expected on the basis of the group theory,;were selected in turn and definitively assigned in wave number and;symmetry. In particular the E-g(4) mode, assigned incorrectly in;previous literature, has been observed at 387 cm(-1). Moreover, the very;weak E-g(1) mode, peaked at about 137 cm(-1), was clearly observed only;under some excitation wavelengths, and its peculiar Raman excitation;profile was measured within a wide region of the visible. Finally, ab;initio calculations based on density-functional theory have been;performed in order to determine both Raman and infrared vibrational;modes and to corroborate the experimental results. The rather good;agreement between computational and experimental frequencies is slightly;better than in previous computational works and supports our;experimental symmetry assignments. DOI: 10.1103/PhysRevB.86.214305;Mariotto, Gino/B-1629-2013; Speghini, Adolfo/G-3474-2012;1;0;0;0;1;1098-0121;WOS:000312693200002;;;J;Thomson, R. I.;Jain, P.;Cheetham, A. K.;Carpenter, M. A.;Elastic relaxation behavior, magnetoelastic coupling, and order-disorder;processes in multiferroic metal-organic frameworks;PHYSICAL REVIEW B;86;21;214304;10.1103/PhysRevB.86.214304;DEC 21 2012;2012;Resonant ultrasound spectroscopy has been used to analyze magnetic and;ferroelectric phase transitions in two multiferroic metal-organic;frameworks (MOFs) with perovskite-like structures;[(CH3)(2)NH2]M(HCOO)(3)(DMA[M] F, M = Co, Mn). Elastic and anelastic;anomalies are evident at both the magnetic ordering temperature and;above the higher temperature ferroelectric transition. Broadening of;peaks above the ferroelectric transition implies the diminishing;presence of a dynamic process and is caused by an ordering of the;central DMA ([(CH3)(2)NH2](+)) cation which ultimately causes a change;in the hydrogen bond conformation and provides the driving mechanism for;ferroelectricity. This is unlike traditional mechanisms for;ferroelectricity in perovskites which typically involve ionic;displacements. A comparison of these mechanisms is made by drawing on;examples from the literature. Small elastic stiffening at low;temperatures suggests weak magnetoelastic coupling in these materials.;This behavior is consistent with other magnetic systems studied,;although there is no change in Q(-1) associated with magnetic;order-disorder, and is the first evidence of magnetoelastic coupling in;MOFs. This could help lead to the tailoring of MOFs with a larger;coupling leading to magnetoelectric coupling via a common strain;mechanism. DOI: 10.1103/PhysRevB.86.214304;Jain, Prashant/C-8135-2009;15;4;0;0;15;1098-0121;WOS:000312693200001;;;J;Yin, Junqi;Eisenbach, Markus;Nicholson, Don M.;Rusanu, Aurelian;Effect of lattice vibrations on magnetic phase transition in bcc iron;PHYSICAL REVIEW B;86;21;214423;10.1103/PhysRevB.86.214423;DEC 21 2012;2012;The most widely taught example of a magnetic transition is that of Fe at;1043 K. Despite the high temperature most discussions of this transition;focus on the magnetic states of a fixed spin lattice with lattice;vibrations analyzed separately and simply added. We propose a model of;alpha iron that fully couples spin and displacement degrees of freedom.;Results demonstrate a significant departure from models that treat these;coordinates independently. The success of the model rests on a first;principles calculation of changes in energy with respect to spin;configurations on a bcc-iron lattice with displacements. Complete;details of environment-dependent exchange interactions that augment the;Finnis-Sinclair potential are given and comparisons to measurements are;made. We find that coupling has no effect on critical exponents, a small;effect on the transition temperature, T-c, and a large effect on the;entropy of transformation. DOI: 10.1103/PhysRevB.86.214423;Ni, Daye/F-6920-2014;5;0;0;0;5;1098-0121;WOS:000312693200003;;;J;Butler, Keith T.;Harding, John H.;Atomistic simulation of doping effects on growth and charge transport in;Si/Ag interfaces in high-performance solar cells;PHYSICAL REVIEW B;86;24;245319;10.1103/PhysRevB.86.245319;DEC 21 2012;2012;We present the results of a first-principles atomistic simulation study;of the effects of phosphorus doping on the silver/silicon interface as;found in high-performance solar cells. Calculating the interfacial;stabilities of the (110)/(110) and (111)/(111) interfaces we demonstrate;how the presence of phosphorus increases the nucleation rate of silver;crystallites and how the relative stabilities of the interfaces depend;on the doping. We then calculate the electronic structure of the;interfaces, demonstrating how the presence of phosphorus leads to a;buildup of positive charge in the silicon and an opposite negative;charge in the silver. Finally we show how this charge buildup;significantly affects the n-type Schottky barriers at the interfaces, in;both cases lowering the Schottky barrier by more than 100 meV. DOI:;10.1103/PhysRevB.86.245319;4;0;0;0;4;1098-0121;WOS:000312697500004;;;J;Carbotte, J. P.;Schachinger, E.;c-axis optical sum in underdoped superconducting cuprates;PHYSICAL REVIEW B;86;22;224512;10.1103/PhysRevB.86.224512;DEC 21 2012;2012;In conventional metals, the total optical spectral weight under the real;part of the dynamical conductivity remains unchanged in going from;normal to superconducting state. In the underdoped cuprates, however,;experiments found that the interlayer conductivity no longer respects;this sum rule. Here, we find that a recently proposed phenomenological;model of the pseudogap state which is based on ideas of a resonating;valence bond spin liquid naturally leads to such a sum-rule violation.;For the interplane charge transfer, a coherent tunneling model is used.;We also obtain analytic results based on a simplification of the theory;which reduces it to an arc model. This provides further insight into the;effect of the opening of a pseudogap on the c-axis optical conductivity;Re[sigma(c)(omega)]. The missing area under Re[sigma(c)(omega)];normalized to the superfluid density, which is found to be one in the;Fermi-liquid limit with no pseudogap, is considerably reduced when the;pseudogap becomes large and the size of the Luttinger pockets or arcs is;small.;2;0;0;0;2;1098-0121;WOS:000312693900004;;;J;Das Sarma, S.;Sau, Jay D.;Stanescu, Tudor D.;Splitting of the zero-bias conductance peak as smoking gun evidence for;the existence of the Majorana mode in a superconductor-semiconductor;nanowire;PHYSICAL REVIEW B;86;22;220506;10.1103/PhysRevB.86.220506;DEC 21 2012;2012;Recent observations of a zero-bias conductance peak in tunneling;transport measurements in superconductor-semiconductor nanowire devices;provide evidence for the predicted zero-energy Majorana modes, but not;the conclusive proof of their existence. We establish that direct;observation of a splitting of the zero-bias conductance peak can serve;as the smoking gun evidence for the existence of the Majorana mode. We;show that the splitting has an oscillatory dependence on the Zeeman;field (chemical potential) at fixed chemical potential (Zeeman field).;By contrast, when the density is constant rather than the chemical;potential-the likely situation in the current experimental setups-the;splitting oscillations are generically suppressed. Our theory predicts;the conditions under which the splitting oscillations can serve as the;smoking gun for the experimental confirmation of the elusive Majorana;mode.;Das Sarma, Sankar/B-2400-2009;23;0;0;0;23;1098-0121;WOS:000312693900001;;;J;Durach, Maxim;Rusina, Anastasia;Transforming Fabry-Perot resonances into a Tamm mode;PHYSICAL REVIEW B;86;23;235312;10.1103/PhysRevB.86.235312;DEC 21 2012;2012;We propose an optical structure composed of two metal nanolayers;enclosing a distributed Bragg reflector (DBR) mirror. The structure is;an open photonic system whose bound modes are coupled to external;radiation. We apply the special theoretical treatment based on inversion;symmetry of the structure to classify its resonances. We show that the;structure supports resonances transitional between Fabry-Perot modes and;Tamm plasmons. When the dielectric contrast of the DBR is removed these;modes are a pair of conventional Fabry-Perot resonances. They spectrally;merge into a Tamm mode at high contrast. The optical properties of the;structure in the frequency range of the DBR stop band, including highly;beneficial 50% transmittivity through thick structures with;sub-skin-depth metal films, are determined by the hybrid quasinormal;modes of the open nonconservative structure under consideration. The;results can find a broad range of applications in photonics and;optoelectronics, including the possibility of coherent control over;optical fields in the class of structures similar to the one proposed;here. DOI: 10.1103/PhysRevB.86.235312;3;0;1;0;4;1098-0121;WOS:000312694800003;;;J;Gumeniuk, Roman;Sarkar, Rajib;Geibel, Christoph;Schnelle, Walter;Paulmann, Carsten;Baenitz, Michael;Tsirlin, Alexander A.;Guritanu, Violeta;Sichelschmidt, Joerg;Grin, Yuri;Leithe-Jasper, Andreas;YbPtGe2: A multivalent charge-ordered system with an unusual spin;pseudogap;PHYSICAL REVIEW B;86;23;235138;10.1103/PhysRevB.86.235138;DEC 21 2012;2012;We performed a study of the structural and physical properties of;YbPtGe2. This compound is a multivalent charge-ordered system presenting;an unusual spin pseudogap below 200 K. The crystal structure of YbPtGe2;is refined from single-crystal and powder high-resolution synchrotron;x-ray diffraction data at different temperatures. Analysis of the;structural features of YbPtGe2, together with a combined study of Yb;L-III x-ray absorption spectroscopy, magnetic susceptibility chi(T),;thermopower S(T), and Yb-171 and Pt-195 NMR indicate half of the Yb;atoms to be in an intermediate valence state with an electronic;configuration close to 4f(13) (Yb3+), while for the remaining Yb atoms;the 4f(14) (Yb2+) configuration with almost no valence fluctuations is;most likely. A drastic drop of the magnetic susceptibility and a;decrease of the isotropic shift K-195(iso)(T) with decreasing;temperature in the temperature range of 50-200 K evidence the opening of;a spin pseudogap with an activation energy of Delta/k(B) similar to 200;K. Surprisingly, transport properties do not show clear evidence for the;opening of a charge gap, thus excluding a standard Kondo-insulator;scenario. Possible origins for this unusual electronic (valence);behavior are discussed. DOI: 10.1103/PhysRevB.86.235138;Sichelschmidt, Joerg/A-6005-2013; Sarkar, Rajib/G-9738-2011; Tsirlin, Alexander/D-6648-2013;3;1;0;0;3;1098-0121;WOS:000312694800002;;;J;Ivek, T.;Kovacevic, I.;Pinteric, M.;Korin-Hamzic, B.;Tomic, S.;Knoblauch, T.;Schweitzer, D.;Dressel, M.;Cooperative dynamics in charge-ordered state of alpha-(BEDT-TTF)(2)I-3;PHYSICAL REVIEW B;86;24;245125;10.1103/PhysRevB.86.245125;DEC 21 2012;2012;Electric-field-dependent pulse measurements are reported in the;charge-ordered state of alpha-(BEDT-TTF)(2)I-3. At low electric fields;up to about 50 V/cm only negligible deviations from Ohmic behavior can;be identified with no threshold field. At larger electric fields and up;to about 100 V/cm a reproducible negative differential resistance is;observed with a significant change in shape of the measured resistivity;in time. These changes critically depend on whether constant voltage or;constant current is applied to the single crystal. At high enough;electric fields the resistance displays a dramatic drop down to metallic;values and relaxes subsequently in a single-exponential manner to its;low-field steady-state value. We argue that such an;electric-field-induced negative differential resistance and switching to;transient states are fingerprints of cooperative domain-wall dynamics;inherent to two-dimensional bond-charge density waves with;ferroelectric-like nature. DOI: 10.1103/PhysRevB.86.245125;Dressel, Martin/D-3244-2012; Ivek, Tomislav/D-5298-2011; Tomic, Silvia/D-5466-2011;3;0;0;0;3;1098-0121;WOS:000312697500002;;;J;Katanin, A.;Longitudinal and transverse static spin fluctuations in layered;ferromagnets and antiferromagnets;PHYSICAL REVIEW B;86;22;224416;10.1103/PhysRevB.86.224416;DEC 21 2012;2012;We analyze the momentum dependence of static susceptibilities of layered;local-moment systems below Curie (Neel) temperature within the 1/S;expansion, the renormalization-group (RG) approach, and the first order;of the 1/N expansion. We argue that already at sufficiently low;temperatures the previously known results of the spin-wave theory and RG;approach for the transverse spin susceptibility acquire strong;corrections, which appear due to the interaction of the incoming magnon;having momentum q with virtual magnons having momenta k < q. Such;corrections cannot be treated in the standard RG approach but can be;described by both 1/S and 1/N expansions. The results of these;expansions can be successfully extrapolated to T = T-M, yielding the;correct weight of static spin fluctuations, determined by the O(3);symmetry. For the longitudinal susceptibility, the summation of leading;terms of the 1/S expansion within the parquet approach allows us to;fulfill the sum rule for the weights of transverse and longitudinal;fluctuations in a broad temperature region below T-M outside the;critical regime. We also discuss the effect of longitudinal spin;fluctuations on the (sublattice) magnetization of layered systems.;Katanin, Andrey/J-4706-2013;Katanin, Andrey/0000-0003-1574-657X;0;0;0;0;0;1098-0121;WOS:000312693900002;;;J;Liu, Jingbo;Mendis, Rajind;Mittleman, Daniel M.;Designer reflectors using spoof surface plasmons in the terahertz range;PHYSICAL REVIEW B;86;24;241405;10.1103/PhysRevB.86.241405;DEC 21 2012;2012;We show that spoof surface plasmons can be used to control the;reflection of terahertz radiation at the output facet of a;parallel-plate waveguide. Using a periodic groove pattern on the output;face, reflectivity approaching 100% can be achieved within a limited;spectral range. Unlike the conventional geometry for plasmon-enhanced;transmission, this approach enables a unique method for studying the;coupling between the guided mode and the surface plasmon through;angle-dependent measurement of the plasmon-mediated reflection. A simple;model incorporating the surface plasmon coupling to the waveguide mode;can adequately explain all of the observed phenomena, including the;observed Goos-Hanchen shift in the reflected beam. DOI:;10.1103/PhysRevB.86.241405;2;0;0;0;2;1098-0121;WOS:000312697500001;;;J;Sato, Toshihiro;Hattori, Kazumasa;Tsunetsugu, Hirokazu;Transport criticality at the Mott transition in a triangular-lattice;Hubbard model;PHYSICAL REVIEW B;86;23;235137;10.1103/PhysRevB.86.235137;DEC 21 2012;2012;We study electric transport near the Mott metal-insulator transition in;a triangular-lattice Hubbard model at half filling. We calculate optical;conductivity sigma(omega) based on a cellular dynamical mean-field;theory including vertex corrections inside the cluster. Near the Mott;critical end point, a Drude analysis in the metallic region suggests;that the change in the Drude weight is important rather than that in the;transport scattering rate for the Mott transition. In the insulating;region, there emerges an "in-gap" peak in sigma(omega) at low omega near;the Mott transition, and this smoothly connects to the Drude peak in the;metallic region with decreasing Coulomb repulsion. We find that the;weight of these peaks exhibits a power-law behavior upon controlling;Coulomb repulsion at the critical temperature. The obtained critical;exponent suggests that conductivity does not correspond to magnetization;or energy density of the Ising universality class in contrast to several;previous works. DOI: 10.1103/PhysRevB.86.235137;Hattori, Kazumasa/B-2554-2013;1;0;0;0;1;1098-0121;WOS:000312694800001;;;J;Schaffer, Robert;Bhattacharjee, Subhro;Kim, Yong Baek;Quantum phase transition in Heisenberg-Kitaev model;PHYSICAL REVIEW B;86;22;224417;10.1103/PhysRevB.86.224417;DEC 21 2012;2012;We explore the nature of the quantum phase transition between a;magnetically ordered state with collinear spin pattern and a gapless;Z(2) spin liquid in the Heisenberg-Kitaev model. We construct a slave;particle mean-field theory for the Heisenberg-Kitaev model in terms of;complex fermionic spinons. It is shown that this theory, formulated in;the appropriate basis, is capable of describing the Kitaev spin liquid;as well as the transition between the gapless Z(2) spin liquid and the;so-called stripy antiferromagnet. Within our mean-field theory, we find;a discontinuous transition from the Z(2) spin liquid to the stripy;antiferromagnet. We argue that subtle spinon confinement effects,;associated with the instability of gapped U(1) spin liquid in two;spatial dimensions, play an important role at this transition. The;possibility of an exotic continuous transition is briefly addressed.;13;0;0;0;13;1098-0121;WOS:000312693900003;;;J;Schaich, W. L.;Puscasu, Irina;Tuning infrared emission from microstrip arrays;PHYSICAL REVIEW B;86;24;245423;10.1103/PhysRevB.86.245423;DEC 21 2012;2012;Earlier work has shown that a narrow-frequency-band, wide-angle emission;is produced by an array of metal patches supported on a thin dielectric;layer covering a ground plane. The modes responsible for this emission;are local plasmons trapped under the metal patches. As the dielectric;layer thickness, h(d), is increased, the resonant emission fades in;strength because the plasmon modes can no longer be trapped under a;single patch. Further increases in h(d), making it comparable to the;light wavelength in the dielectric layer, lead to a collection of new;emission peaks. These are narrower than the one peak found for small;h(d) but they are not well separated. We have found that some of these;peaks can be suppressed over a narrow range of h(d). This leaves one;with well-separated, narrow-band emission peaks. We have identified the;physical mechanism for this selective suppression of emission peaks.;DOI: 10.1103/PhysRevB.86.245423;0;0;0;0;0;1098-0121;WOS:000312697500005;;;J;Teperik, T. V.;Degiron, A.;Design strategies to tailor the narrow plasmon-photonic resonances in;arrays of metallic nanoparticles;PHYSICAL REVIEW B;86;24;245425;10.1103/PhysRevB.86.245425;DEC 21 2012;2012;Arrays of metallic nanoparticles can support mixed plasmon-photonic;resonances known as lattice surface modes. Their properties are well;known, but a general strategy to control their properties is still;lacking. In this article, we offer a perspective on the formation of;these modes and show that their excitation depends on constructive and;destructive interferences between the excitation field and the light;scattered by the resonant nanoparticles. It is therefore possible to;design the response of the system through a careful choice of the;excitation conditions and/or by tuning the polarizability of the;particles forming the periodic arrays. DOI: 10.1103/PhysRevB.86.245425;10;0;0;0;10;1098-0121;WOS:000312697500007;;;J;Thakurathi, Manisha;Sen, Diptiman;Dutta, Amit;Fidelity susceptibility of one-dimensional models with twisted boundary;conditions;PHYSICAL REVIEW B;86;24;245424;10.1103/PhysRevB.86.245424;DEC 21 2012;2012;Recently it has been shown that the fidelity of the ground state of a;quantum many-body system can be used todetect its quantum critical;points (QCPs). If g denotes the parameter in the Hamiltonian with;respect to which the fidelity is computed, we find that for;one-dimensional models with large but finite size, the fidelity;susceptibility chi(F) can detect a QCP provided that the correlation;length exponent satisfies nu < 2. We then show that chi(F) can be used;to locate a QCP even if nu >= 2 if we introduce boundary conditions;labeled by a twist angle N theta, where N is the system size. If the QCP;lies at g = 0, we find that if N is kept constant, chi(F) has a scaling;form given by chi(F) similar to theta(-2/nu) f (g/theta(1/nu)) if theta;<< 2 pi/N. We illustrate this both in a tight-binding model of fermions;with a spatially varying chemical potential with amplitude h and period;2q in which nu = q, and in a XY spin-1/2 chain in which nu = 2. Finally;we show that when q is very large, the model has two additional QCPs at;h = +/- 2 which cannot be detected by studying the energy spectrum but;are clearly detected by chi(F). The peak value and width of chi(F) seem;to scale as nontrivial powers of q at these QCPs. We argue that these;QCPs mark a transition between extended and localized states at the;Fermi energy. DOI: 10.1103/PhysRevB.86.245424;3;0;0;0;3;1098-0121;WOS:000312697500006;;;J;Thalmeier, Peter;Akbari, Alireza;Inelastic magnetic scattering effect on local density of states of;topological insulators;PHYSICAL REVIEW B;86;24;245426;10.1103/PhysRevB.86.245426;DEC 21 2012;2012;Magnetic ions such as Fe, Mn, and Co with localized spins may be;adsorbed on the surface of topological insulators such as Bi2Se3. They;form scattering centers for the helical surface states which have a;Dirac cone dispersion as long as the local spins are disordered.;However, the local density of states (LDOS) may be severely modified by;the formation of bound states. Commonly, only elastic scattering due to;normal and exchange potentials of the adatom is assumed. Magnetization;measurements show, however, that considerable magnetic single-ion;anisotropies exist which lead to a splitting of the local impurity spin;states, resulting in a singlet ground state. Therefore inelastic;scattering processes of helical Dirac electrons become possible, as;described by a dynamical local self-energy of second order in the;exchange interaction. The self energy influences bound-state formation;and leads to significant new anomalies in the LDOS at low energies and;low temperatures, which we calculate within the T-matrix approach. We;propose that they may be used for spectroscopy of local impurity spin;states by appropriate tuning of the chemical potential and magnetic;field. DOI: 10.1103/PhysRevB.86.245426;Akbari, Alireza/A-3738-2012;0;0;0;0;0;1098-0121;WOS:000312697500008;;;J;Ungier, W.;Wilamowski, Z.;Jantsch, W.;Spin-orbit force due to Rashba coupling at the spin resonance condition;PHYSICAL REVIEW B;86;24;245318;10.1103/PhysRevB.86.245318;DEC 21 2012;2012;We analyze the effect of Rashba type of spin-orbit (SO) coupling on the;electron dynamics and the rf electrical conductivity. We show that in;addition to the momentum current an additional SO current occurs which;can be attributed to a SO contribution to the electric Lorentz force.;This Rashba SO force is proportional to the time derivative of the;electron magnetization. Therefore, in a static electromagnetic field SO;interaction does not affect the electric or the spin current. Applying;an rf electric current, however, an rf magnetization can be efficiently;induced via the rf Rashba field. Thus, at the Larmor frequency a;characteristic current induced electron spin resonance occurs. There the;absorbed electric power is efficiently converted into magnetic energy.;DOI: 10.1103/PhysRevB.86.245318;1;0;0;0;1;1098-0121;WOS:000312697500003;;;J;Chen, Xie;Wen, Xiao-Gang;Chiral symmetry on the edge of two-dimensional symmetry protected;topological phases;PHYSICAL REVIEW B;86;23;235135;10.1103/PhysRevB.86.235135;DEC 20 2012;2012;Symmetry protected topological (SPT) states are short-range entangled;states with symmetry. The boundary of a SPT phases has either gapless;excitations or degenerate ground states, around a gapped bulk. Recently,;we proposed a systematic construction of SPT phases in interacting;bosonic systems, however it is not very clear what is the form of the;low-energy excitations on the gapless edge. In this paper, we answer;this question for two-dimensional (2D) bosonic SPT phases with Z(N) and;U(1) symmetry. We find that while the low-energy modes of the gapless;edges are nonchiral, symmetry acts on them in a "chiral" way, i.e., acts;on the right movers and the left movers differently. This special;realization of symmetry protects the gaplessness of the otherwise;unstable edge states by prohibiting a direct scattering between the left;and right movers. Moreover, understanding of the low-energy effective;theory leads to experimental predictions about the SPT phases. In;particular, we find that all the 2D U(1) SPT phases have even integer;quantized Hall conductance. DOI: 10.1103/PhysRevB.86.235135;12;1;1;0;12;1098-0121;WOS:000312694400001;;;J;Croy, Alexander;Midtvedt, Daniel;Isacsson, Andreas;Kinaret, Jari M.;Nonlinear damping in graphene resonators;PHYSICAL REVIEW B;86;23;235435;10.1103/PhysRevB.86.235435;DEC 20 2012;2012;Based on a continuum mechanical model for single-layer graphene, we;propose and analyze a microscopic mechanism for dissipation in;nanoelectromechanical graphene resonators. We find that coupling between;flexural modes and in-plane phonons leads to linear and nonlinear;damping of out-of-plane vibrations. By tuning external parameters such;as bias and ac voltages, one can cross over from a linear-to a;nonlinear-damping dominated regime. We discuss the behavior of the;effective quality factor in this context. DOI:;10.1103/PhysRevB.86.235435;Isacsson, Andreas/A-6932-2008; Croy, Alexander/D-4149-2013;Croy, Alexander/0000-0001-9296-9350;13;1;0;0;13;1098-0121;WOS:000312694400004;;;J;Juarez-Reyes, L.;Pastor, G. M.;Stepanyuk, V. S.;Tuning substrate-mediated magnetic interactions by external surface;charging: Co and Fe impurities on Cu(111);PHYSICAL REVIEW B;86;23;235436;10.1103/PhysRevB.86.235436;DEC 20 2012;2012;The substrate-mediated magnetic interactions between substitutional Co;and Fe impurities at the Cu(111) surface have been theoretically;investigated as a function of external surface charging. The;modification of the interactions as a result of the metallic screening;and charge rearrangements are determined self-consistently from first;principles by using the Green's-function Korringa-Kohn-Rostoker method.;As in the neutral Cu(111) surface, the effective magnetic exchange;coupling Delta E between impurities shows;Ruderman-Kittel-Kasuya-Yosida-like (RKKY) oscillations as a function of;the interimpurity distance. At large interimpurity distances, the;wavelength of the RKKY oscillation is not significantly affected by the;value and polarity of the external surface charge. Still, important;changes in the magnitude of Delta E are observed. For short distances,;up to fourth nearest neighbors, surface charging offers remarkable;possibilities of controlling the sign and strength of the magnetic;coupling. A nonmonotonous dependence of Delta E, including changes from;ferromagnetic to antiferromagnetic coupling, is observed as a function;of overlayer charging. The charge-induced changes in the surface;electronic structure, local magnetic moments, electronic densities of;states, and interaction energies are analyzed from a local perspective.;The resulting possibilities of manipulating the magnetic interactions in;surface nanostructures are discussed. DOI: 10.1103/PhysRevB.86.235436;2;0;0;0;2;1098-0121;WOS:000312694400005;;;J;Kurahashi, M.;Sun, X.;Yamauchi, Y.;Magnetic properties of O-2 adsorbed on Cu(100): A spin-polarized;metastable He beam study;PHYSICAL REVIEW B;86;24;245421;10.1103/PhysRevB.86.245421;DEC 20 2012;2012;Magnetic properties of O-2 adsorbed on Cu(100) were investigated by;monitoring the spin dependence in Penning ionization of metastable;He(2(3)S) under external magnetic fields of 0-5 T. A clear spin;polarization was found for the 3 sigma and 1 pi(u) orbitals of;physisorbed O-2 under external fields, while the spin polarization;disappeared when O-2 was changed into the chemisorbed state at >50 K.;The magnetic susceptibility at the surface of multilayer and monolayer;of physisorbed O-2 on Cu(100) was similar to that for the bulk liquid;O-2. Observed exchange splittings and spin polarization suggest that a;physisorbed O-2 molecule has a magnetic moment close to that for an;isolated O-2 molecule even at submonolayer coverages, while a density;functional theory calculation predicts a much reduced magnetic moment;for O-2 directly adsorbed on Cu(100). DOI: 10.1103/PhysRevB.86.245421;KURAHASHI, Mitsunori/H-2801-2011;1;0;0;0;1;1098-0121;WOS:000312696900004;;;J;Livneh, Y.;Klipstein, P. C.;Klin, O.;Snapi, N.;Grossman, S.;Glozman, A.;Weiss, E.;k . p model for the energy dispersions and absorption spectra of;InAs/GaSb type-II superlattices;PHYSICAL REVIEW B;86;23;235311;10.1103/PhysRevB.86.235311;DEC 20 2012;2012;We have fitted the k . p model derived recently by one of the authors;[Klipstein, Phys. Rev. B 81, 235314 (2010)] to experimentally measured;photoabsorption spectra at 77 and 300 K for representative InAs/GaSb;superlattices with band-gap wavelengths between 4.3 and 10.5 mu m. The;model is able to reproduce the main features of the absorption spectra,;including a strong peak from the zone boundary HH2 -> E-1 transition. We;have also used the same model to predict the band-gap wavelengths of;over 30 more superlattices, measured by photoluminescence spectroscopy.;The maximum error is 0.6 mu m, which corresponds to an uncertainty of;less than 0.4 ML in layer width. This is comparable with the;experimental uncertainty in layer widths, determined by in situ;beam-flux measurements in the growth reactor. By eliminating all terms;from the Hamiltonian, the energy contribution of which is less than the;error due to the uncertainty in layer widths, the number of unknown;fitting parameters has been reduced to six: two Luttinger parameters,;three interface parameters, and the valence band offset. The remaining;four Luttinger parameters are not independent and are determined from;the two independent ones. Our set of Luttinger parameters is close to;that reported by Lawaetz [Phys. Rev. B 4, 3460 (1971)], with a maximum;deviation in any parameter of 0.6. The interface parameters are diagonal;and have values of D-S = 3 eV angstrom, D-X = 1.3 eV angstrom, and D-Z =;1.1 eV angstrom at 77 K. The off-diagonal interface parameters alpha and;beta are too small to be fitted with any accuracy and have negligible;effect on the unpolarized photoabsorption spectra. We also propose;values for the room-temperature Luttinger and interface parameters. The;fitted unstrained InAs/GaSb band overlap is 0.142 eV. DOI:;10.1103/PhysRevB.86.235311;5;0;0;0;5;1098-0121;WOS:000312694400003;;;J;Sales, Brian C.;May, Andrew F.;McGuire, Michael A.;Stone, Matthew B.;Singh, David J.;Mandrus, David;Transport, thermal, and magnetic properties of the narrow-gap;semiconductor CrSb2;PHYSICAL REVIEW B;86;23;235136;10.1103/PhysRevB.86.235136;DEC 20 2012;2012;Resistivity, the Hall effect, the Seebeck coefficient, thermal;conductivity, heat capacity, and magnetic susceptibility data are;reported for CrSb2 single crystals. In spite of some unusual features in;electrical transport and Hall measurements below 100 K, only one phase;transition is found in the temperature range from 2 to 750 K;corresponding to long-range antiferromagnetic order below T-N;approximate to 273 K. Many of the low-temperature properties can be;explained by the thermal depopulation of carriers from the conduction;band into a low-mobility band located approximately 16 meV below the;conduction-band edge, as deduced from the Hall effect data. In analogy;with what occurs in Ge, the low-mobility band is likely an impurity;band. The Seebeck coefficient, S, is large and negative for temperatures;from 2 to 300 K ranging from approximate to -70 mu V/K at 300 K to -4500;mu V/K at 18 K. A large maximum in vertical bar S vertical bar at 18 K;is likely due to phonon drag, with the abrupt drop in vertical bar S;vertical bar below 18 K due to the thermal depopulation of the;high-mobility conduction band. The large thermal conductivity between 10;and 20 K (approximate to 350 W/m K) is consistent with this;interpretation, as are detailed calculations of the Seebeck coefficient;made using the complete calculated electronic structure. These data are;compared to data reported for FeSb2, which crystallizes in the same;marcasite structure, and FeSi, another unusual narrow-gap semiconductor.;DOI: 10.1103/PhysRevB.86.235136;Stone, Matthew/G-3275-2011; McGuire, Michael/B-5453-2009; May, Andrew/E-5897-2011; Mandrus, David/H-3090-2014;McGuire, Michael/0000-0003-1762-9406;;7;0;0;0;7;1098-0121;WOS:000312694400002;;;J;Toews, W.;Pastor, G. M.;Spin-polarized density-matrix functional theory of the single-impurity;Anderson model;PHYSICAL REVIEW B;86;24;245123;10.1103/PhysRevB.86.245123;DEC 20 2012;2012;Lattice density functional theory (LDFT) is used to investigate spin;excitations in the single-impurity Anderson model. In this method, the;single-particle density matrix gamma(ij sigma) with respect to the;lattice sites replaces the wave function as the basic variable of the;many-body problem. A recently developed two-level approximation (TLA) to;the interaction-energy functional W[gamma] is extended to systems having;spin-polarized density distributions and bond orders. This allows us to;investigate the effect of external magnetic fields and, in particular,;the important singlet-triplet gap Delta E, which determines the Kondo;temperature. Applications to finite Anderson rings and square lattices;show that the gap Delta E as well as other ground-state and;excited-state properties are very accurately reproduced. One concludes;that the spin-polarized TLA is reliable in all interaction regimes, from;weak to strong correlations, for different hybridization strengths and;for all considered impurity valence states. In this way the efficiency;of LDFT to account for challenging electron-correlation effects is;demonstrated. DOI: 10.1103/PhysRevB.86.245123;1;0;0;0;1;1098-0121;WOS:000312696900002;;;J;Weichselbaum, Andreas;Tensor networks and the numerical renormalization group;PHYSICAL REVIEW B;86;24;245124;10.1103/PhysRevB.86.245124;DEC 20 2012;2012;The full-density-matrix numerical renormalization group has evolved as a;systematic and transparent setting for the calculation of;thermodynamical quantities at arbitrary temperatures within the;numerical renormalization group (NRG) framework. It directly evaluates;the relevant Lehmann representations based on the complete basis sets;introduced by Anders and Schiller [Phys. Rev. Lett. 95, 196801 (2005)].;In addition, specific attention is given to the possible feedback from;low-energy physics to high energies by the explicit and careful;construction of the full thermal density matrix, naturally generated;over a distribution of energy shells. Specific examples are given in;terms of spectral functions (fdmNRG), time-dependent NRG (tdmNRG),;Fermi-golden-rule calculations (fgrNRG) as well as the calculation of;plain thermodynamic expectation values. Furthermore, based on the very;fact that, by its iterative nature, the NRG eigenstates are naturally;described in terms of matrix product states, the language of tensor;networks has proven enormously convenient in the description of the;underlying algorithmic procedures. This paper therefore also provides a;detailed introduction and discussion of the prototypical NRG;calculations in terms of their corresponding tensor networks. DOI:;10.1103/PhysRevB.86.245124;Weichselbaum, Andreas/I-8858-2012;Weichselbaum, Andreas/0000-0002-5832-3908;8;0;0;0;8;1098-0121;WOS:000312696900003;;;J;Yan, Jun;Jacobsen, Karsten W.;Thygesen, Kristian S.;Conventional and acoustic surface plasmons on noble metal surfaces: A;time-dependent density functional theory study;PHYSICAL REVIEW B;86;24;241404;10.1103/PhysRevB.86.241404;DEC 20 2012;2012;First-principles calculations of the conventional and acoustic surface;plasmons (CSPs and ASPs) on the (111) surfaces of Cu, Ag, and Au are;presented. The effect of s-d interband transitions on both types of;plasmons is investigated by comparing results from the local density;approximation and an orbital-dependent exchange-correlation (xc);potential that improves the position and width of the d bands. The;plasmon dispersions calculated with the latter xc potential agree well;with electron energy loss spectroscopy (EELS) experiments. For both the;CSP and ASP, the same trend of Cu < Au < Ag is found for the plasmon;energies and is attributed to the reduced screening by interband;transitions from Cu, to Au and Ag. This trend for the ASP, however,;contradicts a previous model prediction. While the ASP is seen as a weak;feature in the EELS, it can be clearly identified in the static and;dynamic dielectric band structure. DOI: 10.1103/PhysRevB.86.241404;Jacobsen, Karsten/B-3602-2009; Yan, Jun/K-3474-2012; Thygesen, Kristian /B-1062-2011;7;0;0;0;7;1098-0121;WOS:000312696900001;;;J;Euchner, H.;Pailhes, S.;Nguyen, L. T. K.;Assmus, W.;Ritter, F.;Haghighirad, A.;Grin, Y.;Paschen, S.;de Boissieu, M.;Phononic filter effect of rattling phonons in the thermoelectric;clathrate Ba8Ge40+xNi6-x;PHYSICAL REVIEW B;86;22;224303;10.1103/PhysRevB.86.224303;DEC 20 2012;2012;One of the key requirements for good thermoelectric materials is a low;lattice thermal conductivity. Here we present a combined neutron;scattering and theoretical investigation of the lattice dynamics in the;type I clathrate system Ba-Ge-Ni, which fulfills this requirement. We;observe a strong hybridization between phonons of the Ba guest atoms and;acoustic phonons of the Ge-Ni host structure over a wide region of the;Brillouin zone, which is in contrast with the frequently adopted picture;of isolated Ba atoms in Ge-Ni host cages. It occurs without a strong;decrease of the acoustic phonon lifetime, which contradicts the usual;assumption of strong anharmonic phonon-phonon scattering processes.;Within the framework of ab initio density-functional theory calculations;we interpret these hybridizations as a series of anticrossings which act;as a low-pass filter, preventing the propagation of acoustic phonons. To;highlight the effect of such a phononic low-pass filter on the thermal;transport, we compute the contribution of acoustic phonons to the;thermal conductivity of Ba8Ge40Ni6 and compare it to those of pure Ge;and a Ge-46 empty-cage model system. DOI: 10.1103/PhysRevB.86.224303;Paschen, Silke/C-3841-2014;Paschen, Silke/0000-0002-3796-0713;8;1;0;0;8;1098-0121;WOS:000312693600002;;;J;Harvey, J. -P.;Gheribi, A. E.;Chartrand, P.;Thermodynamic integration based on classical atomistic simulations to;determine the Gibbs energy of condensed phases: Calculation of the;aluminum-zirconium system;PHYSICAL REVIEW B;86;22;224202;10.1103/PhysRevB.86.224202;DEC 20 2012;2012;In this work, an in silico procedure to generate a fully coherent set of;thermodynamic properties obtained from classical molecular dynamics (MD);and Monte Carlo (MC) simulations is proposed. The procedure is applied;to the Al-Zr system because of its importance in the development of high;strength Al-Li alloys and of bulk metallic glasses. Cohesive energies of;the studied condensed phases of the Al-Zr system (the liquid phase, the;fcc solid solution, and various orthorhombic stoichiometric compounds);are calculated using the modified embedded atom model (MEAM) in the;second-nearest-neighbor formalism (2NN). The Al-Zr MEAM-2NN potential is;parameterized in this work using ab initio and experimental data found;in the literature for the AlZr3-L1(2) structure, while its predictive;ability is confirmed for several other solid structures and for the;liquid phase. The thermodynamic integration (TI) method is implemented;in a general MC algorithm in order to evaluate the absolute Gibbs energy;of the liquid and the fcc solutions. The entropy of mixing calculated;from the TI method, combined to the enthalpy of mixing and the heat;capacity data generated from MD/MC simulations performed in the;isobaric-isothermal/canonical (NPT/NVT) ensembles are used to;parameterize the Gibbs energy function of all the condensed phases in;the Al-rich side of the Al-Zr system in a CALculation of PHAse Diagrams;(CALPHAD) approach. The modified quasichemical model in the pair;approximation (MQMPA) and the cluster variation method (CVM) in the;tetrahedron approximation are used to define the Gibbs energy of the;liquid and the fcc solid solution respectively for their entire range of;composition. Thermodynamic and structural data generated from our MD/MC;simulations are used as input data to parameterize these thermodynamic;models. A detailed analysis of the validity and transferability of the;Al-Zr MEAM-2NN potential is presented throughout our work by comparing;the predicted properties obtained from this formalism with available ab;initio and experimental data for both liquid and solid phases. DOI:;10.1103/PhysRevB.86.224202;0;0;0;0;0;1098-0121;WOS:000312693600001;;;J;Hoffman, Silas;Upadhyaya, Pramey;Tserkovnyak, Yaroslav;Spin-torque ac impedance in magnetic tunnel junctions;PHYSICAL REVIEW B;86;21;214420;10.1103/PhysRevB.86.214420;DEC 20 2012;2012;Subjecting a magnetic tunnel junction (MTJ) to a spin-transfer torque;and/or electric voltage-induced magnetic anisotropy induces magnetic;precession, which can reciprocally pump current through the circuit.;This results in an ac impedance, which is sensitive to the magnetic;field applied to the MTJ. Measurement of this impedance can be used to;characterize the nature of the coupling between the magnetic free layer;and the electric input as well as a readout of the magnetic;configuration of the MTJ. DOI: 10.1103/PhysRevB.86.214420;1;0;0;0;1;1098-0121;WOS:000312674200003;;;J;Martinez, Enrique;Caro, Alfredo;Atomistic modeling of long-term evolution of twist boundaries under;vacancy supersaturation;PHYSICAL REVIEW B;86;21;214109;10.1103/PhysRevB.86.214109;DEC 20 2012;2012;Vacancy accumulation in 4 degrees {110} bcc Fe and 2 degrees {111} fcc;Cu twist boundaries (TBs) has been studied. These interfaces are;characterized by different sets of screw dislocations: two sets of;a(0)/2 < 111 > and one set of a(0)/2 < 100 > in Fe and three sets of;a(0)/6 < 112 > in Cu. We observe that vacancies agglomerate;preferentially at the misfit dislocation intersections (MDIs), where;their formation energy is lower. In bcc the dislocation structure;remains stable, but in fcc the interface rearranges itself increasing;the stacking fault area. To perform this study a kinetic Monte Carlo;algorithm coupled with the molecular dynamics code LAMMPS has been;developed. Atomic positions are relaxed at every step after an event;takes place to account for long-range strain fields. The events;considered in this work are vacancy migration hops. The rates are;calculated via harmonic transition state theory with the energy at the;saddle point obtained either by a linear approximation considering the;relaxed energy of the initial and final configurations or the;nudged-elastic band method depending on the vacancy position in the;sample. Vacancy diffusivities at both interfaces have also been;calculated. For the {110} TB in Fe the diffusivity is of the same order;of magnitude as in bulk (D-TB(Fe) = 2.60 x 10(-13) m(2)/s) while at the;{111} TB in Cu, diffusivities are two orders of magnitude larger than in;bulk (D-TB(Cu) = 2.06 x 10(-12) m(2)/s). The correlation factors at both;interfaces are extremely low (f(TB)(Fe) = 1.61 x 10(-4) and f(TB)(Cu) =;3.34 x 10(-4)), highlighting the importance of trapping sites at these;interfaces. DOI: 10.1103/PhysRevB.86.214109;3;1;0;0;3;1098-0121;WOS:000312674200002;;;J;McCash, Kevin;Srikanth, A.;Ponomareva, I.;Competing polarization reversal mechanisms in ferroelectric nanowires;PHYSICAL REVIEW B;86;21;214108;10.1103/PhysRevB.86.214108;DEC 20 2012;2012;Polarization reversal in ferroelectrics has been a subject of intense;interest for many years owing to both its scientific appeal and;practical utility. In recent years the interest has increased even;further thanks to the expectations of achieving ultrafast polarization;reversal at the nanoscale. While most of the studies up to now are;focused on the polarization reversal in ferroelectric thin films, we;report the intrinsic dynamics of ultrafast polarization reversal in;ferroelectric nanowires. Using atomistic first-principles-based;simulations, we trace the time evolution of polarization under applied;electric field to reveal the existence of two competing polarization;reversal mechanisms: (i) domain-driven and (ii) homogeneous. The;analysis of their microscopic origin allows us to postulate the;associated laws and leads to a deeper understanding of polarization;reversal dynamics in general. In addition, we find that in defect-free;nanowires the polarization reversal can occur within picoseconds, which;potentially is very promising for ultrafast memory and other;applications. DOI: 10.1103/PhysRevB.86.214108;Ponomareva, Inna/C-4067-2012;6;0;0;0;6;1098-0121;WOS:000312674200001;;;J;Silaev, M. A.;Volovik, G. E.;Topological Fermi arcs in superfluid He-3;PHYSICAL REVIEW B;86;21;214511;10.1103/PhysRevB.86.214511;DEC 20 2012;2012;We consider fermionic states bound on domain walls in a Weyl superfluid;He-3-A and on interfaces between He-3-A and a fully gapped topological;superfluid He-3-B. We demonstrate that in both cases the fermionic;spectrum contains Fermi arcs that are continuous nodal lines of energy;spectrum terminating at the projections of two Weyl points to the plane;of surface states in momentum space. The number of Fermi arcs is;determined by the index theorem that relates bulk values of the;topological invariant to the number of zero-energy surface states. The;index theorem is consistent with an exact spectrum of Bogolubov-de;Gennes equation obtained numerically, meanwhile, the quasiclassical;approximation fails to reproduce the correct number of zero modes. Thus;we demonstrate that topology describes the properties of the exact;spectrum beyond the quasiclassical approximation. DOI:;10.1103/PhysRevB.86.214511;8;0;0;0;8;1098-0121;WOS:000312674200006;;;J;Sluka, V.;Kakay, A.;Deac, A. M.;Buergler, D. E.;Hertel, R.;Schneider, C. M.;Quenched Slonczewski windmill in spin-torque vortex oscillators;PHYSICAL REVIEW B;86;21;214422;10.1103/PhysRevB.86.214422;DEC 20 2012;2012;We present a combined analytical and numerical study on double-vortex;spin-torque nano-oscillators and describe a mechanism that suppresses;the windmill modes. The magnetization dynamics is dominated by the;gyrotropic precession of the vortex in one of the ferromagnetic layers.;In the other layer, the vortex gyration is strongly damped. The;dominating layer for the magnetization dynamics is determined by the;sign of the product between sample current and the chiralities.;Measurements on Fe/Ag/Fe nanopillars support these findings. The results;open up a new perspective for building high quality-factor spin-torque;oscillators operating at selectable, well-separated frequency bands.;DOI: 10.1103/PhysRevB.86.214422;Deac, Alina/D-2961-2012; Buergler, Daniel/I-7408-2012; Kakay, Attila/B-7106-2008; Schneider, Claus/H-7453-2012;Buergler, Daniel/0000-0002-5579-4886; Kakay, Attila/0000-0002-3195-219X;;Schneider, Claus/0000-0002-3920-6255;4;0;0;0;4;1098-0121;WOS:000312674200005;;;J;Strohm, C.;Roth, T.;Detlefs, C.;van der Linden, P.;Mathon, O.;Element-selective magnetometry in ferrimagnetic erbium iron garnet;PHYSICAL REVIEW B;86;21;214421;10.1103/PhysRevB.86.214421;DEC 20 2012;2012;The emergence of a field induced canted phase below a critical;temperature is one of the characteristic properties of ferrimagnets with;two inequivalent antiferromagnetically coupled sublattices. Using x-ray;magnetic circular dichroism at the Fe K edge, we have performed element;selective magnetometry in ferrimagnetic erbium iron garnet in fields up;to 30 T. The signal from the tetrahedral Fe sites at 70 K allows the;detection of the two transitions at 10 and 23 T bounding the canted;phase and the direct observation of the reversal of the Fe-sublattice;magnetization within this phase. DOI: 10.1103/PhysRevB.86.214421;Detlefs, Carsten/B-6244-2008;Detlefs, Carsten/0000-0003-2573-2286;0;0;0;0;0;1098-0121;WOS:000312674200004;;;J;Yang, Huan;Wang, Zhenyu;Fang, Delong;Li, Sheng;Kariyado, Toshikaze;Chen, Genfu;Ogata, Masao;Das, Tanmoy;Balatsky, A. V.;Wen, Hai-Hu;Unexpected weak spatial variation in the local density of states induced;by individual Co impurity atoms in superconducting Na(Fe1-xCox)As;crystals revealed by scanning tunneling spectroscopy;PHYSICAL REVIEW B;86;21;214512;10.1103/PhysRevB.86.214512;DEC 20 2012;2012;We use spatially resolved scanning tunneling spectroscopy in;Na(Fe1-xCox)As to investigate the impurity effect induced by Co dopants.;The Co impurities are successfully identified, and the spatial;distributions of local density of state at different energies around;these impurities are investigated. It is found that the spectrum shows;negligible spatial variation at different positions near the Co;impurity, although there is a continuum of the in-gap states which lifts;the zero-bias conductance to a finite value. Our results put constraints;on the S +/- and S++ models and sharpen the debate on the role of;scattering potentials induced by the Co dopants. DOI:;10.1103/PhysRevB.86.214512;Das, Tanmoy/F-7174-2013;9;0;1;0;9;1098-0121;WOS:000312674200007;;;J;Chen, Gang;Hermele, Michael;Magnetic orders and topological phases from f-d exchange in pyrochlore;iridates;PHYSICAL REVIEW B;86;23;235129;10.1103/PhysRevB.86.235129;DEC 19 2012;2012;We study theoretically the effects of f-d magnetic exchange interaction;in the R2Ir2O7 pyrochlore iridates. The R3+ f electrons form localized;Kramers or non-Kramers doublets, while the Ir4+ d electrons are more;itinerant and feel a strong spin-orbit coupling. We construct and;analyze a minimal model capturing this physics, treating the Ir;subsystem using a Hubbard-type model. First neglecting the Hubbard;interaction, we find Weyl semimetal and Axion insulator phases induced;by the f-d exchange. Next, we find that f-d exchange can cooperate with;the Hubbard interaction to stabilize the Weyl semimetal over a larger;region of parameter space than when it is induced by d-electron;correlations alone. Applications to experiments are discussed. DOI:;10.1103/PhysRevB.86.235129;15;1;0;0;15;1098-0121;WOS:000312495500002;;;J;Hung, Ling-Yan;Wan, Yidun;String-net models with Z(N) fusion algebra;PHYSICAL REVIEW B;86;23;235132;10.1103/PhysRevB.86.235132;DEC 19 2012;2012;We study the Levin-Wen string-net model with a Z(N) type fusion algebra.;Solutions of the local constraints of this model correspond to Z(N);gauge theory and double Chern-Simons theories with quantum groups. For;the first time, we explicitly construct a spin-(N - 1)/2 model with Z(N);gauge symmetry on a triangular lattice as an exact dual model of the;string-net model with a Z(N) type fusion algebra on a honeycomb lattice.;This exact duality exists only when the spins are coupled to a Z(N);gauge field living on the links of the triangular lattice. The ungauged;Z(N) lattice spin models are a class of quantum systems that bear;symmetry-protected topological phases that may be classified by the;third cohomology group H-3(Z(N), U(1)) of Z(N). Our results apply also;to any case where the fusion algebra is identified with a finite group;algebra or a quantum group algebra. DOI: 10.1103/PhysRevB.86.235132;9;0;0;0;9;1098-0121;WOS:000312495500005;;;J;Husser, H.;Pehlke, E.;Analysis of two-photon photoemission from Si(001);PHYSICAL REVIEW B;86;23;235134;10.1103/PhysRevB.86.235134;DEC 19 2012;2012;We have applied our ab initio simulation approach for the photoemission;process at solid surfaces to calculate two-photon photoemission spectra;from the p(2 x 2)-reconstructed Si(001) surface. In this approach, the;ground-state electronic structure of the surface is obtained within;density functional theory. The subsequent time-dependent simulation is;carried through at frozen effective potential, while an optical;potential is applied to account for inelastic scattering in the excited;state. We have derived normal emission spectra for s-and p-polarized;light with photon energies in the range (h) over bar omega = 3.85-4.75;eV. The dependence of the theoretical spectra on photon energy and;polarization is analyzed and compared to experimental spectra from the;literature. To unravel the role of the unoccupied states between Fermi;energy and the vacuum level which are acting as intermediate states in;the excitation process, we investigate the expression for the two-photon;photocurrent from perturbation theory. The scattering states, which;serve as the final states of photoemission, are obtained from a;time-dependent simulation of a LEED-type experiment. The evaluation of;the dipole matrix elements allows us to identify the relevant bulk band;transitions and to address the influence of surface states. DOI:;10.1103/PhysRevB.86.235134;0;0;0;0;0;1098-0121;WOS:000312495500007;;;J;Jenkins, Gregory S.;Sushkov, Andrei B.;Schmadel, Don C.;Kim, M. -H.;Brahlek, Matthew;Bansal, Namrata;Oh, Seongshik;Drew, H. Dennis;Giant plateau in the terahertz Faraday angle in gated Bi2Se3;PHYSICAL REVIEW B;86;23;235133;10.1103/PhysRevB.86.235133;DEC 19 2012;2012;We report gated terahertz Faraday angle measurements on epitaxial Bi2Se3;thin films capped with In2Se3. A plateau is observed in the real part of;the Faraday angle at an onset gate voltage corresponding to no band;bending at the surface, which persists into accumulation. The plateau is;two orders of magnitude flatter than the step size expected from a;single Landau level in the low-frequency limit, quantized in units of;the fine structure constant. At 8 T, the plateau extends over a range of;gate voltage that spans an electron density greater than 14 times the;quantum flux density. Both the imaginary part of the Faraday angle and;transmission measurements indicate dissipative off-axis and longitudinal;conductivity channels associated with the plateau. DOI:;10.1103/PhysRevB.86.235133;6;0;0;0;6;1098-0121;WOS:000312495500006;;;J;Maciejko, Joseph;Qi, Xiao-Liang;Karch, Andreas;Zhang, Shou-Cheng;Models of three-dimensional fractional topological insulators;PHYSICAL REVIEW B;86;23;235128;10.1103/PhysRevB.86.235128;DEC 19 2012;2012;Time-reversal invariant three-dimensional topological insulators can be;defined fundamentally by a topological field theory with a quantized;axion angle theta of 0 or pi. It was recently shown that fractional;quantized values of theta are consistent with time-reversal invariance;if deconfined, gapped, fractionally charged bulk excitations appear in;the low-energy spectrum due to strong correlation effects, leading to;the concept of a fractional topological insulator. These fractionally;charged excitations are coupled to emergent gauge fields, which ensure;that the microscopic degrees of freedom, the original electrons, are;gauge-invariant objects. A first step towards the construction of;microscopic models of fractional topological insulators is to understand;the nature of these emergent gauge theories and their corresponding;phases. In this work, we show that low-energy effective gauge theories;of both Abelian or non-Abelian type are consistent with a fractional;quantized axion angle if they admit a Coulomb phase or a Higgs phase;with gauge group broken down to a discrete subgroup. The Coulomb phases;support gapless but electrically neutral bulk excitations while the;Higgs phases are fully gapped. The Higgs and non-Abelian Coulomb phases;exhibit multiple ground states on boundaryless spatial three-manifolds;with nontrivial first homology, while the Abelian Coulomb phase has a;unique ground state. The ground-state degeneracy receives an additional;contribution on manifolds with boundary due to the induced boundary;Chern-Simons term. DOI: 10.1103/PhysRevB.86.235128;Zhang, Shou-Cheng/B-2794-2010;6;0;0;0;6;1098-0121;WOS:000312495500001;;;J;Mikheev, E.;Stolichnov, I.;De Ranieri, E.;Wunderlich, J.;Trodahl, H. J.;Rushforth, A. W.;Riester, S. W. E.;Campion, R. P.;Edmonds, K. W.;Gallagher, B. L.;Setter, N.;Magnetic domain wall propagation under ferroelectric control;PHYSICAL REVIEW B;86;23;235130;10.1103/PhysRevB.86.235130;DEC 19 2012;2012;Control of magnetic domain walls (DWs) and their propagation is among;the most promising development directions for future information-storage;devices. The well-established tools for such manipulation are the;spin-torque transfer from electrical currents and strain. The focus of;this paper is an alternative concept based on the nonvolatile;ferroelectric field effect on DWs in a ferromagnet with carrier-mediated;exchange coupling. The integrated ferromagnet/ferroelectric structure;yields two superimposed ferroic patterns strongly coupled by an electric;field. Using this coupling, we demonstrate an easy-to-form, stable,;nondestructive, and electrically rewritable switch on magnetic domain;wall propagation. DOI: 10.1103/PhysRevB.86.235130;Stolichnov, Igor/B-3331-2014; Wunderlich, Joerg/G-6918-2014;Stolichnov, Igor/0000-0003-0606-231X;;2;0;0;0;2;1098-0121;WOS:000312495500003;;;J;Yamaoka, Hitoshi;Zekko, Yumiko;Kotani, Akio;Jarrige, Ignace;Tsujii, Naohito;Lin, Jung-Fu;Mizuki, Jun'ichiro;Abe, Hideki;Kitazawa, Hideaki;Hiraoka, Nozomu;Ishii, Hirofumi;Tsuei, Ku-Ding;Electronic transitions in CePd2Si2 studied by resonant x-ray emission;spectroscopy at high pressures and low temperatures;PHYSICAL REVIEW B;86;23;235131;10.1103/PhysRevB.86.235131;DEC 19 2012;2012;Temperature and pressure dependences of the electronic structure of the;heavy-fermion system CePd2Si2 have been investigated using partial;fluorescence yield x-ray absorption spectroscopy and resonant x-ray;emission spectroscopy at the Ce L-3 edge. The temperature dependence has;also been measured for CeRh2Si2 for comparison. In both compounds Ce is;in a weakly mixed valence state at ambient pressure, mostly f(1) with a;small contribution from the f(0) component. No temperature dependence of;the Ce valence is observed at temperatures as low as 8 K. In CePd2Si2 at;19 K, however, the Ce valence shows a continuous increase with pressure,;indicating pressure-induced delocalization of the 4f states. Theoretical;calculations based on the single impurity Anderson model reproduce the;experimental results well. Pressure dependence of the difference between;the ground state valence and the measured valence including the final;state effect is also discussed. DOI: 10.1103/PhysRevB.86.235131;Lin, Jung-Fu/B-4917-2011;3;0;0;0;3;1098-0121;WOS:000312495500004;;;J;Zolyomi, V.;Ivady, V.;Gali, A.;Enhancement of electron-nuclear hyperfine interaction at lattice defects;in semiconducting single-walled carbon nanotubes studied by ab initio;density functional theory calculations;PHYSICAL REVIEW B;86;23;235433;10.1103/PhysRevB.86.235433;DEC 19 2012;2012;We present a first principles study of the electron-nuclear;hyperfine-interaction (HF) in achiral single-walled carbon nanotubes;(SWCNTs). We show that while HF coupling is small in perfect nanotubes,;it is significantly enhanced near lattice defects such as vacancies and;Stone-Wales pairs. The enhancement of hyperfine coupling near the;defects varies considerably in different nanotubes which might pave the;way to simultaneously identifying the chirality of carbon nanotubes and;the defects inside them by sophisticated magnetic resonance techniques.;Charged vacancy is proposed as a candidate for solid state qubit in;semiconducting SWCNTs. DOI: 10.1103/PhysRevB.86.235433;0;0;0;0;0;1098-0121;WOS:000312495500008;;;J;Castro, M.;Gago, R.;Vazquez, L.;Munoz-Garcia, J.;Cuerno, R.;Stress-induced solid flow drives surface nanopatterning of silicon by;ion-beam irradiation;PHYSICAL REVIEW B;86;21;214107;10.1103/PhysRevB.86.214107;DEC 19 2012;2012;Ion-beam sputtering (IBS) is known to produce surface nanopatterns over;macroscopic areas on a wide range of materials. However, in spite of the;technological potential of this route to nanostructuring, the physical;process by which these surfaces self-organize remains poorly understood.;We have performed detailed experiments of IBS on Si substrates that;validate dynamical and morphological predictions from a hydrodynamic;description of the phenomenon. We introduce a systematic approach to;perform the experiments under conditions that guarantee the;applicability of a linear description, helping to clarify the;experimental framework in which theories should be tested. Among our;results, the pattern wavelength is experimentally seen to depend almost;linearly on ion energy, in agreement with existing results for other;targets that are amorphous or become so under irradiation. Our work;substantiates flow of a nanoscopically thin and highly viscous surface;layer, driven by the stress created by the ion beam, as an accurate;description of this class of systems.;Gago, Raul/C-6762-2008; VAZQUEZ, LUIS/A-1272-2009; Munoz-Garcia, Javier/C-1135-2011; Castro, Mario/A-3585-2009;Gago, Raul/0000-0003-4388-8241; VAZQUEZ, LUIS/0000-0001-6220-2810;;Castro, Mario/0000-0003-3288-6144;22;0;0;0;22;1098-0121;WOS:000312494800001;;;J;Fishman, Randy S.;Furukawa, Nobuo;Haraldsen, Jason T.;Matsuda, Masaaki;Miyahara, Shin;Identifying the spectroscopic modes of multiferroic BiFeO3;PHYSICAL REVIEW B;86;22;220402;10.1103/PhysRevB.86.220402;DEC 19 2012;2012;We have identified the modes of multiferroic BiFeO3 measured by THz and;Raman spectroscopies. Excellent agreement with the observed peaks is;obtained by including the effects of easy-axis anisotropy along the;direction of the electric polarization. By distorting the cycloidal spin;state, anisotropy splits the Psi(perpendicular to 1) mode into peaks at;20 and 21.5 cm(-1) and activates the lower Phi(+/- 2) mode at 27 cm(-1);(T = 200 K). An electromagnon is identified with the upper Psi(+/- 1);mode at 21.5 cm(-1). Our results also explain recent inelastic;neutron-scattering measurements. DOI:10.1103/PhysRevB.86.220402;Haraldsen, Jason/B-9809-2012; Fishman, Randy/C-8639-2013; Lujan Center, LANL/G-4896-2012;Haraldsen, Jason/0000-0002-8641-5412;;8;0;0;0;8;1098-0121;WOS:000312495200001;;;J;Geraedts, Scott D.;Motrunich, Olexei I.;Monte Carlo study of a U(1) x U(1) loop model with modular invariance;PHYSICAL REVIEW B;86;24;245121;10.1103/PhysRevB.86.245121;DEC 19 2012;2012;We study a U(1) x U(1) system in (2+1) dimensions with long-range;interactions and mutual statistics. The model has the same form after;the application of operations from the modular group, a property which;we call modular invariance. Using the modular invariance of the model,;we propose a possible phase diagram. We obtain a sign-free reformulation;of the model and study it in Monte Carlo. This study confirms our;proposed phase diagram. We use the modular invariance to analytically;determine the current-current correlation functions and conductivities;in all the phases in the diagram, as well as at special "fixed" points;which are unchanged by an operation from the modular group. We;numerically determine the order of the phase transitions, and find;segments of second-order transitions. For the statistical interaction;parameter theta = pi, these second-order transitions are evidence of a;critical loop phase obtained when both loops are trying to condense;simultaneously. We also measure the critical exponents of the;second-order transitions. DOI: 10.1103/PhysRevB.86.245121;1;0;0;0;1;1098-0121;WOS:000312495800003;;;J;Giering, Kay-Uwe;Salmhofer, Manfred;Self-energy flows in the two-dimensional repulsive Hubbard model;PHYSICAL REVIEW B;86;24;245122;10.1103/PhysRevB.86.245122;DEC 19 2012;2012;We study the two-dimensional repulsive Hubbard model by functional;renormalization group methods, using our recently proposed channel;decomposition of the interaction vertex. The main technical advance of;this work is that we calculate the full Matsubara frequency dependence;of the self-energy and the interaction vertex in the whole frequency;range without simplifying assumptions on its functional form, and that;the effects of the self-energy are fully taken into account in the;equations for the flow of the two-body vertex function. At Van Hove;filling, we find that the Fermi-surface deformations remain small at;fixed particle density and have a minor impact on the structure of the;interaction vertex. The frequency dependence of the self-energy,;however, turns out to be important, especially at a transition from;ferromagnetism to d-wave superconductivity. We determine;non-Fermi-liquid exponents at this transition point. DOI:;10.1103/PhysRevB.86.245122;14;0;0;0;14;1098-0121;WOS:000312495800004;;;J;Le Roux, Sebastien;Bouzid, Assil;Boero, Mauro;Massobrio, Carlo;Structural properties of glassy Ge2Se3 from first-principles molecular;dynamics;PHYSICAL REVIEW B;86;22;224201;10.1103/PhysRevB.86.224201;DEC 19 2012;2012;The structural properties of glassy Ge2Se3 were studied in the framework;of first-principles molecular dynamics by using the Becke-Lee-Yang-Parr;scheme for the treatment of the exchange-correlation functional in;density functional theory. Our results for the total neutron structure;factor and the total pair distribution function are in very good;agreement with the experimental results. When compared to the structural;description obtained for liquid Ge2Se3, glassy Ge2Se3 is found to be;characterized by a larger percentage of fourfold coordinated Ge atoms;and a lower number of miscoordinations. However, Ge-Ge homopolar bonds;inevitably occur due to the lack of Se atoms available, at this;concentration, to form GeSe4 tetrahedra. Focusing on the family of;glasses GexSe1-x, the present results allow a comparison to be carried;out in reciprocal and real space among three prototypical glassy;structures. The first was obtained at the stoichiometric composition;(glassy GeSe2), the second at a Se-rich composition (glassy GeSe4) and;the third at a Ge-rich composition (glassy Ge2Se3). All networks are;consistent with the "8 - N" rule, in particular, glassy GeSe4, which;exhibits the highest degree of chemical order. The electronic structure;of glassy Ge2Se3 has been characterized by using the Wannier localized;orbital formalism. The analysis of the Ge environment shows the presence;of dangling, ionocovalent Ge-Se, and covalent bonds, the latter related;to Ge-Ge connections. DOI: 10.1103/PhysRevB.86.224201;BOERO, Mauro/M-2358-2014;BOERO, Mauro/0000-0002-5052-2849;6;0;0;0;6;1098-0121;WOS:000312495200004;;;J;Matthews, M. J.;Castelnovo, C.;Moessner, R.;Grigera, S. A.;Prabhakaran, D.;Schiffer, P.;High-temperature onset of field-induced transitions in the spin-ice;compound Dy2Ti2O7;PHYSICAL REVIEW B;86;21;214419;10.1103/PhysRevB.86.214419;DEC 19 2012;2012;We have studied the field-dependent ac magnetic susceptibility of single;crystals of Dy2Ti2O7 spin ice along the [111] direction in the;temperature range 1.8-7 K. Our data reflect the onset of local spin-ice;order in the appearance of different field regimes. In particular, we;observe a prominent feature at approximately 1.0 T that is a precursor;of the low-temperature metamagnetic transition out of field-induced;kagome ice, below which the kinetic constraints imposed by the ice rules;manifest themselves in a substantial frequency dependence of the;susceptibility. Despite the relatively high temperatures, our results;are consistent with a monopole picture, and they demonstrate that such a;picture can give physical insight into spin-ice systems even outside the;low-temperature, low-density limit where monopole excitations are;well-defined quasiparticles.;6;2;0;0;6;1098-0121;WOS:000312494800002;;;J;Nuss, Martin;Heil, Christoph;Ganahl, Martin;Knap, Michael;Evertz, Hans Gerd;Arrigoni, Enrico;von der Linden, Andwolfgang;Steady-state spectra, current, and stability diagram of a quantum dot: A;nonequilibrium variational cluster approach;PHYSICAL REVIEW B;86;24;245119;10.1103/PhysRevB.86.245119;DEC 19 2012;2012;We calculate steady-state properties of a strongly correlated quantum;dot under voltage bias by means of nonequilibrium cluster perturbation;theory and the nonequilibrium variational cluster approach,;respectively. Results for the steady-state current are benchmarked;against data from accurate matrix product state based time evolution. We;show that for low to medium interaction strength, nonequilibrium cluster;perturbation theory already yields good results, while for higher;interaction strength the self-consistent feedback of the nonequilibrium;variational cluster approach significantly enhances the accuracy. We;report the current-voltage characteristics for different interaction;strengths. Furthermore we investigate the nonequilibrium local density;of states of the quantum dot and illustrate that within the variational;approach a linear splitting and broadening of the Kondo resonance is;predicted which depends on interaction strength. Calculations with;applied gate voltage, away from particle-hole symmetry, reveal that the;maximum current is reached at the crossover from the Kondo regime to the;doubly occupied or empty quantum dot. Obtained stability diagrams;compare very well to recent experimental data [A. V. Kretinin et al.,;Phys. Rev. B 84, 245316 (2011)]. DOI: 10.1103/PhysRevB.86.245119;Knap, Michael/H-3344-2011; Arrigoni, Enrico/E-4507-2012; Nuss, Martin/J-5674-2014;Knap, Michael/0000-0002-7093-9502; Arrigoni, Enrico/0000-0002-1347-3080;;;7;0;0;0;7;1098-0121;WOS:000312495800001;;;J;Rottler, Andreas;Krueger, Benjamin;Heitmann, Detlef;Pfannkuche, Daniela;Mendach, Stefan;Route towards cylindrical cloaking at visible frequencies using an;optimization algorithm;PHYSICAL REVIEW B;86;24;245120;10.1103/PhysRevB.86.245120;DEC 19 2012;2012;We derive a model based on the Maxwell-Garnett effective-medium theory;that describes a cylindrical cloaking shell composed of metal rods which;are radially aligned in a dielectric host medium. We propose and;demonstrate a minimization algorithm that calculates for given material;parameters the optimal geometrical parameters of the cloaking shell such;that its effective optical parameters fit the best to the required;permittivity distribution for cylindrical cloaking. By means of;sophisticated full-wave simulations we find that a cylindrical cloak;with good performance using silver as the metal can be designed with our;algorithm for wavelengths in the red part of the visible spectrum (623;nm < lambda < 773 nm). We also present a full-wave simulation of such a;cloak at an exemplary wavelength of lambda = 729 nm (h omega = 1.7 eV);which indicates that our model is useful to find design rules of cloaks;with good cloaking performance. Our calculations investigate a structure;that is easy to fabricate using standard preparation techniques and;therefore pave the way to a realization of guiding light around an;object at visible frequencies, thus rendering it invisible. DOI:;10.1103/PhysRevB.86.245120;Krueger, Benjamin/B-7466-2009;Krueger, Benjamin/0000-0001-8502-368X;0;0;0;0;0;1098-0121;WOS:000312495800002;;;J;Tokiwa, Y.;Huebner, S. -H.;Beck, O.;Jeevan, H. S.;Gegenwart, P.;Unique phase diagram with narrow superconducting dome in;EuFe2(As1-xPx)(2) due to Eu2+ local magnetic moments;PHYSICAL REVIEW B;86;22;220505;10.1103/PhysRevB.86.220505;DEC 19 2012;2012;The interplay between superconductivity and Eu2+ magnetic moments in;EuFe2(As1-xPx)(2) is studied with electrical resistivity measurements;under hydrostatic pressure on x = 0.13 and x = 0.18 single crystals. We;can map hydrostatic pressure to chemical pressure x and show that;superconductivity is confined to a very narrow range 0.18 <= x <= 0.23;in the phase diagram, beyond which ferromagnetic (FM) Eu ordering;suppresses superconductivity. The change from antiferro- to FM Eu;ordering at the latter concentration coincides with a Lifshitz;transition and the complete depression of iron magnetic order. DOI:;10.1103/PhysRevB.86.220505;6;0;0;0;6;1098-0121;WOS:000312495200002;;;J;Tran Doan Huan;Amsler, Maximilian;Vu Ngoc Tuoc;Willand, Alexander;Goedecker, Stefan;Low-energy structures of zinc borohydride Zn(BH4)(2);PHYSICAL REVIEW B;86;22;224110;10.1103/PhysRevB.86.224110;DEC 19 2012;2012;We present a systematic study of the low-energy structures of zinc;borohydride, a crystalline material proposed for the purpose of hydrogen;storage. In addition to previously proposed structures, many new;low-energy structures of zinc borohydride are found by utilizing;theminima-hopping method. We identify a new dynamically stable structure;which belongs to the I4(1)22 space group as the lowest-energy phase of;zinc borohydride at low temperatures. A low transition barrier between;I4(1)22 and P1, the two lowest-lying phases of zinc borohydride, is;predicted, implying that a coexistence of low-energy phases of zinc;borohydride is possible at ambient conditions. An analysis based on the;simulated x-ray-diffraction pattern reveals that the I4(1)22 structure;exhibits the same major features as the experimentally synthesized zinc;borohydride samples. DOI: 10.1103/PhysRevB.86.224110;Amsler, Maximilian/H-4718-2013; Tran, Huan/K-3587-2013;Tran, Huan/0000-0002-8093-9426;4;0;0;0;4;1098-0121;WOS:000312495200003;;;J;van den Berg, T. L.;Raymond, L.;Verga, A.;Enhanced spin Hall effect in strong magnetic disorder;PHYSICAL REVIEW B;86;24;245420;10.1103/PhysRevB.86.245420;DEC 19 2012;2012;We consider a two-dimensional electron gas in an inversion asymmetric;layer and in the presence of spatially distributed magnetic impurities.;We investigate the relationship between the geometrical properties of;the wave function and the system's spin-dependent transport properties.;A localization transition, arising when disorder is increased, is;exhibited by the appearance of a fractal state with finite inverse;participation ratio. Below the transition, interference effects modify;the carrier's diffusion, as revealed by the dependence on the scattering;time of the power law exponents characterizing the spreading of a wave;packet. Above the transition, in the strong disorder regime, we find;that the states are spin polarized and localized around the impurities.;A significant enhancement of the spin current develops in this regime.;DOI: 10.1103/PhysRevB.86.245420;RAYMOND, Laurent/B-6025-2008;RAYMOND, Laurent/0000-0002-5014-1333;0;0;0;0;0;1098-0121;WOS:000312495800005;;;J;Bauer, Oliver;Mercurio, Giuseppe;Willenbockel, Martin;Reckien, Werner;Schmitz, Christoph Heinrich;Fiedler, Benjamin;Soubatch, Serguei;Bredow, Thomas;Tautz, Frank Stefan;Sokolowski, Moritz;Role of functional groups in surface bonding of planar pi-conjugated;molecules;PHYSICAL REVIEW B;86;23;235431;10.1103/PhysRevB.86.235431;DEC 18 2012;2012;The trends in the bonding mechanism of 3,4,9,10-perylenetetracarboxylic;acid dianhydride (PTCDA) to the Ag(111), Ag(100), and Ag(110) surfaces;were analyzed on the basis of data obtained from x-ray standing waves;and dispersion-corrected density functional theory. Of importance are;the attractive local O-Ag bonds on the anhydride groups. They are the;shorter, the more open the surface is, and lead even to partly repulsive;interactions between the perylene core and the surface. In parallel,;there is an increasing charge donation from the Ag surface into the pi;system of the PTCDA. This synergism explains the out-of-plane distortion;of the adsorbed PTCDA and the surface buckling. DOI:;10.1103/PhysRevB.86.235431;13;1;0;0;13;1098-0121;WOS:000312445200001;;;J;Saptsov, R. B.;Wegewijs, M. R.;Fermionic superoperators for zero-temperature nonlinear transport:;Real-time perturbation theory and renormalization group for Anderson;quantum dots;PHYSICAL REVIEW B;86;23;235432;10.1103/PhysRevB.86.235432;DEC 18 2012;2012;We study electron quantum transport through a strongly interacting;Anderson quantum dot at finite bias voltage and magnetic field at zero;temperature using the real-time renormalization group (RT-RG) in the;framework of a kinetic (generalized master) equation for the reduced;density operator. To this end, we further develop the general,;finite-temperature real-time transport formalism by introducing field;superoperators that obey fermionic statistics. This direct second;quantization in Liouville Fock space strongly simplifies the;construction of operators and superoperators that transform irreducibly;under the Anderson-model symmetry transformations. The fermionic field;superoperators naturally arise from the univalence (fermion-parity);superselection rule of quantum mechanics for the total system of quantum;dot plus reservoirs. Expressed in these field superoperators, the causal;structure of the perturbation theory for the effective time-evolution;superoperator kernel becomes explicit. Using the constraints of the;causal structure, we construct a parametrization of the exact effective;time-evolution kernel for which we analytically find the eigenvectors;and eigenvalues in terms of a minimal set of only 30 independent;coefficients. The causal structure also implies the existence of a;fermion-parity protected eigenvector of the exact Liouvillian,;explaining a recently reported result on adiabatic driving;[Contreras-Pulido et al., Phys. Rev. B 85, 075301 (2012)] and;generalizing it to arbitrary order in the tunnel coupling Gamma.;Furthermore, in the wide-band limit, the causal representation;exponentially reduces the number of diagrams for the time-evolution;kernel. The remaining diagrams can be identified simply by their;topology and are manifestly independent of the energy cutoff term by;term. By an exact reformulation of this series, we integrate out all;infinite-temperature effects, obtaining an expansion targeting only the;nontrivial, finite-temperature corrections, and the exactly conserved;transport current follows directly from the time-evolution kernel. From;this new series, the previously formulated RT-RG equations are obtained;naturally. We perform a complete one-plus-two-loop RG analysis at finite;voltage and magnetic field, while systematically accounting for the;dependence of all renormalized quantities on both the quantum dot and;reservoir frequencies. Using the second quantization in Liouville space;and symmetry restrictions, we obtain analytical RT-RG equations, which;can be solved numerically in an efficient way, and we extensively study;the model parameter space, excluding the Kondo regime where the;one-plus-two-loop approach is obviously invalid. The incorporated;renormalization effects result in an enhancement of the inelastic;cotunneling peak, even at a voltage similar to magnetic field similar to;tunnel coupling Gamma. Moreover, we find a tunnel-induced nonlinearity;of the stability diagrams (Coulomb diamonds) at finite voltage, both in;the single-electron tunneling and inelastic cotunneling regime. DOI:;10.1103/PhysRevB.86.235432;Wegewijs, Maarten/A-3512-2012;Wegewijs, Maarten/0000-0002-2972-3822;9;0;0;0;9;1098-0121;WOS:000312445200002;;;J;Tyrrell, E. J.;Smith, J. M.;Effective mass modeling of excitons in type-II quantum dot;heterostructures (vol 84, 165328, 2011);PHYSICAL REVIEW B;86;23;239905;10.1103/PhysRevB.86.239905;DEC 18 2012;2012;0;0;0;0;0;1098-0121;WOS:000312445200003;;;J;Buividovich, P. V.;Polikarpov, M. I.;Monte Carlo study of the electron transport properties of monolayer;graphene within the tight-binding model;PHYSICAL REVIEW B;86;24;245117;10.1103/PhysRevB.86.245117;DEC 18 2012;2012;We study the effect of Coulomb interaction between charge carriers on;the properties of graphene monolayer, assuming that the strength of the;interaction is controlled by the dielectric permittivity of the;substrate on which the graphene layer is placed. To this end, we;consider the tight-binding model on the hexagonal lattice coupled to the;noncompact gauge field. The action of the latter is also discretized on;the hexagonal lattice. Equilibrium ensembles of gauge field;configurations are obtained using the hybrid Monte Carlo algorithm. Our;numerical results indicate that at sufficiently strong coupling, that;is, at sufficiently small substrate dielectric permittivities epsilon;less than or similar to 4 and at sufficiently small temperatures T less;than or similar to 1 x 10(4) K, the symmetry between simple sublattices;of hexagonal lattice breaks down spontaneously and the low-frequency;conductivity gradually decreases down to 20-30% of its weak-coupling;value. On the other hand, in the weak-coupling regime (with epsilon;greater than or similar to 4), the conductivity practically does not;depend on epsilon and is close to the universal value sigma(0) = 1/4.;DOI: 10.1103/PhysRevB.86.245117;15;0;0;0;15;1098-0121;WOS:000312445700002;;;J;Cheng, Ran;Niu, Qian;Electron dynamics in slowly varying antiferromagnetic texture;PHYSICAL REVIEW B;86;24;245118;10.1103/PhysRevB.86.245118;DEC 18 2012;2012;Adiabatic dynamics of conduction electrons in antiferromagnetic (AFM);materials with slowly varying spin texture is developed. Quite different;from the ferromagnetic (FM) case, adiabaticity in AFM texture does not;imply perfect alignment of conduction electron spins with background;profile, instead, it introduces an internal dynamics between degenerate;bands. As a result, the orbital motion of conduction electrons becomes;spin dependent and is affected by two emergent gauge fields: one of them;is the non-Abelian version of what has been discovered in FM systems;;the other leads to an anomalous velocity that has no FM counterpart. Two;examples with experimental predictions are provided. DOI:;10.1103/PhysRevB.86.245118;Niu, Qian/G-9908-2013; Cheng, Ran/M-9260-2014;Cheng, Ran/0000-0003-0166-2172;12;0;0;0;12;1098-0121;WOS:000312445700003;;;J;Cuadrado, R.;Chantrell, R. W.;Electronic and magnetic properties of bimetallic L1(0) cuboctahedral;clusters by means of fully relativistic density-functional-based;calculations;PHYSICAL REVIEW B;86;22;224415;10.1103/PhysRevB.86.224415;DEC 18 2012;2012;By means of density functional theory and the generalized gradient;approximation, we present a structural, electronic, and magnetic study;of FePt-, CoPt-, FeAu-, and FePd-based L1(0) ordered cuboctahedral;nanoparticles, with total numbers of atoms N-tot = 13, 55, 147. After a;conjugate gradient relaxation, the nanoparticles retain their L1(0);symmetry, but the small displacements of the atomic positions tune the;electronic and magnetic properties. The value of the total magnetic;moment stabilizes as the size increases. We also show that the magnetic;anisotropy energy (MAE) depends on the size as well as the position of;the Fe-atomic planes in the clusters. We address the influence on the;MAE of the surface shape, finding a small in-plane MAE for (Fe,;Co)(24)Pt-31 nanoparticles. DOI: 10.1103/PhysRevB.86.224415;7;0;0;0;7;1098-0121;WOS:000312445000002;;;J;Deisenhofer, J.;Schaile, S.;Teyssier, J.;Wang, Zhe;Hemmida, M.;von Nidda, H. -A. Krug;Eremina, R. M.;Eremin, M. V.;Viennois, R.;Giannini, E.;van der Marel, D.;Loidl, A.;Electron spin resonance and exchange paths in the orthorhombic dimer;system Sr2VO4;PHYSICAL REVIEW B;86;21;214417;10.1103/PhysRevB.86.214417;DEC 18 2012;2012;We report on susceptibility and electron spin resonance (ESR);measurements at X- and Q-band frequencies of Sr2VO4 with orthorhombic;symmetry. In this dimer system, the V4+ ions are in tetrahedral;environment and are coupled by an antiferromagnetic intradimer exchange;constant J/k(B) approximate to 100 K to form a singlet ground state;without any phase transitions between room temperature and 2 K. Based on;an extended Huckel tight-binding analysis, we identify the strongest;exchange interaction to occur between two inequivalent vanadium sites;via two intermediate oxygen ions. The ESR absorption spectra can be well;fitted by a single Lorentzian line and the temperature dependence of the;ESR intensity, and the dc susceptibility can be modeled by using the;Bleaney-Bowers approach for independent dimers. The temperature;dependence of the ESR linewidth at X-band frequency can be modeled by a;superposition of a linear increase with temperature with a slope alpha =;1.35 Oe/K and a thermally activated behavior with an activation energy;Delta/k(B) = 1418 K, both of which point to spin-phonon coupling as the;dominant relaxation mechanism in this compound.;Teyssier, Jeremie/A-6867-2013; Deisenhofer, Joachim/G-8937-2011;Deisenhofer, Joachim/0000-0002-7645-9390;3;0;0;0;3;1098-0121;WOS:000312444700001;;;J;Hsu, Chen-Hsuan;Wang, Zhiqiang;Chakravarty, Sudip;Spin dynamics of possible density wave states in the pseudogap phase of;high-temperature superconductors;PHYSICAL REVIEW B;86;21;214510;10.1103/PhysRevB.86.214510;DEC 18 2012;2012;In a recent inelastic neutron scattering experiment in the pseudogap;state of the high-temperature superconductor YBa2Cu3O6.6, an unusual;"vertical" dispersion of the spin excitations with a large in-plane;anisotropy was observed. In this paper, we discuss in detail the spin;susceptibility of the singlet d-density wave, the triplet d-density wave;as well as the more common spin density wave orders with hopping;anisotropies. From numerical calculations within the framework of random;phase approximation, we find nearly vertical dispersion relations for;spin excitations with anisotropic incommensurability at low energy omega;<= 90 meV, which are reminiscent of the experiments. At very high energy;omega >= 165 meV, we also find energy-dependent incommensurability.;Although there are some important differences between the three cases,;unpolarized neutron measurements cannot discriminate between these;alternate possibilities; the vertical dispersion, however, is a distinct;feature of all three density wave states in contrast to the;superconducting state, which shows an hour-glass shape dispersion.;0;0;0;0;0;1098-0121;WOS:000312444700003;;;J;Jain, S.;Schultheiss, H.;Heinonen, O.;Fradin, F. Y.;Pearson, J. E.;Bader, S. D.;Novosad, V.;Coupled vortex oscillations in mesoscale ferromagnetic double-disk;structures;PHYSICAL REVIEW B;86;21;214418;10.1103/PhysRevB.86.214418;DEC 18 2012;2012;Coupled resonance modes in connected ferromagnetic double-dot structures;have been investigated as a function of the overlap between the dots,;both experimentally and via micromagnetic simulations. An asymmetry is;observed in the frequency spectrum about zero field. Softening of the;magnetization during vortex core precession when the cores are near the;overlap region results in low-frequency modes and a splitting;corresponding to different polarity combinations. A range of vortex;resonance frequencies are identified that can be tuned by varying the;overlap area. This study provides insight into the control of the;dynamic response in coupled mesoscale magnetic structures.;Jain, Shikha/J-4734-2012; Novosad, Valentyn/C-2018-2014;7;0;0;0;7;1098-0121;WOS:000312444700002;;;J;Kim, Isaac H.;Perturbative analysis of topological entanglement entropy from;conditional independence;PHYSICAL REVIEW B;86;24;245116;10.1103/PhysRevB.86.245116;DEC 18 2012;2012;We use the structure of conditionally independent states to analyze the;stability of topological entanglement entropy. For the ground state of;the quantum double or Levin-Wen model, we obtain a bound on the;first-order perturbation of topological entanglement entropy in terms of;its energy gap and subsystem size. The bound decreases superpolynomially;with the size of the subsystem, provided the energy gap is nonzero. We;also study the finite-temperature stability of stabilizer models, for;which we prove a stronger statement than the strong subadditivity of;entropy. Using this statement and assuming (i) finite correlation length;and (ii) small conditional mutual information of certain configurations,;first-order perturbation effect for arbitrary local perturbation can be;bounded. We discuss the technical obstacles in generalizing these;results. DOI: 10.1103/PhysRevB.86.245116;4;0;0;0;4;1098-0121;WOS:000312445700001;;;J;Metelmann, A.;Brandes, T.;Transport through single-level systems: Spin dynamics in the;nonadiabatic regime;PHYSICAL REVIEW B;86;24;245317;10.1103/PhysRevB.86.245317;DEC 18 2012;2012;We investigate the Fano-Anderson model coupled to a large ensemble of;spins under the influence of an external magnetic field. The interaction;between the two spin systems is treated within a mean-field approach,;and we assume an anisotropic coupling between these two systems. By;using a nonadiabatic approach, we make no further approximations in the;theoretical description of our system, apart from the semiclassical;treatment. Therewith, we can include the short-time dynamics as well as;the broadening of the energy levels arising due to the coupling to the;external electronic reservoirs. We study the spin dynamics in the regime;of low and high bias. For the infinite bias case, we compare our results;to those obtained from a simpler rate equation approach, where;higher-order transitions are neglected. We show that these higher-order;terms are important in the range of low magnetic field. Additionally, we;analyze extensively the finite bias regime with methods from nonlinear;dynamics, and we discuss the possibility of switching of the large spin.;DOI: 10.1103/PhysRevB.86.245317;2;0;0;0;2;1098-0121;WOS:000312445700004;;;J;Nastar, M.;Soisson, F.;
6:8:6:15 Atomic diffusion theory challenging the Cahn-Hilliard method
DOI:10.1103/PhysRevB.90.144101 JN:PHYSICAL REVIEW B PY:2014 TC:0 AU: Nastar, M.;
6:8:6:16 Decomposition kinetics of Fe-Cr solid solutions during thermal aging
DOI:10.1103/PhysRevB.86.224109 JN:PHYSICAL REVIEW B PY:2012 TC:3 AU: ;FN Thomson Reuters Web of Scienceâ„¢;1.0;J;Aizin, Gregory R.;Dyer, Gregory C.;Transmission line theory of collective plasma excitations in periodic;two-dimensional electron systems: Finite plasmonic crystals and Tamm;states;PHYSICAL REVIEW B;86;23;235316;10.1103/PhysRevB.86.235316;DEC 28 2012;2012;We present a comprehensive theory of the one-dimensional plasmonic;crystal formed in the grating-gated two-dimensional electron gas (2DEG);in semiconductor heterostructures. To describe collective plasma;excitations in the 2DEG, we develop a generalized transmission line;theoretical formalism consistent with the plasma hydrodynamic model. We;then apply this formalism to analyze the plasmonic spectra of 2DEG;systems with steplike periodic changes of electron density, gate;screening, or both. We show that in a periodically modulated 2DEG, a;plasmonic crystal is formed, and we derive closed-form analytical;expressions describing its energy band spectrum for both infinite and;finite size crystals. Our results demonstrate a nonmonotonic dependence;of the plasmonic band gap width on the electron density modulation. At;so-called transparency points, where the plasmon propagates through the;periodic 2DEG in a resonant manner, the plasmonic band gaps vanish. In;semi-infinite plasmonic crystals, we demonstrate the formation of;plasmonic Tamm states and analytically derive their energy dispersion;and spatial localization. Finally, we present detailed numerical;analysis of the plasmonic band structure of a finite four-period;plasmonic crystal terminated either by an ohmic contact or by an;infinite barrier on each side. We trace the evolution of the plasmonic;band spectrum, including the Tamm states, with changing electron density;modulation and analyze the boundary conditions necessary for formation;of the Tamm states. We also analyze interaction between the Tamm states;formed at the opposite edges of the short length plasmonic crystal. The;validity of our theoretical approach was confirmed in experimental;studies of plasmonic crystals in short, modulated plasmonic cavities;[Dyer et al., Phys. Rev. Lett. 109, 126803 (2012)], which demonstrated;excellent quantitative agreement between theory and experiment.;DOI:10.1103/PhysRevB.86.235316;9;0;0;0;9;1098-0121;WOS:000312833200005;;;J;Arakawa, Tomonori;Tanaka, Takahiro;Chida, Kensaku;Matsuo, Sadashige;Nishihara, Yoshitaka;Chiba, Daichi;Kobayashi, Kensuke;Ono, Teruo;Fukushima, Akio;Yuasa, Shinji;Low-frequency and shot noises in CoFeB/MgO/CoFeB magnetic tunneling;junctions;PHYSICAL REVIEW B;86;22;224423;10.1103/PhysRevB.86.224423;DEC 28 2012;2012;The low-frequency and shot noises in spin-valve CoFeB/MgO/CoFeB magnetic;tunneling junctions were studied at low temperature. The measured 1/f;noise around the magnetic hysteresis loops of the free layer indicates;that the main origin of the 1/f noise is the magnetic fluctuation, which;is discussed in terms of a fluctuation-dissipation relation. Random;telegraph noise (RTN) is observed to be symmetrically enhanced in the;hysteresis loop with regard to the two magnetic configurations. We found;that this enhancement is caused by the fluctuation between two magnetic;states in the free layer. Although the 1/f noise is almost independent;of the magnetic configuration, the RTN is enhanced in the antiparallel;configuration. These findings indicate the presence of spin-dependent;activation of RTN. Shot noise reveals the spin-dependent coherent;tunneling process via a crystalline MgO barrier. DOI:;10.1103/PhysRevB.86.224423;Kobayashi, Kensuke/E-5404-2010;Kobayashi, Kensuke/0000-0001-7072-5945;4;0;0;0;4;1098-0121;WOS:000312832400004;;;J;Cucchiara, J.;Le Gall, S.;Fullerton, E. E.;Kim, J. -V.;Ravelosona, D.;Henry, Y.;Katine, J. A.;Kent, A. D.;Bedau, D.;Gopman, D.;Mangin, S.;Domain wall motion in nanopillar spin-valves with perpendicular;anisotropy driven by spin-transfer torques;PHYSICAL REVIEW B;86;21;214429;10.1103/PhysRevB.86.214429;DEC 28 2012;2012;Using transport measurements and micromagnetic simulations we have;investigated the domain wall motion driven by spin-transfer torques in;all-perpendicular hexagonal nanopillar spin-valves. In particular, we;probe domain walls nucleated in the free layer of the spin-valves, which;are then pinned in the devices. We have determined both the;field-current state diagrams for the domain-wall state and the thermally;activated dynamics of the nucleation and depinning processes. We show;that the nucleation process is well-described by a modified Neel-Brown;model taking into account the spin-transfer torque, whereas the;depinning process is independent of the current. This is confirmed by an;analytical calculation which shows that spin-torques have no effect on;the Arrhenius escape rate associated with thermally activated domain;wall depinning in this geometry. Furthermore, micromagnetic simulations;indicate that spin-transfer only weakly affects the domain wall motion,;but instead modifies the inner domain wall structure. DOI:;10.1103/PhysRevB.86.214429;Kim, Joo-Von/B-3672-2008; Fullerton, Eric/H-8445-2013;Kim, Joo-Von/0000-0002-3849-649X; Fullerton, Eric/0000-0002-4725-9509;0;0;0;0;0;1098-0121;WOS:000312830800003;;;J;Fernandez-Dominguez, A. I.;Zhang, P.;Luo, Y.;Maier, S. A.;Garcia-Vidal, F. J.;Pendry, J. B.;Transformation-optics insight into nonlocal effects in separated;nanowires;PHYSICAL REVIEW B;86;24;241110;10.1103/PhysRevB.86.241110;DEC 28 2012;2012;We present a transformation-optics approach which sheds analytical;insight into the impact that spatial dispersion has on the optical;response of separated dimers of metallic nanowires. We show that;nonlocal effects are apparent at interparticle distances one order of;magnitude larger than the longitudinal plasmon decay length, which;coincides with the spatial regime where electron tunneling phenomena;occur. Our method also clarifies the interplay between nonlocal and;radiation effects taking place in the nanostructure, yielding the dimer;dimensions that optimize its light harvesting capabilities. DOI:;10.1103/PhysRevB.86.241110;Luo, Yu/C-7799-2009; Fernandez-Dominguez, Antonio I./C-4448-2013; Garcia-Vidal, Francisco /B-8280-2011;Luo, Yu/0000-0003-2925-682X; Fernandez-Dominguez, Antonio;I./0000-0002-8082-395X; Garcia-Vidal, Francisco /0000-0003-4354-0982;10;0;0;0;10;1098-0121;WOS:000312834100001;;;J;Gati, E.;Koehler, S.;Guterding, D.;Wolf, B.;Knoener, S.;Ran, S.;Bud'ko, S. L.;Canfield, P. C.;Lang, M.;Hydrostatic-pressure tuning of magnetic, nonmagnetic, and;superconducting states in annealed Ca(Fe1-xCox)(2)As-2;PHYSICAL REVIEW B;86;22;220511;10.1103/PhysRevB.86.220511;DEC 28 2012;2012;We report on measurements of the magnetic susceptibility and electrical;resistance under He-gas pressure on single crystals of;Ca(Fe1-xCox)(2)As-2. We find that for properly heat-treated crystals;with modest Co concentration, x = 0.028, the salient ground states;associated with iron-arsenide superconductors, i.e.,;orthorhombic/antiferromagnetic (o/afm), superconducting, and nonmagnetic;collapsed-tetragonal (cT) states can be accessed all in one sample with;reasonably small and truly hydrostatic pressure. This is possible owing;to the extreme sensitivity of the o/afm (for T <= T-s,T-N) and;superconducting (T <= T-c) states against variation of pressure,;disclosing pressure coefficients of dT(s,N)/dP = -(1100 +/- 50) K/GPa;and dT(c)/dP = -(60 +/- 3) K/GPa, respectively. Systematic;investigations of the various phase transitions and ground states via;pressure tuning revealed no coexistence of bulk superconductivity (sc);with the o/afm state which we link to the strongly first-order character;of the corresponding structural/magnetic transition in this compound.;Our results, together with literature results, indicate that preserving;fluctuations associated with the o/afm transition to low enough;temperatures is vital for sc to form. DOI: 10.1103/PhysRevB.86.220511;Canfield, Paul/H-2698-2014;14;0;0;0;14;1098-0121;WOS:000312832400001;;;J;Hakobyan, Ye.;Tadmor, E. B.;James, R. D.;Objective quasicontinuum approach for rod problems;PHYSICAL REVIEW B;86;24;245435;10.1103/PhysRevB.86.245435;DEC 28 2012;2012;An objective quasicontinuum (OQC) method is developed for simulating;rodlike systems that can be represented as a combination of locally;objective structures. An objective structure (OS) is one for which a;group of atoms, called a "fundamental domain" (FD), is repeated using;specific rules of translation and rotation to build a more complex;structure. An objective Cauchy-Born rule defines the kinematics of the;OS atoms in terms of a set of symmetry parameters and the positions of;the FD atoms. The computational advantage lies in the capability of;representing a large system of atoms through a small set of symmetry;parameters and FD atom positions. As an illustrative example, we;consider the deformation of a copper single-crystal nanobeam which can;be described as an OS. OQC simulations are performed for uniform and;nonuniform bending for two different orientations (nanobeam axis;oriented along [111] and [100]) and compared with elastica results. In;the uniform bending case, the [111]-oriented single-crystal nanobeam;experiences elongation, while the [100]-oriented nanobeam experiences;contraction in total length. The nonuniform bending allows for;stretching, contraction, and bending as deformation. Under certain;loading conditions, dislocation nucleation is observed within the FD.;DOI: 10.1103/PhysRevB.86.245435 PACS number(s): 61.46.Km, 62.23.Hj,;81.07.Gf, 02.70.Ns;1;0;0;0;1;1098-0121;WOS:000312834100006;;;J;He, Jing;Wang, Bo;Kou, Su-Peng;Ferromagnetism and antiferromagnetism of a correlated topological;insulator with a flat band;PHYSICAL REVIEW B;86;23;235146;10.1103/PhysRevB.86.235146;DEC 28 2012;2012;In this paper, based on the mean-field approach and random-phase;approximation, we studied the magnetic properties of the spinfull;Haldane model on honeycomb lattice of topological flat band with onsite;repulsive Coulomb interaction. We found that the antiferromagnetic (AF);order is more stable than the ferromagnetic (FM) order at, or near, half;filling. Away from half filling, the phase diagram becomes complex: at;large doping, the FM order is more stable than the AF order due to the;flatness of band structure. In particular, we found that at quarter;filling, the system becomes a Chern number Q = 1 topological insulator;induced by the FM order. DOI:10.1103/PhysRevB.86.235146;1;0;0;0;1;1098-0121;WOS:000312833200002;;;J;Hu, Jianbo;Misochko, Oleg V.;Goto, Arihiro;Nakamura, Kazutaka G.;Delayed formation of coherent LO phonon-plasmon coupled modes in n- and;p-type GaAs measured using a femtosecond coherent control technique;PHYSICAL REVIEW B;86;23;235145;10.1103/PhysRevB.86.235145;DEC 28 2012;2012;Coherent control experiments using a pair of collinear femtosecond laser;pulses have been carried out to manipulate longitudinal optical (LO);phonon-plasmon coupled (LOPC) modes in both p-and n-type GaAs. By tuning;the interpulse separation, remarkably distinct responses have been;observed in the two samples. To understand the results obtained a;phenomenological model taking the delayed formation of coherent LOPC;modes into account is proposed. The model suggests that the lifetime of;coherent LOPC modes plays a key role and the interference of the;coherent LO phonons excited successively by two pump pulses strongly;affects the manipulation of coherent LOPC modes.;DOI:10.1103/PhysRevB.86.235145;Oleg, Misochko/E-6136-2013; Nakamura, Kazutaka/F-4095-2014;0;0;0;0;0;1098-0121;WOS:000312833200001;;;J;Imura, Ken-Ichiro;Okamoto, Mayuko;Yoshimura, Yukinori;Takane, Yositake;Ohtsuki, Tomi;Finite-size energy gap in weak and strong topological insulators;PHYSICAL REVIEW B;86;24;245436;10.1103/PhysRevB.86.245436;DEC 28 2012;2012;The nontrivialness of a topological insulator (TI) is characterized;either by a bulk topological invariant or by the existence of a;protected metallic surface state. Yet, in realistic samples of finite;size, this nontrivialness does not necessarily guarantee the gaplessness;of the surface state. Depending on the geometry and on the topological;indices, a finite-size energy gap of different nature can appear, and,;correspondingly, exhibit various scaling behaviors of the gap. The;spin-to-surface locking provides one such gap-opening mechanism,;resulting in a power-law scaling of the energy gap. Weak and strong TIs;show different degrees of sensitivity to the geometry of the sample. As;a noteworthy example, a strong TI nanowire of a rectangular-prism shape;is shown to be more gapped than that of a weak TI of precisely the same;geometry. DOI: 10.1103/PhysRevB.86.245436 PACS number(s): 73.22.-f,;73.20.At, 72.80.Sk;Imura, Ken/D-6633-2013;11;0;0;0;11;1098-0121;WOS:000312834100007;;;J;Lenertz, M.;Alaria, J.;Stoeffler, D.;Colis, S.;Dinia, A.;Mentre, O.;Andre, G.;Porcher, F.;Suard, E.;Magnetic structure of ground and field-induced ordered states of;low-dimensional alpha-CoV2O6: Experiment and theory;PHYSICAL REVIEW B;86;21;214428;10.1103/PhysRevB.86.214428;DEC 28 2012;2012;In this work, we investigate the magnetic properties of the monoclinic;alpha-CoV2O6 by powder neutron diffraction measurements and ab initio;calculations. An emphasis has been pointed towards the magnetic;structure and the interaction between the Co ions leading to magnetic;frustrations in this compound. Neutron diffraction experiments were;carried out both in the ground state (zero magnetic field) and under;applied external field of 2.5 and 5 T corresponding to the ferrimagnetic;and ferromagnetic states, respectively. The antiferromagnetic ground;state below 14 K corresponds to k = (1,0, 1/2) magnetic propagation;vector in C1 space group. The magnetic structure can be described by;ferromagnetic interactions along the chains (b axis) and;antiferromagnetic coupling between the chains (along a and c axes). The;ferrimagnetic structure implies a ninefold unit cell (3a, b, 3c) in;which ferromagnetic chains follow an "up-up-down" sequence along the a;and c axes. In the ferromagnetic state, the spin orientations remain;unchanged while every chain lies ferromagnetically ordered. In all;cases, the magnetic moments lie in the ac plane, along the CoO6;octahedra axis, at an angle of 9.3 degrees with respect to the c axis.;The magnetic structure of alpha-CoV2O6 resolved for all the ordered;states is successfully related to a theoretical model. Ab initio;calculations allowed us to (i) confirm the ground-state magnetic;structure, (ii) calculate the interactions between the Co ions, (iii);explain the frustration leading to the stepped variation of the;magnetization curves, (iv) calculate the orbital magnetic moment (1.5;mu(B)) on Co atoms, and (v) confirm the direction of the magnetic;moments near the c direction. DOI: 10.1103/PhysRevB.86.214428;10;0;0;0;10;1098-0121;WOS:000312830800002;;;J;Nakajima, Nobuo;Oki, Megumi;Isohama, Yoichi;Maruyama, Hiroshi;Tezuka, Yasuhisa;Ishiji, Kotaro;Iwazumi, Toshiaki;Okada, Kozo;Enhancement of dielectric constant of BaTiO3 nanoparticles studied by;resonant x-ray emission spectroscopy;PHYSICAL REVIEW B;86;22;224114;10.1103/PhysRevB.86.224114;DEC 28 2012;2012;The nanoscopic origin of the enhancement of the dielectric constant of;BaTiO3 nanoparticles was investigated by means of Ti K beta resonant;x-ray emission spectroscopy. Two inelastic peaks due to charge-transfer;excitations were observed, one of which disappeared as the particle size;(d) was reduced, while the other remained unchanged. This is consistent;with the fact that tetragonality was also reduced with decreasing d. The;origin of the large enhancement in the dielectric constant is briefly;discussed from a microscopic point of view. DOI:;10.1103/PhysRevB.86.224114;3;0;0;0;3;1098-0121;WOS:000312832400003;;;J;Olmon, Robert L.;Slovick, Brian;Johnson, Timothy W.;Shelton, David;Oh, Sang-Hyun;Boreman, Glenn D.;Raschke, Markus B.;Optical dielectric function of gold;PHYSICAL REVIEW B;86;23;235147;10.1103/PhysRevB.86.235147;DEC 28 2012;2012;In metal optics gold assumes a special status because of its practical;importance in optoelectronic and nano-optical devices, and its role as a;model system for the study of the elementary electronic excitations that;underlie the interaction of electromagnetic fields with metals. However,;largely inconsistent values for the frequency dependence of the;dielectric function describing the optical response of gold are found in;the literature. We performed precise spectroscopic ellipsometry;measurements on evaporated gold, template-stripped gold, and;single-crystal gold to determine the optical dielectric function across;a broad spectral range from 300 nm to 25 mu m (0.05-4.14 eV) with high;spectral resolution. We fit the data to the Drude free-electron model,;with an electron relaxation time tau(D) = 14 +/- 3 fs and plasma energy;h omega(p) = 8.45 eV. We find that the variation in dielectric functions;for the different types of samples is small compared to the range of;values reported in the literature. Our values, however, are comparable;to the aggregate mean of the collection of previous measurements from;over the past six decades. This suggests that although some variation;can be attributed to surface morphology, the past measurements using;different approaches seem to have been plagued more by systematic errors;than previously assumed. DOI:10.1103/PhysRevB.86.235147;22;2;0;0;22;1098-0121;WOS:000312833200003;;;J;Phuong, L. Q.;Ichimiya, M.;Ishihara, H.;Ashida, M.;Multiple light-coupling modes of confined excitons observable in;photoluminescence spectra of high-quality CuCl thin films;PHYSICAL REVIEW B;86;23;235449;10.1103/PhysRevB.86.235449;DEC 28 2012;2012;We report the observation of multiple light-coupling modes of excitons;confined in CuCl thin films with thicknesses of a few hundred nanometers;beyond the long-wavelength approximation in photoluminescence spectra.;Due to a remarkably long coupling length between light and;multinode-type excitons resulted from very high crystalline quality of;thin films, photoluminescence signals from the excitonic states;corresponding to not only odd but also even quantum numbers, which are;optically forbidden in the long-wavelength approximation, are clearly;observed. The full width at half maximum of the excitonic state deduced;qualitatively from the corresponding photoluminescence band shows almost;the same dependence on the quantum number as the theoretical prediction.;DOI:10.1103/PhysRevB.86.235449;0;0;0;0;0;1098-0121;WOS:000312833200008;;;J;Reynoso, Andres A.;Usaj, Gonzalo;Balseiro, C. A.;Feinberg, D.;Avignon, M.;Spin-orbit-induced chirality of Andreev states in Josephson junctions;PHYSICAL REVIEW B;86;21;214519;10.1103/PhysRevB.86.214519;DEC 28 2012;2012;We study Josephson junctions (JJs) in which the region between the two;superconductors is a multichannel system with Rashba spin-orbit coupling;(SOC) where a barrier or a quantum point contact (QPC) is present. These;systems might present unconventional Josephson effects such as Josephson;currents for zero phase difference or critical currents that depend on;the current direction. Here, we discuss how the spin polarizing;properties of the system in the normal state affect the spin;characteristics of the Andreev bound states inside the junction. This;results in a strong correlation between the spin of the Andreev states;and the direction in which they transport Cooper pairs. While the;current-phase relation for the JJ at zero magnetic field is;qualitatively unchanged by SOC, in the presence of a weak magnetic;field, a strongly anisotropic behavior and the mentioned anomalous;Josephson effects follow. We show that the situation is not restricted;to barriers based on constrictions such as QPCs and should generically;arise if in the normal system the direction of the carrier's spin is;linked to its direction of motion. DOI: 10.1103/PhysRevB.86.214519;Usaj, Gonzalo/E-6394-2010;Usaj, Gonzalo/0000-0002-3044-5778;5;0;0;0;5;1098-0121;WOS:000312830800005;;;J;Sato, W.;Komatsuda, S.;Ohkubo, Y.;Characteristic local association of In impurities dispersed in ZnO;PHYSICAL REVIEW B;86;23;235209;10.1103/PhysRevB.86.235209;DEC 28 2012;2012;Local environments in 0.5 at.% In-doped ZnO were investigated by means;of the time-differential perturbed angular correlation (TDPAC) method.;In a comparative study, using the Cd-111 probe nuclei as the decay;products of different parents, In-111 and Cd-111m, we found that In-111;microscopically forms a unique structure with nonradioactive In ion(s);dispersed in ZnO, whereas (111)mCd has no specific interaction with the;In impurities. The spectral damping of the TDPAC spectra is attributed;to the aftereffect following the EC decay of In-111. It was demonstrated;from the aftereffect that the local density and/or mobility of;conduction electrons at the In-111 probe site in the In-doped ZnO is;lowered due to the characteristic structure locally formed by the;dispersed In ion(s). DOI:10.1103/PhysRevB.86.235209;1;0;0;0;1;1098-0121;WOS:000312833200004;;;J;Sherman, Benjamin L.;Wilson, Hugh F.;Weeraratne, Dayanthie;Militzer, Burkhard;Ab initio simulations of hot dense methane during shock experiments;PHYSICAL REVIEW B;86;22;224113;10.1103/PhysRevB.86.224113;DEC 28 2012;2012;Using density functional theory molecular dynamics simulations, we;predict shock Hugoniot curves of precompressed methane up to 75 000 K;for initial densities ranging from 0.35 to 0.70 g cm(-3). At 4000 K, we;observe the transformation into a metallic, polymeric state consisting;of long hydrocarbon chains. These chains persist when the sample is;quenched to 300 K, leading to an increase in shock compression. At 6000;K, the sample transforms into a plasma composed of many, short-lived;chemical species. We conclude by discussing implications for the;interiors of Uranus and Neptune and analyzing the possibility of;creating a superionic state of methane in high pressure experiments.;DOI:10.1103/PhysRevB.86.224113;Wilson, Hugh/B-3447-2009;4;0;0;0;4;1098-0121;WOS:000312832400002;;;J;Trescher, Maximilian;Bergholtz, Emil J.;Flat bands with higher Chern number in pyrochlore slabs;PHYSICAL REVIEW B;86;24;241111;10.1103/PhysRevB.86.241111;DEC 28 2012;2012;A large number of recent works point to the emergence of intriguing;analogs of fractional quantum Hall states in lattice models due to;effective interactions in nearly flat bands with Chern number C = 1.;Here, we provide an intuitive and efficient construction of almost;dispersionless bands with higher Chern numbers. Inspired by the physics;of quantum Hall multilayers and pyrochlore-based transition-metal;oxides, we study a tight-binding model describing spin-orbit coupled;electrons in N parallel kagome layers connected by apical sites forming;N - 1 intermediate triangular layers (as in the pyrochlore lattice). For;each N, we find finite regions in parameter space giving a virtually;flat band with C = N. We analytically express the states within these;topological bands in terms of single-layer states and thereby explicitly;demonstrate that the C = N wave functions have an appealing structure in;which layer index and translations in reciprocal space are intricately;coupled. This provides a promising arena for new collective states of;matter. DOI: 10.1103/PhysRevB.86.241111;Bergholtz, Emil/C-3820-2008;Bergholtz, Emil/0000-0002-9739-2930;29;0;1;0;29;1098-0121;WOS:000312834100002;;;J;van Duijn, J.;Ruiz-Bustos, R.;Daoud-Aladine, A.;Kagome-like lattice distortion in the pyrochlore material Hg2Ru2O7;PHYSICAL REVIEW B;86;21;214111;10.1103/PhysRevB.86.214111;DEC 28 2012;2012;The structural transition which accompanies the metal to insulator;transition (MIT), at T = 107 K, in the pyrochlore material Hg2Ru2O7, was;investigated by high-resolution neutron powder diffraction measurements.;Below the MIT the symmetry is lowered from cubic to monoclinic and the;Ru-Ru bonds, which are equal in the pyrochlore phase (3.60147 angstrom),;become split into short (3.599 37 angstrom), medium (3.6028 angstrom),;and long bonds (3.6047 angstrom). As a result the exchange interactions;between the Ru atoms become more two dimensional. The short and medium;bonds form layers, which are separated by the long bonds, that run;parallel to the monoclinic ab plane. Overall the low-temperature;structure of Hg2Ru2O7 can best be described as a stacking of Kagome-like;layers. DOI: 10.1103/PhysRevB.86.214111;0;0;0;0;0;1098-0121;WOS:000312830800001;;;J;Vanevic, Mihajlo;Belzig, Wolfgang;Control of electron-hole pair generation by biharmonic voltage drive of;a quantum point contact;PHYSICAL REVIEW B;86;24;241306;10.1103/PhysRevB.86.241306;DEC 28 2012;2012;A time-dependent electromagnetic field creates electron-hole excitations;in a Fermi sea at low temperature. We show that the electron-hole pairs;can be generated in a controlled way using harmonic and biharmonic;time-dependent voltages applied to a quantum contact, and we obtain the;probabilities of the pair creations. For a biharmonic voltage drive, we;find that the probability of a pair creation decreases in the presence;of an in-phase second harmonic. This accounts for the suppression of the;excess noise observed experimentally (Gabelli and Reulet,;arXiv:1205.3638), proving that dynamic control and detection of;elementary excitations in quantum conductors are within the reach of the;present technology. DOI: 10.1103/PhysRevB.86.241306;6;1;0;0;6;1098-0121;WOS:000312834100004;;;J;Virgus, Yudistira;Purwanto, Wirawan;Krakauer, Henry;Zhang, Shiwei;Ab initio many-body study of cobalt adatoms adsorbed on graphene;PHYSICAL REVIEW B;86;24;241406;10.1103/PhysRevB.86.241406;DEC 28 2012;2012;Many recent calculations have been performed to study a Co atom adsorbed;on graphene, with significantly varying results on the nature of the;bonding. We use the auxiliary-field quantum Monte Carlo method and a;size-correction embedding scheme to accurately calculate the binding;energy of Co on graphene. We find that as a function of the distance h;between the Co atom and the sixfold hollow site, there are three;distinct ground states corresponding to three electronic configurations;of the Co atom. Two of these states provide binding and exhibit a;double-well feature with nearly equal binding energy of 0.4 eV at h =;1.51 and h = 1.65 angstrom, corresponding to low-spin Co-2 (3d(9) 4s(0));and high-spin Co-4 (3d(8) 4s(1)), respectively. DOI:;10.1103/PhysRevB.86.241406;3;0;0;0;3;1098-0121;WOS:000312834100005;;;J;Xing, Jie;Li, Sheng;Ding, Xiaxin;Yang, Huan;Wen, Hai-Hu;Superconductivity appears in the vicinity of semiconducting-like;behavior in CeO1-xFxBiS2;PHYSICAL REVIEW B;86;21;214518;10.1103/PhysRevB.86.214518;DEC 28 2012;2012;Resistive and magnetic properties have been measured in BiS2-based;samples CeO1-xFxBiS2 with a systematic substitution of O with F (0 < x <;0.6). In contrast to the band-structure calculations, it is found that;the parent phase of CeOBiS2 is a bad metal instead of a band insulator.;By doping electrons into the system, it is surprising to find that;superconductivity appears together with a semiconducting normal state.;This evolution is clearly different from the cuprate and the iron;pnictide systems, and is interpreted as approaching the Pomeranchuk;transition with a von Hove singularity and the possible;charge-density-wave instability. Furthermore, ferromagnetism, which may;arise from the Ce magnetic moments, has been observed in the;low-temperature region in all samples, suggesting the coexistence of;superconductivity and ferromagnetism in the superconducting samples.;DOI: 10.1103/PhysRevB.86.214518;55;0;1;0;56;1098-0121;WOS:000312830800004;;;J;Yaji, Koichiro;Hatta, Shinichiro;Aruga, Tetsuya;Okuyama, Hiroshi;Structural and electronic properties of the Pb/Ge(111)-beta(root 3 x;root 3)R30 degrees surface studied by photoelectron spectroscopy and;first-principles calculations;PHYSICAL REVIEW B;86;23;235317;10.1103/PhysRevB.86.235317;DEC 28 2012;2012;We have studied structural and electronic properties of a Ge(111);surface covered with a monatomic Pb layer [Pb/Ge(111)-beta] by means of;core-level photoelectron spectroscopy, angle-resolved photoelectron;spectroscopy (ARPES), and a first-principles band structure calculation.;There has been a controversy about the surface structure of;Pb/Ge(111)-beta between a close-packed model with a coverage of 4/3;monolayers and a trimer model with a coverage of 1 monolayer. This;problem has been examined by analyzing the line shape of a Pb 5d;core-level spectrum and comparing the experimental band structure with;those calculated for two models. The line shape of the core-level;spectrum agrees with a close-packed model. The valence band structure;observed by ARPES has been well reproduced by the calculation employing;the close-packed model. The close-packed model therefore describes;correctly the surface structure of Pb/Ge(111)-beta. The;scanning-tunneling microscopy (STM) image simulated for the close-packed;model is in good agreement with the experimental filled-state STM image,;in which three protrusions per unit cell were observed.;DOI:10.1103/PhysRevB.86.235317;Aruga, Tetsuya/B-7782-2010; Okuyama, Hiroshi/H-7570-2014;2;1;0;0;2;1098-0121;WOS:000312833200006;;;J;Yang, Shuo;Gu, Zheng-Cheng;Sun, Kai;Das Sarma, S.;Topological flat band models with arbitrary Chern numbers;PHYSICAL REVIEW B;86;24;241112;10.1103/PhysRevB.86.241112;DEC 28 2012;2012;We report the theoretical discovery of a systematic scheme to produce;topological flat bands (TFBs) with arbitrary Chern numbers. We find that;generically a multiorbital high Chern number TFB model can be;constructed by considering multilayer Chern number C = 1 TFB models with;enhanced translational symmetry. A series of models are presented as;examples, including a two-band model on a triangular lattice with a;Chern number C = 3 and an N-band square lattice model with C = N for an;arbitrary integer N. In all these models, the flatness ratio for the;TFBs is larger than 30 and increases with increasing Chern number. In;the presence of appropriate interparticle interactions, these models are;likely to lead to the formation of Abelian and non-Abelian fractional;Chern insulators. As a simple example, we test the C = 2 model with;hardcore bosons at 1/3 filling, and an intriguing fractional quantum;Hall state is observed. DOI: 10.1103/PhysRevB.86.241112;Sun, Kai/F-2282-2010; Yang, Shuo/D-1372-2011; Das Sarma, Sankar/B-2400-2009; Gu, Zheng-Cheng/L-5415-2014;Sun, Kai/0000-0001-9595-7646; Yang, Shuo/0000-0001-9733-8566;;24;0;1;0;24;1098-0121;WOS:000312834100003;;;J;Yue, Qu;Chang, Shengli;Tan, Jichun;Qin, Shiqiao;Kang, Jun;Li, Jingbo;Symmetry-dependent transport properties and bipolar spin filtering in;zigzag alpha-graphyne nanoribbons;PHYSICAL REVIEW B;86;23;235448;10.1103/PhysRevB.86.235448;DEC 28 2012;2012;First-principles calculations are performed to investigate the transport;properties of zigzag alpha-graphyne nanoribbons (ZaGNRs). It is found;that asymmetric Z alpha GNRs behave as conductors with linear;current-voltage relationships, whereas symmetric Z alpha GNRs have very;small currents under finite bias voltages, similar to those of zigzag;graphene nanoribbons. The symmetry-dependent transport properties arise;from different coupling rules between the pi and pi* subbands around the;Fermi level, which are dependent on the wave-function symmetry of the;two subbands. Based on the coupling rules, we further demonstrate the;bipolar spin-filtering effect in the symmetric Z alpha GNRs. It is shown;that nearly 100% spin-polarized current can be produced and modulated by;the direction of bias voltage and/or magnetization configuration of the;electrodes. Moreover, the magnetoresistance effect with the order larger;than 500 000% is also predicted. Our calculations suggest Z alpha GNRs;as a promising candidate material for spintronics.;DOI:10.1103/PhysRevB.86.235448;Kang, Jun/F-7105-2011;7;1;0;0;7;1098-0121;WOS:000312833200007;;;J;Berry, Joel;Provatas, Nikolas;Rottler, Joerg;Sinclair, Chad W.;Defect stability in phase-field crystal models: Stacking faults and;partial dislocations;PHYSICAL REVIEW B;86;22;224112;10.1103/PhysRevB.86.224112;DEC 27 2012;2012;The primary factors controlling defect stability in phase-field crystal;(PFC) models are examined, with illustrative examples involving several;existing variations of the model. Guidelines are presented for;constructing models with stable defect structures that maintain high;numerical efficiency. The general framework combines both long-range;elastic fields and basic features of atomic-level core structures, with;defect dynamics operable over diffusive time scales. Fundamental;elements of the resulting defect physics are characterized for the case;of fcc crystals. Stacking faults and split Shockley partial dislocations;are stabilized for the first time within the PFC formalism, and various;properties of associated defect structures are characterized. These;include the dissociation width of perfect edge and screw dislocations,;the effect of applied stresses on dissociation, Peierls strains for;glide, and dynamic contraction of gliding pairs of partials. Our results;in general are shown to compare favorably with continuum elastic;theories and experimental findings. DOI: 10.1103/PhysRevB.86.224112;Rottler, Joerg/L-5539-2013;8;0;0;0;8;1098-0121;WOS:000312831900001;;;J;Emary, Clive;Lambert, Neill;Nori, Franco;Leggett-Garg inequality in electron interferometers;PHYSICAL REVIEW B;86;23;235447;10.1103/PhysRevB.86.235447;DEC 27 2012;2012;We consider the violation of the Leggett-Garg inequality in electronic;Mach-Zehnder inteferometers. This setup has two distinct advantages over;earlier quantum-transport proposals: Firstly, the required correlation;functions can be obtained without time-resolved measurements. Secondly,;the geometry of an interferometer allows one to construct the;correlation functions from ideal negative measurements, which addresses;the noninvasiveness requirement of the Leggett-Garg inequality. We;discuss two concrete realizations of these ideas: the first in quantum;Hall edge-channels, the second in a double quantum dot interferometer.;DOI: 10.1103/PhysRevB.86.235447 PACS number(s): 03.65.Ud, 73.23.-b,;03.65.Ta, 42.50.Lc;Lambert, Neill/B-4998-2009; Emary, Clive/B-9596-2008; Nori, Franco/B-1222-2009;Emary, Clive/0000-0002-9822-8390; Nori, Franco/0000-0003-3682-7432;3;0;0;0;3;1098-0121;WOS:000312832900004;;;J;Kato, Yuto;Endo, Akira;Katsumoto, Shingo;Iye, Yasuhiro;Geometric resonances in the magnetoresistance of hexagonal lateral;superlattices;PHYSICAL REVIEW B;86;23;235315;10.1103/PhysRevB.86.235315;DEC 27 2012;2012;We have measured magnetoresistance of hexagonal lateral superlattices.;We observe three types of oscillations engendered by periodic potential;modulation having hexagonal-lattice symmetry: amplitude modulation of;the Shubnikov-de Haas oscillations, commensurability oscillations, and;the geometric resonances of open orbits generated by Bragg reflections.;The latter two reveal the presence of two characteristic periodicities,;root 3a/2 and a/2, inherent in a hexagonal lattice with the lattice;constant a. The formation of the hexagonal-superlattice minibands;manifested by the observation of open orbits marks the first step toward;realizing massless Dirac fermions in semiconductor 2DEGs. DOI:;10.1103/PhysRevB.86.235315 PACS number(s): 73.43.Qt, 73.23.-b, 73.21.Cd;1;0;0;0;1;1098-0121;WOS:000312832900002;;;J;Lin, I-Tan;Liu, Jia-Ming;Shi, Kai-Yao;Tseng, Pei-Shan;Wu, Kuang-Hsiung;Luo, Chih-Wei;Li, Lain-Jong;Terahertz optical properties of multilayer graphene: Experimental;observation of strong dependence on stacking arrangements and;misorientation angles;PHYSICAL REVIEW B;86;23;235446;10.1103/PhysRevB.86.235446;DEC 27 2012;2012;The optical conductivity of monolayer and multilayer graphene in the;terahertz spectral region is experimentally measured using terahertz;time-domain spectroscopy. The stacking arrangement and the;misorientation angle of each sample are determined by Raman;spectroscopy. The chemical potential of each sample is measured using;ultrafast midinfrared pump-probe spectroscopy to be 63 or 64 meV for all;samples. The intraband scattering rate can be obtained by fitting the;measured data with theoretical models. Other physical parameters,;including carrier density, dc conductivity, and carrier mobility, of;each sample can also be deduced from the theoretical fitting. The;fitting results show the existence of misoriented or AA-stacked layers;with an interaction energy of alpha(1) = 217 meV in our multilayer;samples. Here we show that the scattering rate strongly depends on the;stacking arrangement of the sample. High scattering rates and high;optical conductivity are associated with AA-stacked samples, while lower;ones are associated with misoriented multilayer graphene. This implies;that the THz optoelectronic properties of multilayer graphene can be;tuned by purposefully misorienting layers or employing different;stacking schemes. DOI: 10.1103/PhysRevB.86.235446 PACS number(s):;78.67.Wj, 61.48.Gh, 72.80.Vp, 73.50.Mx;Li, Lain-Jong/D-5244-2011; Luo, Chih Wei/D-3485-2013;Li, Lain-Jong/0000-0002-4059-7783; Luo, Chih Wei/0000-0002-6453-7435;11;0;0;0;11;1098-0121;WOS:000312832900003;;;J;Lundgren, Rex;Chua, Victor;Fiete, Gregory A.;Entanglement entropy and spectra of the one-dimensional Kugel-Khomskii;model;PHYSICAL REVIEW B;86;22;224422;10.1103/PhysRevB.86.224422;DEC 27 2012;2012;We study the quantum entanglement of the spin and orbital degrees of;freedom in the one-dimensional Kugel-Khomskii model, which includes both;gapless and gapped phases, using analytical techniques and exact;diagonalization with up to 16 sites. We compute the entanglement entropy;and the entanglement spectra using a variety of partitions or "cuts" of;the Hilbert space, including two distinct real-space cuts and a;momentum-space cut. Our results show that the Kugel-Khomski model;possesses a number of new features not previously encountered in studies;of the entanglement spectra. Notably, we find robust gaps in the;entanglement spectra for both gapped and gapless phases with the orbital;partition, and show these are not connected to each other. The counting;of the low-lying entanglement eigenvalues shows that the "virtual edge";picture, which equates the low-energy Hamiltonian of a virtual edge,;here one gapless leg of a two-leg ladder, to the "low-energy";entanglement Hamiltonian, breaks down for this model, even though the;equivalence has been shown to hold for a similar cut in a large class of;closely related models. In addition, we show that a momentum space cut;in the gapless phase leads to qualitative differences in the;entanglement spectrum when compared with the same cut in the gapless;spin-1/2 Heisenberg spin chain. We emphasize the new information content;in the entanglement spectra compared to the entanglement entropy, and;using quantum entanglement, we present a refined phase diagram of the;model. Using analytical arguments, exploiting various symmetries of the;model, and applying arguments of adiabatic continuity from two exactly;solvable points of the model, we are also able to prove several results;regarding the structure of the low-lying entanglement eigenvalues. DOI:;10.1103/PhysRevB.86.224422;11;0;1;0;12;1098-0121;WOS:000312831900002;;;J;L'vov, Victor S.;Nazarenko, Sergey V.;Comment on "Symmetry of Kelvin-wave dynamics and the Kelvin-wave cascade;in the T=0 superfluid turbulence";PHYSICAL REVIEW B;86;22;226501;10.1103/PhysRevB.86.226501;DEC 27 2012;2012;We comment on the paper by Sonin [Phys. Rev. B 85, 104516 (2012)] with;most statements of which we disagree. We use this option to shed light;on some important issues of a theory of Kelvin-wave turbulence, touched;on in Sonin's paper, in particular, on the relation between the Vinen;spectrum of strong and the L'vov-Nazarenko spectrum of weak turbulence;of Kelvin waves. We also discuss the role of explicit calculation of the;Kelvin-wave interaction Hamiltonian and "symmetry arguments" that have;to resolve a contradiction between the Kozik-Svistunov and the;L'vov-Nazarenko spectrum of weak turbulence of Kelvin waves. DOI:;10.1103/PhysRevB.86.226501;5;1;0;0;5;1098-0121;WOS:000312831900003;;;J;Misguich, G.;Schwinger boson mean-field theory: Numerics for the energy landscape and;gauge excitations in two-dimensional antiferromagnets;PHYSICAL REVIEW B;86;24;245132;10.1103/PhysRevB.86.245132;DEC 27 2012;2012;We perform some systematic numerical search for Schwinger boson;mean-field states on square and triangular clusters. We look for;possible inhomogeneous ground states as well as low-energy excited;saddle points. The spectrum of the Hessian is also computed for each;solution. On the square lattice, we find gapless U(1) gauge modes in the;nonmagnetic phase. In the Z(2) liquid phase of the triangular lattice,;we identify the topological degeneracy as well as vison states.;DOI:10.1103/PhysRevB.86.245132;2;0;0;0;2;1098-0121;WOS:000312833600001;;;J;Mokhlespour, Salman;Haverkort, J. E. M.;Slepyan, Gregory;Maksimenko, Sergey;Hoffmann, A.;Collective spontaneous emission in coupled quantum dots: Physical;mechanism of quantum nanoantenna;PHYSICAL REVIEW B;86;24;245322;10.1103/PhysRevB.86.245322;DEC 27 2012;2012;We investigate the collective spontaneous emission in a system of two;identical quantum dots (QDs) strongly coupled through the dipole-dipole;(d-d) interaction. The QDs are modeled as two-level quantum objects,;while the d-d interaction is described as the exchange of a virtual;photon through the photonic reservoir. The master equation approach is;used in the analysis. The main attention is focused on antenna;characteristics of the two-QD system-the radiation intensity dependence;on the meridian and azimuthal angles of observation. We show that the;radiation pattern of such a system is nonstationary and its temporal;behavior depends on the initial quantum state. In particular, for;entangled initial states the radiative pattern exhibits oscillations on;the frequency which corresponds to the d-d interaction energy. We also;analyze spectral properties of the directional diagram. The comparison;of radiation patterns is carried out for two QDs and two classical;dipoles. The concept of quantum nanoantenna is proposed based on;collective spontaneous emission in QD ensembles.;DOI:10.1103/PhysRevB.86.245322;Maksimenko, Sergey/F-1888-2011;Maksimenko, Sergey/0000-0002-8271-0449;8;1;0;0;8;1098-0121;WOS:000312833600002;;;J;Muravev, V. M.;Gusikhin, P. A.;Tsydynzhapov, G. E.;Fortunatov, A. A.;Kukushkin, I. V.;Spectroscopy of terahertz radiation using high-Q photonic crystal;microcavities;PHYSICAL REVIEW B;86;23;235144;10.1103/PhysRevB.86.235144;DEC 27 2012;2012;We report observation of high-Q resonance in the photoresponse of a;detector embedded in the 2D photonic crystal slab (PCS) microcavity;illuminated by terahertz radiation. The detector and PCS are fabricated;from a single GaAs wafer in a unified process. The influence of the;period of PCS lattice, microcavity geometry, and detector location on;the resonant photoresponse is studied. The resonance is found to;originate from coupling of the fundamental PCS microcavity photon mode;to the detector. The phenomenon can be exploited to devise a;spectrometer-on-a-chip for terahertz range. DOI:;10.1103/PhysRevB.86.235144 PACS number(s): 42.50.-p, 42.70.Qs, 42.79.-e,;73.21.-b;0;0;0;0;0;1098-0121;WOS:000312832900001;;;J;Reguzzoni, M.;Fasolino, A.;Molinari, E.;Righi, M. C.;Potential energy surface for graphene on graphene: Ab initio derivation,;analytical description, and microscopic interpretation;PHYSICAL REVIEW B;86;24;245434;10.1103/PhysRevB.86.245434;DEC 27 2012;2012;We derive an analytical expression that describes the interaction energy;between two graphene layers identically oriented as a function of the;relative lateral and vertical positions, in excellent agreement with;first principles calculations. Thanks to its formal simplicity, the;proposed model allows for an immediate interpretation of the;interactions, in particular of the potential corrugation. This last;quantity plays a crucial role in determining the intrinsic resistance to;interlayer sliding and its increase upon compression influences the;frictional behavior under load. We show that, for these weakly adherent;layers, the corrugation possesses the same nature and z dependence of;Pauli repulsion. We investigate the microscopic origin of these;phenomena by analyzing the electronic charge distribution: We observe a;pressure-induced charge transfer from the interlayer region toward the;near-layer regions, with a much more consistent depletion of charge;occurring for the AA stacking than for the AB stacking of the two;layers. DOI:10.1103/PhysRevB.86.245434;8;0;0;0;8;1098-0121;WOS:000312833600003;;;J;Sonin, E. B.;Reply to "Comment on 'Symmetry of Kelvin-wave dynamics and the;Kelvin-wave cascade in the T=0 superfluid turbulence'";PHYSICAL REVIEW B;86;22;226502;10.1103/PhysRevB.86.226502;DEC 27 2012;2012;The goal of the Comment by L'vov and Nazarenko is to refute my;perviously published criticism of their mechanism of the Kelvin-wave;cascade. It is important, however, that, in their Comment, L'vov and;Nazarenko admitted that the Hamiltonian, from which they derived their;mechanism, is not tilt invariant. This provides full ammunition to their;critics, who believe that their mechanism is in conflict with the tilt;symmetry of the Kelvin-wave dynamics and, therefore, is not valid for;the real isotropic world. DOI: 10.1103/PhysRevB.86.226502;3;1;0;0;3;1098-0121;WOS:000312831900004;;;J;Swaminathan, Narasimhan;Morgan, Dane;Szlufarska, Izabela;Role of recombination kinetics and grain size in radiation-induced;amorphization;PHYSICAL REVIEW B;86;21;214110;10.1103/PhysRevB.86.214110;DEC 27 2012;2012;Using a rate theory model for a generic one-component material, we;investigated interactions between grain size and recombination kinetics;of radiation-induced defects. Specifically, by varying parametrically;nondimensional kinetic barriers for defect diffusion and recombination,;we determined the effect of these parameters on the shape of the dose to;amorphization versus temperature curves. We found that whether grain;refinement to the nanometer regime improves or deteriorates radiation;resistance of a material depends on the barriers to defect migration and;recombination, as well as on the temperature for the intended use of the;material. We show that the effects of recombination barriers and of;grain refinement can be coupled to each other to produce a phenomenon of;interstitial starvation. In interstitial starvation, a significant;number of interstitials annihilate at the grain boundary, leaving behind;unrecombined vacancies, which in turn amorphize the material. The same;rate theory model with material-specific parameters was used to predict;the grain-size dependence of the critical amorphization temperature in;SiC. Parameters for the SiC model were taken from ab initio;calculations. We find that the fine-grained SiC has a lower radiation;resistance when compared to the polycrystalline SiC due to the presence;of high-energy barrier for recombination of carbon Frenkel pairs and due;to the interstitial starvation phenomenon. DOI:;10.1103/PhysRevB.86.214110;Morgan, Dane/B-7972-2008;Morgan, Dane/0000-0002-4911-0046;5;0;0;0;5;1098-0121;WOS:000312830600001;;;J;Ahart, Muhtar;Sinogeikin, Stanislav;Shebanova, Olga;Ikuta, Daijo;Ye, Zuo-Guang;Mao, Ho-kwang;Cohen, R. E.;Hemley, Russell J.;Pressure dependence of the monoclinic phase in;(1-x)Pb(Mg1/3Nb2/3)O-3-xPbTiO(3) solid solutions;PHYSICAL REVIEW B;86;22;224111;10.1103/PhysRevB.86.224111;DEC 26 2012;2012;We combine high-pressure x-ray diffraction, high-pressure Raman;scattering, and optical microscopy to investigate a series of (1 -;x)Pb(Mg1/3Nb2/3)O-3-xPbTiO(3) (PMN-xPT) solid solutions (x = 0.2, 0.3,;0.33, 0.35, 0.37, 0.4) in diamond anvil cells up to 20 GPa at 300 K. The;Raman spectra show a peak centered at 380 cm(-1) starting above 6 GPa;for all samples, in agreement with previous observations. X-ray;diffraction measurements are consistent with this spectral change;indicating a structural phase transition; we find that the triplet at;the pseudocubic (220) Bragg peak merges into a doublet above 6 GPa. Our;results indicate that the morphotropic phase boundary region (x = 0.33 -;0.37) with the presence of monoclinic symmetry persists up to 7 GPa. The;pressure dependence of ferroelectric domains in PMN-0.32PT single;crystals was observed using a polarizing optical microscope. The domain;wall density decreases with pressure and the domains disappear at a;modest pressure of 3 GPa. We propose a pressure-composition phase;diagram for PMN-xPT solid solutions. DOI: 10.1103/PhysRevB.86.224111;Cohen, Ronald/B-3784-2010;Cohen, Ronald/0000-0001-5871-2359;2;0;0;0;2;1098-0121;WOS:000312831800006;;;J;Akrap, Ana;Tran, Michael;Ubaldini, Alberto;Teyssier, Jeremie;Giannini, Enrico;van der Marel, Dirk;Lerch, Philippe;Homes, Christopher C.;Optical properties of Bi2Te2Se at ambient and high pressures;PHYSICAL REVIEW B;86;23;235207;10.1103/PhysRevB.86.235207;DEC 26 2012;2012;The temperature dependence of the complex optical properties of the;three-dimensional topological insulator Bi2Te2Se is reported for light;polarized in the a-b planes at ambient pressure, as well as the effects;of pressure at room temperature. This material displays a semiconducting;character with a bulk optical gap of E-g similar or equal to 300 meV at;295 K. In addition to the two expected infrared-active vibrations;observed in the planes, there is an additional fine structure that is;attributed to either the removal of degeneracy or the activation of;Raman modes due to disorder. A strong impurity band located at similar;or equal to 200 cm(-1) is also observed. At and just above the optical;gap, several interband absorptions are found to show a strong;temperature and pressure dependence. As the temperature is lowered these;features increase in strength and harden. The application of pressure;leads to a very abrupt closing of the gap above 8 GPa, and strongly;modifies the interband absorptions in the midinfrared spectral range.;While ab initio calculations fail to predict the collapse of the gap,;they do successfully describe the size of the band gap at ambient;pressure, and the magnitude and shape of the optical conductivity. DOI:;10.1103/PhysRevB.86.235207;Teyssier, Jeremie/A-6867-2013; Akrap, Ana/G-1409-2013;Akrap, Ana/0000-0003-4493-5273;10;0;0;0;10;1098-0121;WOS:000312832600007;;;J;Andersen, Kirsten;Jacobsen, Karsten W.;Thygesen, Kristian S.;Spatially resolved quantum plasmon modes in metallic nano-films from;first-principles;PHYSICAL REVIEW B;86;24;245129;10.1103/PhysRevB.86.245129;DEC 26 2012;2012;Electron energy loss spectroscopy (EELS) can be used to probe plasmon;excitations in nanostructured materials with atomic-scale spatial;resolution. For structures smaller than a few nanometers, quantum;effects are expected to be important, limiting the validity of widely;used semiclassical response models. Here we present a method to identify;and compute spatially resolved plasmon modes from first-principles based;on a spectral analysis of the dynamical dielectric function. As an;example we calculate the plasmon modes of 0.5 to 4 nm thick Na films and;find that they can be classified as (conventional) surface modes,;subsurface modes, and a discrete set of bulk modes resembling standing;waves across the film. We find clear effects of both quantum confinement;and nonlocal response. The quantum plasmon modes provide an intuitive;picture of collective excitations of confined electron systems and offer;a clear interpretation of spatially resolved EELS spectra. DOI:;10.1103/PhysRevB.86.245129;Jacobsen, Karsten/B-3602-2009; Thygesen, Kristian /B-1062-2011;6;0;0;0;6;1098-0121;WOS:000312833400007;;;J;Baker, A. M. R.;Alexander-Webber, J. A.;Altebaeumer, T.;Janssen, T. J. B. M.;Tzalenchuk, A.;Lara-Avila, S.;Kubatkin, S.;Yakimova, R.;Lin, C. -T.;Li, L. -J.;Nicholas, R. J.;Weak localization scattering lengths in epitaxial, and CVD graphene;PHYSICAL REVIEW B;86;23;235441;10.1103/PhysRevB.86.235441;DEC 26 2012;2012;Weak localization in graphene is studied as a function of carrier;density in the range from 1 x 10(11) cm(-2) to 1.43 x 10(13) cm(-2);using devices produced by epitaxial growth onto SiC and CVD growth on;thin metal film. The magnetic field dependent weak localization is found;to be well fitted by theory, which is then used to analyze the;dependence of the scattering lengths L-phi, L-i, and L-* on carrier;density. We find no significant carrier dependence for L-phi, a weak;decrease for L-i with increasing carrier density just beyond a large;standard error, and a n(-1/4) dependence for L-*. We demonstrate that;currents as low as 0.01 nA are required in smaller devices to avoid;hot-electron artifacts in measurements of the quantum corrections to;conductivity. DOI: 10.1103/PhysRevB.86.235441;Lara-Avila, Samuel/B-4878-2013; Lin, Cheng-Te/D-5203-2011; Materials, Semiconductor/I-6323-2013;Lara-Avila, Samuel/0000-0002-8331-718X; Lin,;Cheng-Te/0000-0002-7090-9610;;11;0;0;0;11;1098-0121;WOS:000312832600015;;;J;Bergeret, F. S.;Verso, A.;Volkov, A. F.;Electronic transport through ferromagnetic and superconducting junctions;with spin-filter tunneling barriers;PHYSICAL REVIEW B;86;21;214516;10.1103/PhysRevB.86.214516;DEC 26 2012;2012;We present a theoretical study of the quasiparticle and subgap;conductance of generic X/I-sf/S-M junctions with a spin-filter barrier;I-sf, where X is either a normal N or a ferromagnetic metal F and S-M is;a superconductor with a built-in exchange field. Our study is based on;the tunneling Hamiltonian and the Green's-function technique. First, we;focus on the quasiparticle transport, both above and below the;superconducting critical temperature. We obtain a general expression for;the tunneling conductance which is valid for arbitrary values of the;exchange field and arbitrary magnetization directions in the electrodes;and in the spin-filter barrier. In the second part, we consider the;subgap conductance of a N/I-sf/S junction, where S is a conventional;superconductor. In order to account for the spin-filter effect at;interfaces, we heuristically derive boundary conditions for the;quasiclassical Green's functions. With the help of these boundary;conditions, we show that the proximity effect and the subgap conductance;are suppressed by spin filtering in a N/I-sf/S junction. Our work;provides useful tools for the study of spin-polarized transport in;hybrid structures both in the normal and in the superconducting state.;DOI: 10.1103/PhysRevB.86.214516;CSIC-UPV/EHU, CFM/F-4867-2012; DONOSTIA INTERNATIONAL PHYSICS CTR., DIPC/C-3171-2014;7;1;0;0;7;1098-0121;WOS:000312830400009;;;J;Beugnot, Jean-Charles;Laude, Vincent;Electrostriction and guidance of acoustic phonons in optical fibers;PHYSICAL REVIEW B;86;22;224304;10.1103/PhysRevB.86.224304;DEC 26 2012;2012;We investigate the generation of acoustic phonons in optical fibers via;electrostriction from coherent optical waves. Solving the elastodynamic;equation subject to the electrostrictive force, we are able to reproduce;the experimental spectra found in standard and photonic crystal fibers.;We discuss the two important practical cases of forward interaction,;dominated by elastic resonances of the fiber, and backward interaction,;for which an efficient mechanism of phonon guidance is found. The last;result describes the formation of the coherent phonon beam involved in;stimulated Brillouin scattering. DOI: 10.1103/PhysRevB.86.224304;Laude, Vincent/C-4484-2008;Laude, Vincent/0000-0001-8930-8797;3;0;0;0;3;1098-0121;WOS:000312831800007;;;J;Blanc, Nils;Coraux, Johann;Vo-Van, Chi;N'Diaye, Alpha T.;Geaymond, Olivier;Renaud, Gilles;Local deformations and incommensurability of high-quality epitaxial;graphene on a weakly interacting transition metal;PHYSICAL REVIEW B;86;23;235439;10.1103/PhysRevB.86.235439;DEC 26 2012;2012;We investigate the fine structure of graphene on iridium, which is a;model for graphene weakly interacting with a transition-metal substrate.;Even the highest-quality epitaxial graphene displays tiny imperfections,;i.e., small biaxial strains of similar to 0.3%, rotations of similar to;0.5 degrees, and shears over distances of similar to 100 nm, and is;found incommensurate, as revealed by x-ray diffraction and scanning;tunneling microscopy. These structural variations are mostly induced by;the increase of the lattice parameter mismatch when cooling the sample;from the graphene preparation temperature to the measurement;temperature. Although graphene weakly interacts with iridium, its;thermal expansion is found to be positive, contrary to free-standing;graphene. The structure of graphene and its variations is very sensitive;to the preparation conditions. All these effects are consistent with;initial growth and subsequent pinning of graphene at steps. DOI:;10.1103/PhysRevB.86.235439;Coraux, Johann/A-7897-2008;5;0;0;0;5;1098-0121;WOS:000312832600013;;;J;Blomeier, S.;Candeloro, P.;Hillebrands, B.;Reuscher, B.;Brodyanski, A.;Kopnarski, M.;Micromagnetism and magnetization reversal of embedded ferromagnetic;elements (vol 74, 184405, 2006);PHYSICAL REVIEW B;86;21;219904;10.1103/PhysRevB.86.219904;DEC 26 2012;2012;Hillebrands, Burkard/C-6242-2008;Hillebrands, Burkard/0000-0001-8910-0355;0;0;0;0;0;1098-0121;WOS:000312830400011;;;J;Bud'ko, Sergey L.;Liu, Yong;Lograsso, Thomas A.;Canfield, Paul C.;Hydrostatic and uniaxial pressure dependence of superconducting;transition temperature of KFe2As2 single crystals;PHYSICAL REVIEW B;86;22;224514;10.1103/PhysRevB.86.224514;DEC 26 2012;2012;We present heat capacity, c-axis thermal expansion and;pressure-dependent, low-field, temperature-dependent magnetization for;pressures up to similar to 12 kbar, data for KFe2As2 single crystals.;T-c decreases under pressure with dT(c)/dP approximate to -0.10 K/kbar.;The inferred uniaxial, c-axis, pressure derivative is positive,;dT(c)/dp(c) approximate to 0.11 K/kbar. The data are analyzed in;comparison with those for overdoped Fe-based superconductors. Arguments;are presented that superconductivity in KFe2As2 may be different from;the other overdoped, Fe-based materials in the 122 family. DOI:;10.1103/PhysRevB.86.224514;Canfield, Paul/H-2698-2014;9;0;0;0;9;1098-0121;WOS:000312831800013;;;J;Bulaevskii, Lev N.;Lin, Shi-Zeng;Self-induced pinning of vortices in the presence of ac driving force in;magnetic superconductors;PHYSICAL REVIEW B;86;22;224513;10.1103/PhysRevB.86.224513;DEC 26 2012;2012;We derive the response of the magnetic superconductors in the vortex;state to the ac Lorentz force, F-L (t) = F-ac sin(omega t), taking into;account the interaction of vortices with the magnetic moments described;by the relaxation dynamics (polaronic effect). At low amplitudes of the;driving force F-ac the dissipation in the system is suppressed due to;the enhancement of the effective viscosity at low frequencies and due to;formation of the magnetic pinning at high frequencies omega. In the;adiabatic limit with low frequencies omega and high amplitude of the;driving force F-ac, the vortex and magnetic polarization form a vortex;polaron when F-L (t) is small. When F-L increases, the vortex polaron;accelerates and at a threshold driving force, the vortex polaron;dissociates and the motion of vortex and the relaxation of magnetization;are decoupled. When F-L decreases, the vortex is retrapped by the;background of remnant magnetization and they again form vortex polaron.;This process repeats when F-L (t) increases in the opposite direction.;Remarkably, after dissociation, decoupled vortices move in the periodic;potential induced by magnetization which remains for some periods of;time due to retardation after the decoupling. At this stage vortices;oscillate with high frequencies determined by the Lorentz force at the;moment of dissociation. We derive also the creep rate of vortices and;show that magnetic moments suppress creep rate. DOI:;10.1103/PhysRevB.86.224513;Lin, Shi-Zeng/B-2906-2008;Lin, Shi-Zeng/0000-0002-4368-5244;3;0;0;0;3;1098-0121;WOS:000312831800012;;;J;Butler, C. A. M.;Hobson, P. A.;Hibbins, A. P.;Sambles, J. R.;Resonant microwave transmission from a double layer of subwavelength;metal square arrays: Evanescent handedness;PHYSICAL REVIEW B;86;24;241109;10.1103/PhysRevB.86.241109;DEC 26 2012;2012;Adouble layer of identical subwavelengthmetal patch arrays is;experimentally shown to be electromagnetically chiral due to the;evanescent coupling of the near fields between nonchiral layers-it;exhibits "evanescent handedness." Despite each layer being intrinsically;isotropic in the plane with four mirror planes orthogonal to the plane;of the structure, circular dichroism, leading to significant;polarization rotation, is found in the resonant microwave transmission;for any incident linear polarization. DOI: 10.1103/PhysRevB.86.241109;1;0;0;0;1;1098-0121;WOS:000312833400002;;;J;Calder, S.;Cao, G. -X.;Lumsden, M. D.;Kim, J. W.;Gai, Z.;Sales, B. C.;Mandrus, D.;Christianson, A. D.;Magnetic structural change of Sr2IrO4 upon Mn doping;PHYSICAL REVIEW B;86;22;220403;10.1103/PhysRevB.86.220403;DEC 26 2012;2012;The layered 5d transition-metal oxide Sr2IrO4 has been shown to host a;novel J(eff) = 1/2 Mott spin-orbit insulating state with;antiferromagnetic ordering, leading to comparisons with the layered;cuprates. Here we study the effect of substituting Mn for Ir in single;crystals of Sr2Ir0.9Mn0.1O4 through an investigation involving bulk;measurements and resonant x-ray and neutron scattering. We observe a new;long-range magnetic structure emerge upon doping through a reordering of;the spins from the basal plane to the c axis with a reduced ordering;temperature compared to Sr2IrO4 . The strong enhancement of the magnetic;x-ray scattering intensity at the L-3 edge relative to the L-2 edge;indicates that the J(eff) = 1/2 state is robust and capable of hosting a;variety of ground states. DOI: 10.1103/PhysRevB.86.220403;Gai, Zheng/B-5327-2012; Mandrus, David/H-3090-2014;Gai, Zheng/0000-0002-6099-4559;;9;1;0;0;9;1098-0121;WOS:000312831800002;;;J;Camjayi, Alberto;Arrachea, Liliana;Conductance of a quantum dot in the Kondo regime connected to dirty;wires;PHYSICAL REVIEW B;86;23;235143;10.1103/PhysRevB.86.235143;DEC 26 2012;2012;We study the transport behavior induced by a small bias voltage through;a quantum dot connected to one-channel disordered wires by means of a;quantum Monte Carlo method. We model the quantum dot by the;Hubbard-Anderson impurity and the wires by the one-dimensional Anderson;model with diagonal disorder within a length. We present a complete;description of the probability distribution function of the conductance;within the Kondo regime. DOI: 10.1103/PhysRevB.86.235143;1;0;0;0;1;1098-0121;WOS:000312832600005;;;J;Chen, Ying;Liu, Rui;Cai, Min;Shinar, Ruth;Shinar, Joseph;Extremely strong room-temperature transient photocurrent-detected;magnetic resonance in organic devices;PHYSICAL REVIEW B;86;23;235442;10.1103/PhysRevB.86.235442;DEC 26 2012;2012;An extremely strong room-temperature photocurrent- (PC- or I-PC-);detected magnetic resonance (PCDMR) that elucidates transport and;trapping phenomena in organic devices, in particular solar cells, is;described. When monitoring the transient PCDMR in indium tin oxide;(ITO)/poly(2-methoxy-5-(2'-ethyl)-hexoxy-1,4-phenylenevinylene);(MEH-PPV)/Al devices, where the MEH-PPV film was baked overnight at 100;degrees C in O-2, it is observed that | Delta I-PC/I-PC| peaks at values;>> 1, where Delta I-PC is the change in I-PC induced by magnetic;resonance conditions. Importantly, Delta I-PC and I-PC are of different;origin. The mechanism most likely responsible for this effect is the;spin-dependent formation of spinless bipolarons adjacent to negatively;charged deep traps, apparently induced in particular by oxygen centers,;to form trions. DOI: 10.1103/PhysRevB.86.235442;Cai, Min/A-2678-2014;1;0;0;0;1;1098-0121;WOS:000312832600016;;;J;Cho, Gil Young;Bardarson, Jens H.;Lu, Yuan-Ming;Moore, Joel E.;Superconductivity of doped Weyl semimetals: Finite-momentum pairing and;electronic analog of the He-3-A phase;PHYSICAL REVIEW B;86;21;214514;10.1103/PhysRevB.86.214514;DEC 26 2012;2012;We study superconducting states of doped inversion-symmetric Weyl;semimetals. Specifically, we consider a lattice model realizing a Weyl;semimetal with an inversion symmetry and study the superconducting;instability in the presence of a short-ranged attractive interaction.;With a phonon-mediated attractive interaction, we find two competing;states: a fully gapped finite-momentum Fulde-Ferrell-Larkin-Ovchinnikov;pairing state and a nodal even-parity pairing state. We show that, in a;BCS-type approximation, the finite-momentum pairing state is;energetically favored over the usual even-parity paired state and is;robust against weak disorder. Although energetically unfavorable, the;even-parity pairing state provides an electronic analog of the He-3-A;phase in that the nodes of the even-parity state carry nontrivial;winding numbers and therefore support a surface flat band. We briefly;discuss other possible superconducting states that may be realized in;Weyl semimetals. DOI: 10.1103/PhysRevB.86.214514;12;0;0;0;12;1098-0121;WOS:000312830400007;;;J;Duivenvoorden, Kasper;Quella, Thomas;Discriminating string order parameter for topological phases of gapped;SU(N) spin chains;PHYSICAL REVIEW B;86;23;235142;10.1103/PhysRevB.86.235142;DEC 26 2012;2012;One-dimensional gapped spin chains with symmetry PSU(N) = SU(N)/Z(N) are;known to possess N different topological phases. In this paper, we;introduce a nonlocal string order parameter which characterizes each of;these N phases unambiguously. Numerics confirm that our order parameter;allows one to extract a quantized topological invariant from a given;nondegenerate gapped ground state wave function. Discontinuous jumps in;the discrete topological order that arise when varying physical;couplings in the Hamiltonian may be used to detect quantum phase;transitions between different topological phases. DOI:;10.1103/PhysRevB.86.235142;Quella, Thomas/A-2630-2012;Quella, Thomas/0000-0002-5441-4124;6;0;0;0;6;1098-0121;WOS:000312832600004;;;J;Gao Xianlong;Chen, A-Hai;Tokatly, I. V.;Kurth, S.;Lattice density functional theory at finite temperature with strongly;density-dependent exchange-correlation potentials;PHYSICAL REVIEW B;86;23;235139;10.1103/PhysRevB.86.235139;DEC 26 2012;2012;The derivative discontinuity of the exchange-correlation (xc) energy at;an integer particle number is a property of the exact, unknown xc;functional of density functional theory (DFT) which is absent in many;popular local and semilocal approximations. In lattice DFT,;approximations exist which exhibit a discontinuity in the xc potential;at half-filling. However, due to convergence problems of the Kohn-Sham;(KS) self-consistency cycle, the use of these functionals is mostly;restricted to situations where the local density is away from;half-filling. Here a numerical scheme for the self-consistent solution;of the lattice KS Hamiltonian with a local xc potential with rapid (or;quasidiscontinuous) density dependence is suggested. The problem is;formulated in terms of finite-temperature DFT where the discontinuity in;the xc potential emerges naturally in the limit of zero temperature. A;simple parametrization is suggested for the xc potential of the uniform;one-dimensional (1D) Hubbard model at finite temperature which is;obtained from the solution of the thermodynamic Bethe ansatz. The;feasibility of the numerical scheme is demonstrated by application to a;model of fermionic atoms in a harmonic trap. The corresponding density;profile exhibits a plateau of integer occupation at low temperatures;which melts away for higher temperatures. DOI:;10.1103/PhysRevB.86.235139;Tokatly, Ilya/D-9554-2011; Chen, Ahai/D-6169-2013; Xianlong, Gao/K-8744-2012;Tokatly, Ilya/0000-0001-6288-0689; Xianlong, Gao/0000-0001-6914-3163;4;0;0;0;4;1098-0121;WOS:000312832600001;;;J;Hanson, George W.;Forati, Ebrahim;Linz, Whitney;Yakovlev, Alexander B.;Excitation of terahertz surface plasmons on graphene surfaces by an;elementary dipole and quantum emitter: Strong electrodynamic effect of;dielectric support;PHYSICAL REVIEW B;86;23;235440;10.1103/PhysRevB.86.235440;DEC 26 2012;2012;The excitation of transverse magnetic (TM) surface plasmons by a point;dipole in the vicinity of a multilayered graphene/dielectric system is;examined. It was previously shown that the surface plasmon (SP) excited;by a vertical dipole on an isolated graphene sheet exhibits a strong;excitation peak in the THz region; here we show that, in the presence of;a finite-thickness dielectric support layer such as SiO2, considerable;spectral content is transferred to a second (perturbed dielectric slab);mode, greatly decreasing and redshifting the excitation peak. The;presence of a Si half-space also diminishes the excitation strength, but;for graphene on top of SiO2-Si the presence of the SiO2 layer creates a;spacer restoring the excitation peak. A two-level quantum emitter is;also considered, where it is shown that the addition of a thin;dielectric support slab and SiO2-Si geometries affects the spontaneous;decay rate in a manner similar to the classical dipole SP excitation;peak. DOI: 10.1103/PhysRevB.86.235440;10;0;0;0;10;1098-0121;WOS:000312832600014;;;J;Hillier, N. J.;Foroozani, N.;Zocco, D. A.;Hamlin, J. J.;Baumbach, R. E.;Lum, I. K.;Maple, M. B.;Schilling, J. S.;Intrinsic dependence of T-c on hydrostatic (He-gas) pressure for;superconducting LaFePO, PrFePO, and NdFePO single crystals;PHYSICAL REVIEW B;86;21;214517;10.1103/PhysRevB.86.214517;DEC 26 2012;2012;Since their discovery in 2008, the Fe-based superconductors have;attracted a great deal of interest. Regrettably, themechanism(s);responsible for the superconductivity has yet to be unequivocally;identified. High pressure is an important variable since its application;moderates the pairing interaction. Thus far, the LnFePO (Ln = La, Pr,;Nd, Sm, Gd) family of superconductors has received relatively little;attention. Early high-pressure studies on LaFePO found that T-c;initially increased with pressure before passing through a maximum at;higher pressures. The present studies on both polycrystalline and;single-crystalline LaFePO, PrFePO, and NdFePO utilize the most;hydrostatic pressure medium available, i.e., dense He. Surprisingly, for;all samples, T-c is found to initially decrease rapidly with pressure at;the rate dT(c)/dP similar or equal to -2 to -3K/GPa. Less hydrostatic;pressure media thus appear to enhance the value of T-c in these;materials. These results give yet further evidence that the;superconducting state in Fe-based superconductors is extraordinarly;sensitive to lattice strain. DOI: 10.1103/PhysRevB.86.214517;Foroozani, Neda/H-2720-2013; Zocco, Diego/O-3440-2014;2;0;0;0;2;1098-0121;WOS:000312830400010;;;J;Hinuma, Yoyo;Oba, Fumiyasu;Kumagai, Yu;Tanaka, Isao;Ionization potentials of (112) and (11(2)over-bar) facet surfaces of;CuInSe2 and CuGaSe2;PHYSICAL REVIEW B;86;24;245433;10.1103/PhysRevB.86.245433;DEC 26 2012;2012;The ionization potentials of the faceted and nonfaceted (110) surfaces;of CuInSe2 (CIS) and CuGaSe2 (CGS), which are key components of;CuIn1-xGaxSe2 (CIGS) thin-film solar cells, are investigated using;first-principles calculations based on a hybrid Hartree-Fock density;functional theory approach. Slab models of the chalcopyrite (110);surface with both (112) and (11 (2) over bar) facets on each surface of;the slab are employed. Surface energy evaluations point out that two;types of faceted surfaces with point defects, namely a combination of;Cu-In (Cu-Ga) and In-Cu (Ga-Cu) antisites and a combination of Cu;vacancies and In-Cu (Ga-Cu) antisites, are the most stable depending on;the chemical potentials. The ionization potentials are evaluated with;two definitions: One highly sensitive to and the other less sensitive to;localized surface states. The latter varies by 0.4 eV in CIS and 0.5 eV;in CGS with the surface structure. The ionization potentials are reduced;by 0.2 eV for faceted surfaces with Cu-In (Cu-Ga) and In-Cu (Ga-Cu);antisites when the effects of the localized surface states are;considered. The values of both ionization potentials are similar between;CIS and CGS with a difference of about 0.1 eV for the most stable;surface structures. DOI: 10.1103/PhysRevB.86.245433;Kumagai, Yu/H-8104-2012; Tanaka, Isao/B-5941-2009; Oba, Fumiyasu/J-9723-2014;9;0;1;0;9;1098-0121;WOS:000312833400018;;;J;Hortamani, M.;Wiesendanger, R.;Role of hybridization in the Rashba splitting of noble metal monolayers;on W(110);PHYSICAL REVIEW B;86;23;235437;10.1103/PhysRevB.86.235437;DEC 26 2012;2012;In contradiction to the nature of the spin-orbit driven Rashba splitting;of surface states which increases with atomic number, Shikin et al.;[Phys. Rev. Lett. 100, 057601 (2008)] have observed that the size of the;splitting in Au overlayers on W(110) is smaller than for Ag overlayers.;In the framework of first-principle density functional theory, we have;studied the origin of the Rashba splitting at Au/Ag overlayers on the;W(110) surface. We show how the asymmetric behavior of the wave function;in the vicinity of the surface atom nucleus, in addition to the strength;of the nuclear potential gradient, plays a crucial role for the size of;the splitting. The influence of the electronic structure and spin;dependent hybridization on the Rashba splitting is discussed. The;asymmetric behavior of the surface wave function originates from the;surface-interface sp-d hybridization. We find that a spin dependent;hybridization in the Ag overlayer influences strongly the size of the;Rashba splitting. DOI: 10.1103/PhysRevB.86.235437;1;0;0;0;1;1098-0121;WOS:000312832600011;;;J;Hu, Xiang;Rueegg, Andreas;Fiete, Gregory A.;Topological phases in layered pyrochlore oxide thin films along the;[111] direction;PHYSICAL REVIEW B;86;23;235141;10.1103/PhysRevB.86.235141;DEC 26 2012;2012;We theoretically study a multiband Hubbard model of pyrochlore oxides of;the form A(2)B(2)O(7), where B is a heavy transition metal ion with;strong spin-orbit coupling, in a thin-film geometry orientated along the;[111] direction. Along this direction, the pyrochlore lattice consists;of alternating kagome and triangular lattice planes of B ions. We;consider a single kagome layer, a bilayer, and the two different;trilayers. As a function of the strength of the spin-orbit coupling, the;direct and indirect d-orbital hopping, and the band filling, we identify;a number of scenarios where a noninteracting time-reversal-invariant;Z(2) topological phase is expected and we suggest some candidate;materials. We study the interactions in the half-filled d shell within;Hartree-Fock theory and identify parameter regimes where a zero magnetic;field Chern insulator with Chern number +/- 1 can be found. The most;promising geometries for topological phases appear to be the bilayer;which supports both a Z(2) topological insulator and a Chern insulator,;and the triangular-kagome-triangular trilayer which supports a;relatively robust Chern insulator phase. DOI: 10.1103/PhysRevB.86.235141;Ruegg, Andreas/B-4498-2010;12;0;0;0;12;1098-0121;WOS:000312832600003;;;J;Janotti, A.;Bjaalie, L.;Gordon, L.;Van de Walle, C. G.;Controlling the density of the two-dimensional electron gas at the;SrTiO3/LaAlO3 interface;PHYSICAL REVIEW B;86;24;241108;10.1103/PhysRevB.86.241108;DEC 26 2012;2012;The polar discontinuity at the SrTiO3/LaAlO3 interface (STO/LAO) can in;principle sustain an electron density of 3.3 x 10(14) cm(-2) (0.5;electrons per unit cell). However, experimentally observed densities are;more than an order of magnitude lower. Using a combination of;first-principles and Schrodinger-Poisson simulations we show that the;problem lies in the asymmetric nature of the structure, i.e., the;inability to form a second LAO/STO interface that is a mirror image of;the first, or to fully passivate the LAO surface. Our insights apply to;oxide interfaces in general, explaining for instance why the;SrTiO3/GdTiO3 interface has been found to exhibit the full density of;3.3 x 10(14) cm(-2). DOI: 10.1103/PhysRevB.86.241108;Janotti, Anderson/F-1773-2011; Van de Walle, Chris/A-6623-2012;Janotti, Anderson/0000-0001-5028-8338; Van de Walle,;Chris/0000-0002-4212-5990;11;0;0;0;11;1098-0121;WOS:000312833400001;;;J;Kim, Changsoo;Jo, Euna;Kang, Byeongki;Kwon, Sangil;Lee, Soonchil;Shim, Jeong Hyun;Suzuki, Takehiko;Katsufuji, Takuro;Giant magnetic anisotropy in Mn3O4 investigated by Mn-55(2+) and;Mn-55(3+) NMR;PHYSICAL REVIEW B;86;22;224420;10.1103/PhysRevB.86.224420;DEC 26 2012;2012;In Mn3O4, the magnetization along the c axis is different from that;along the ab plane even in the strong field of 30 T. To investigate the;origin of the huge magnetic anisotropy, Mn2+ and Mn3+ nuclear magnetic;resonance spectra were measured in the 7-T magnetic field. The canting;angle of the magnetic moments was estimated for various directions of;field by rotating a single-crystalline Mn3O4 sample. One of the main;results is that Mn3+ moments lie nearly in the ab plane in the external;field perpendicular to the plane, meaning that the macroscopic magnetic;anisotropy of Mn3O4 originates from the magnetic anisotropy of Mn3+ in;the ab plane. The anisotropy field is estimated to be about 65 T. It is;obvious that the Yafet-Kittel structure made of Mn2+ and Mn3+ spins lies;in the ab plane due to this huge magnetic anisotropy, contrary to the;previous reports. By the least-squares fit of the canting angle data for;various field directions to a simple model, we obtained that J(BB) =;1.88J(AB) - 0.09 meV and K-A = -14.7J(AB) + 2.0 meV, where J(AB), J(BB),;and K-A are the exchange interaction constants between Mn2+ moments,;Mn2+ and Mn3+ moments, and an anisotropy constant of Mn2+, respectively.;DOI: 10.1103/PhysRevB.86.224420;Suzuki, Takehito/B-3038-2013; Lee, Soonchil/C-1963-2011;3;0;0;0;3;1098-0121;WOS:000312831800010;;;J;Kimber, Robin G. E.;Wright, Edward N.;O'Kane, Simon E. J.;Walker, Alison B.;Blakesley, James C.;Mesoscopic kinetic Monte Carlo modeling of organic photovoltaic device;characteristics;PHYSICAL REVIEW B;86;23;235206;10.1103/PhysRevB.86.235206;DEC 26 2012;2012;Measured mobility and current-voltage characteristics of single layer;and photovoltaic (PV) devices composed of;poly{9,9-dioctylfluorene-co-bis[N,N'-(4-butylphenyl)]bis(N,N'-phenyl-1,4;-phenylene)diamine} (PFB) and;poly(9,9-dioctylfluorene-co-benzothiadiazole) (F8BT) have been;reproduced by a mesoscopic model employing the kinetic Monte Carlo (KMC);approach. Our aim is to show how to avoid the uncertainties common in;electrical transport models arising from the need to fit a large number;of parameters when little information is available, for example, a;single current-voltage curve. Here, simulation parameters are derived;from a series of measurements using a self-consistent "building-blocks";approach, starting from data on the simplest systems. We found that site;energies show disorder and that correlations in the site energies and a;distribution of deep traps must be included in order to reproduce;measured charge mobility-field curves at low charge densities in bulk;PFB and F8BT. The parameter set from the mobility-field curves;reproduces the unipolar current in single layers of PFB and F8BT and;allows us to deduce charge injection barriers. Finally, by combining;these disorder descriptions and injection barriers with an optical;model, the external quantum efficiency and current densities of blend;and bilayer organic PV devices can be successfully reproduced across a;voltage range encompassing reverse and forward bias, with the;recombination rate the only parameter to be fitted, found to be 1 x;10(7) s(-1). These findings demonstrate an approach that removes some of;the arbitrariness present in transport models of organic devices, which;validates the KMC as an accurate description of organic optoelectronic;systems, and provides information on the microscopic origins of the;device behavior. DOI: 10.1103PhysRevB.86.235206;20;0;1;0;20;1098-0121;WOS:000312832600006;;;J;Kishine, Jun-ichiro;Bostrem, I. G.;Ovchinnikov, A. S.;Sinitsyn, Vl. E.;Coherent sliding dynamics and spin motive force driven by crossed;magnetic fields in a chiral helimagnet;PHYSICAL REVIEW B;86;21;214426;10.1103/PhysRevB.86.214426;DEC 26 2012;2012;We demonstrate that the chiral soliton lattice formed from a chiral;helimagnet exhibits a coherent sliding motion when a time-dependent;magnetic field is applied parallel to the helical axis, in addition to a;static field perpendicular to the helical axis. To describe the coherent;sliding, we use the collective coordinate method and a numerical;analysis. We also show that the time-dependent sliding velocity causes a;time-varying Berry cap which creates a spin motive force. A salient;feature of the chiral soliton lattice is the appearance of a strongly;amplified spin motive force which is directly proportional to the;macroscopic number of solitons (magnetic kinks). DOI:;10.1103/PhysRevB.86.214426;2;0;0;0;2;1098-0121;WOS:000312830400005;;;J;Kratzer, M.;Rubezhanska, M.;Prehal, C.;Beinik, I.;Kondratenko, S. V.;Kozyrev, Yu N.;Teichert, C.;Electrical and photovoltaic properties of self-assembled Ge nanodomes on;Si(001);PHYSICAL REVIEW B;86;24;245320;10.1103/PhysRevB.86.245320;DEC 26 2012;2012;SiGe nano-size islands play a key role in novel electronic and;optoelectronic devices. Therefore, the understanding of basic electrical;properties of individual nanoislands is crucial. Here, the electrical;and photovoltaic properties of individual self-assembled Ge nanodomes;(NDs) on Si(001) have been studied by conductive and photoconductive;atomic force microscopy (AFM). The transition areas between the {113};and {15 3 23} facets turned out to be most conductive whereas the {113};facets exhibit minimum conductivity, which is attributed to a local;increase in Si concentration. Local current-to-voltage measurements;revealed that the NDs show an ohmic resistance, which is in the M Omega;region and scales with the ND-substrate interface area. Upon;illumination by the AFM feedback laser at 860 nm, a photovoltage is;generated. This photovoltage originates in the p-i-n structure formed;between the p-type substrate, the Ge ND, and the n-type diamond AFM;probe. DOI: 10.1103/PhysRevB.86.245320;Teichert, Christian/F-1003-2013;3;0;0;0;3;1098-0121;WOS:000312833400010;;;J;Kudasov, Yu. B.;Maslov, D. A.;Frustration and charge order in LuFe2O4;PHYSICAL REVIEW B;86;21;214427;10.1103/PhysRevB.86.214427;DEC 26 2012;2012;The nature of a transition from two-to three-dimensional charge order;(2D-CO -> 3D-CO) in the multiferroic material LuFe2O4 is discussed. It;is shown that a high-temperature ordered phase of the Ising model with;antiferromagnetic or antiferroelectric (AF) interactions on a triangular;bilayer (W layer) is a dimer partially disordered AF (DPDA) state, which;is a generalization of a well-known partially disordered AF structure;for the triangular lattice. The DPDA state is stable against a variation;of interaction parameters in a wide range. It is demonstrated that the;transition of W layers to the DPDA state gives rise to the 2D-CO phase;in LuFe2O4 at a high temperature. DOI: 10.1103/PhysRevB.86.214427;1;1;0;0;1;1098-0121;WOS:000312830400006;;;J;Lee, Janghee;Park, Joonbum;Lee, Jae-Hyeong;Kim, Jun Sung;Lee, Hu-Jong;Gate-tuned differentiation of surface-conducting states in;Bi1.5Sb0.5Te1.7Se1.3 topological-insulator thin crystals;PHYSICAL REVIEW B;86;24;245321;10.1103/PhysRevB.86.245321;DEC 26 2012;2012;Using field-angle, temperature, and back-gate-voltage dependence of the;weak antilocalization (WAL) and universal conductance fluctuations of;thin Bi1.5Sb0.5Te1.7Se1.3 topological-insulator single crystals, in;combination with gate-tuned Hall resistivity measurements, we reliably;separated the surface conduction of the topological nature from both the;bulk conduction and topologically trivial surface conduction. We;minimized the bulk conduction in the crystals and back-gate tuned the;Fermi level to the topological bottom-surface band while keeping the top;surface insensitive to back-gating with the optimal crystal thickness of;similar to 100 nm. We argue that the WAL effect occurring by the;coherent diffusive motion of carriers in relatively low magnetic fields;is more essential than other transport tools such as the Shubnikov-de;Hass oscillations for confirming the conduction by the topologically;protected surface state. Our approach provides a highly coherent picture;of the surface transport properties of topological insulators and a;reliable means of investigating the fundamental topological nature of;surface conduction and possible quantum-device applications related to;momentum-locked spin polarization in surface states. DOI:;10.1103/PhysRevB.86.245321;Kim, Jun Sung/G-8861-2012; Lee, Janghee/E-7471-2013;Lee, Janghee/0000-0002-7398-9097;11;2;1;0;11;1098-0121;WOS:000312833400011;;;J;Lee, Soo-Yong;Lee, Hyun-Woo;Sim, H. -S.;Visibility recovery by strong interaction in an electronic Mach-Zehnder;interferometer;PHYSICAL REVIEW B;86;23;235444;10.1103/PhysRevB.86.235444;DEC 26 2012;2012;We study the evolution of a single-electron packet of Lorentzian shape;along an edge of the integer quantum Hall regime or in a Mach-Zehnder;interferometer, considering a capacitive Coulomb interaction and using a;bosonization approach. When the packet propagates along a chiral quantum;Hall edge, we find that its electron density profile becomes more;distorted from Lorentzian due to the generation of electron-hole;excitations, as the interaction strength increases yet stays in a;weak-interaction regime. However, as the interaction strength becomes;larger and enters a strong-interaction regime, the distortion becomes;weaker and eventually the Lorentzian packet shape is recovered. The;recovery of the packet shape leads to an interesting feature of the;interference visibility of the symmetric Mach-Zehnder interferometer;whose two arms have the same interaction strength. As the interaction;strength increases, the visibility decreases from the maximum value in;the weak-interaction regime and then increases to the maximum value in;the strong-interaction regime. We argue that this counterintuitive;result also occurs under other types of interactions. DOI:;10.1103/PhysRevB.86.235444;Lee, Hyun-Woo/B-8995-2008; Sim, Heung-Sun/C-1624-2011;Lee, Hyun-Woo/0000-0002-1648-8093;;1;0;0;0;1;1098-0121;WOS:000312832600018;;;J;Li, Qiuzi;Rossi, E.;Das Sarma, S.;Two-dimensional electronic transport on the surface of three-dimensional;topological insulators;PHYSICAL REVIEW B;86;23;235443;10.1103/PhysRevB.86.235443;DEC 26 2012;2012;We present a theoretical approach to describe the two-dimensional (2D);transport properties of the surfaces of three-dimensional topological;insulators (3DTIs) including disorder and phonon scattering effects. The;method that we present is able to take into account the effects of the;strong disorder-induced carrier density inhomogeneities that;characterize the ground state of the surfaces of 3DTIs, especially at;low doping, as recently shown experimentally. Due to the inhomogeneous;nature of the carrier density landscape, standard theoretical techniques;based on ensemble averaging over disorder assuming a spatially uniform;average carrier density are inadequate. Moreover the presence of strong;spatial potential and density fluctuations greatly enhances the effect;of thermally activated processes on the transport properties. The theory;presented is able to take into account all the effects due to the;disorder-induced inhomogeneities, momentum scattering by disorder, and;the effect of electron-phonon scattering processes. As a result the;developed theory is able to accurately describe the transport properties;of the surfaces of 3DTIs both at zero and finite temperature. DOI:;10.1103/PhysRevB.86.235443;Rossi, Enrico/K-2837-2012; Li, Qiuzi/F-6474-2011; Das Sarma, Sankar/B-2400-2009;Rossi, Enrico/0000-0002-2647-3610;;8;1;0;0;8;1098-0121;WOS:000312832600017;;;J;Liang, S. H.;Liu, D. P.;Tao, L. L.;Han, X. F.;Guo, Hong;Organic magnetic tunnel junctions: The role of metal-molecule interface;PHYSICAL REVIEW B;86;22;224419;10.1103/PhysRevB.86.224419;DEC 26 2012;2012;We report a first-principles theoretical investigation of spin-polarized;quantum transport in organic magnetic tunnel junctions (OMTJs) to;provide a microscopic understanding on the sign of the tunnel;magnetoresistance ratio (TMR). We consider two different OMTJs, formed;by sandwiching 1-stearic acid radicals (1-SAR) or 1,18-stearic diacid;radicals (1,18-SDR) between two Ni electrodes. Even though the main;difference between them is only on one of the Ni/molecule contacts, such;a structure difference is found to induce a significant sign change of;the TMR. The TMR is negative for 1-SAR at -19.6%, but is positive for;1,18-SDR at 13.7%. By investigating the concept of scattering density of;states (SDOS), we found that scattering processes of p electrons at the;Ni/molecule interface determines the sign of TMR. Based on spin;polarization of the SDOS, we extend the Julliere model to explain both;the sign and the value of the TMR qualitatively and semiquantitatively.;It is concluded that understanding spin-polarized quantum transport in;organic magnetic tunnel junction requires a comprehensive knowledge of;the electronic structures of the molecule, the metal electrode, and the;metal-molecule contacts. DOI: 10.1103/PhysRevB.86.224419;Guo, Hong/A-8084-2010;4;0;0;0;4;1098-0121;WOS:000312831800009;;;J;Liew, T. C. H.;Holographic arrays based on semiconductor microstructures;PHYSICAL REVIEW B;86;23;235314;10.1103/PhysRevB.86.235314;DEC 26 2012;2012;A concept of complex reflectivity modulation is proposed based on the;electrical control of quantum well exciton resonances that influence the;propagation of light in a layered semiconductor structure. By variation;in exciton energies, both the intensity and the phase of reflected light;can be fully controlled. Unlike previous devices, for full complex light;modulation, the design is based on a single device in a single;structure. The device allows complete 100% intensity contrast and allows;for the construction of small pixel sizes with fast response times. DOI:;10.1103/PhysRevB.86.235314;1;0;0;0;1;1098-0121;WOS:000312832600010;;;J;Lin, Chien-Hung;Sensarma, Rajdeep;Sengupta, K.;Sarma, S. Das;Quantum dynamics of disordered bosons in an optical lattice;PHYSICAL REVIEW B;86;21;214207;10.1103/PhysRevB.86.214207;DEC 26 2012;2012;We study the equilibrium and nonequilibrium properties of strongly;interacting bosons on a lattice in the presence of a random bounded;disorder potential. Using a Gutzwiller projected variational technique,;we study the equilibrium phase diagram of the disordered Bose-Hubbard;model and obtain the Mott insulator, Bose glass, and superfluid phases.;We also study the nonequilibrium response of the system under a periodic;temporal drive where, starting from the superfluid phase, the hopping;parameter is ramped down linearly in time, and back to its initial;value. We study the density of excitations created, the change in the;superfluid order parameter, and the energy pumped into the system in;this process as a function of the inverse ramp rate tau. For the clean;case the density of excitations goes to a constant, while the order;parameter and energy relax as 1/tau and 1/tau(2) respectively. With;disorder, the excitation density decays exponentially with t, with the;decay rate increasing with the disorder, to an asymptotic value;independent of the disorder. The energy and change in order parameter;also decrease as tau is increased. DOI: 10.1103/PhysRevB.86.214207;Das Sarma, Sankar/B-2400-2009;1;0;0;0;1;1098-0121;WOS:000312830400001;;;J;Luo, Yongkang;Bao, Jinke;Shen, Chenyi;Han, Jieke;Yang, Xiaojun;Lv, Chen;Li, Yuke;Jiao, Wenhe;Si, Bingqi;Feng, Chunmu;Dai, Jianhui;Cao, Guanghan;Xu, Zhu-An;Magnetism and crystalline electric field effect in ThCr2Si2-type;CeNi2As2;PHYSICAL REVIEW B;86;24;245130;10.1103/PhysRevB.86.245130;DEC 26 2012;2012;A millimeter-sized ThCr2Si2-type CeNi2As2 single crystal was synthesized;by the NaAs flux method and its physical properties were investigated by;magnetization, transport, and specific-heat measurements. In contrast to;the previously reported CaBe2Ge2-type CeNi2As2, the ThCr2Si2-type;CeNi2As2 is a highly anisotropic uniaxial antiferromagnet with the;transition temperature T-N = 4.8 K. A magnetic-field-induced spin-flop;transition was seen below T-N when the applied B is parallel to the c;axis, the magnetic easy axis, together with a huge frustration parameter;f = theta(W)/T-N. A pronounced Schottky-type anomaly in specific heat;was also found around 160 K, which could be attributed to the;crystalline electric field effect with the excitation energies being;fitted to Delta(1) = 325 K and Delta(2) = 520 K, respectively. Moreover,;the in-plane resistivity anisotropy and low-temperature x-ray;diffractions suggest that this compound is a rare example exhibiting a;possible structure distortion induced by the 4f-electron magnetic;frustration. DOI: 10.1103/PhysRevB.86.245130;Cao, Guanghan/C-4753-2008;5;0;0;0;5;1098-0121;WOS:000312833400008;;;J;Margaris, G.;Trohidou, K. N.;Iannotti, V.;Ausanio, G.;Lanotte, L.;Fiorani, D.;Magnetic behavior of dense nanoparticle assemblies: Interplay of;interparticle interactions and particle system morphology;PHYSICAL REVIEW B;86;21;214425;10.1103/PhysRevB.86.214425;DEC 26 2012;2012;The role of interparticle interactions and the morphology in the;magnetic behavior of dense assemblies of Fe nanoparticles with;concentration well above the percolation threshold has been studied;using the Monte Carlo simulations technique. The initial and;temperature-dependent magnetization curves have been calculated for;different conditions of the assembly morphology and the interparticle;interaction strengths. Our simulations showed that the strong;competition between the anisotropy and exchange energies in nonuniform;dense assemblies results in a frustration of the nanoparticles moments;coupling and creates plateaus and abrupt steps, which indicate a sudden,;collective spin reversal, for low and intermediate dipolar strengths. In;the case of strong dipolar interactions, the stepwise behavior becomes;smoother and gradually disappears. DOI: 10.1103/PhysRevB.86.214425;2;0;0;0;2;1098-0121;WOS:000312830400004;;;J;Marom, Noa;Caruso, Fabio;Ren, Xinguo;Hofmann, Oliver T.;Koerzdoerfer, Thomas;Chelikowsky, James R.;Rubio, Angel;Scheffler, Matthias;Rinke, Patrick;Benchmark of GW methods for azabenzenes;PHYSICAL REVIEW B;86;24;245127;10.1103/PhysRevB.86.245127;DEC 26 2012;2012;Many-body perturbation theory in the GW approximation is a useful method;for describing electronic properties associated with charged;excitations. A hierarchy of GW methods exists, starting from;non-self-consistent G(0)W(0), through partial self-consistency in the;eigenvalues and in the Green's function (scGW(0)), to fully;self-consistent GW (scGW). Here, we assess the performance of these;methods for benzene, pyridine, and the diazines. The quasiparticle;spectra are compared to photoemission spectroscopy (PES) experiments;with respect to all measured particle removal energies and the ordering;of the frontier orbitals. We find that the accuracy of the calculated;spectra does not match the expectations based on their level of;self-consistency. In particular, for certain starting points G(0)W(0);and scGW(0) provide spectra in better agreement with the PES than scGW.;DOI: 10.1103/PhysRevB.86.245127;Rinke, Patrick/A-4208-2010; Caruso, Fabio/D-5917-2013; Korzdorfer, Thomas/B-8266-2014; DONOSTIA INTERNATIONAL PHYSICS CTR., DIPC/C-3171-2014; Ren, Xinguo/N-4768-2014;Rinke, Patrick/0000-0002-5967-9965;;17;0;0;0;17;1098-0121;WOS:000312833400006;;;J;Marty, K.;Christianson, A. D.;dos Santos, A. M.;Sipos, B.;Matsubayashi, K.;Uwatoko, Y.;Fernandez-Baca, J. A.;Tulk, C. A.;Maier, T. A.;Sales, B. C.;Lumsden, M. D.;Effect of pressure on the neutron spin resonance in the unconventional;superconductor FeTe0.6Se0.4;PHYSICAL REVIEW B;86;22;220509;10.1103/PhysRevB.86.220509;DEC 26 2012;2012;We have carried out a pressure study of the unconventional;superconductor FeTe0.6Se0.4 up to 1.5 GPa by neutron scattering,;resistivity, and magnetic susceptibility measurements. The neutron spin;resonance energy and the superconducting transition temperature have;been extracted as a function of applied pressure in samples obtained;from the same crystal. Both increase with pressure up to amaximum at;approximate to 1.3 GPa, directly demonstrating a correlation between;these two fundamental parameters of unconventional superconductivity. A;comparison between the quantitative evolution of T-c and the resonance;energy as a function of applied pressure is also discussed. These;measurements serve to demonstrate the feasibility of using pressure;dependent inelastic neutron scattering to explore the relationship;between the resonance energy and T-c in unconventional superconductors.;DOI: 10.1103/PhysRevB.86.220509;Maier, Thomas/F-6759-2012; Fernandez-Baca, Jaime/C-3984-2014; Matsubayashi, Kazuyuki/F-7696-2013;3;0;0;0;3;1098-0121;WOS:000312831800004;;;J;Mesterhazy, D.;Berges, J.;von Smekal, L.;Effect of short-range interactions on the quantum critical behavior of;spinless fermions on the honeycomb lattice;PHYSICAL REVIEW B;86;24;245431;10.1103/PhysRevB.86.245431;DEC 26 2012;2012;We present a functional renormalization group investigation of an;Euclidean three-dimensional matrix Yukawa model with U(N) symmetry,;which describes N = 2 Weyl fermions that effectively interact via a;short-range repulsive interaction. This system relates to an effective;low-energy theory of spinless electrons on the honeycomb lattice and can;be seen as a simple model for suspended graphene. We find a continuous;phase transition characterized by large anomalous dimensions for the;fermions and composite degrees of freedom. The critical exponents define;a new universality class distinct from Gross-Neveu type models,;typically considered in this context. DOI: 10.1103/PhysRevB.86.245431;7;0;0;0;7;1098-0121;WOS:000312833400016;;;J;Mizuguchi, Yoshikazu;Fujihisa, Hiroshi;Gotoh, Yoshito;Suzuki, Katsuhiro;Usui, Hidetomo;Kuroki, Kazuhiko;Demura, Satoshi;Takano, Yoshihiko;Izawa, Hiroki;Miura, Osuke;BiS2-based layered superconductor Bi4O4S3;PHYSICAL REVIEW B;86;22;220510;10.1103/PhysRevB.86.220510;DEC 26 2012;2012;Exotic superconductivity has often been discovered in materials with a;layered (two-dimensional) crystal structure. The low dimensionality can;affect the electronic structure and can realize high transition;temperatures (T-c) and/or unconventional superconductivity mechanisms.;We show superconductivity in a new bismuth-oxysulfide compound Bi4O4S3.;Crystal structure analysis indicates that this superconductor has a;layered structure composed of a stacking of spacer layers and BiS2;layers. Band calculation suggests that the Fermi level for Bi4O4S3 is;just on the peak position of the partial density of states of the Bi 6p;orbital within the BiS2 layer. The BiS2 layer will be a basic structure;which provides another universality class for a layered superconducting;family, and this opens up a new field in the physics and chemistry of;low-dimensional superconductors. DOI: 10.1103/PhysRevB.86.220510;68;0;3;0;70;1098-0121;WOS:000312831800005;;;J;Mutiso, Rose M.;Sherrott, Michelle C.;Li, Ju;Winey, Karen I.;Simulations and generalized model of the effect of filler size;dispersity on electrical percolation in rod networks;PHYSICAL REVIEW B;86;21;214306;10.1103/PhysRevB.86.214306;DEC 26 2012;2012;We present a three-dimensional simulation of electrical conductivity in;isotropic, polydisperse rod networks from which we determine the;percolation threshold (phi(c)). Existing analytical models that account;for size dispersity are formulated in the slender-rod limit and are less;accurate for predicting phi(c) in composites with rods of modest L/D.;Using empirical approximations from our simulation data, we generalized;the excluded volume percolation model to account for both finite L/D and;size dispersity, providing a solution for phi(c) of polydisperse rod;networks that is quantitatively accurate across the entire L/D range.;DOI: 10.1103/PhysRevB.86.214306;Li, Ju/A-2993-2008;Li, Ju/0000-0002-7841-8058;12;0;0;0;12;1098-0121;WOS:000312830400002;;;J;Nishikawa, Y.;Hewson, A. C.;Hund's rule coupling in models of magnetic impurities and quantum dots;PHYSICAL REVIEW B;86;24;245131;10.1103/PhysRevB.86.245131;DEC 26 2012;2012;Studies of the effects of the Hund's rule coupling J(H) in multiple;orbit impurities or quantum dots using different models have led to;quite different predictions for the Kondo temperature T-K as a function;of J(H). We show that the differences depend on whether or not the;models conserve orbital angular momentum about the impurity site. Using;numerical renormalization-group calculations, we deduce the renormalized;parameters for the Fermi liquid regime and show that, despite the;differences between the models, the low-energy fixed point in the;strong-correlation regime is universal, with a single energy scale T-K;and just two renormalized interaction parameters, a renormalized single;orbital term, (U) over tilde = 4T(K), and a renormalized Hund's rule;term, (J) over tilde (H) = 8T(K)/3. DOI: 10.1103/PhysRevB.86.245131;3;0;0;0;3;1098-0121;WOS:000312833400009;;;J;Oliveira, G. N. P.;Pereira, A. M.;Lopes, A. M. L.;Amaral, J. S.;dos Santos, A. M.;Ren, Y.;Mendonca, T. M.;Sousa, C. T.;Amaral, V. S.;Correia, J. G.;Araujo, J. P.;Dynamic off-centering of Cr3+ ions and short-range magneto-electric;clusters in CdCr2S4;PHYSICAL REVIEW B;86;22;224418;10.1103/PhysRevB.86.224418;DEC 26 2012;2012;The cubic spinel CdCr2S4 gained recently a vivid interest, given the;relevance of relaxor-like dielectric behavior in its paramagnetic phase.;By a singular combination of local probe techniques, namely, pair;distribution function and perturbed angular correlation, we firmly;establish that the Cr ion plays the central key role on this exotic;phenomenon, namely, through a dynamic off-centering displacement of its;coordination sphere. We further show that this off-centering of the;magnetic Cr ion gives rise to a peculiar entanglement between the polar;and magnetic degrees of freedom, stabilizing, in the paramagnetic phase,;short-range magnetic clusters, clearly seen in ultralow-field;susceptibility measurements. Moreover, the Landau theory is here used to;demonstrate that a linear coupling between the magnetic and polar order;parameters is sufficient to justify the appearance of magnetic cluster;in the paramagnetic phase of this compound. These results open insights;on the hotly debated magnetic and polar interaction, setting a step;forward in the reinterpretation of the coupling of different physical;degrees of freedom. DOI: 10.1103/PhysRevB.86.224418;Universidade Aveiro, Departamento Fisica/E-4128-2013; Amaral, Vitor/A-1570-2009; Pereira, Andre/B-4648-2008; Amaral, Joao/C-6354-2009; Lopes, Armandina/I-5066-2013; Martins Correia, Joao Guilherme/J-5473-2013; Esteves de Araujo, Joao Pedro/D-4389-2011;Amaral, Vitor/0000-0003-3359-7133; Pereira, Andre/0000-0002-8587-262X;;Amaral, Joao/0000-0003-0488-9372; Lopes, Armandina/0000-0001-8776-0894;;Martins Correia, Joao Guilherme/0000-0002-8848-0824; Esteves de Araujo,;Joao Pedro/0000-0002-1646-7727;7;1;0;0;7;1098-0121;WOS:000312831800008;;;J;Olund, Christopher T.;Zhao, Erhai;Current-phase relation for Josephson effect through helical metal;PHYSICAL REVIEW B;86;21;214515;10.1103/PhysRevB.86.214515;DEC 26 2012;2012;Josephson junctions fabricated on the surface of three-dimensional;topological insulators ( TI) show a few unusual properties distinct from;conventional Josephson junctions. In these devices, the Josephson;coupling and the supercurrent are mediated by helical metal, the;two-dimensional surface state of the TI. A line junction of this kind is;known to support Andreev bound states at zero energy for phase bias pi;and, consequently, the so-called fractional ac Josephson effect.;Motivated by recent experiments on TI-based Josephson junctions, here we;describe a convenient algorithm to compute the bound-state spectrum and;the current-phase relation for junctions of finite length and width. We;present analytical results for the bound-state spectrum, and discuss the;dependence of the current-phase relation on the length and width of the;junction, the chemical potential of the helical metal, and temperature.;A thorough understanding of the current-phase relation may help in;designing topological superconducting qubits and manipulating Majorana;fermions. DOI: 10.1103/PhysRevB.86.214515;Zhao, Erhai/B-3463-2010;Zhao, Erhai/0000-0001-8954-1601;5;0;0;0;5;1098-0121;WOS:000312830400008;;;J;Pakdel, Sahar;Miri, MirFaez;Faraday rotation and circular dichroism spectra of gold and silver;nanoparticle aggregates;PHYSICAL REVIEW B;86;23;235445;10.1103/PhysRevB.86.235445;DEC 26 2012;2012;We study the magneto-optical response of noble metal nanoparticle;clusters. We consider the interaction between the light-induced dipoles;of particles. In the presence of a magnetic field, the simplest achiral;cluster, a dimer, exhibits circular dichroism (CD). The CD of a dimer;depends on the directions of the magnetic field and the light wave;vector. The CD of a populous cluster weakly depends on the magnetic;field. Upon scattering from the cluster, an incident linearly polarized;light with polarization azimuth. becomes elliptically polarized. The;polarization azimuth rotation and ellipticity angle variation are;sinusoidal functions of 2 phi.. The anisotropy and the chirality of the;cluster control the amplitude and offset of these sinusoidal functions.;The Faraday rotation and Faraday ellipticity are also sinusoidal;functions of 2 phi. Near the surface plasmon frequency, Faraday rotation;and Faraday ellipticity increase. DOI: 10.1103/PhysRevB.86.235445;6;0;0;0;6;1098-0121;WOS:000312832600019;;;J;Pedersen, Jesper Goor;Brynildsen, Mikkel H.;Cornean, Horia D.;Pedersen, Thomas Garm;Optical Hall conductivity in bulk and nanostructured graphene beyond the;Dirac approximation;PHYSICAL REVIEW B;86;23;235438;10.1103/PhysRevB.86.235438;DEC 26 2012;2012;We present a perturbative method for calculating the optical Hall;conductivity in a tight-binding framework based on the Kubo formalism.;The method involves diagonalization only of the Hamiltonian in absence;of the magnetic field, and thus avoids the computational problems;usually arising due to the huge magnetic unit cells required to maintain;translational invariance in the presence of a Peierls phase. A recipe;for applying the method to numerical calculations of the magneto-optical;response is presented. We apply the formalism to the case of ordinary;and gapped graphene in a next-nearest-neighbor tight-binding model as;well as graphene antidot lattices. In both cases, we find unique;signatures in the Hall response that are not captured in continuum;(Dirac) approximations. These include a nonzero optical Hall;conductivity even when the chemical potential is at the Dirac point;energy. Numerical results suggest that this effect should be measurable;in experiments. DOI: 10.1103/PhysRevB.86.235438;Goor Pedersen, Jesper/C-3965-2008; Cornean, Horia/A-4064-2008;Goor Pedersen, Jesper/0000-0002-8411-240X; Cornean,;Horia/0000-0003-2700-8785;1;0;0;0;1;1098-0121;WOS:000312832600012;;;J;Rodriguez, Alejandro W.;Reid, M. T. Homer;Johnson, Steven G.;Fluctuating-surface-current formulation of radiative heat transfer for;arbitrary geometries;PHYSICAL REVIEW B;86;22;220302;10.1103/PhysRevB.86.220302;DEC 26 2012;2012;We describe a fluctuating-surface-current formulation of radiative heat;transfer, applicable to arbitrary geometries in both the near and far;field, that directly exploits efficient and sophisticated techniques;from the boundary-element method. We validate as well as extend previous;results for spheres and cylinders, and also compute the heat transfer in;a more complicated geometry consisting of two interlocked rings.;Finally, we demonstrate how this method can be adapted to compute the;spatial distribution of heat flux on the surfaces of the bodies. DOI:;10.1103/PhysRevB.86.220302;13;0;0;0;13;1098-0121;WOS:000312831800001;;;J;Saidi, Wissam A.;Lee, Minyoung;Li, Liang;Zhou, Guangwen;McGaughey, Alan J. H.;Ab initio atomistic thermodynamics study of the early stages of Cu(100);oxidation;PHYSICAL REVIEW B;86;24;245429;10.1103/PhysRevB.86.245429;DEC 26 2012;2012;Using an ab initio atomistic thermodynamics framework, we identify the;stable surface structures during the early stages of Cu(100) oxidation;at finite temperature and pressure conditions. We predict the clean;surface, the 0.25 monolayer oxygen-covered surface, and the missing-row;reconstruction as thermodynamically stable structures in range of;100-1000 K and 10(-15)-10(5) atm, consistent with previous experimental;and theoretical results. We also investigate the thermodynamic;stabilities of possible precursors to Cu2O formation including;missing-row reconstruction structures that include extra on-or;subsurface oxygen atoms as well as boundary phases formed from two;missing-row nanodomains. While these structures are not predicted to be;thermodynamically stable for oxygen chemical potentials below the;nucleation limit of Cu2O, they are likely to exist due to kinetic;hindrance. DOI: 10.1103/PhysRevB.86.245429;Li, Liang/C-5782-2012;7;0;0;0;7;1098-0121;WOS:000312833400014;;;J;Sakuma, R.;Miyake, T.;Aryasetiawan, F.;Self-energy and spectral function of Ce within the GW approximation;PHYSICAL REVIEW B;86;24;245126;10.1103/PhysRevB.86.245126;DEC 26 2012;2012;To investigate how far the GW approximation can treat systems with;strong on-site correlations, we perform calculations of the;self-energies and spectral functions of alpha-and gamma-Ce within the GW;approximation. For this strongly correlated material, the screened;interaction exhibits a complex and rich structure which is attributed to;strong particle-hole transitions involving localized 4f states. This;structure in the screened interaction is carried over to the;self-energy, which in turn yields spectral functions with multiple;peaks. A satellite at around 5 eV above the Fermi level is formed, which;is reminiscent of the experimentally observed upper Hubbard band, while;the experimentally observed peak structure below the Fermi level at -2;eV and disappearance of the quasiparticle peak in the. phase are not;reproduced. DOI: 10.1103/PhysRevB.86.245126;6;0;0;0;6;1098-0121;WOS:000312833400005;;;J;Schulze, T. P.;Smereka, P.;Kinetic Monte Carlo simulation of heteroepitaxial growth: Wetting;layers, quantum dots, capping, and nanorings;PHYSICAL REVIEW B;86;23;235313;10.1103/PhysRevB.86.235313;DEC 26 2012;2012;A new kinetic Monte Carlo algorithm that efficiently accounts for;elastic strain is presented and applied to study various phenomena that;take place during heteroepitaxial growth. For example, it is;demonstrated that faceted quantum dots occur via the layer-by-layer;nucleation of prepyramids on top of a critical layer with faceting;occurring by anisotropic surface diffusion. It is also shown that the;dot growth is enhanced by the depletion of the critical layer which;leaves behind a wetting layer. Capping simulations provide insight into;the mechanisms behind dot erosion and ring formation. The algorithm used;for the simulations presented here is based on the observation that;adatom and dimer motion is essentially decoupled from the elastic field.;This is exploited by decomposing the film into two parts: the weakly;bonded portion and the strongly bonded portion. The weakly bonded;portion is taken to evolve independent of the elastic field. In this way;the elastic field need only be updated infrequently. Extensive;validation reveals that there is little loss of fidelity but the;algorithm is fifteen to twenty times faster. DOI:;10.1103/PhysRevB.86.235313;Smereka, Peter/F-9974-2013;7;0;0;0;7;1098-0121;WOS:000312832600009;;;J;Shukla, D. K.;Francoual, S.;Skaugen, A.;von Zimmermann, M.;Walker, H. C.;Bezmaternykh, L. N.;Gudim, I. A.;Temerov, V. L.;Strempfer, J.;Ho and Fe magnetic ordering in multiferroic HoFe3(BO3)(4);PHYSICAL REVIEW B;86;22;224421;10.1103/PhysRevB.86.224421;DEC 26 2012;2012;Resonant and nonresonant x-ray scattering studies on HoFe3(BO3)(4);reveal competing magnetic ordering of Ho and Fe moments. Temperature and;x-ray polarization dependent measurements employed at the Ho L-3 edge;directly reveal a spiral spin order of the induced Ho moments in the ab;plane propagating along the c axis, a screw-type magnetic structure. At;about 22.5 K the Fe spins are observed to rotate within the basal plane;inducing spontaneous electric polarization, P. Components of P in the;basal plane and along the c axis can be scaled with the separated;magnetic x-ray scattering intensities of the Fe and Ho magnetic;sublattices, respectively. DOI: 10.1103/PhysRevB.86.224421;Walker, Helen/C-4201-2011; Shukla, Dinesh /D-2232-2012;Walker, Helen/0000-0002-7859-5388;;1;0;0;0;1;1098-0121;WOS:000312831800011;;;J;Smolenski, T.;Kazimierczuk, T.;Goryca, M.;Jakubczyk, T.;Klopotowski, L.;Cywinski, L.;Wojnar, P.;Golnik, A.;Kossacki, P.;In-plane radiative recombination channel of a dark exciton in;self-assembled quantum dots;PHYSICAL REVIEW B;86;24;241305;10.1103/PhysRevB.86.241305;DEC 26 2012;2012;We demonstrate evidence for a radiative recombination channel of dark;excitons in self-assembled quantum dots. This channel is due to a light;hole admixture in the excitonic ground state. Its presence was;experimentally confirmed by a direct observation of the dark exciton;photoluminescence from a cleaved edge of the sample. The;polarization-resolved measurements revealed that a photon created from;the dark exciton recombination is emitted only in the direction;perpendicular to the growth axis. Strong correlation between the dark;exciton lifetime and the in-plane hole g factor enabled us to show that;the radiative recombination is a dominant decay channel of the dark;excitons in CdTe/ZnTe quantum dots. DOI: 10.1103/PhysRevB.86.241305;Cywinski, Lukasz/E-5348-2010;8;0;0;0;8;1098-0121;WOS:000312833400004;;;J;Tahara, H.;Bamba, M.;Ogawa, Y.;Minami, F.;Observation of a dynamical mixing process of exciton-polaritons in a;ZnSe epitaxial layer using four-wave mixing spectroscopy;PHYSICAL REVIEW B;86;23;235208;10.1103/PhysRevB.86.235208;DEC 26 2012;2012;We have observed a coherent spectral change of exciton-polaritons in a;ZnSe epitaxial layer through spectrally resolved four-wave mixing;spectroscopy. The spectra exhibit an exchange of the dominant peak;position between the different polariton branches depending on the delay;time of the second pulse. This result reflects the initial creation;process of polaritons with many-body interactions. The calculation based;on the exciton-photon microscopic model reveals that the spectral change;occurs due to the four-particle correlations between heavy-hole and;light-hole excitons; it clearly shows the dynamical mixing process of;exciton-polaritons in the initial creation. DOI:;10.1103/PhysRevB.86.235208;1;0;0;0;1;1098-0121;WOS:000312832600008;;;J;Tomio, Yuh;Suzuura, Hidekatsu;Ando, Tsuneya;Cross-polarized excitons in double-wall carbon nanotubes;PHYSICAL REVIEW B;86;24;245428;10.1103/PhysRevB.86.245428;DEC 26 2012;2012;Optical absorption in double-wall carbon nanotubes for light polarized;perpendicular to the tube axis is studied by taking into account exciton;effects and depolarization effects within an effective-mass theory. The;Coulomb interaction is suppressed by not only intrawall screening;effects but also interwall screening, leading to the reduction of;exciton binding energies and band gaps. When two tubes are both;semiconducting, a clear exciton peak still survives even under;depolarization effects for the outer tube, but the exciton peak of the;inner tube has an asymmetric Fano line shape due to the coupling with;continuum states of the outer tube. When a double-wall nanotube contains;a metallic tube, either inner or outer, the exciton of the;semiconducting tube loses its peak structure under depolarization;effects. DOI: 10.1103/PhysRevB.86.245428;SUZUURA, Hidekatsu/F-7605-2012;0;0;0;0;0;1098-0121;WOS:000312833400013;;;J;Tsvelik, A. M.;Model description of the supersolid state in YBa2Cu3O6+x;PHYSICAL REVIEW B;86;22;220508;10.1103/PhysRevB.86.220508;DEC 26 2012;2012;I employ a semiphenomenological model introduced by Tsvelik and Chubukov;[Phys. Rev. Lett. 98, 237001 (2007)] to describe the state with;coexisting superconductivity (SC) and charge density wave (CDW) recently;discovered in YBa2Cu3O6+x (YBCO). The SC and the CDW order parameter;fields are united in a single pseudospin and can be rotated into each;other. It is suggested that disorder creates isolated pseudospins which;become centers of inelastic scattering of electrons. It is suggested;that this scattering is responsible for the logarithmic upturn in the;resistivity rho(T) similar to - ln T observed at low doping. DOI:;10.1103/PhysRevB.86.220508;0;0;0;0;0;1098-0121;WOS:000312831800003;;;J;Uebelacker, Stefan;Honerkamp, Carsten;Self-energy feedback and frequency-dependent interactions in the;functional renormalization group flow for the two-dimensional Hubbard;model;PHYSICAL REVIEW B;86;23;235140;10.1103/PhysRevB.86.235140;DEC 26 2012;2012;We study the impact of including self-energy feedback and;frequency-dependent interactions on functional renormalization group;flows for the two-dimensional Hubbard model on the square lattice at;weak to moderate coupling strength. Previous studies using the;functional renormalization group had ignored these two ingredients to a;large extent, and the question is how much the flows to strong coupling;analyzed by this method depend on these approximations. Here we include;the imaginary part of the self-energy on the imaginary axis and the;frequency dependence of the running interactions on a frequency mesh of;10 frequencies on the Matsubara axis. We find that (i) the critical;scales for the flows to strong coupling are shifted downward by a factor;that is usually of order 1 but can get larger in specific parameter;regions, and (ii) that the leading channel in this flow does not depend;strongly on whether self-energies and frequency dependence is included;or not. We also discuss the main features of the self-energies;developing during the flows. DOI: 10.1103/PhysRevB.86.235140;5;0;0;0;5;1098-0121;WOS:000312832600002;;;J;Velizhanin, Kirill A.;Shahbazyan, Tigran V.;Long-range plasmon-assisted energy transfer over doped graphene;PHYSICAL REVIEW B;86;24;245432;10.1103/PhysRevB.86.245432;DEC 26 2012;2012;We demonstrate that longitudinal plasmons in doped monolayer graphene;can mediate highly efficient long-range energy transfer between nearby;fluorophores, e.g., semiconductor quantum dots. We derive a simple;analytical expression for the energy transfer efficiency that;incorporates all the essential processes involved. We perform numerical;calculations of the transfer efficiency for a pair of PbSe quantum dots;near graphene for interfluorophore distances of up to 1 mu m and find;that the plasmon-assisted long-range energy transfer can be enhanced by;up to a factor of similar to 10(4) relative to the Forster's transfer in;vacuum.;Velizhanin, Kirill/C-4835-2008;3;0;0;0;3;1098-0121;WOS:000312833400017;;;J;Vivo, Edoardo;Nicoli, Matteo;Engler, Martin;Michely, Thomas;Vazquez, Luis;Cuerno, Rodolfo;Strong anisotropy in surface kinetic roughening: Analysis and;experiments;PHYSICAL REVIEW B;86;24;245427;10.1103/PhysRevB.86.245427;DEC 26 2012;2012;We report an experimental assessment of surface kinetic roughening;properties that are anisotropic in space. Working for two specific;instances of silicon surfaces irradiated by ion-beam sputtering under;diverse conditions (with and without concurrent metallic impurity;codeposition), we verify the predictions and consistency of a recently;proposed scaling Ansatz for surface observables like the two-dimensional;(2D) height power spectral density (PSD). In contrast with other;formulations, this ansatz is naturally tailored to the study of;two-dimensional surfaces, and allows us to readily explore the;implications of anisotropic scaling for other observables, such as;real-space correlation functions and PSD functions for 1D profiles of;the surface. Our results confirm that there are indeed actual;experimental systems whose kinetic roughening is strongly anisotropic,;as consistently described by this scaling analysis. In the light of our;work, some types of experimental measurements are seen to be more;affected by issues like finite space resolution effects, etc. that may;hinder a clear-cut assessment of strongly anisotropic scaling in the;present and other practical contexts. DOI: 10.1103/PhysRevB.86.245427;VAZQUEZ, LUIS/A-1272-2009;VAZQUEZ, LUIS/0000-0001-6220-2810;2;0;0;0;2;1098-0121;WOS:000312833400012;;;J;Weiler, S.;Ulhaq, A.;Ulrich, S. M.;Richter, D.;Jetter, M.;Michler, P.;Roy, C.;Hughes, S.;Phonon-assisted incoherent excitation of a quantum dot and its emission;properties;PHYSICAL REVIEW B;86;24;241304;10.1103/PhysRevB.86.241304;DEC 26 2012;2012;We present a detailed study of a phonon-assisted incoherent excitation;mechanism of single quantum dots. A spectrally detuned continuous-wave;laser couples to a quantum dot transition by mediation of acoustic;phonons, whereby excitation efficiencies up to 20% with respect to;strictly resonant excitation can be achieved at T = 9 K.;Laser-frequency-dependent analysis of the quantum dot intensity;distinctly maps the underlying acoustic phonon bath and shows good;agreement with our polaron master equation theory. An analytical;solution for the steady-state exciton density (which is proportional to;the photoluminescence) is introduced which predicts a broadband;incoherent coupling process mediated by electron-phonon scattering.;Moreover, we investigate the coherence properties of the emitted light;with respect to strictly resonant versus phonon-assisted excitation,;revealing the importance of narrow band triggered emitter-state;initialization for possible applications of a quantum dot exciton system;as a qubit. DOI: 10.1103/PhysRevB.86.241304;Jetter, Michael/I-8270-2012;8;0;0;0;8;1098-0121;WOS:000312833400003;;;J;Zhang, L.;Schwertfager, N.;Cheiwchanchamnangij, T.;Lin, X.;Glans-Suzuki, P. -A.;Piper, L. F. J.;Limpijumnong, S.;Luo, Y.;Zhu, J. F.;Lambrecht, W. R. L.;Guo, J. -H.;Electronic band structure of graphene from resonant soft x-ray;spectroscopy: The role of core-hole effects;PHYSICAL REVIEW B;86;24;245430;10.1103/PhysRevB.86.245430;DEC 26 2012;2012;The electronic structure and band dispersion of graphene on SiO2 have;been studied by x-ray-absorption spectroscopy (XAS), x-ray-emission;spectroscopy (XES), and resonant inelastic x-ray scattering (RIXS).;Using first-principles calculations, it is found that the core-hole;effect is dramatic in XAS while it has negligible consequences in XES.;Strong dispersive features, due to the conservation of crystal momentum,;are observed in RIXS spectra. Simulated RIXS spectra based on the;Kramers-Heisenberg theory agree well with the experimental results,;provided a shift between RIXS and XAS due to the absence or presence of;the core hole is taken into account. DOI: 10.1103/PhysRevB.86.245430;Luo, Yi/B-1449-2009; Zhu, Junfa/E-4020-2010;Luo, Yi/0000-0003-0007-0394; Zhu, Junfa/0000-0003-0888-4261;10;1;0;0;10;1098-0121;WOS:000312833400015;;;J;Zhang, Steven S. -L.;Zhang, Shufeng;Spin convertance at magnetic interfaces;PHYSICAL REVIEW B;86;21;214424;10.1103/PhysRevB.86.214424;DEC 26 2012;2012;Exchange interaction between conduction electrons and magnetic moments;at magnetic interfaces leads to mutual conversion between spin current;and magnon current. We introduce a concept of spin convertance which;quantitatively measures magnon current induced by spin accumulation and;spin current created by magnon accumulation at a magnetic interface. We;predict several phenomena on charge and spin drag across a magnetic;insulator spacer for a few layered structures. DOI:;10.1103/PhysRevB.86.214424;Zhang, Shufeng/G-7833-2011;10;1;0;0;10;1098-0121;WOS:000312830400003;;;J;Nakhmedov, Enver;Alekperov, Oktay;Oppermann, Reinhold;Effects of randomness on the critical temperature in;quasi-two-dimensional organic superconductors;PHYSICAL REVIEW B;86;21;214513;10.1103/PhysRevB.86.214513;DEC 21 2012;2012;The effects of nonmagnetic disorder on the critical temperature T-c of;organic weak-linked layered superconductors with singlet in-plane;pairing are considered. A randomness in the interlayer Josephson;coupling is shown to destroy phase coherence between the layers, and T-c;suppresses smoothly in a large extent of the disorder strength.;Nevertheless, the disorder of arbitrarily high strength cannot destroy;completely the superconducting phase. The obtained quasilinear decrease;of the critical temperature with increasing disorder strength is in good;agreement with experimental measurements. DOI:;10.1103/PhysRevB.86.214513;0;0;0;0;0;1098-0121;WOS:000312693200004;;;J;Sanson, Andrea;Giarola, Marco;Rossi, Barbara;Mariotto, Gino;Cazzanelli, Enzo;Speghini, Adolfo;Vibrational dynamics of single-crystal YVO4 studied by polarized;micro-Raman spectroscopy and ab initio calculations;PHYSICAL REVIEW B;86;21;214305;10.1103/PhysRevB.86.214305;DEC 21 2012;2012;The vibrational properties of yttrium orthovanadate (YVO4) single;crystals, with tetragonal zircon structure, have been investigated by;means of polarized micro-Raman spectroscopy and ab initio calculations.;Raman spectra were taken at different polarizations and orientations;carefully set by the use of a micromanipulator, so that all of the;twelve Raman-active modes, expected on the basis of the group theory,;were selected in turn and definitively assigned in wave number and;symmetry. In particular the E-g(4) mode, assigned incorrectly in;previous literature, has been observed at 387 cm(-1). Moreover, the very;weak E-g(1) mode, peaked at about 137 cm(-1), was clearly observed only;under some excitation wavelengths, and its peculiar Raman excitation;profile was measured within a wide region of the visible. Finally, ab;initio calculations based on density-functional theory have been;performed in order to determine both Raman and infrared vibrational;modes and to corroborate the experimental results. The rather good;agreement between computational and experimental frequencies is slightly;better than in previous computational works and supports our;experimental symmetry assignments. DOI: 10.1103/PhysRevB.86.214305;Mariotto, Gino/B-1629-2013; Speghini, Adolfo/G-3474-2012;1;0;0;0;1;1098-0121;WOS:000312693200002;;;J;Thomson, R. I.;Jain, P.;Cheetham, A. K.;Carpenter, M. A.;Elastic relaxation behavior, magnetoelastic coupling, and order-disorder;processes in multiferroic metal-organic frameworks;PHYSICAL REVIEW B;86;21;214304;10.1103/PhysRevB.86.214304;DEC 21 2012;2012;Resonant ultrasound spectroscopy has been used to analyze magnetic and;ferroelectric phase transitions in two multiferroic metal-organic;frameworks (MOFs) with perovskite-like structures;[(CH3)(2)NH2]M(HCOO)(3)(DMA[M] F, M = Co, Mn). Elastic and anelastic;anomalies are evident at both the magnetic ordering temperature and;above the higher temperature ferroelectric transition. Broadening of;peaks above the ferroelectric transition implies the diminishing;presence of a dynamic process and is caused by an ordering of the;central DMA ([(CH3)(2)NH2](+)) cation which ultimately causes a change;in the hydrogen bond conformation and provides the driving mechanism for;ferroelectricity. This is unlike traditional mechanisms for;ferroelectricity in perovskites which typically involve ionic;displacements. A comparison of these mechanisms is made by drawing on;examples from the literature. Small elastic stiffening at low;temperatures suggests weak magnetoelastic coupling in these materials.;This behavior is consistent with other magnetic systems studied,;although there is no change in Q(-1) associated with magnetic;order-disorder, and is the first evidence of magnetoelastic coupling in;MOFs. This could help lead to the tailoring of MOFs with a larger;coupling leading to magnetoelectric coupling via a common strain;mechanism. DOI: 10.1103/PhysRevB.86.214304;Jain, Prashant/C-8135-2009;15;4;0;0;15;1098-0121;WOS:000312693200001;;;J;Yin, Junqi;Eisenbach, Markus;Nicholson, Don M.;Rusanu, Aurelian;Effect of lattice vibrations on magnetic phase transition in bcc iron;PHYSICAL REVIEW B;86;21;214423;10.1103/PhysRevB.86.214423;DEC 21 2012;2012;The most widely taught example of a magnetic transition is that of Fe at;1043 K. Despite the high temperature most discussions of this transition;focus on the magnetic states of a fixed spin lattice with lattice;vibrations analyzed separately and simply added. We propose a model of;alpha iron that fully couples spin and displacement degrees of freedom.;Results demonstrate a significant departure from models that treat these;coordinates independently. The success of the model rests on a first;principles calculation of changes in energy with respect to spin;configurations on a bcc-iron lattice with displacements. Complete;details of environment-dependent exchange interactions that augment the;Finnis-Sinclair potential are given and comparisons to measurements are;made. We find that coupling has no effect on critical exponents, a small;effect on the transition temperature, T-c, and a large effect on the;entropy of transformation. DOI: 10.1103/PhysRevB.86.214423;Ni, Daye/F-6920-2014;5;0;0;0;5;1098-0121;WOS:000312693200003;;;J;Butler, Keith T.;Harding, John H.;Atomistic simulation of doping effects on growth and charge transport in;Si/Ag interfaces in high-performance solar cells;PHYSICAL REVIEW B;86;24;245319;10.1103/PhysRevB.86.245319;DEC 21 2012;2012;We present the results of a first-principles atomistic simulation study;of the effects of phosphorus doping on the silver/silicon interface as;found in high-performance solar cells. Calculating the interfacial;stabilities of the (110)/(110) and (111)/(111) interfaces we demonstrate;how the presence of phosphorus increases the nucleation rate of silver;crystallites and how the relative stabilities of the interfaces depend;on the doping. We then calculate the electronic structure of the;interfaces, demonstrating how the presence of phosphorus leads to a;buildup of positive charge in the silicon and an opposite negative;charge in the silver. Finally we show how this charge buildup;significantly affects the n-type Schottky barriers at the interfaces, in;both cases lowering the Schottky barrier by more than 100 meV. DOI:;10.1103/PhysRevB.86.245319;4;0;0;0;4;1098-0121;WOS:000312697500004;;;J;Carbotte, J. P.;Schachinger, E.;c-axis optical sum in underdoped superconducting cuprates;PHYSICAL REVIEW B;86;22;224512;10.1103/PhysRevB.86.224512;DEC 21 2012;2012;In conventional metals, the total optical spectral weight under the real;part of the dynamical conductivity remains unchanged in going from;normal to superconducting state. In the underdoped cuprates, however,;experiments found that the interlayer conductivity no longer respects;this sum rule. Here, we find that a recently proposed phenomenological;model of the pseudogap state which is based on ideas of a resonating;valence bond spin liquid naturally leads to such a sum-rule violation.;For the interplane charge transfer, a coherent tunneling model is used.;We also obtain analytic results based on a simplification of the theory;which reduces it to an arc model. This provides further insight into the;effect of the opening of a pseudogap on the c-axis optical conductivity;Re[sigma(c)(omega)]. The missing area under Re[sigma(c)(omega)];normalized to the superfluid density, which is found to be one in the;Fermi-liquid limit with no pseudogap, is considerably reduced when the;pseudogap becomes large and the size of the Luttinger pockets or arcs is;small.;2;0;0;0;2;1098-0121;WOS:000312693900004;;;J;Das Sarma, S.;Sau, Jay D.;Stanescu, Tudor D.;Splitting of the zero-bias conductance peak as smoking gun evidence for;the existence of the Majorana mode in a superconductor-semiconductor;nanowire;PHYSICAL REVIEW B;86;22;220506;10.1103/PhysRevB.86.220506;DEC 21 2012;2012;Recent observations of a zero-bias conductance peak in tunneling;transport measurements in superconductor-semiconductor nanowire devices;provide evidence for the predicted zero-energy Majorana modes, but not;the conclusive proof of their existence. We establish that direct;observation of a splitting of the zero-bias conductance peak can serve;as the smoking gun evidence for the existence of the Majorana mode. We;show that the splitting has an oscillatory dependence on the Zeeman;field (chemical potential) at fixed chemical potential (Zeeman field).;By contrast, when the density is constant rather than the chemical;potential-the likely situation in the current experimental setups-the;splitting oscillations are generically suppressed. Our theory predicts;the conditions under which the splitting oscillations can serve as the;smoking gun for the experimental confirmation of the elusive Majorana;mode.;Das Sarma, Sankar/B-2400-2009;23;0;0;0;23;1098-0121;WOS:000312693900001;;;J;Durach, Maxim;Rusina, Anastasia;Transforming Fabry-Perot resonances into a Tamm mode;PHYSICAL REVIEW B;86;23;235312;10.1103/PhysRevB.86.235312;DEC 21 2012;2012;We propose an optical structure composed of two metal nanolayers;enclosing a distributed Bragg reflector (DBR) mirror. The structure is;an open photonic system whose bound modes are coupled to external;radiation. We apply the special theoretical treatment based on inversion;symmetry of the structure to classify its resonances. We show that the;structure supports resonances transitional between Fabry-Perot modes and;Tamm plasmons. When the dielectric contrast of the DBR is removed these;modes are a pair of conventional Fabry-Perot resonances. They spectrally;merge into a Tamm mode at high contrast. The optical properties of the;structure in the frequency range of the DBR stop band, including highly;beneficial 50% transmittivity through thick structures with;sub-skin-depth metal films, are determined by the hybrid quasinormal;modes of the open nonconservative structure under consideration. The;results can find a broad range of applications in photonics and;optoelectronics, including the possibility of coherent control over;optical fields in the class of structures similar to the one proposed;here. DOI: 10.1103/PhysRevB.86.235312;3;0;1;0;4;1098-0121;WOS:000312694800003;;;J;Gumeniuk, Roman;Sarkar, Rajib;Geibel, Christoph;Schnelle, Walter;Paulmann, Carsten;Baenitz, Michael;Tsirlin, Alexander A.;Guritanu, Violeta;Sichelschmidt, Joerg;Grin, Yuri;Leithe-Jasper, Andreas;YbPtGe2: A multivalent charge-ordered system with an unusual spin;pseudogap;PHYSICAL REVIEW B;86;23;235138;10.1103/PhysRevB.86.235138;DEC 21 2012;2012;We performed a study of the structural and physical properties of;YbPtGe2. This compound is a multivalent charge-ordered system presenting;an unusual spin pseudogap below 200 K. The crystal structure of YbPtGe2;is refined from single-crystal and powder high-resolution synchrotron;x-ray diffraction data at different temperatures. Analysis of the;structural features of YbPtGe2, together with a combined study of Yb;L-III x-ray absorption spectroscopy, magnetic susceptibility chi(T),;thermopower S(T), and Yb-171 and Pt-195 NMR indicate half of the Yb;atoms to be in an intermediate valence state with an electronic;configuration close to 4f(13) (Yb3+), while for the remaining Yb atoms;the 4f(14) (Yb2+) configuration with almost no valence fluctuations is;most likely. A drastic drop of the magnetic susceptibility and a;decrease of the isotropic shift K-195(iso)(T) with decreasing;temperature in the temperature range of 50-200 K evidence the opening of;a spin pseudogap with an activation energy of Delta/k(B) similar to 200;K. Surprisingly, transport properties do not show clear evidence for the;opening of a charge gap, thus excluding a standard Kondo-insulator;scenario. Possible origins for this unusual electronic (valence);behavior are discussed. DOI: 10.1103/PhysRevB.86.235138;Sichelschmidt, Joerg/A-6005-2013; Sarkar, Rajib/G-9738-2011; Tsirlin, Alexander/D-6648-2013;3;1;0;0;3;1098-0121;WOS:000312694800002;;;J;Ivek, T.;Kovacevic, I.;Pinteric, M.;Korin-Hamzic, B.;Tomic, S.;Knoblauch, T.;Schweitzer, D.;Dressel, M.;Cooperative dynamics in charge-ordered state of alpha-(BEDT-TTF)(2)I-3;PHYSICAL REVIEW B;86;24;245125;10.1103/PhysRevB.86.245125;DEC 21 2012;2012;Electric-field-dependent pulse measurements are reported in the;charge-ordered state of alpha-(BEDT-TTF)(2)I-3. At low electric fields;up to about 50 V/cm only negligible deviations from Ohmic behavior can;be identified with no threshold field. At larger electric fields and up;to about 100 V/cm a reproducible negative differential resistance is;observed with a significant change in shape of the measured resistivity;in time. These changes critically depend on whether constant voltage or;constant current is applied to the single crystal. At high enough;electric fields the resistance displays a dramatic drop down to metallic;values and relaxes subsequently in a single-exponential manner to its;low-field steady-state value. We argue that such an;electric-field-induced negative differential resistance and switching to;transient states are fingerprints of cooperative domain-wall dynamics;inherent to two-dimensional bond-charge density waves with;ferroelectric-like nature. DOI: 10.1103/PhysRevB.86.245125;Dressel, Martin/D-3244-2012; Ivek, Tomislav/D-5298-2011; Tomic, Silvia/D-5466-2011;3;0;0;0;3;1098-0121;WOS:000312697500002;;;J;Katanin, A.;Longitudinal and transverse static spin fluctuations in layered;ferromagnets and antiferromagnets;PHYSICAL REVIEW B;86;22;224416;10.1103/PhysRevB.86.224416;DEC 21 2012;2012;We analyze the momentum dependence of static susceptibilities of layered;local-moment systems below Curie (Neel) temperature within the 1/S;expansion, the renormalization-group (RG) approach, and the first order;of the 1/N expansion. We argue that already at sufficiently low;temperatures the previously known results of the spin-wave theory and RG;approach for the transverse spin susceptibility acquire strong;corrections, which appear due to the interaction of the incoming magnon;having momentum q with virtual magnons having momenta k < q. Such;corrections cannot be treated in the standard RG approach but can be;described by both 1/S and 1/N expansions. The results of these;expansions can be successfully extrapolated to T = T-M, yielding the;correct weight of static spin fluctuations, determined by the O(3);symmetry. For the longitudinal susceptibility, the summation of leading;terms of the 1/S expansion within the parquet approach allows us to;fulfill the sum rule for the weights of transverse and longitudinal;fluctuations in a broad temperature region below T-M outside the;critical regime. We also discuss the effect of longitudinal spin;fluctuations on the (sublattice) magnetization of layered systems.;Katanin, Andrey/J-4706-2013;Katanin, Andrey/0000-0003-1574-657X;0;0;0;0;0;1098-0121;WOS:000312693900002;;;J;Liu, Jingbo;Mendis, Rajind;Mittleman, Daniel M.;Designer reflectors using spoof surface plasmons in the terahertz range;PHYSICAL REVIEW B;86;24;241405;10.1103/PhysRevB.86.241405;DEC 21 2012;2012;We show that spoof surface plasmons can be used to control the;reflection of terahertz radiation at the output facet of a;parallel-plate waveguide. Using a periodic groove pattern on the output;face, reflectivity approaching 100% can be achieved within a limited;spectral range. Unlike the conventional geometry for plasmon-enhanced;transmission, this approach enables a unique method for studying the;coupling between the guided mode and the surface plasmon through;angle-dependent measurement of the plasmon-mediated reflection. A simple;model incorporating the surface plasmon coupling to the waveguide mode;can adequately explain all of the observed phenomena, including the;observed Goos-Hanchen shift in the reflected beam. DOI:;10.1103/PhysRevB.86.241405;2;0;0;0;2;1098-0121;WOS:000312697500001;;;J;Sato, Toshihiro;Hattori, Kazumasa;Tsunetsugu, Hirokazu;Transport criticality at the Mott transition in a triangular-lattice;Hubbard model;PHYSICAL REVIEW B;86;23;235137;10.1103/PhysRevB.86.235137;DEC 21 2012;2012;We study electric transport near the Mott metal-insulator transition in;a triangular-lattice Hubbard model at half filling. We calculate optical;conductivity sigma(omega) based on a cellular dynamical mean-field;theory including vertex corrections inside the cluster. Near the Mott;critical end point, a Drude analysis in the metallic region suggests;that the change in the Drude weight is important rather than that in the;transport scattering rate for the Mott transition. In the insulating;region, there emerges an "in-gap" peak in sigma(omega) at low omega near;the Mott transition, and this smoothly connects to the Drude peak in the;metallic region with decreasing Coulomb repulsion. We find that the;weight of these peaks exhibits a power-law behavior upon controlling;Coulomb repulsion at the critical temperature. The obtained critical;exponent suggests that conductivity does not correspond to magnetization;or energy density of the Ising universality class in contrast to several;previous works. DOI: 10.1103/PhysRevB.86.235137;Hattori, Kazumasa/B-2554-2013;1;0;0;0;1;1098-0121;WOS:000312694800001;;;J;Schaffer, Robert;Bhattacharjee, Subhro;Kim, Yong Baek;Quantum phase transition in Heisenberg-Kitaev model;PHYSICAL REVIEW B;86;22;224417;10.1103/PhysRevB.86.224417;DEC 21 2012;2012;We explore the nature of the quantum phase transition between a;magnetically ordered state with collinear spin pattern and a gapless;Z(2) spin liquid in the Heisenberg-Kitaev model. We construct a slave;particle mean-field theory for the Heisenberg-Kitaev model in terms of;complex fermionic spinons. It is shown that this theory, formulated in;the appropriate basis, is capable of describing the Kitaev spin liquid;as well as the transition between the gapless Z(2) spin liquid and the;so-called stripy antiferromagnet. Within our mean-field theory, we find;a discontinuous transition from the Z(2) spin liquid to the stripy;antiferromagnet. We argue that subtle spinon confinement effects,;associated with the instability of gapped U(1) spin liquid in two;spatial dimensions, play an important role at this transition. The;possibility of an exotic continuous transition is briefly addressed.;13;0;0;0;13;1098-0121;WOS:000312693900003;;;J;Schaich, W. L.;Puscasu, Irina;Tuning infrared emission from microstrip arrays;PHYSICAL REVIEW B;86;24;245423;10.1103/PhysRevB.86.245423;DEC 21 2012;2012;Earlier work has shown that a narrow-frequency-band, wide-angle emission;is produced by an array of metal patches supported on a thin dielectric;layer covering a ground plane. The modes responsible for this emission;are local plasmons trapped under the metal patches. As the dielectric;layer thickness, h(d), is increased, the resonant emission fades in;strength because the plasmon modes can no longer be trapped under a;single patch. Further increases in h(d), making it comparable to the;light wavelength in the dielectric layer, lead to a collection of new;emission peaks. These are narrower than the one peak found for small;h(d) but they are not well separated. We have found that some of these;peaks can be suppressed over a narrow range of h(d). This leaves one;with well-separated, narrow-band emission peaks. We have identified the;physical mechanism for this selective suppression of emission peaks.;DOI: 10.1103/PhysRevB.86.245423;0;0;0;0;0;1098-0121;WOS:000312697500005;;;J;Teperik, T. V.;Degiron, A.;Design strategies to tailor the narrow plasmon-photonic resonances in;arrays of metallic nanoparticles;PHYSICAL REVIEW B;86;24;245425;10.1103/PhysRevB.86.245425;DEC 21 2012;2012;Arrays of metallic nanoparticles can support mixed plasmon-photonic;resonances known as lattice surface modes. Their properties are well;known, but a general strategy to control their properties is still;lacking. In this article, we offer a perspective on the formation of;these modes and show that their excitation depends on constructive and;destructive interferences between the excitation field and the light;scattered by the resonant nanoparticles. It is therefore possible to;design the response of the system through a careful choice of the;excitation conditions and/or by tuning the polarizability of the;particles forming the periodic arrays. DOI: 10.1103/PhysRevB.86.245425;10;0;0;0;10;1098-0121;WOS:000312697500007;;;J;Thakurathi, Manisha;Sen, Diptiman;Dutta, Amit;Fidelity susceptibility of one-dimensional models with twisted boundary;conditions;PHYSICAL REVIEW B;86;24;245424;10.1103/PhysRevB.86.245424;DEC 21 2012;2012;Recently it has been shown that the fidelity of the ground state of a;quantum many-body system can be used todetect its quantum critical;points (QCPs). If g denotes the parameter in the Hamiltonian with;respect to which the fidelity is computed, we find that for;one-dimensional models with large but finite size, the fidelity;susceptibility chi(F) can detect a QCP provided that the correlation;length exponent satisfies nu < 2. We then show that chi(F) can be used;to locate a QCP even if nu >= 2 if we introduce boundary conditions;labeled by a twist angle N theta, where N is the system size. If the QCP;lies at g = 0, we find that if N is kept constant, chi(F) has a scaling;form given by chi(F) similar to theta(-2/nu) f (g/theta(1/nu)) if theta;<< 2 pi/N. We illustrate this both in a tight-binding model of fermions;with a spatially varying chemical potential with amplitude h and period;2q in which nu = q, and in a XY spin-1/2 chain in which nu = 2. Finally;we show that when q is very large, the model has two additional QCPs at;h = +/- 2 which cannot be detected by studying the energy spectrum but;are clearly detected by chi(F). The peak value and width of chi(F) seem;to scale as nontrivial powers of q at these QCPs. We argue that these;QCPs mark a transition between extended and localized states at the;Fermi energy. DOI: 10.1103/PhysRevB.86.245424;3;0;0;0;3;1098-0121;WOS:000312697500006;;;J;Thalmeier, Peter;Akbari, Alireza;Inelastic magnetic scattering effect on local density of states of;topological insulators;PHYSICAL REVIEW B;86;24;245426;10.1103/PhysRevB.86.245426;DEC 21 2012;2012;Magnetic ions such as Fe, Mn, and Co with localized spins may be;adsorbed on the surface of topological insulators such as Bi2Se3. They;form scattering centers for the helical surface states which have a;Dirac cone dispersion as long as the local spins are disordered.;However, the local density of states (LDOS) may be severely modified by;the formation of bound states. Commonly, only elastic scattering due to;normal and exchange potentials of the adatom is assumed. Magnetization;measurements show, however, that considerable magnetic single-ion;anisotropies exist which lead to a splitting of the local impurity spin;states, resulting in a singlet ground state. Therefore inelastic;scattering processes of helical Dirac electrons become possible, as;described by a dynamical local self-energy of second order in the;exchange interaction. The self energy influences bound-state formation;and leads to significant new anomalies in the LDOS at low energies and;low temperatures, which we calculate within the T-matrix approach. We;propose that they may be used for spectroscopy of local impurity spin;states by appropriate tuning of the chemical potential and magnetic;field. DOI: 10.1103/PhysRevB.86.245426;Akbari, Alireza/A-3738-2012;0;0;0;0;0;1098-0121;WOS:000312697500008;;;J;Ungier, W.;Wilamowski, Z.;Jantsch, W.;Spin-orbit force due to Rashba coupling at the spin resonance condition;PHYSICAL REVIEW B;86;24;245318;10.1103/PhysRevB.86.245318;DEC 21 2012;2012;We analyze the effect of Rashba type of spin-orbit (SO) coupling on the;electron dynamics and the rf electrical conductivity. We show that in;addition to the momentum current an additional SO current occurs which;can be attributed to a SO contribution to the electric Lorentz force.;This Rashba SO force is proportional to the time derivative of the;electron magnetization. Therefore, in a static electromagnetic field SO;interaction does not affect the electric or the spin current. Applying;an rf electric current, however, an rf magnetization can be efficiently;induced via the rf Rashba field. Thus, at the Larmor frequency a;characteristic current induced electron spin resonance occurs. There the;absorbed electric power is efficiently converted into magnetic energy.;DOI: 10.1103/PhysRevB.86.245318;1;0;0;0;1;1098-0121;WOS:000312697500003;;;J;Chen, Xie;Wen, Xiao-Gang;Chiral symmetry on the edge of two-dimensional symmetry protected;topological phases;PHYSICAL REVIEW B;86;23;235135;10.1103/PhysRevB.86.235135;DEC 20 2012;2012;Symmetry protected topological (SPT) states are short-range entangled;states with symmetry. The boundary of a SPT phases has either gapless;excitations or degenerate ground states, around a gapped bulk. Recently,;we proposed a systematic construction of SPT phases in interacting;bosonic systems, however it is not very clear what is the form of the;low-energy excitations on the gapless edge. In this paper, we answer;this question for two-dimensional (2D) bosonic SPT phases with Z(N) and;U(1) symmetry. We find that while the low-energy modes of the gapless;edges are nonchiral, symmetry acts on them in a "chiral" way, i.e., acts;on the right movers and the left movers differently. This special;realization of symmetry protects the gaplessness of the otherwise;unstable edge states by prohibiting a direct scattering between the left;and right movers. Moreover, understanding of the low-energy effective;theory leads to experimental predictions about the SPT phases. In;particular, we find that all the 2D U(1) SPT phases have even integer;quantized Hall conductance. DOI: 10.1103/PhysRevB.86.235135;12;1;1;0;12;1098-0121;WOS:000312694400001;;;J;Croy, Alexander;Midtvedt, Daniel;Isacsson, Andreas;Kinaret, Jari M.;Nonlinear damping in graphene resonators;PHYSICAL REVIEW B;86;23;235435;10.1103/PhysRevB.86.235435;DEC 20 2012;2012;Based on a continuum mechanical model for single-layer graphene, we;propose and analyze a microscopic mechanism for dissipation in;nanoelectromechanical graphene resonators. We find that coupling between;flexural modes and in-plane phonons leads to linear and nonlinear;damping of out-of-plane vibrations. By tuning external parameters such;as bias and ac voltages, one can cross over from a linear-to a;nonlinear-damping dominated regime. We discuss the behavior of the;effective quality factor in this context. DOI:;10.1103/PhysRevB.86.235435;Isacsson, Andreas/A-6932-2008; Croy, Alexander/D-4149-2013;Croy, Alexander/0000-0001-9296-9350;13;1;0;0;13;1098-0121;WOS:000312694400004;;;J;Juarez-Reyes, L.;Pastor, G. M.;Stepanyuk, V. S.;Tuning substrate-mediated magnetic interactions by external surface;charging: Co and Fe impurities on Cu(111);PHYSICAL REVIEW B;86;23;235436;10.1103/PhysRevB.86.235436;DEC 20 2012;2012;The substrate-mediated magnetic interactions between substitutional Co;and Fe impurities at the Cu(111) surface have been theoretically;investigated as a function of external surface charging. The;modification of the interactions as a result of the metallic screening;and charge rearrangements are determined self-consistently from first;principles by using the Green's-function Korringa-Kohn-Rostoker method.;As in the neutral Cu(111) surface, the effective magnetic exchange;coupling Delta E between impurities shows;Ruderman-Kittel-Kasuya-Yosida-like (RKKY) oscillations as a function of;the interimpurity distance. At large interimpurity distances, the;wavelength of the RKKY oscillation is not significantly affected by the;value and polarity of the external surface charge. Still, important;changes in the magnitude of Delta E are observed. For short distances,;up to fourth nearest neighbors, surface charging offers remarkable;possibilities of controlling the sign and strength of the magnetic;coupling. A nonmonotonous dependence of Delta E, including changes from;ferromagnetic to antiferromagnetic coupling, is observed as a function;of overlayer charging. The charge-induced changes in the surface;electronic structure, local magnetic moments, electronic densities of;states, and interaction energies are analyzed from a local perspective.;The resulting possibilities of manipulating the magnetic interactions in;surface nanostructures are discussed. DOI: 10.1103/PhysRevB.86.235436;2;0;0;0;2;1098-0121;WOS:000312694400005;;;J;Kurahashi, M.;Sun, X.;Yamauchi, Y.;Magnetic properties of O-2 adsorbed on Cu(100): A spin-polarized;metastable He beam study;PHYSICAL REVIEW B;86;24;245421;10.1103/PhysRevB.86.245421;DEC 20 2012;2012;Magnetic properties of O-2 adsorbed on Cu(100) were investigated by;monitoring the spin dependence in Penning ionization of metastable;He(2(3)S) under external magnetic fields of 0-5 T. A clear spin;polarization was found for the 3 sigma and 1 pi(u) orbitals of;physisorbed O-2 under external fields, while the spin polarization;disappeared when O-2 was changed into the chemisorbed state at >50 K.;The magnetic susceptibility at the surface of multilayer and monolayer;of physisorbed O-2 on Cu(100) was similar to that for the bulk liquid;O-2. Observed exchange splittings and spin polarization suggest that a;physisorbed O-2 molecule has a magnetic moment close to that for an;isolated O-2 molecule even at submonolayer coverages, while a density;functional theory calculation predicts a much reduced magnetic moment;for O-2 directly adsorbed on Cu(100). DOI: 10.1103/PhysRevB.86.245421;KURAHASHI, Mitsunori/H-2801-2011;1;0;0;0;1;1098-0121;WOS:000312696900004;;;J;Livneh, Y.;Klipstein, P. C.;Klin, O.;Snapi, N.;Grossman, S.;Glozman, A.;Weiss, E.;k . p model for the energy dispersions and absorption spectra of;InAs/GaSb type-II superlattices;PHYSICAL REVIEW B;86;23;235311;10.1103/PhysRevB.86.235311;DEC 20 2012;2012;We have fitted the k . p model derived recently by one of the authors;[Klipstein, Phys. Rev. B 81, 235314 (2010)] to experimentally measured;photoabsorption spectra at 77 and 300 K for representative InAs/GaSb;superlattices with band-gap wavelengths between 4.3 and 10.5 mu m. The;model is able to reproduce the main features of the absorption spectra,;including a strong peak from the zone boundary HH2 -> E-1 transition. We;have also used the same model to predict the band-gap wavelengths of;over 30 more superlattices, measured by photoluminescence spectroscopy.;The maximum error is 0.6 mu m, which corresponds to an uncertainty of;less than 0.4 ML in layer width. This is comparable with the;experimental uncertainty in layer widths, determined by in situ;beam-flux measurements in the growth reactor. By eliminating all terms;from the Hamiltonian, the energy contribution of which is less than the;error due to the uncertainty in layer widths, the number of unknown;fitting parameters has been reduced to six: two Luttinger parameters,;three interface parameters, and the valence band offset. The remaining;four Luttinger parameters are not independent and are determined from;the two independent ones. Our set of Luttinger parameters is close to;that reported by Lawaetz [Phys. Rev. B 4, 3460 (1971)], with a maximum;deviation in any parameter of 0.6. The interface parameters are diagonal;and have values of D-S = 3 eV angstrom, D-X = 1.3 eV angstrom, and D-Z =;1.1 eV angstrom at 77 K. The off-diagonal interface parameters alpha and;beta are too small to be fitted with any accuracy and have negligible;effect on the unpolarized photoabsorption spectra. We also propose;values for the room-temperature Luttinger and interface parameters. The;fitted unstrained InAs/GaSb band overlap is 0.142 eV. DOI:;10.1103/PhysRevB.86.235311;5;0;0;0;5;1098-0121;WOS:000312694400003;;;J;Sales, Brian C.;May, Andrew F.;McGuire, Michael A.;Stone, Matthew B.;Singh, David J.;Mandrus, David;Transport, thermal, and magnetic properties of the narrow-gap;semiconductor CrSb2;PHYSICAL REVIEW B;86;23;235136;10.1103/PhysRevB.86.235136;DEC 20 2012;2012;Resistivity, the Hall effect, the Seebeck coefficient, thermal;conductivity, heat capacity, and magnetic susceptibility data are;reported for CrSb2 single crystals. In spite of some unusual features in;electrical transport and Hall measurements below 100 K, only one phase;transition is found in the temperature range from 2 to 750 K;corresponding to long-range antiferromagnetic order below T-N;approximate to 273 K. Many of the low-temperature properties can be;explained by the thermal depopulation of carriers from the conduction;band into a low-mobility band located approximately 16 meV below the;conduction-band edge, as deduced from the Hall effect data. In analogy;with what occurs in Ge, the low-mobility band is likely an impurity;band. The Seebeck coefficient, S, is large and negative for temperatures;from 2 to 300 K ranging from approximate to -70 mu V/K at 300 K to -4500;mu V/K at 18 K. A large maximum in vertical bar S vertical bar at 18 K;is likely due to phonon drag, with the abrupt drop in vertical bar S;vertical bar below 18 K due to the thermal depopulation of the;high-mobility conduction band. The large thermal conductivity between 10;and 20 K (approximate to 350 W/m K) is consistent with this;interpretation, as are detailed calculations of the Seebeck coefficient;made using the complete calculated electronic structure. These data are;compared to data reported for FeSb2, which crystallizes in the same;marcasite structure, and FeSi, another unusual narrow-gap semiconductor.;DOI: 10.1103/PhysRevB.86.235136;Stone, Matthew/G-3275-2011; McGuire, Michael/B-5453-2009; May, Andrew/E-5897-2011; Mandrus, David/H-3090-2014;McGuire, Michael/0000-0003-1762-9406;;7;0;0;0;7;1098-0121;WOS:000312694400002;;;J;Toews, W.;Pastor, G. M.;Spin-polarized density-matrix functional theory of the single-impurity;Anderson model;PHYSICAL REVIEW B;86;24;245123;10.1103/PhysRevB.86.245123;DEC 20 2012;2012;Lattice density functional theory (LDFT) is used to investigate spin;excitations in the single-impurity Anderson model. In this method, the;single-particle density matrix gamma(ij sigma) with respect to the;lattice sites replaces the wave function as the basic variable of the;many-body problem. A recently developed two-level approximation (TLA) to;the interaction-energy functional W[gamma] is extended to systems having;spin-polarized density distributions and bond orders. This allows us to;investigate the effect of external magnetic fields and, in particular,;the important singlet-triplet gap Delta E, which determines the Kondo;temperature. Applications to finite Anderson rings and square lattices;show that the gap Delta E as well as other ground-state and;excited-state properties are very accurately reproduced. One concludes;that the spin-polarized TLA is reliable in all interaction regimes, from;weak to strong correlations, for different hybridization strengths and;for all considered impurity valence states. In this way the efficiency;of LDFT to account for challenging electron-correlation effects is;demonstrated. DOI: 10.1103/PhysRevB.86.245123;1;0;0;0;1;1098-0121;WOS:000312696900002;;;J;Weichselbaum, Andreas;Tensor networks and the numerical renormalization group;PHYSICAL REVIEW B;86;24;245124;10.1103/PhysRevB.86.245124;DEC 20 2012;2012;The full-density-matrix numerical renormalization group has evolved as a;systematic and transparent setting for the calculation of;thermodynamical quantities at arbitrary temperatures within the;numerical renormalization group (NRG) framework. It directly evaluates;the relevant Lehmann representations based on the complete basis sets;introduced by Anders and Schiller [Phys. Rev. Lett. 95, 196801 (2005)].;In addition, specific attention is given to the possible feedback from;low-energy physics to high energies by the explicit and careful;construction of the full thermal density matrix, naturally generated;over a distribution of energy shells. Specific examples are given in;terms of spectral functions (fdmNRG), time-dependent NRG (tdmNRG),;Fermi-golden-rule calculations (fgrNRG) as well as the calculation of;plain thermodynamic expectation values. Furthermore, based on the very;fact that, by its iterative nature, the NRG eigenstates are naturally;described in terms of matrix product states, the language of tensor;networks has proven enormously convenient in the description of the;underlying algorithmic procedures. This paper therefore also provides a;detailed introduction and discussion of the prototypical NRG;calculations in terms of their corresponding tensor networks. DOI:;10.1103/PhysRevB.86.245124;Weichselbaum, Andreas/I-8858-2012;Weichselbaum, Andreas/0000-0002-5832-3908;8;0;0;0;8;1098-0121;WOS:000312696900003;;;J;Yan, Jun;Jacobsen, Karsten W.;Thygesen, Kristian S.;Conventional and acoustic surface plasmons on noble metal surfaces: A;time-dependent density functional theory study;PHYSICAL REVIEW B;86;24;241404;10.1103/PhysRevB.86.241404;DEC 20 2012;2012;First-principles calculations of the conventional and acoustic surface;plasmons (CSPs and ASPs) on the (111) surfaces of Cu, Ag, and Au are;presented. The effect of s-d interband transitions on both types of;plasmons is investigated by comparing results from the local density;approximation and an orbital-dependent exchange-correlation (xc);potential that improves the position and width of the d bands. The;plasmon dispersions calculated with the latter xc potential agree well;with electron energy loss spectroscopy (EELS) experiments. For both the;CSP and ASP, the same trend of Cu < Au < Ag is found for the plasmon;energies and is attributed to the reduced screening by interband;transitions from Cu, to Au and Ag. This trend for the ASP, however,;contradicts a previous model prediction. While the ASP is seen as a weak;feature in the EELS, it can be clearly identified in the static and;dynamic dielectric band structure. DOI: 10.1103/PhysRevB.86.241404;Jacobsen, Karsten/B-3602-2009; Yan, Jun/K-3474-2012; Thygesen, Kristian /B-1062-2011;7;0;0;0;7;1098-0121;WOS:000312696900001;;;J;Euchner, H.;Pailhes, S.;Nguyen, L. T. K.;Assmus, W.;Ritter, F.;Haghighirad, A.;Grin, Y.;Paschen, S.;de Boissieu, M.;Phononic filter effect of rattling phonons in the thermoelectric;clathrate Ba8Ge40+xNi6-x;PHYSICAL REVIEW B;86;22;224303;10.1103/PhysRevB.86.224303;DEC 20 2012;2012;One of the key requirements for good thermoelectric materials is a low;lattice thermal conductivity. Here we present a combined neutron;scattering and theoretical investigation of the lattice dynamics in the;type I clathrate system Ba-Ge-Ni, which fulfills this requirement. We;observe a strong hybridization between phonons of the Ba guest atoms and;acoustic phonons of the Ge-Ni host structure over a wide region of the;Brillouin zone, which is in contrast with the frequently adopted picture;of isolated Ba atoms in Ge-Ni host cages. It occurs without a strong;decrease of the acoustic phonon lifetime, which contradicts the usual;assumption of strong anharmonic phonon-phonon scattering processes.;Within the framework of ab initio density-functional theory calculations;we interpret these hybridizations as a series of anticrossings which act;as a low-pass filter, preventing the propagation of acoustic phonons. To;highlight the effect of such a phononic low-pass filter on the thermal;transport, we compute the contribution of acoustic phonons to the;thermal conductivity of Ba8Ge40Ni6 and compare it to those of pure Ge;and a Ge-46 empty-cage model system. DOI: 10.1103/PhysRevB.86.224303;Paschen, Silke/C-3841-2014;Paschen, Silke/0000-0002-3796-0713;8;1;0;0;8;1098-0121;WOS:000312693600002;;;J;Harvey, J. -P.;Gheribi, A. E.;Chartrand, P.;Thermodynamic integration based on classical atomistic simulations to;determine the Gibbs energy of condensed phases: Calculation of the;aluminum-zirconium system;PHYSICAL REVIEW B;86;22;224202;10.1103/PhysRevB.86.224202;DEC 20 2012;2012;In this work, an in silico procedure to generate a fully coherent set of;thermodynamic properties obtained from classical molecular dynamics (MD);and Monte Carlo (MC) simulations is proposed. The procedure is applied;to the Al-Zr system because of its importance in the development of high;strength Al-Li alloys and of bulk metallic glasses. Cohesive energies of;the studied condensed phases of the Al-Zr system (the liquid phase, the;fcc solid solution, and various orthorhombic stoichiometric compounds);are calculated using the modified embedded atom model (MEAM) in the;second-nearest-neighbor formalism (2NN). The Al-Zr MEAM-2NN potential is;parameterized in this work using ab initio and experimental data found;in the literature for the AlZr3-L1(2) structure, while its predictive;ability is confirmed for several other solid structures and for the;liquid phase. The thermodynamic integration (TI) method is implemented;in a general MC algorithm in order to evaluate the absolute Gibbs energy;of the liquid and the fcc solutions. The entropy of mixing calculated;from the TI method, combined to the enthalpy of mixing and the heat;capacity data generated from MD/MC simulations performed in the;isobaric-isothermal/canonical (NPT/NVT) ensembles are used to;parameterize the Gibbs energy function of all the condensed phases in;the Al-rich side of the Al-Zr system in a CALculation of PHAse Diagrams;(CALPHAD) approach. The modified quasichemical model in the pair;approximation (MQMPA) and the cluster variation method (CVM) in the;tetrahedron approximation are used to define the Gibbs energy of the;liquid and the fcc solid solution respectively for their entire range of;composition. Thermodynamic and structural data generated from our MD/MC;simulations are used as input data to parameterize these thermodynamic;models. A detailed analysis of the validity and transferability of the;Al-Zr MEAM-2NN potential is presented throughout our work by comparing;the predicted properties obtained from this formalism with available ab;initio and experimental data for both liquid and solid phases. DOI:;10.1103/PhysRevB.86.224202;0;0;0;0;0;1098-0121;WOS:000312693600001;;;J;Hoffman, Silas;Upadhyaya, Pramey;Tserkovnyak, Yaroslav;Spin-torque ac impedance in magnetic tunnel junctions;PHYSICAL REVIEW B;86;21;214420;10.1103/PhysRevB.86.214420;DEC 20 2012;2012;Subjecting a magnetic tunnel junction (MTJ) to a spin-transfer torque;and/or electric voltage-induced magnetic anisotropy induces magnetic;precession, which can reciprocally pump current through the circuit.;This results in an ac impedance, which is sensitive to the magnetic;field applied to the MTJ. Measurement of this impedance can be used to;characterize the nature of the coupling between the magnetic free layer;and the electric input as well as a readout of the magnetic;configuration of the MTJ. DOI: 10.1103/PhysRevB.86.214420;1;0;0;0;1;1098-0121;WOS:000312674200003;;;J;Martinez, Enrique;Caro, Alfredo;Atomistic modeling of long-term evolution of twist boundaries under;vacancy supersaturation;PHYSICAL REVIEW B;86;21;214109;10.1103/PhysRevB.86.214109;DEC 20 2012;2012;Vacancy accumulation in 4 degrees {110} bcc Fe and 2 degrees {111} fcc;Cu twist boundaries (TBs) has been studied. These interfaces are;characterized by different sets of screw dislocations: two sets of;a(0)/2 < 111 > and one set of a(0)/2 < 100 > in Fe and three sets of;a(0)/6 < 112 > in Cu. We observe that vacancies agglomerate;preferentially at the misfit dislocation intersections (MDIs), where;their formation energy is lower. In bcc the dislocation structure;remains stable, but in fcc the interface rearranges itself increasing;the stacking fault area. To perform this study a kinetic Monte Carlo;algorithm coupled with the molecular dynamics code LAMMPS has been;developed. Atomic positions are relaxed at every step after an event;takes place to account for long-range strain fields. The events;considered in this work are vacancy migration hops. The rates are;calculated via harmonic transition state theory with the energy at the;saddle point obtained either by a linear approximation considering the;relaxed energy of the initial and final configurations or the;nudged-elastic band method depending on the vacancy position in the;sample. Vacancy diffusivities at both interfaces have also been;calculated. For the {110} TB in Fe the diffusivity is of the same order;of magnitude as in bulk (D-TB(Fe) = 2.60 x 10(-13) m(2)/s) while at the;{111} TB in Cu, diffusivities are two orders of magnitude larger than in;bulk (D-TB(Cu) = 2.06 x 10(-12) m(2)/s). The correlation factors at both;interfaces are extremely low (f(TB)(Fe) = 1.61 x 10(-4) and f(TB)(Cu) =;3.34 x 10(-4)), highlighting the importance of trapping sites at these;interfaces. DOI: 10.1103/PhysRevB.86.214109;3;1;0;0;3;1098-0121;WOS:000312674200002;;;J;McCash, Kevin;Srikanth, A.;Ponomareva, I.;Competing polarization reversal mechanisms in ferroelectric nanowires;PHYSICAL REVIEW B;86;21;214108;10.1103/PhysRevB.86.214108;DEC 20 2012;2012;Polarization reversal in ferroelectrics has been a subject of intense;interest for many years owing to both its scientific appeal and;practical utility. In recent years the interest has increased even;further thanks to the expectations of achieving ultrafast polarization;reversal at the nanoscale. While most of the studies up to now are;focused on the polarization reversal in ferroelectric thin films, we;report the intrinsic dynamics of ultrafast polarization reversal in;ferroelectric nanowires. Using atomistic first-principles-based;simulations, we trace the time evolution of polarization under applied;electric field to reveal the existence of two competing polarization;reversal mechanisms: (i) domain-driven and (ii) homogeneous. The;analysis of their microscopic origin allows us to postulate the;associated laws and leads to a deeper understanding of polarization;reversal dynamics in general. In addition, we find that in defect-free;nanowires the polarization reversal can occur within picoseconds, which;potentially is very promising for ultrafast memory and other;applications. DOI: 10.1103/PhysRevB.86.214108;Ponomareva, Inna/C-4067-2012;6;0;0;0;6;1098-0121;WOS:000312674200001;;;J;Silaev, M. A.;Volovik, G. E.;Topological Fermi arcs in superfluid He-3;PHYSICAL REVIEW B;86;21;214511;10.1103/PhysRevB.86.214511;DEC 20 2012;2012;We consider fermionic states bound on domain walls in a Weyl superfluid;He-3-A and on interfaces between He-3-A and a fully gapped topological;superfluid He-3-B. We demonstrate that in both cases the fermionic;spectrum contains Fermi arcs that are continuous nodal lines of energy;spectrum terminating at the projections of two Weyl points to the plane;of surface states in momentum space. The number of Fermi arcs is;determined by the index theorem that relates bulk values of the;topological invariant to the number of zero-energy surface states. The;index theorem is consistent with an exact spectrum of Bogolubov-de;Gennes equation obtained numerically, meanwhile, the quasiclassical;approximation fails to reproduce the correct number of zero modes. Thus;we demonstrate that topology describes the properties of the exact;spectrum beyond the quasiclassical approximation. DOI:;10.1103/PhysRevB.86.214511;8;0;0;0;8;1098-0121;WOS:000312674200006;;;J;Sluka, V.;Kakay, A.;Deac, A. M.;Buergler, D. E.;Hertel, R.;Schneider, C. M.;Quenched Slonczewski windmill in spin-torque vortex oscillators;PHYSICAL REVIEW B;86;21;214422;10.1103/PhysRevB.86.214422;DEC 20 2012;2012;We present a combined analytical and numerical study on double-vortex;spin-torque nano-oscillators and describe a mechanism that suppresses;the windmill modes. The magnetization dynamics is dominated by the;gyrotropic precession of the vortex in one of the ferromagnetic layers.;In the other layer, the vortex gyration is strongly damped. The;dominating layer for the magnetization dynamics is determined by the;sign of the product between sample current and the chiralities.;Measurements on Fe/Ag/Fe nanopillars support these findings. The results;open up a new perspective for building high quality-factor spin-torque;oscillators operating at selectable, well-separated frequency bands.;DOI: 10.1103/PhysRevB.86.214422;Deac, Alina/D-2961-2012; Buergler, Daniel/I-7408-2012; Kakay, Attila/B-7106-2008; Schneider, Claus/H-7453-2012;Buergler, Daniel/0000-0002-5579-4886; Kakay, Attila/0000-0002-3195-219X;;Schneider, Claus/0000-0002-3920-6255;4;0;0;0;4;1098-0121;WOS:000312674200005;;;J;Strohm, C.;Roth, T.;Detlefs, C.;van der Linden, P.;Mathon, O.;Element-selective magnetometry in ferrimagnetic erbium iron garnet;PHYSICAL REVIEW B;86;21;214421;10.1103/PhysRevB.86.214421;DEC 20 2012;2012;The emergence of a field induced canted phase below a critical;temperature is one of the characteristic properties of ferrimagnets with;two inequivalent antiferromagnetically coupled sublattices. Using x-ray;magnetic circular dichroism at the Fe K edge, we have performed element;selective magnetometry in ferrimagnetic erbium iron garnet in fields up;to 30 T. The signal from the tetrahedral Fe sites at 70 K allows the;detection of the two transitions at 10 and 23 T bounding the canted;phase and the direct observation of the reversal of the Fe-sublattice;magnetization within this phase. DOI: 10.1103/PhysRevB.86.214421;Detlefs, Carsten/B-6244-2008;Detlefs, Carsten/0000-0003-2573-2286;0;0;0;0;0;1098-0121;WOS:000312674200004;;;J;Yang, Huan;Wang, Zhenyu;Fang, Delong;Li, Sheng;Kariyado, Toshikaze;Chen, Genfu;Ogata, Masao;Das, Tanmoy;Balatsky, A. V.;Wen, Hai-Hu;Unexpected weak spatial variation in the local density of states induced;by individual Co impurity atoms in superconducting Na(Fe1-xCox)As;crystals revealed by scanning tunneling spectroscopy;PHYSICAL REVIEW B;86;21;214512;10.1103/PhysRevB.86.214512;DEC 20 2012;2012;We use spatially resolved scanning tunneling spectroscopy in;Na(Fe1-xCox)As to investigate the impurity effect induced by Co dopants.;The Co impurities are successfully identified, and the spatial;distributions of local density of state at different energies around;these impurities are investigated. It is found that the spectrum shows;negligible spatial variation at different positions near the Co;impurity, although there is a continuum of the in-gap states which lifts;the zero-bias conductance to a finite value. Our results put constraints;on the S +/- and S++ models and sharpen the debate on the role of;scattering potentials induced by the Co dopants. DOI:;10.1103/PhysRevB.86.214512;Das, Tanmoy/F-7174-2013;9;0;1;0;9;1098-0121;WOS:000312674200007;;;J;Chen, Gang;Hermele, Michael;Magnetic orders and topological phases from f-d exchange in pyrochlore;iridates;PHYSICAL REVIEW B;86;23;235129;10.1103/PhysRevB.86.235129;DEC 19 2012;2012;We study theoretically the effects of f-d magnetic exchange interaction;in the R2Ir2O7 pyrochlore iridates. The R3+ f electrons form localized;Kramers or non-Kramers doublets, while the Ir4+ d electrons are more;itinerant and feel a strong spin-orbit coupling. We construct and;analyze a minimal model capturing this physics, treating the Ir;subsystem using a Hubbard-type model. First neglecting the Hubbard;interaction, we find Weyl semimetal and Axion insulator phases induced;by the f-d exchange. Next, we find that f-d exchange can cooperate with;the Hubbard interaction to stabilize the Weyl semimetal over a larger;region of parameter space than when it is induced by d-electron;correlations alone. Applications to experiments are discussed. DOI:;10.1103/PhysRevB.86.235129;15;1;0;0;15;1098-0121;WOS:000312495500002;;;J;Hung, Ling-Yan;Wan, Yidun;String-net models with Z(N) fusion algebra;PHYSICAL REVIEW B;86;23;235132;10.1103/PhysRevB.86.235132;DEC 19 2012;2012;We study the Levin-Wen string-net model with a Z(N) type fusion algebra.;Solutions of the local constraints of this model correspond to Z(N);gauge theory and double Chern-Simons theories with quantum groups. For;the first time, we explicitly construct a spin-(N - 1)/2 model with Z(N);gauge symmetry on a triangular lattice as an exact dual model of the;string-net model with a Z(N) type fusion algebra on a honeycomb lattice.;This exact duality exists only when the spins are coupled to a Z(N);gauge field living on the links of the triangular lattice. The ungauged;Z(N) lattice spin models are a class of quantum systems that bear;symmetry-protected topological phases that may be classified by the;third cohomology group H-3(Z(N), U(1)) of Z(N). Our results apply also;to any case where the fusion algebra is identified with a finite group;algebra or a quantum group algebra. DOI: 10.1103/PhysRevB.86.235132;9;0;0;0;9;1098-0121;WOS:000312495500005;;;J;Husser, H.;Pehlke, E.;Analysis of two-photon photoemission from Si(001);PHYSICAL REVIEW B;86;23;235134;10.1103/PhysRevB.86.235134;DEC 19 2012;2012;We have applied our ab initio simulation approach for the photoemission;process at solid surfaces to calculate two-photon photoemission spectra;from the p(2 x 2)-reconstructed Si(001) surface. In this approach, the;ground-state electronic structure of the surface is obtained within;density functional theory. The subsequent time-dependent simulation is;carried through at frozen effective potential, while an optical;potential is applied to account for inelastic scattering in the excited;state. We have derived normal emission spectra for s-and p-polarized;light with photon energies in the range (h) over bar omega = 3.85-4.75;eV. The dependence of the theoretical spectra on photon energy and;polarization is analyzed and compared to experimental spectra from the;literature. To unravel the role of the unoccupied states between Fermi;energy and the vacuum level which are acting as intermediate states in;the excitation process, we investigate the expression for the two-photon;photocurrent from perturbation theory. The scattering states, which;serve as the final states of photoemission, are obtained from a;time-dependent simulation of a LEED-type experiment. The evaluation of;the dipole matrix elements allows us to identify the relevant bulk band;transitions and to address the influence of surface states. DOI:;10.1103/PhysRevB.86.235134;0;0;0;0;0;1098-0121;WOS:000312495500007;;;J;Jenkins, Gregory S.;Sushkov, Andrei B.;Schmadel, Don C.;Kim, M. -H.;Brahlek, Matthew;Bansal, Namrata;Oh, Seongshik;Drew, H. Dennis;Giant plateau in the terahertz Faraday angle in gated Bi2Se3;PHYSICAL REVIEW B;86;23;235133;10.1103/PhysRevB.86.235133;DEC 19 2012;2012;We report gated terahertz Faraday angle measurements on epitaxial Bi2Se3;thin films capped with In2Se3. A plateau is observed in the real part of;the Faraday angle at an onset gate voltage corresponding to no band;bending at the surface, which persists into accumulation. The plateau is;two orders of magnitude flatter than the step size expected from a;single Landau level in the low-frequency limit, quantized in units of;the fine structure constant. At 8 T, the plateau extends over a range of;gate voltage that spans an electron density greater than 14 times the;quantum flux density. Both the imaginary part of the Faraday angle and;transmission measurements indicate dissipative off-axis and longitudinal;conductivity channels associated with the plateau. DOI:;10.1103/PhysRevB.86.235133;6;0;0;0;6;1098-0121;WOS:000312495500006;;;J;Maciejko, Joseph;Qi, Xiao-Liang;Karch, Andreas;Zhang, Shou-Cheng;Models of three-dimensional fractional topological insulators;PHYSICAL REVIEW B;86;23;235128;10.1103/PhysRevB.86.235128;DEC 19 2012;2012;Time-reversal invariant three-dimensional topological insulators can be;defined fundamentally by a topological field theory with a quantized;axion angle theta of 0 or pi. It was recently shown that fractional;quantized values of theta are consistent with time-reversal invariance;if deconfined, gapped, fractionally charged bulk excitations appear in;the low-energy spectrum due to strong correlation effects, leading to;the concept of a fractional topological insulator. These fractionally;charged excitations are coupled to emergent gauge fields, which ensure;that the microscopic degrees of freedom, the original electrons, are;gauge-invariant objects. A first step towards the construction of;microscopic models of fractional topological insulators is to understand;the nature of these emergent gauge theories and their corresponding;phases. In this work, we show that low-energy effective gauge theories;of both Abelian or non-Abelian type are consistent with a fractional;quantized axion angle if they admit a Coulomb phase or a Higgs phase;with gauge group broken down to a discrete subgroup. The Coulomb phases;support gapless but electrically neutral bulk excitations while the;Higgs phases are fully gapped. The Higgs and non-Abelian Coulomb phases;exhibit multiple ground states on boundaryless spatial three-manifolds;with nontrivial first homology, while the Abelian Coulomb phase has a;unique ground state. The ground-state degeneracy receives an additional;contribution on manifolds with boundary due to the induced boundary;Chern-Simons term. DOI: 10.1103/PhysRevB.86.235128;Zhang, Shou-Cheng/B-2794-2010;6;0;0;0;6;1098-0121;WOS:000312495500001;;;J;Mikheev, E.;Stolichnov, I.;De Ranieri, E.;Wunderlich, J.;Trodahl, H. J.;Rushforth, A. W.;Riester, S. W. E.;Campion, R. P.;Edmonds, K. W.;Gallagher, B. L.;Setter, N.;Magnetic domain wall propagation under ferroelectric control;PHYSICAL REVIEW B;86;23;235130;10.1103/PhysRevB.86.235130;DEC 19 2012;2012;Control of magnetic domain walls (DWs) and their propagation is among;the most promising development directions for future information-storage;devices. The well-established tools for such manipulation are the;spin-torque transfer from electrical currents and strain. The focus of;this paper is an alternative concept based on the nonvolatile;ferroelectric field effect on DWs in a ferromagnet with carrier-mediated;exchange coupling. The integrated ferromagnet/ferroelectric structure;yields two superimposed ferroic patterns strongly coupled by an electric;field. Using this coupling, we demonstrate an easy-to-form, stable,;nondestructive, and electrically rewritable switch on magnetic domain;wall propagation. DOI: 10.1103/PhysRevB.86.235130;Stolichnov, Igor/B-3331-2014; Wunderlich, Joerg/G-6918-2014;Stolichnov, Igor/0000-0003-0606-231X;;2;0;0;0;2;1098-0121;WOS:000312495500003;;;J;Yamaoka, Hitoshi;Zekko, Yumiko;Kotani, Akio;Jarrige, Ignace;Tsujii, Naohito;Lin, Jung-Fu;Mizuki, Jun'ichiro;Abe, Hideki;Kitazawa, Hideaki;Hiraoka, Nozomu;Ishii, Hirofumi;Tsuei, Ku-Ding;Electronic transitions in CePd2Si2 studied by resonant x-ray emission;spectroscopy at high pressures and low temperatures;PHYSICAL REVIEW B;86;23;235131;10.1103/PhysRevB.86.235131;DEC 19 2012;2012;Temperature and pressure dependences of the electronic structure of the;heavy-fermion system CePd2Si2 have been investigated using partial;fluorescence yield x-ray absorption spectroscopy and resonant x-ray;emission spectroscopy at the Ce L-3 edge. The temperature dependence has;also been measured for CeRh2Si2 for comparison. In both compounds Ce is;in a weakly mixed valence state at ambient pressure, mostly f(1) with a;small contribution from the f(0) component. No temperature dependence of;the Ce valence is observed at temperatures as low as 8 K. In CePd2Si2 at;19 K, however, the Ce valence shows a continuous increase with pressure,;indicating pressure-induced delocalization of the 4f states. Theoretical;calculations based on the single impurity Anderson model reproduce the;experimental results well. Pressure dependence of the difference between;the ground state valence and the measured valence including the final;state effect is also discussed. DOI: 10.1103/PhysRevB.86.235131;Lin, Jung-Fu/B-4917-2011;3;0;0;0;3;1098-0121;WOS:000312495500004;;;J;Zolyomi, V.;Ivady, V.;Gali, A.;Enhancement of electron-nuclear hyperfine interaction at lattice defects;in semiconducting single-walled carbon nanotubes studied by ab initio;density functional theory calculations;PHYSICAL REVIEW B;86;23;235433;10.1103/PhysRevB.86.235433;DEC 19 2012;2012;We present a first principles study of the electron-nuclear;hyperfine-interaction (HF) in achiral single-walled carbon nanotubes;(SWCNTs). We show that while HF coupling is small in perfect nanotubes,;it is significantly enhanced near lattice defects such as vacancies and;Stone-Wales pairs. The enhancement of hyperfine coupling near the;defects varies considerably in different nanotubes which might pave the;way to simultaneously identifying the chirality of carbon nanotubes and;the defects inside them by sophisticated magnetic resonance techniques.;Charged vacancy is proposed as a candidate for solid state qubit in;semiconducting SWCNTs. DOI: 10.1103/PhysRevB.86.235433;0;0;0;0;0;1098-0121;WOS:000312495500008;;;J;Castro, M.;Gago, R.;Vazquez, L.;Munoz-Garcia, J.;Cuerno, R.;Stress-induced solid flow drives surface nanopatterning of silicon by;ion-beam irradiation;PHYSICAL REVIEW B;86;21;214107;10.1103/PhysRevB.86.214107;DEC 19 2012;2012;Ion-beam sputtering (IBS) is known to produce surface nanopatterns over;macroscopic areas on a wide range of materials. However, in spite of the;technological potential of this route to nanostructuring, the physical;process by which these surfaces self-organize remains poorly understood.;We have performed detailed experiments of IBS on Si substrates that;validate dynamical and morphological predictions from a hydrodynamic;description of the phenomenon. We introduce a systematic approach to;perform the experiments under conditions that guarantee the;applicability of a linear description, helping to clarify the;experimental framework in which theories should be tested. Among our;results, the pattern wavelength is experimentally seen to depend almost;linearly on ion energy, in agreement with existing results for other;targets that are amorphous or become so under irradiation. Our work;substantiates flow of a nanoscopically thin and highly viscous surface;layer, driven by the stress created by the ion beam, as an accurate;description of this class of systems.;Gago, Raul/C-6762-2008; VAZQUEZ, LUIS/A-1272-2009; Munoz-Garcia, Javier/C-1135-2011; Castro, Mario/A-3585-2009;Gago, Raul/0000-0003-4388-8241; VAZQUEZ, LUIS/0000-0001-6220-2810;;Castro, Mario/0000-0003-3288-6144;22;0;0;0;22;1098-0121;WOS:000312494800001;;;J;Fishman, Randy S.;Furukawa, Nobuo;Haraldsen, Jason T.;Matsuda, Masaaki;Miyahara, Shin;Identifying the spectroscopic modes of multiferroic BiFeO3;PHYSICAL REVIEW B;86;22;220402;10.1103/PhysRevB.86.220402;DEC 19 2012;2012;We have identified the modes of multiferroic BiFeO3 measured by THz and;Raman spectroscopies. Excellent agreement with the observed peaks is;obtained by including the effects of easy-axis anisotropy along the;direction of the electric polarization. By distorting the cycloidal spin;state, anisotropy splits the Psi(perpendicular to 1) mode into peaks at;20 and 21.5 cm(-1) and activates the lower Phi(+/- 2) mode at 27 cm(-1);(T = 200 K). An electromagnon is identified with the upper Psi(+/- 1);mode at 21.5 cm(-1). Our results also explain recent inelastic;neutron-scattering measurements. DOI:10.1103/PhysRevB.86.220402;Haraldsen, Jason/B-9809-2012; Fishman, Randy/C-8639-2013; Lujan Center, LANL/G-4896-2012;Haraldsen, Jason/0000-0002-8641-5412;;8;0;0;0;8;1098-0121;WOS:000312495200001;;;J;Geraedts, Scott D.;Motrunich, Olexei I.;Monte Carlo study of a U(1) x U(1) loop model with modular invariance;PHYSICAL REVIEW B;86;24;245121;10.1103/PhysRevB.86.245121;DEC 19 2012;2012;We study a U(1) x U(1) system in (2+1) dimensions with long-range;interactions and mutual statistics. The model has the same form after;the application of operations from the modular group, a property which;we call modular invariance. Using the modular invariance of the model,;we propose a possible phase diagram. We obtain a sign-free reformulation;of the model and study it in Monte Carlo. This study confirms our;proposed phase diagram. We use the modular invariance to analytically;determine the current-current correlation functions and conductivities;in all the phases in the diagram, as well as at special "fixed" points;which are unchanged by an operation from the modular group. We;numerically determine the order of the phase transitions, and find;segments of second-order transitions. For the statistical interaction;parameter theta = pi, these second-order transitions are evidence of a;critical loop phase obtained when both loops are trying to condense;simultaneously. We also measure the critical exponents of the;second-order transitions. DOI: 10.1103/PhysRevB.86.245121;1;0;0;0;1;1098-0121;WOS:000312495800003;;;J;Giering, Kay-Uwe;Salmhofer, Manfred;Self-energy flows in the two-dimensional repulsive Hubbard model;PHYSICAL REVIEW B;86;24;245122;10.1103/PhysRevB.86.245122;DEC 19 2012;2012;We study the two-dimensional repulsive Hubbard model by functional;renormalization group methods, using our recently proposed channel;decomposition of the interaction vertex. The main technical advance of;this work is that we calculate the full Matsubara frequency dependence;of the self-energy and the interaction vertex in the whole frequency;range without simplifying assumptions on its functional form, and that;the effects of the self-energy are fully taken into account in the;equations for the flow of the two-body vertex function. At Van Hove;filling, we find that the Fermi-surface deformations remain small at;fixed particle density and have a minor impact on the structure of the;interaction vertex. The frequency dependence of the self-energy,;however, turns out to be important, especially at a transition from;ferromagnetism to d-wave superconductivity. We determine;non-Fermi-liquid exponents at this transition point. DOI:;10.1103/PhysRevB.86.245122;14;0;0;0;14;1098-0121;WOS:000312495800004;;;J;Le Roux, Sebastien;Bouzid, Assil;Boero, Mauro;Massobrio, Carlo;Structural properties of glassy Ge2Se3 from first-principles molecular;dynamics;PHYSICAL REVIEW B;86;22;224201;10.1103/PhysRevB.86.224201;DEC 19 2012;2012;The structural properties of glassy Ge2Se3 were studied in the framework;of first-principles molecular dynamics by using the Becke-Lee-Yang-Parr;scheme for the treatment of the exchange-correlation functional in;density functional theory. Our results for the total neutron structure;factor and the total pair distribution function are in very good;agreement with the experimental results. When compared to the structural;description obtained for liquid Ge2Se3, glassy Ge2Se3 is found to be;characterized by a larger percentage of fourfold coordinated Ge atoms;and a lower number of miscoordinations. However, Ge-Ge homopolar bonds;inevitably occur due to the lack of Se atoms available, at this;concentration, to form GeSe4 tetrahedra. Focusing on the family of;glasses GexSe1-x, the present results allow a comparison to be carried;out in reciprocal and real space among three prototypical glassy;structures. The first was obtained at the stoichiometric composition;(glassy GeSe2), the second at a Se-rich composition (glassy GeSe4) and;the third at a Ge-rich composition (glassy Ge2Se3). All networks are;consistent with the "8 - N" rule, in particular, glassy GeSe4, which;exhibits the highest degree of chemical order. The electronic structure;of glassy Ge2Se3 has been characterized by using the Wannier localized;orbital formalism. The analysis of the Ge environment shows the presence;of dangling, ionocovalent Ge-Se, and covalent bonds, the latter related;to Ge-Ge connections. DOI: 10.1103/PhysRevB.86.224201;BOERO, Mauro/M-2358-2014;BOERO, Mauro/0000-0002-5052-2849;6;0;0;0;6;1098-0121;WOS:000312495200004;;;J;Matthews, M. J.;Castelnovo, C.;Moessner, R.;Grigera, S. A.;Prabhakaran, D.;Schiffer, P.;High-temperature onset of field-induced transitions in the spin-ice;compound Dy2Ti2O7;PHYSICAL REVIEW B;86;21;214419;10.1103/PhysRevB.86.214419;DEC 19 2012;2012;We have studied the field-dependent ac magnetic susceptibility of single;crystals of Dy2Ti2O7 spin ice along the [111] direction in the;temperature range 1.8-7 K. Our data reflect the onset of local spin-ice;order in the appearance of different field regimes. In particular, we;observe a prominent feature at approximately 1.0 T that is a precursor;of the low-temperature metamagnetic transition out of field-induced;kagome ice, below which the kinetic constraints imposed by the ice rules;manifest themselves in a substantial frequency dependence of the;susceptibility. Despite the relatively high temperatures, our results;are consistent with a monopole picture, and they demonstrate that such a;picture can give physical insight into spin-ice systems even outside the;low-temperature, low-density limit where monopole excitations are;well-defined quasiparticles.;6;2;0;0;6;1098-0121;WOS:000312494800002;;;J;Nuss, Martin;Heil, Christoph;Ganahl, Martin;Knap, Michael;Evertz, Hans Gerd;Arrigoni, Enrico;von der Linden, Andwolfgang;Steady-state spectra, current, and stability diagram of a quantum dot: A;nonequilibrium variational cluster approach;PHYSICAL REVIEW B;86;24;245119;10.1103/PhysRevB.86.245119;DEC 19 2012;2012;We calculate steady-state properties of a strongly correlated quantum;dot under voltage bias by means of nonequilibrium cluster perturbation;theory and the nonequilibrium variational cluster approach,;respectively. Results for the steady-state current are benchmarked;against data from accurate matrix product state based time evolution. We;show that for low to medium interaction strength, nonequilibrium cluster;perturbation theory already yields good results, while for higher;interaction strength the self-consistent feedback of the nonequilibrium;variational cluster approach significantly enhances the accuracy. We;report the current-voltage characteristics for different interaction;strengths. Furthermore we investigate the nonequilibrium local density;of states of the quantum dot and illustrate that within the variational;approach a linear splitting and broadening of the Kondo resonance is;predicted which depends on interaction strength. Calculations with;applied gate voltage, away from particle-hole symmetry, reveal that the;maximum current is reached at the crossover from the Kondo regime to the;doubly occupied or empty quantum dot. Obtained stability diagrams;compare very well to recent experimental data [A. V. Kretinin et al.,;Phys. Rev. B 84, 245316 (2011)]. DOI: 10.1103/PhysRevB.86.245119;Knap, Michael/H-3344-2011; Arrigoni, Enrico/E-4507-2012; Nuss, Martin/J-5674-2014;Knap, Michael/0000-0002-7093-9502; Arrigoni, Enrico/0000-0002-1347-3080;;;7;0;0;0;7;1098-0121;WOS:000312495800001;;;J;Rottler, Andreas;Krueger, Benjamin;Heitmann, Detlef;Pfannkuche, Daniela;Mendach, Stefan;Route towards cylindrical cloaking at visible frequencies using an;optimization algorithm;PHYSICAL REVIEW B;86;24;245120;10.1103/PhysRevB.86.245120;DEC 19 2012;2012;We derive a model based on the Maxwell-Garnett effective-medium theory;that describes a cylindrical cloaking shell composed of metal rods which;are radially aligned in a dielectric host medium. We propose and;demonstrate a minimization algorithm that calculates for given material;parameters the optimal geometrical parameters of the cloaking shell such;that its effective optical parameters fit the best to the required;permittivity distribution for cylindrical cloaking. By means of;sophisticated full-wave simulations we find that a cylindrical cloak;with good performance using silver as the metal can be designed with our;algorithm for wavelengths in the red part of the visible spectrum (623;nm < lambda < 773 nm). We also present a full-wave simulation of such a;cloak at an exemplary wavelength of lambda = 729 nm (h omega = 1.7 eV);which indicates that our model is useful to find design rules of cloaks;with good cloaking performance. Our calculations investigate a structure;that is easy to fabricate using standard preparation techniques and;therefore pave the way to a realization of guiding light around an;object at visible frequencies, thus rendering it invisible. DOI:;10.1103/PhysRevB.86.245120;Krueger, Benjamin/B-7466-2009;Krueger, Benjamin/0000-0001-8502-368X;0;0;0;0;0;1098-0121;WOS:000312495800002;;;J;Tokiwa, Y.;Huebner, S. -H.;Beck, O.;Jeevan, H. S.;Gegenwart, P.;Unique phase diagram with narrow superconducting dome in;EuFe2(As1-xPx)(2) due to Eu2+ local magnetic moments;PHYSICAL REVIEW B;86;22;220505;10.1103/PhysRevB.86.220505;DEC 19 2012;2012;The interplay between superconductivity and Eu2+ magnetic moments in;EuFe2(As1-xPx)(2) is studied with electrical resistivity measurements;under hydrostatic pressure on x = 0.13 and x = 0.18 single crystals. We;can map hydrostatic pressure to chemical pressure x and show that;superconductivity is confined to a very narrow range 0.18 <= x <= 0.23;in the phase diagram, beyond which ferromagnetic (FM) Eu ordering;suppresses superconductivity. The change from antiferro- to FM Eu;ordering at the latter concentration coincides with a Lifshitz;transition and the complete depression of iron magnetic order. DOI:;10.1103/PhysRevB.86.220505;6;0;0;0;6;1098-0121;WOS:000312495200002;;;J;Tran Doan Huan;Amsler, Maximilian;Vu Ngoc Tuoc;Willand, Alexander;Goedecker, Stefan;Low-energy structures of zinc borohydride Zn(BH4)(2);PHYSICAL REVIEW B;86;22;224110;10.1103/PhysRevB.86.224110;DEC 19 2012;2012;We present a systematic study of the low-energy structures of zinc;borohydride, a crystalline material proposed for the purpose of hydrogen;storage. In addition to previously proposed structures, many new;low-energy structures of zinc borohydride are found by utilizing;theminima-hopping method. We identify a new dynamically stable structure;which belongs to the I4(1)22 space group as the lowest-energy phase of;zinc borohydride at low temperatures. A low transition barrier between;I4(1)22 and P1, the two lowest-lying phases of zinc borohydride, is;predicted, implying that a coexistence of low-energy phases of zinc;borohydride is possible at ambient conditions. An analysis based on the;simulated x-ray-diffraction pattern reveals that the I4(1)22 structure;exhibits the same major features as the experimentally synthesized zinc;borohydride samples. DOI: 10.1103/PhysRevB.86.224110;Amsler, Maximilian/H-4718-2013; Tran, Huan/K-3587-2013;Tran, Huan/0000-0002-8093-9426;4;0;0;0;4;1098-0121;WOS:000312495200003;;;J;van den Berg, T. L.;Raymond, L.;Verga, A.;Enhanced spin Hall effect in strong magnetic disorder;PHYSICAL REVIEW B;86;24;245420;10.1103/PhysRevB.86.245420;DEC 19 2012;2012;We consider a two-dimensional electron gas in an inversion asymmetric;layer and in the presence of spatially distributed magnetic impurities.;We investigate the relationship between the geometrical properties of;the wave function and the system's spin-dependent transport properties.;A localization transition, arising when disorder is increased, is;exhibited by the appearance of a fractal state with finite inverse;participation ratio. Below the transition, interference effects modify;the carrier's diffusion, as revealed by the dependence on the scattering;time of the power law exponents characterizing the spreading of a wave;packet. Above the transition, in the strong disorder regime, we find;that the states are spin polarized and localized around the impurities.;A significant enhancement of the spin current develops in this regime.;DOI: 10.1103/PhysRevB.86.245420;RAYMOND, Laurent/B-6025-2008;RAYMOND, Laurent/0000-0002-5014-1333;0;0;0;0;0;1098-0121;WOS:000312495800005;;;J;Bauer, Oliver;Mercurio, Giuseppe;Willenbockel, Martin;Reckien, Werner;Schmitz, Christoph Heinrich;Fiedler, Benjamin;Soubatch, Serguei;Bredow, Thomas;Tautz, Frank Stefan;Sokolowski, Moritz;Role of functional groups in surface bonding of planar pi-conjugated;molecules;PHYSICAL REVIEW B;86;23;235431;10.1103/PhysRevB.86.235431;DEC 18 2012;2012;The trends in the bonding mechanism of 3,4,9,10-perylenetetracarboxylic;acid dianhydride (PTCDA) to the Ag(111), Ag(100), and Ag(110) surfaces;were analyzed on the basis of data obtained from x-ray standing waves;and dispersion-corrected density functional theory. Of importance are;the attractive local O-Ag bonds on the anhydride groups. They are the;shorter, the more open the surface is, and lead even to partly repulsive;interactions between the perylene core and the surface. In parallel,;there is an increasing charge donation from the Ag surface into the pi;system of the PTCDA. This synergism explains the out-of-plane distortion;of the adsorbed PTCDA and the surface buckling. DOI:;10.1103/PhysRevB.86.235431;13;1;0;0;13;1098-0121;WOS:000312445200001;;;J;Saptsov, R. B.;Wegewijs, M. R.;Fermionic superoperators for zero-temperature nonlinear transport:;Real-time perturbation theory and renormalization group for Anderson;quantum dots;PHYSICAL REVIEW B;86;23;235432;10.1103/PhysRevB.86.235432;DEC 18 2012;2012;We study electron quantum transport through a strongly interacting;Anderson quantum dot at finite bias voltage and magnetic field at zero;temperature using the real-time renormalization group (RT-RG) in the;framework of a kinetic (generalized master) equation for the reduced;density operator. To this end, we further develop the general,;finite-temperature real-time transport formalism by introducing field;superoperators that obey fermionic statistics. This direct second;quantization in Liouville Fock space strongly simplifies the;construction of operators and superoperators that transform irreducibly;under the Anderson-model symmetry transformations. The fermionic field;superoperators naturally arise from the univalence (fermion-parity);superselection rule of quantum mechanics for the total system of quantum;dot plus reservoirs. Expressed in these field superoperators, the causal;structure of the perturbation theory for the effective time-evolution;superoperator kernel becomes explicit. Using the constraints of the;causal structure, we construct a parametrization of the exact effective;time-evolution kernel for which we analytically find the eigenvectors;and eigenvalues in terms of a minimal set of only 30 independent;coefficients. The causal structure also implies the existence of a;fermion-parity protected eigenvector of the exact Liouvillian,;explaining a recently reported result on adiabatic driving;[Contreras-Pulido et al., Phys. Rev. B 85, 075301 (2012)] and;generalizing it to arbitrary order in the tunnel coupling Gamma.;Furthermore, in the wide-band limit, the causal representation;exponentially reduces the number of diagrams for the time-evolution;kernel. The remaining diagrams can be identified simply by their;topology and are manifestly independent of the energy cutoff term by;term. By an exact reformulation of this series, we integrate out all;infinite-temperature effects, obtaining an expansion targeting only the;nontrivial, finite-temperature corrections, and the exactly conserved;transport current follows directly from the time-evolution kernel. From;this new series, the previously formulated RT-RG equations are obtained;naturally. We perform a complete one-plus-two-loop RG analysis at finite;voltage and magnetic field, while systematically accounting for the;dependence of all renormalized quantities on both the quantum dot and;reservoir frequencies. Using the second quantization in Liouville space;and symmetry restrictions, we obtain analytical RT-RG equations, which;can be solved numerically in an efficient way, and we extensively study;the model parameter space, excluding the Kondo regime where the;one-plus-two-loop approach is obviously invalid. The incorporated;renormalization effects result in an enhancement of the inelastic;cotunneling peak, even at a voltage similar to magnetic field similar to;tunnel coupling Gamma. Moreover, we find a tunnel-induced nonlinearity;of the stability diagrams (Coulomb diamonds) at finite voltage, both in;the single-electron tunneling and inelastic cotunneling regime. DOI:;10.1103/PhysRevB.86.235432;Wegewijs, Maarten/A-3512-2012;Wegewijs, Maarten/0000-0002-2972-3822;9;0;0;0;9;1098-0121;WOS:000312445200002;;;J;Tyrrell, E. J.;Smith, J. M.;Effective mass modeling of excitons in type-II quantum dot;heterostructures (vol 84, 165328, 2011);PHYSICAL REVIEW B;86;23;239905;10.1103/PhysRevB.86.239905;DEC 18 2012;2012;0;0;0;0;0;1098-0121;WOS:000312445200003;;;J;Buividovich, P. V.;Polikarpov, M. I.;Monte Carlo study of the electron transport properties of monolayer;graphene within the tight-binding model;PHYSICAL REVIEW B;86;24;245117;10.1103/PhysRevB.86.245117;DEC 18 2012;2012;We study the effect of Coulomb interaction between charge carriers on;the properties of graphene monolayer, assuming that the strength of the;interaction is controlled by the dielectric permittivity of the;substrate on which the graphene layer is placed. To this end, we;consider the tight-binding model on the hexagonal lattice coupled to the;noncompact gauge field. The action of the latter is also discretized on;the hexagonal lattice. Equilibrium ensembles of gauge field;configurations are obtained using the hybrid Monte Carlo algorithm. Our;numerical results indicate that at sufficiently strong coupling, that;is, at sufficiently small substrate dielectric permittivities epsilon;less than or similar to 4 and at sufficiently small temperatures T less;than or similar to 1 x 10(4) K, the symmetry between simple sublattices;of hexagonal lattice breaks down spontaneously and the low-frequency;conductivity gradually decreases down to 20-30% of its weak-coupling;value. On the other hand, in the weak-coupling regime (with epsilon;greater than or similar to 4), the conductivity practically does not;depend on epsilon and is close to the universal value sigma(0) = 1/4.;DOI: 10.1103/PhysRevB.86.245117;15;0;0;0;15;1098-0121;WOS:000312445700002;;;J;Cheng, Ran;Niu, Qian;Electron dynamics in slowly varying antiferromagnetic texture;PHYSICAL REVIEW B;86;24;245118;10.1103/PhysRevB.86.245118;DEC 18 2012;2012;Adiabatic dynamics of conduction electrons in antiferromagnetic (AFM);materials with slowly varying spin texture is developed. Quite different;from the ferromagnetic (FM) case, adiabaticity in AFM texture does not;imply perfect alignment of conduction electron spins with background;profile, instead, it introduces an internal dynamics between degenerate;bands. As a result, the orbital motion of conduction electrons becomes;spin dependent and is affected by two emergent gauge fields: one of them;is the non-Abelian version of what has been discovered in FM systems;;the other leads to an anomalous velocity that has no FM counterpart. Two;examples with experimental predictions are provided. DOI:;10.1103/PhysRevB.86.245118;Niu, Qian/G-9908-2013; Cheng, Ran/M-9260-2014;Cheng, Ran/0000-0003-0166-2172;12;0;0;0;12;1098-0121;WOS:000312445700003;;;J;Cuadrado, R.;Chantrell, R. W.;Electronic and magnetic properties of bimetallic L1(0) cuboctahedral;clusters by means of fully relativistic density-functional-based;calculations;PHYSICAL REVIEW B;86;22;224415;10.1103/PhysRevB.86.224415;DEC 18 2012;2012;By means of density functional theory and the generalized gradient;approximation, we present a structural, electronic, and magnetic study;of FePt-, CoPt-, FeAu-, and FePd-based L1(0) ordered cuboctahedral;nanoparticles, with total numbers of atoms N-tot = 13, 55, 147. After a;conjugate gradient relaxation, the nanoparticles retain their L1(0);symmetry, but the small displacements of the atomic positions tune the;electronic and magnetic properties. The value of the total magnetic;moment stabilizes as the size increases. We also show that the magnetic;anisotropy energy (MAE) depends on the size as well as the position of;the Fe-atomic planes in the clusters. We address the influence on the;MAE of the surface shape, finding a small in-plane MAE for (Fe,;Co)(24)Pt-31 nanoparticles. DOI: 10.1103/PhysRevB.86.224415;7;0;0;0;7;1098-0121;WOS:000312445000002;;;J;Deisenhofer, J.;Schaile, S.;Teyssier, J.;Wang, Zhe;Hemmida, M.;von Nidda, H. -A. Krug;Eremina, R. M.;Eremin, M. V.;Viennois, R.;Giannini, E.;van der Marel, D.;Loidl, A.;Electron spin resonance and exchange paths in the orthorhombic dimer;system Sr2VO4;PHYSICAL REVIEW B;86;21;214417;10.1103/PhysRevB.86.214417;DEC 18 2012;2012;We report on susceptibility and electron spin resonance (ESR);measurements at X- and Q-band frequencies of Sr2VO4 with orthorhombic;symmetry. In this dimer system, the V4+ ions are in tetrahedral;environment and are coupled by an antiferromagnetic intradimer exchange;constant J/k(B) approximate to 100 K to form a singlet ground state;without any phase transitions between room temperature and 2 K. Based on;an extended Huckel tight-binding analysis, we identify the strongest;exchange interaction to occur between two inequivalent vanadium sites;via two intermediate oxygen ions. The ESR absorption spectra can be well;fitted by a single Lorentzian line and the temperature dependence of the;ESR intensity, and the dc susceptibility can be modeled by using the;Bleaney-Bowers approach for independent dimers. The temperature;dependence of the ESR linewidth at X-band frequency can be modeled by a;superposition of a linear increase with temperature with a slope alpha =;1.35 Oe/K and a thermally activated behavior with an activation energy;Delta/k(B) = 1418 K, both of which point to spin-phonon coupling as the;dominant relaxation mechanism in this compound.;Teyssier, Jeremie/A-6867-2013; Deisenhofer, Joachim/G-8937-2011;Deisenhofer, Joachim/0000-0002-7645-9390;3;0;0;0;3;1098-0121;WOS:000312444700001;;;J;Hsu, Chen-Hsuan;Wang, Zhiqiang;Chakravarty, Sudip;Spin dynamics of possible density wave states in the pseudogap phase of;high-temperature superconductors;PHYSICAL REVIEW B;86;21;214510;10.1103/PhysRevB.86.214510;DEC 18 2012;2012;In a recent inelastic neutron scattering experiment in the pseudogap;state of the high-temperature superconductor YBa2Cu3O6.6, an unusual;"vertical" dispersion of the spin excitations with a large in-plane;anisotropy was observed. In this paper, we discuss in detail the spin;susceptibility of the singlet d-density wave, the triplet d-density wave;as well as the more common spin density wave orders with hopping;anisotropies. From numerical calculations within the framework of random;phase approximation, we find nearly vertical dispersion relations for;spin excitations with anisotropic incommensurability at low energy omega;<= 90 meV, which are reminiscent of the experiments. At very high energy;omega >= 165 meV, we also find energy-dependent incommensurability.;Although there are some important differences between the three cases,;unpolarized neutron measurements cannot discriminate between these;alternate possibilities; the vertical dispersion, however, is a distinct;feature of all three density wave states in contrast to the;superconducting state, which shows an hour-glass shape dispersion.;0;0;0;0;0;1098-0121;WOS:000312444700003;;;J;Jain, S.;Schultheiss, H.;Heinonen, O.;Fradin, F. Y.;Pearson, J. E.;Bader, S. D.;Novosad, V.;Coupled vortex oscillations in mesoscale ferromagnetic double-disk;structures;PHYSICAL REVIEW B;86;21;214418;10.1103/PhysRevB.86.214418;DEC 18 2012;2012;Coupled resonance modes in connected ferromagnetic double-dot structures;have been investigated as a function of the overlap between the dots,;both experimentally and via micromagnetic simulations. An asymmetry is;observed in the frequency spectrum about zero field. Softening of the;magnetization during vortex core precession when the cores are near the;overlap region results in low-frequency modes and a splitting;corresponding to different polarity combinations. A range of vortex;resonance frequencies are identified that can be tuned by varying the;overlap area. This study provides insight into the control of the;dynamic response in coupled mesoscale magnetic structures.;Jain, Shikha/J-4734-2012; Novosad, Valentyn/C-2018-2014;7;0;0;0;7;1098-0121;WOS:000312444700002;;;J;Kim, Isaac H.;Perturbative analysis of topological entanglement entropy from;conditional independence;PHYSICAL REVIEW B;86;24;245116;10.1103/PhysRevB.86.245116;DEC 18 2012;2012;We use the structure of conditionally independent states to analyze the;stability of topological entanglement entropy. For the ground state of;the quantum double or Levin-Wen model, we obtain a bound on the;first-order perturbation of topological entanglement entropy in terms of;its energy gap and subsystem size. The bound decreases superpolynomially;with the size of the subsystem, provided the energy gap is nonzero. We;also study the finite-temperature stability of stabilizer models, for;which we prove a stronger statement than the strong subadditivity of;entropy. Using this statement and assuming (i) finite correlation length;and (ii) small conditional mutual information of certain configurations,;first-order perturbation effect for arbitrary local perturbation can be;bounded. We discuss the technical obstacles in generalizing these;results. DOI: 10.1103/PhysRevB.86.245116;4;0;0;0;4;1098-0121;WOS:000312445700001;;;J;Metelmann, A.;Brandes, T.;Transport through single-level systems: Spin dynamics in the;nonadiabatic regime;PHYSICAL REVIEW B;86;24;245317;10.1103/PhysRevB.86.245317;DEC 18 2012;2012;We investigate the Fano-Anderson model coupled to a large ensemble of;spins under the influence of an external magnetic field. The interaction;between the two spin systems is treated within a mean-field approach,;and we assume an anisotropic coupling between these two systems. By;using a nonadiabatic approach, we make no further approximations in the;theoretical description of our system, apart from the semiclassical;treatment. Therewith, we can include the short-time dynamics as well as;the broadening of the energy levels arising due to the coupling to the;external electronic reservoirs. We study the spin dynamics in the regime;of low and high bias. For the infinite bias case, we compare our results;to those obtained from a simpler rate equation approach, where;higher-order transitions are neglected. We show that these higher-order;terms are important in the range of low magnetic field. Additionally, we;analyze extensively the finite bias regime with methods from nonlinear;dynamics, and we discuss the possibility of switching of the large spin.;DOI: 10.1103/PhysRevB.86.245317;2;0;0;0;2;1098-0121;WOS:000312445700004;;;J;Nastar, M.;Soisson, F.;Atomistic modeling of phase transformations: Point-defect concentrations;and the time-scale problem;PHYSICAL REVIEW B;86;22;220102;10.1103/PhysRevB.86.220102;DEC 18 2012;2012;The time scale of diffusive phase transformations in alloys depends on;point-defect concentrations, which evolve with the microstructure. We;present a simple method that provides a physical time scale for;atomistic simulations of such transformations, even when performed with;constant point-defect numbers. It also gives an on-the-fly evaluation of;the real point-defect concentration, when equilibrium conditions are;fulfilled. The method is applied to kinetic Monte Carlo simulations of;precipitation in binary alloys occurring by vacancy diffusion. The;vacancy concentration is found to be very dependent on the difference in;formation energy between the matrix and the precipitates, and therefore;on the composition and volume fraction of these two phases. The effect;of the interface curvature, through a Gibbs-Thomson effect, is revealed.;A mean-field approximation is also developed for computing the;point-defect concentrations. Contrary to previous models, it takes into;account the short range order in nonideal and concentrated solutions.;Atomistic simulations and mean-field simulations are validated by direct;comparisons. DOI: 10.1103/PhysRevB.86.220102;soisson, frederic/B-2917-2009;soisson, frederic/0000-0001-6435-6119;6;0;0;0;6;1098-0121;WOS:000312445000001;;;J;Abd El-Fattah, Z. M.;Matena, M.;Corso, M.;Ormaza, M.;Ortega, J. E.;Schiller, F.;Modifying the Cu(111) Shockley surface state by Au alloying;PHYSICAL REVIEW B;86;24;245418;10.1103/PhysRevB.86.245418;DEC 17 2012;2012;The deposition of submonolayer amounts of Au onto Cu(111) results in a;Au-Cu surface alloy with temperature- and thickness-dependent;stoichiometry. Upon alloying, the characteristic Shockley state of;Cu(111) is modified, shifting to 0.53 eV binding energy for a particular;surface Au2Cu concentration, which is a very high binding energy for a;noble-metal surface. Based on a phase accumulation model analysis, we;discuss how this unusually large shift is likely reflecting an effective;increase in the topmost layer thickness of the order of, but smaller;than, the value expected from the moire undulation. DOI:;10.1103/PhysRevB.86.245418;CSIC-UPV/EHU, CFM/F-4867-2012; ortega, enrique/I-4445-2012; Corso, Martina/B-7768-2014; DONOSTIA INTERNATIONAL PHYSICS CTR., DIPC/C-3171-2014;1;0;0;0;1;1098-0121;WOS:000312365800013;;;J;Baledent, V.;Rullier-Albenque, F.;Colson, D.;Monaco, G.;Rueff, J. -P.;Stability of the Fe electronic structure through temperature-, doping-,;and pressure-induced transitions in the BaFe2As2 superconductors;PHYSICAL REVIEW B;86;23;235123;10.1103/PhysRevB.86.235123;DEC 17 2012;2012;We report on a survey of Fe electronic properties in the;temperature-pressure phase diagram of the Co-doped pnictides BaFe2As2;superconductors by hard x-ray absorption spectroscopy at the Fe K edge;in the high-resolution, partial fluorescence yield mode. The absorption;spectra are found remarkably stable through the temperature-induced;phase transitions while pressure leads to slight energy shift of the;main edge but not of the pre-edge. The latter effect is ascribed to the;lattice compression and band widening effects under pressure as;confirmed by multiple scattering simulations. Our results suggest that;from the Fe electronic structure point of view, doping and pressure are;equivalent ways to destabilize the magnetic phase to the advantage of;superconductivity. DOI: 10.1103/PhysRevB.86.235123;0;0;0;0;0;1098-0121;WOS:000312365200003;;;J;Bejas, Matias;Greco, Andres;Yamase, Hiroyuki;Possible charge instabilities in two-dimensional doped Mott insulators;PHYSICAL REVIEW B;86;22;224509;10.1103/PhysRevB.86.224509;DEC 17 2012;2012;Motivated by the growing evidence of the importance of charge;fluctuations in the pseudogap phase in high-temperature cuprate;superconductors, we apply a large-N expansion formulated in a path;integral representation of the two-dimensional t - J model on a square;lattice. We study all possible charge instabilities of the paramagnetic;state in leading order of the 1/N expansion. While the d-wave charge;density wave (flux phase) becomes the leading instability for various;choices of model parameters, we find that a d-wave Pomeranchuk;(electronic nematic phase) instability occurs as a next leading one. In;particular, the nematic state has a strong tendency to become;inhomogeneous. In the presence of a large second nearest-neighbor;hopping integral, the flux phase is suppressed and the electronic;nematic instability becomes leading in a high doping region. Besides;these two major instabilities, bond-order phases occur as weaker;instabilities close to half-filling. Phase separation is also detected;in a finite temperature region near half-filling. DOI:;10.1103/PhysRevB.86.224509;7;0;0;0;7;1098-0121;WOS:000312364700006;;;J;Chen, S. L.;Chen, W. M.;Buyanova, I. A.;Zeeman splitting and dynamics of an isoelectronic bound exciton near the;band edge of ZnO;PHYSICAL REVIEW B;86;23;235205;10.1103/PhysRevB.86.235205;DEC 17 2012;2012;Comprehensive time-resolved photoluminescence and magneto-optical;measurements are performed on a bound exciton (BX) line peaking at;3.3621 eV (labeled as I*). Though the energy position of I* lies within;the same energy range as that for donor bound exciton (DX) transitions,;its behavior in an applied magnetic field is found to be distinctly;different from that observed for DXs bound to either ionized or neutral;donors. An exciton bound to an isoelectronic center with a;hole-attractive local potential is shown to provide a satisfactory model;that can account for all experimental results of the I* transition. DOI:;10.1103/PhysRevB.86.235205;Chen, Weimin/J-4660-2012;Chen, Weimin/0000-0002-6405-9509;5;0;0;0;5;1098-0121;WOS:000312365200008;;;J;Chen, Zuhuang;Zou, Xi;Ren, Wei;You, Lu;Huang, Chuanwei;Yang, Yurong;Yang, Ping;Wang, Junling;Sritharan, Thirumany;Bellaiche, L.;Chen, Lang;Study of strain effect on in-plane polarization in epitaxial BiFeO3 thin;films using planar electrodes;PHYSICAL REVIEW B;86;23;235125;10.1103/PhysRevB.86.235125;DEC 17 2012;2012;Epitaxial strain plays an important role in determining physical;properties of perovskite ferroelectric oxide thin films because of the;inherent coupling between the strain and the polarization. However, it;is very challenging to directly measure properties such as polarization;in ultrathin strained films, using traditional sandwich capacitor;devices, because of high leakage current. Hence, a planar electrode;device with different crystallographical orientations between;electrodes, which is able to measure the polarization response with;different electric field orientation, is used successfully in this work;to directly measure the in-plane polarization-electric-field (P-E);hysteresis loops in fully strained thin films. We used BiFeO3 (BFO) as a;model system and measured in-plane P-E loops not only in the;rhombohedral-like (R-like) BFO thin films but also in largely strained;BFO films exhibiting the pure tetragonal-like (T-like) phase. The exact;magnitude and direction of the spontaneous polarization vector of the;T-like phase is deduced thanks to the collection of in-plane;polarization components along different orientations. It is also shown;that the polarization vector in the R-like phase of BiFeO3 is;constrained to lie within the (1 (1) over bar 10) plane and rotates from;the [111] towards the [001] pseudocubic direction when the compressive;strain is increased from zero. At high misfit strains such as -4.4%, the;pure T-like phase is obtained and its polarization vector is constrained;to lie in the (010) plane with a significantly large in-plane component,;similar to 44 mu C/cm(2). First-principles calculations are carried out;in parallel, and provide a good agreement with the experimental results.;DOI: 10.1103/PhysRevB.86.235125;CHEN, LANG/A-2251-2011; You, Lu/H-1512-2011; Ren, Wei/D-2081-2009; HUANG, CHUANWEI/F-9858-2011; WANG, Junling/B-3596-2009; Yang, Ping/C-5612-2008; Chen, Zuhuang/E-7131-2011; Sritharan, Thirumany/G-4890-2010;WANG, Junling/0000-0003-3663-7081; Chen, Zuhuang/0000-0003-1912-6490;;8;1;0;0;8;1098-0121;WOS:000312365200005;;;J;Croitoru, M. D.;Buzdin, A. I.;Extended Lawrence-Doniach model: The temperature evolution of the;in-plane magnetic field anisotropy;PHYSICAL REVIEW B;86;22;224508;10.1103/PhysRevB.86.224508;DEC 17 2012;2012;Using the quasiclassical formalism, we provide the description of the;temperature and field-direction dependence of the in-plane upper;critical field in layered superconductors, taking into account the;interlayer Josephson coupling and the paramagnetic spin splitting. We;generalize the Lawrence-Doniach model for the case of high magnetic;fields and show that the reentrant superconductivity is naturally;described by our formalism when neglecting the Pauli pair-breaking;effect. We demonstrate that in layered superconductors the in-plane;anisotropy of the onset of superconductivity exhibits four different;temperature regimes: from the Ginzburg-Landau type in the vicinity of;the critical temperature T-c0 with anisotropies of coherence lengths, up;to the Fulde-Ferell-Larkin-Ovchinnikov type induced by the strong;interference between the modulation vector and the orbital effect. Our;results are in agreement with the experimental measurements of the;field-angle dependence of the superconducting onset temperature of the;organic compound (TMTSF)(2)ClO4. DOI: 10.1103/PhysRevB.86.224508;Buzdin, Alexander/I-6038-2013; Croitoru, Mihail/J-9934-2014;Croitoru, Mihail/0000-0002-3014-8634;3;0;0;0;3;1098-0121;WOS:000312364700005;;;J;Dhital, Chetan;Abernathy, D. L.;Zhu, Gaohua;Ren, Zhifeng;Broido, D.;Wilson, Stephen D.;Inelastic neutron scattering study of phonon density of states in;nanostructured Si1-xGex thermoelectrics;PHYSICAL REVIEW B;86;21;214303;10.1103/PhysRevB.86.214303;DEC 17 2012;2012;Inelastic neutron scattering measurements are utilized to explore;relative changes in the generalized phonon density of states of;nanocrystalline Si1-xGex thermoelectric materials prepared via;ball-milling and hot-pressing techniques. Dynamic signatures of Ge;clustering can be inferred from the data by referencing the resulting;spectra to a density functional theoretical model assuming homogeneous;alloying via the virtual-crystal approximation. Comparisons are also;presented between as-milled Si nanopowder and bulk, polycrystalline Si;where a preferential low-energy enhancement and lifetime broadening of;the phonon density of states appear in the nanopowder. Negligible;differences are however observed between the phonon spectra of bulk Si;and hot-pressed, nanostructured Si samples suggesting that changes to;the single-phonon dynamics above 4 meV play only a secondary role in the;modified heat conduction of this compound.;BL18, ARCS/A-3000-2012; Abernathy, Douglas/A-3038-2012; Ren, Zhifeng/B-4275-2014;1;0;0;0;1;1098-0121;WOS:000312364200002;;;J;Farahani, S. K. Vasheghani;Veal, T. D.;Sanchez, A. M.;Bierwagen, O.;White, M. E.;Gorfman, S.;Thomas, P. A.;Speck, J. S.;McConville, C. F.;Influence of charged-dislocation density variations on carrier mobility;in heteroepitaxial semiconductors: The case of SnO2 on sapphire;PHYSICAL REVIEW B;86;24;245315;10.1103/PhysRevB.86.245315;DEC 17 2012;2012;In highly mismatched heteroepitaxial systems, the influence of carrier-;and dislocation-density variations on carrier mobility is revealed.;Transmission electronmicroscopy reveals the variation of dislocation;density through a series of SnO2 films grown by molecular-beam epitaxy;on sapphire substrates where the lattice mismatch exceeds 11%. A;layer-by-layer parallel conduction treatment of the carrier mobility in;SnO2 epilayers is used to illustrate the dominant role of the;depth-dependent dislocation density and charge profile in determining;the film-thickness dependence of the transport properties.;Thomas, Pam/G-3532-2010; Sanchez, Ana/F-3153-2010;Sanchez, Ana/0000-0002-8230-6059;0;0;0;0;0;1098-0121;WOS:000312365800009;;;J;Ferraz, Alvaro;Kochetov, Evgeny;Comment on "Fermi surface reconstruction in hole-doped t-J models;without long-range antiferromagnetic order";PHYSICAL REVIEW B;86;24;247103;10.1103/PhysRevB.86.247103;DEC 17 2012;2012;0;0;0;0;0;1098-0121;WOS:000312365800015;;;J;Frimmer, Martin;Koenderink, A. Femius;Superemitters in hybrid photonic systems: A simple lumping rule for the;local density of optical states and its breakdown at the unitary limit;PHYSICAL REVIEW B;86;23;235428;10.1103/PhysRevB.86.235428;DEC 17 2012;2012;We theoretically investigate how the enhancement of the radiative decay;rate of a spontaneous emitter provided by coupling to an optical antenna;is modified when this "superemitter" is introduced into a complex;photonic environment that provides an enhanced local density of optical;states (LDOS) itself, such as a microcavity or stratified medium. We;show that photonic environments with increased LDOS further boost the;performance of antennas that scatter weakly, for which a simple;multiplicative LDOS lumping rule holds. In contrast, enhancements;provided by antennas close to the unitary limit, i.e., close to the;limit of maximally possible scattering strength, are strongly reduced by;an enhanced LDOS of the environment. Thus, we identify multiple;scattering in hybrid photonic systems as a powerful mechanism for LDOS;engineering. DOI: 10.1103/PhysRevB.86.235428;Koenderink, A. Femius/A-3955-2008;Koenderink, A. Femius/0000-0003-1617-5748;7;0;0;0;7;1098-0121;WOS:000312365200011;;;J;Gasparinetti, S.;Kamleitner, I.;Coherent Cooper-pair pumping by magnetic flux control;PHYSICAL REVIEW B;86;22;224510;10.1103/PhysRevB.86.224510;DEC 17 2012;2012;We introduce and discuss a scheme for Cooper-pair pumping. The scheme;relies on the coherent transfer of a superposition of charge states;across a superconducting island and is realized by adiabatic;manipulation of magnetic fluxes. Differently from previous;implementations, it does not require any modulation of electrostatic;potentials. We find a peculiar dependence of the pumped charge on the;superconducting phase bias across the pump and that an arbitrarily large;amount of charge can be pumped in a single cycle when the phase bias is;pi. We explain these features and their relation to the adiabatic;theorem. DOI: 10.1103/PhysRevB.86.224510;Gasparinetti, Simone/C-2991-2014;Gasparinetti, Simone/0000-0002-7238-693X;3;0;0;0;3;1098-0121;WOS:000312364700007;;;J;Gu, B.;Ziman, T.;Maekawa, S.;Theory of the spin Hall effect, and its inverse, in a ferromagnetic;metal near the Curie temperature;PHYSICAL REVIEW B;86;24;241303;10.1103/PhysRevB.86.241303;DEC 17 2012;2012;We give a theory of the inverse spin Hall effect (ISHE) in ferromagnetic;metals based on skew scattering via collective spin fluctuations. This;extends Kondo's theory of the anomalous Hall effect (AHE) to include;short-range spin-spin correlations. We find a relation between the ISHE;and the four-spin correlations near the Curie temperature T-C. Such;four-spin correlations do not contribute to the AHE, which relates to;the three-spin correlations. Thus our theory shows an essential;difference between the AHE and ISHE, providing an essential complement;to Kondo's classic theory of the AHE in metals. We note the relation to;skew-scattering mechanisms based on impurity scattering. Our theory can;be compared to recent experimental results by Wei et al. [Nat. Commun.;3, 1058 (2012)] for the ISHE in ferromagnetic alloys. DOI:;10.1103/PhysRevB.86.241303;Gu, Bo/B-6145-2011;Gu, Bo/0000-0003-2216-8413;1;0;0;0;1;1098-0121;WOS:000312365800003;;;J;Guedes, E. B.;Abbate, M.;Ishigami, K.;Fujimori, A.;Yoshimatsu, K.;Kumigashira, H.;Oshima, M.;Vicentin, F. C.;Fonseca, P. T.;Mossanek, R. J. O.;Core level and valence band spectroscopy of SrRuO3: Electron correlation;and covalence effects;PHYSICAL REVIEW B;86;23;235127;10.1103/PhysRevB.86.235127;DEC 17 2012;2012;We studied the electronic structure of SrRuO3 using several;spectroscopic techniques. These include ( resonant) photoemission, x-ray;absorption, and optical conductivity. The experimental results were;interpreted using an extended cluster model, which takes into account;electron correlation and the Ru 4d-O 2p covalence. The analysis shows;that this material is in the negative charge transfer regime, where the;ground state is dominated by the 4d(5) (L) under bar configuration with;an occupation of 47%. This is mainly due to the relatively large crystal;field and exchange splitting in the Ru 4d states. The electronic;structure of SrRuO3 is strongly influenced by the Ru 4d-O 2p;hybridization. Thus, the oxygen states should be explicitly considered;in the analysis of the physical properties of this system. However,;correlation effects are also important in this system giving rise to the;coherent peak in the valence band spectra. DOI:;10.1103/PhysRevB.86.235127;Mossanek, Rodrigo /E-8113-2010;1;0;0;0;1;1098-0121;WOS:000312365200007;;;J;Gull, E.;Millis, A. J.;Energetics of superconductivity in the two-dimensional Hubbard model;PHYSICAL REVIEW B;86;24;241106;10.1103/PhysRevB.86.241106;DEC 17 2012;2012;The energetics of the interplay between superconductivity and the;pseudogap in high-temperature superconductivity is examined using the;eight-site dynamical cluster approximation to the two-dimensional;Hubbard model. Two regimes of superconductivity are found: a;weak-coupling/large-doping regime in which the onset of;superconductivity causes a reduction in potential energy and an increase;in kinetic energy, and a strong-coupling regime in which;superconductivity is associated with an increase in potential energy and;a decrease in kinetic energy. The crossover between the two regimes is;found to coincide with the boundary of the normal-state pseudogap,;providing further evidence of the unconventional nature of;superconductivity in the pseudogap regime. However, the absence, in the;strongly correlated but nonsuperconducting state, of discernibly;nonlinear response to an applied pairing field suggests that resonating;valence bond physics is not the origin of the kinetic-energy driven;superconductivity. DOI: 10.1103/PhysRevB.86.241106;Gull, Emanuel/A-2362-2010;Gull, Emanuel/0000-0002-6082-1260;10;1;0;0;10;1098-0121;WOS:000312365800001;;;J;Hiltscher, Bastian;Governale, Michele;Koenig, Juergen;ac Josephson transport through interacting quantum dots;PHYSICAL REVIEW B;86;23;235427;10.1103/PhysRevB.86.235427;DEC 17 2012;2012;We investigate the ac Josephson current through a quantum dot with;strong Coulomb interaction attached to two superconducting and one;normal lead. To this end, we perform a perturbation expansion in the;tunneling couplings within a diagrammatic real-time technique. The ac;Josephson current is connected to the reduced density matrix elements;that describe superconducting correlations induced on the quantum dot;via proximity effect. We analyze the dependence of the ac signal on the;level position of the quantum dot, the charging energy, and the applied;bias voltages. DOI: 10.1103/PhysRevB.86.235427;2;0;0;0;2;1098-0121;WOS:000312365200010;;;J;Kambe, Takashi;He, Xuexia;Takahashi, Yosuke;Yamanari, Yusuke;Teranishi, Kazuya;Mitamura, Hiroki;Shibasaki, Seiji;Tomita, Keitaro;Eguchi, Ritsuko;Goto, Hidenori;Takabayashi, Yasuhiro;Kato, Takashi;Fujiwara, Akihiko;Kariyado, Toshikaze;Aoki, Hideo;Kubozono, Yoshihiro;Synthesis and physical properties of metal-doped picene solids;PHYSICAL REVIEW B;86;21;214507;10.1103/PhysRevB.86.214507;DEC 17 2012;2012;We report electronic-structure and physical properties of metal-doped;picene as well as selective synthesis of the phase that exhibits 18-K;superconducting transition. First, Raman scattering is used to;characterize the number of electrons transferred from the dopants to;picene molecules, where a softening of Raman scattering peaks enables us;to determine the number of transferred electrons. From this, we have;identified that three electrons are transferred to each picene molecule;in the superconducting doped picene solids. Second, we report pressure;dependence of T-c in 7- and 18-K phases of K(3)picene. The 7-K phase;shows a negative pressure dependence, while the 18-K phase exhibits a;positive pressure dependence which can not be understood with a simple;phonon mechanism of BCS superconductivity. Third, we report a synthesis;method for superconducting K(3)picene by a solution process with;monomethylamine CH3NH2. This method enables us to prepare selectively;the K(3)picene sample exhibiting 18-K superconducting transition. The;method for preparing K(3)picene with T-c = 18 K found here may;facilitate clarification of the mechanism of superconductivity.;Takabayashi, Yasuhiro/A-5014-2013; EGUCHI, Ritsuko/H-4129-2011; Aoki, Hideo/A-2525-2009; KUBOZONO, Yoshihiro/B-2091-2011; KAMBE, Takashi/B-2117-2011;Takabayashi, Yasuhiro/0000-0002-3493-2194; Aoki,;Hideo/0000-0002-7332-9355;;14;0;0;0;14;1098-0121;WOS:000312364200006;;;J;Kandpal, Hem C.;Koepernik, Klaus;Richter, Manuel;Strong magnetic anisotropy of chemically bound Co dimers in a graphene;sheet;PHYSICAL REVIEW B;86;23;235430;10.1103/PhysRevB.86.235430;DEC 17 2012;2012;The magnetism of cobalt atoms and dimers bound by single vacancies in a;graphene sheet is investigated by means of relativistic density;functional calculations. In both cases, local magnetic moments are;formed despite strong chemical binding. While orbital magnetism is;suppressed in the Co atoms, magnetic bistability with an anisotropy;barrier of about 50 meV is possible in the chemically bound Co dimers.;The feasibility of their preparation is demonstrated and a general;construction principle for similar (sub-)nanometer size magnets is;proposed. DOI: 10.1103/PhysRevB.86.235430;3;0;0;0;3;1098-0121;WOS:000312365200013;;;J;Kawai, Shigeki;Glatzel, Thilo;Such, Bartosz;Koch, Sascha;Baratoff, Alexis;Meyer, Ernst;Energy dissipation in dynamic force microscopy on KBr(001) correlated;with atomic-scale adhesion phenomena;PHYSICAL REVIEW B;86;24;245419;10.1103/PhysRevB.86.245419;DEC 17 2012;2012;Atomic-scale adhesion phenomena between KBr tip and sample were studied;by dynamic force spectroscopy with a small amplitude of down to 285 pm;at room temperature. The high-resonance frequency of the second flexural;mode of a silicon cantilever (approximate to 1 MHz) suppresses an;apparent dissipation energy caused by undesirable mechanical couplings;in between the cantilever and the dither piezo actuator. Further, the;Joule heating dissipation contribution and the noise-equivalent;dissipation energy were reduced by setting a smaller amplitude. Usage of;a high resonance frequency and a smaller amplitude enables us to perform;highly sensitive measurements of the atomic-scale adhesion and the;tip-instability-related energy dissipation. Tip changes, caused by;tip-sample interactions and thermal energy, resulted in three different;dissipation energy levels (Delta E-ts approximate to 25 meV/cycle). This;infrequent change of the tip apex condition often prevents a stable;imaging with small amplitude. Our systematic measurement shows that the;atomic adhesion is caused mainly in the tip itself, and a sharper and;softer tip induced a larger energy dissipation. DOI:;10.1103/PhysRevB.86.245419;Glatzel, Thilo/F-2639-2011; Kawai, Shigeki/C-8517-2012;2;0;0;0;2;1098-0121;WOS:000312365800014;;;J;Kim, Younghyun;Cano, Jennifer;Nayak, Chetan;Majorana zero modes in semiconductor nanowires in contact with;higher-T-c superconductors;PHYSICAL REVIEW B;86;23;235429;10.1103/PhysRevB.86.235429;DEC 17 2012;2012;We analyze the prospects for stabilizing Majorana zero modes in;semiconductor nanowires that are proximity coupled to higher-temperature;superconductors. We begin with the case of iron pnictides which, though;they are s-wave superconductors, are believed to have superconducting;gaps that change sign. We then consider the case of cuprate;superconductors. We show that a nanowire on a steplike surface,;especially in an orthorhombic material such as YBCO, can support;Majorana zero modes at an elevated temperature. DOI:;10.1103/PhysRevB.86.235429;1;0;0;0;1;1098-0121;WOS:000312365200012;;;J;Kovylina, Miroslavna;Morales, Rafael;Labarta, Amilcar;Batlle, Xavier;Magnetization reversal in Ni/FeF2 heterostructures with the coexistence;of positive and negative exchange bias;PHYSICAL REVIEW B;86;22;224414;10.1103/PhysRevB.86.224414;DEC 17 2012;2012;Magnetization reversal mechanisms are studied in Ni/FeF2;heterostructures with the coexistence of positive and negative exchanged;bias (PEB/NEB), showing single and double hysteresis loops (DHL) in;magnetoresistance measurements. Micromagnetic simulations show that PEB;and NEB domains of a minimum critical size must be introduced in order;to reproduce the occurrence of DHLs. The simulations reveal that;different magnetic configurations and, hence, different magnetization;reversal processes take place in a ferromagnet (FM) on top of minority;PEB domains that are either greater or smaller than the critical size.;In particular, for the case of DHLs, core reversal of a depthwise domain;wall is observed over minority PEB domains when the magnetic field is;decreased from positive saturation. As the field is further decreased, a;complex domain-wall evolution takes place in the FM, including the;dependences of the domain-wall width and domain size on the magnetic;field and distance from the antiferromagnet (AF). These effects should;be taken into account when the domain size is estimated from data;measured by depth-dependent techniques since they average the;distribution of domain sizes in the FM for different distances from the;AF. DOI: 10.1103/PhysRevB.86.224414;Labarta, Amilcar/B-4539-2012; Batlle, Xavier/H-5795-2012;Labarta, Amilcar/0000-0003-0904-4678;;2;0;0;0;2;1098-0121;WOS:000312364700004;;;J;Kuga, Kentaro;Morrison, Gregory;Treadwell, LaRico;Chan, Julia Y.;Nakatsuji, Satoru;Magnetic order induced by Fe substitution of Al site in the;heavy-fermion systems alpha-YbAlB4 and beta-YbAlB4;PHYSICAL REVIEW B;86;22;224413;10.1103/PhysRevB.86.224413;DEC 17 2012;2012;beta-YbAlB4 is a heavy-fermion superconductor that exhibits a quantum;criticality without tuning at zero field and under ambient pressure. We;have succeeded in substituting Fe for Al in beta-YbAlB4 as well as the;polymorphous compound alpha-YbAlB4, which in contrast has a heavy;Fermi-liquid ground state. Full structure determination by;single-crystal x-ray diffraction confirmed no change in crystal;structure for both alpha- and beta-YbAlB4, in addition to volume;contraction with Fe substitution. Our measurements of the magnetization;and specific heat indicate that both alpha-YbAl0.93Fe0.07B4 and;beta-YbAl0.94Fe0.06B4 exhibit a magnetic order, most likely of a canted;antiferromagnetic type, at 7 similar to 9 K. The increase in the entropy;as well as the decrease in the antiferromagnetic Weiss temperature with;the Fe substitution in both systems indicates that the chemical pressure;due to the Fe substitution suppresses the Kondo temperature and induces;the magnetism. DOI: 10.1103/PhysRevB.86.224413;Chan, Julia/C-5392-2008;2;0;0;0;2;1098-0121;WOS:000312364700003;;;J;Lee, Yu-Wen;Lee, Yu-Li;Chung, Chung-Hou;Nonequilibrium noise correlations in a point contact of helical edge;states;PHYSICAL REVIEW B;86;23;235121;10.1103/PhysRevB.86.235121;DEC 17 2012;2012;We investigate theoretically the nonequilibrium finite-frequency current;noise in a four-terminal quantum point contact of interacting helical;edge states at a finite bias voltage. Special focus is put on the;effects of the single-particle and two-particle scattering between the;two helical edge states on the fractional charge quasiparticle;excitations shown in the nonequilibrium current noise spectra. Via the;Keldysh perturbative approach, we find that the effects of the;single-particle and the two-particle scattering processes on the current;noise depend sensitively on the Luttinger liquid parameter. Moreover,;the Fano factors for the auto-and cross correlations of the currents in;the terminals are distinct from the ones for tunneling between the;chiral edge states in the quantum Hall liquid. The current noise spectra;in the single-particle-scattering-dominated and the;two-particle-scattering-dominated regime are shown. Experimental;implications of our results on the transport through the helical edges;in two-dimensional topological insulators are discussed. DOI:;10.1103/PhysRevB.86.235121;6;0;0;0;6;1098-0121;WOS:000312365200001;;;J;Leppert, L.;Albuquerque, R. Q.;Kuemmel, S.;Gold-platinum alloys and Vegard's law on the nanoscale;PHYSICAL REVIEW B;86;24;241403;10.1103/PhysRevB.86.241403;DEC 17 2012;2012;The structure of gold-platinum nanoparticles is heavily debated as;theoretical calculations predict core-shell particles, whereas x-ray;diffraction experiments frequently detect randomly mixed alloys. By;calculating the structure of gold-platinum nanoparticles with diameters;of up to approximate to 3.5 nm and simulating their x-ray diffraction;patterns, we show that these seemingly opposing findings need not be in;contradiction: Shells of gold are hardly visible in usual x-ray;scattering, and the interpretation of Vegard's law is ambiguous on the;nanoscale. DOI: 10.1103/PhysRevB.86.241403;Albuquerque, Rodrigo/A-8433-2013; Kummel, Stephan/K-5634-2014;4;0;0;0;4;1098-0121;WOS:000312365800004;;;J;Lin, Chien-Hung;Sau, Jay D.;Das Sarma, S.;Zero-bias conductance peak in Majorana wires made of;semiconductor/superconductor hybrid structures;PHYSICAL REVIEW B;86;22;224511;10.1103/PhysRevB.86.224511;DEC 17 2012;2012;Motivated by a recent experimental report Mourik et al. [Science 336,;1003 (2012)] claiming the likely observation of the Majorana mode in a;semiconductor-superconductor hybrid structure, we study theoretically;the dependence of the zero-bias conductance peak associated with the;zero-energy Majorana mode in the topological superconducting phase as a;function of temperature, tunnel barrier potential, and a magnetic field;tilted from the direction of the wire for realistic wires of finite;lengths. We find that higher temperatures and tunnel barriers as well as;a large magnetic field in the direction transverse to the wire length;could very strongly suppress the zero- bias conductance peak as observed;in recent experiments. We also show that a strong magnetic field along;the wire could eventually lead to the splitting of the zero bias peak;into a doublet with the doublet energy splitting oscillating as a;function of increasing magnetic field. Our results based on the standard;theory of topological superconductivity in a semiconductor hybrid;structure in the presence of proximity-induced superconductivity,;spin-orbit coupling, and Zeeman splitting show that the recently;reported experimental data are generally consistent with the existing;theory that led to the predictions for the existence of the Majorana;modes in the semiconductor hybrid structures in spite of some apparent;anomalies in the experimental observations at first sight. We also make;a prediction for the future observation of Majorana splitting in finite;wires used in the experiments. DOI: 10.1103/PhysRevB. 86.224511;Das Sarma, Sankar/B-2400-2009;22;0;1;0;22;1098-0121;WOS:000312364700008;;;J;Marchal, R.;Boyko, O.;Bonello, B.;Zhao, J.;Belliard, L.;Oudich, M.;Pennec, Y.;Djafari-Rouhani, B.;Dynamics of confined cavity modes in a phononic crystal slab;investigated by in situ time-resolved experiments;PHYSICAL REVIEW B;86;22;224302;10.1103/PhysRevB.86.224302;DEC 17 2012;2012;The confinement of elastic waves within a single defect in a phononic;crystal slab is investigated both experimentally and theoretically. The;structure is formed by a honeycomb lattice of air holes in a silicon;plate with one hole missing in its center. The frequencies and;polarizations of the localized modes in the first band gap are computed;with a finite element method. A noncontact laser ultrasonic technique is;used both to excite flexural Lamb waves and to monitor in situ the;displacement field within the cavity. We report on the time evolution of;confinement, which is distinct according to the symmetry of the;eigenmode. DOI: 10.1103/PhysRevB.86.224302;3;0;0;0;3;1098-0121;WOS:000312364700002;;;J;Martinez, Enrique;Senninger, Oriane;Fu, Chu-Chun;Soisson, Frederic;
6:8:6:17 Modeling homogeneous precipitation with an event-based Monte Carlo method: Application to the case of Fe-Cu
DOI:10.1016/j.actamat.2010.02.003 JN:ACTA MATERIALIA PY:2010 TC:5 AU: Jourdan, T.;Bocquet, J. -L.;Soisson, F.;
6:8:6:18 Dislocation loop formation under various irradiations of laser and/or electron beams
DOI:10.1016/j.actamat.2013.01.056 JN:ACTA MATERIALIA PY:2013 TC:5 AU: Yang, Zhanbing;Watanabe, Seiichi;
6:8:6:19 Effect of Mn addition on one-dimensional migration of dislocation loops in body-centered cubic Fe
DOI:10.1016/j.actamat.2013.07.029 JN:ACTA MATERIALIA PY:2013 TC:2 AU: Yabuuchi, Kiyohiro;Kasada, Ryuta;Kimura, Akihiko;
6:8:6:20 Correlation factor for diffusion in cubic crystals with solute-vacancy interactions of arbitrary range
DOI:10.1080/14786435.2014.965768 JN:PHILOSOPHICAL MAGAZINE PY:2014 TC:0 AU: Bocquet, J. L.;
6:8:6:21 Importance of configurational contributions to the free energy of nanoclusters
DOI:10.1063/1.4817590 JN:AIP ADVANCES PY:2013 TC:1 AU: Posselt, M.;
6:8:6:22 The diffusivity and solubility of copper in ferromagnetic iron at lower temperatures studied by atom probe tomography
DOI:10.1016/j.scriptamat.2014.03.009 JN:SCRIPTA MATERIALIA PY:2014 TC:2 AU: Toyama, T.;Takahama, F.;Kuramoto, A.;Takamizawa, H.;Nozawa, Y.;Ebisawa, N.;Shimodaira, M.;Shimizu, Y.;Inoue, K.;Nagai, Y.;
6:8:6:23 Radiation-induced precipitation in a ferritic model alloy: An experimental and theoretical study
DOI:10.1016/j.actamat.2013.07.008 JN:ACTA MATERIALIA PY:2013 TC:12 AU: Meslin, E.;Radiguet, B.;Loyer-Prost, M.;
6:8:6:24 Diffusivity and Solubility of Cu in a Reactor Pressure Vessel Steel Studied by Atom Probe Tomography
DOI:10.2320/matertrans.MAW201410 JN:MATERIALS TRANSACTIONS PY:2014 TC:0 AU: Shimodaira, Masaki;Toyama, Takeshi;Takahama, Fumihiko;Ebisawa, Naoki;Nozawa, Yasuko;Shimizu, Yasuo;Inoue, Koji;Nagai, Yasuyoshi;
6:8:6:25 Solute segregation on Sigma 3 and random grain boundaries in type 316L stainless steel
DOI:10.1016/j.msea.2013.04.048 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: Tomozawa, Masanari;Miyahara, Yuichi;Kako, Kenji;
6:8:6:26 Studies of homogeneous precipitation in very dilute iron-copper alloys using kinetic Monte Carlo simulations and statistical theory of nucleation
DOI:10.1080/14786435.2013.799789 JN:PHILOSOPHICAL MAGAZINE PY:2013 TC:3 AU: Vaks, V. G.;Soisson, F.;Zhuravlev, I. A.;
6:8:6:27 Strain-induced precipitate dissolution in an irradiated austenitic alloy
DOI:10.1016/j.scriptamat.2011.04.003 JN:SCRIPTA MATERIALIA PY:2011 TC:3 AU: Jiao, Z.;McMurtrey, M. D.;Was, G. S.;
6:8:6:28 alpha ' precipitation in neutron-irradiated Fe-Cr alloys
DOI:10.1016/j.scriptamat.2013.10.001 JN:SCRIPTA MATERIALIA PY:2014 TC:13 AU: Bachhav, Mukesh;Odette, G. Robert;Marquis, Emmanuelle A.;
6:8:7:1 Dynamic precipitation of Mg2Si induced by temperature and strain during hot extrusion and its impact on microstructure and mechanical properties of near eutectic Al-Si-Mg-V alloy
DOI:10.1016/j.msea.2014.07.023 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Wu, Yuna;Liao, Hengcheng;Liu, Yabing;Zhou, Kexin;
6:8:7:2 Mechanism of Void Nucleation and Growth in bcc Fe: Atomistic Simulations at Experimental Time Scales
DOI:10.1103/PhysRevLett.106.125501 JN:PHYSICAL REVIEW LETTERS PY:2011 TC:24 AU: Fan, Yue;Kushima, Akihiro;Yip, Sidney;Yildiz, Bilge;
6:8:7:3 Atomistic Simulation of Creep in a Nanocrystal
DOI:10.1103/PhysRevLett.104.175501 JN:PHYSICAL REVIEW LETTERS PY:2010 TC:20 AU: Lau, Timothy T.;Kushima, Akihiro;Yip, Sidney;
6:8:7:4 Defect kinetics on experimental timescales using atomistic simulations
DOI:10.1080/14786435.2012.674224 JN:PHILOSOPHICAL MAGAZINE PY:2013 TC:4 AU: Wang, H.;Rodney, D.;Xu, D. S.;Yang, R.;Veyssiere, P.;
6:8:7:5 Pentavacancy as the key nucleus for vacancy clustering in aluminum
DOI:10.1103/PhysRevB.84.220103 JN:PHYSICAL REVIEW B PY:2011 TC:9 AU: Wang, Hao;Rodney, David;Xu, Dongsheng;Yang, Rui;Veyssiere, Patrick;
6:8:7:6 Energy landscape of small clusters of self-interstitial dumbbells in iron
DOI:10.1103/PhysRevB.83.094119 JN:PHYSICAL REVIEW B PY:2011 TC:21 AU: Marinica, M. -C.;Willaime, F.;Mousseau, N.;
6:8:7:7 Unfaulting mechanism of trapped self-interstitial atom clusters in bcc Fe: A kinetic study based on the potential energy landscape
DOI:10.1103/PhysRevB.81.104102 JN:PHYSICAL REVIEW B PY:2010 TC:16 AU: Fan, Yue;Kushima, Akihiro;Yildiz, Bilge;
6:8:7:8 Interstitial loop strengthening upon deformation in aluminum via molecular dynamics simulations
DOI:10.1016/j.actamat.2013.02.044 JN:ACTA MATERIALIA PY:2013 TC:2 AU: Wang, H.;Xu, D. S.;Veyssiere, P.;Yang, R.;
6:8:7:9 Simulating complex atomistic processes: On-the-fly kinetic Monte Carlo scheme with selective active volumes
DOI:10.1103/PhysRevB.84.132103 JN:PHYSICAL REVIEW B PY:2011 TC:13 AU: Xu, Haixuan;Osetsky, Yury N.;Stoller, Roger E.;
6:8:7:10 Comment on "Mechanism of Void Nucleation and Growth in bcc Fe: Atomistic Simulations at Experimental Time Scales" Reply
DOI:10.1103/PhysRevLett.108.219602 JN:PHYSICAL REVIEW LETTERS PY:2012 TC:3 AU: Fan, Yue;Kushima, Akihiro;Yip, Sidney;Yildiz, Bilge;
6:8:7:11 The formation of stacking fault tetrahedra in Al and Cu II SFT growth by successive absorption of vacancies generated by dipole annihilation
DOI:10.1016/j.actamat.2010.07.044 JN:ACTA MATERIALIA PY:2011 TC:9 AU: Wang, H.;Xu, D. S.;Yang, R.;Veyssiere, P.;
6:8:7:12 The formation of stacking fault tetrahedra in Al and Cu I Dipole annihilation and the nucleation stage
DOI:10.1016/j.actamat.2010.07.046 JN:ACTA MATERIALIA PY:2011 TC:13 AU: Wang, H.;Xu, D. S.;Yang, R.;Veyssiere, P.;
6:8:7:13 The formation of stacking fault tetrahedra in Al and Cu III Growth by expanding ledges
DOI:10.1016/j.actamat.2010.07.045 JN:ACTA MATERIALIA PY:2011 TC:8 AU: Wang, H.;Xu, D. S.;Yang, R.;Veyssiere, P.;
6:8:7:14 Comment on "Mechanism of Void Nucleation and Growth in bcc Fe: Atomistic Simulations at Experimental Time Scales"
DOI:10.1103/PhysRevLett.108.219601 JN:PHYSICAL REVIEW LETTERS PY:2012 TC:7 AU: Brommer, Peter;Mousseau, Normand;
6:8:7:15 The formation of stacking fault tetrahedra in Al and Cu II. SFT growth by successive absorption of vacancies generated by dipole annihilation (vol 59, pg 10, 2011)
DOI:10.1016/j.actamat.2010.12.036 JN:ACTA MATERIALIA PY:2011 TC:0 AU: Wang, H.;Xu, D. S.;Yang, R.;Veyssiere, P.;
6:8:7:16 Generating structural distributions of atomistic models of Li2O nanoparticles using simulated crystallisation
DOI:10.1039/c0jm01580f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:3 AU: Sayle, Thi X. T.;Ngoepe, Phuti E.;Sayle, Dean C.;
6:8:7:17 Characterization of grain microstructure development in the aluminum alloy EN AW-6060 during extrusion
DOI:10.1016/j.msea.2010.06.050 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:6 AU: Kayser, T.;Klusemann, B.;Lambers, H. -G.;Maier, H. J.;Svendsen, B.;
6:8:7:18 Molecular dynamics study of configuration and stability of vacancy clusters in fcc Ag
DOI:10.1080/14786435.2011.596493 JN:PHILOSOPHICAL MAGAZINE PY:2011 TC:0 AU: Zhu, Wenpeng;Yang, Wei;
6:8:7:19 Carbon-vacancy interaction controls lattice damage recovery in iron
DOI:10.1016/j.scriptamat.2014.04.003 JN:SCRIPTA MATERIALIA PY:2014 TC:2 AU: Terentyev, D.;Heinola, K.;Bakaev, A.;Zhurkin, E. E.;
6:8:8:1 Single-crystal elastic constants of ferromagnetic bcc Fe-based random alloys from first-principles theory
DOI:10.1103/PhysRevB.81.184105 JN:PHYSICAL REVIEW B PY:2010 TC:26 AU: Zhang, Hualei;Punkkinen, M. P. J.;Johansson, Borje;Hertzman, Staffan;Vitos, Levente;
6:8:8:2 Density-functional study of paramagnetic iron
DOI:10.1103/PhysRevB.84.140411 JN:PHYSICAL REVIEW B PY:2011 TC:13 AU: Zhang, Hualei;Johansson, Borje;Vitos, Levente;
6:8:8:3 Designing new corrosion resistant ferritic heat resistant steel based on optimal solid solution strengthening and minimisation of undesirable microstructural components
DOI:10.1016/j.commatsci.2013.12.009 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:3 AU: Lu, Qi;Xu, Wei;van der Zwaag, Sybrand;
6:8:8:4 Static equation of state of bcc iron
DOI:10.1103/PhysRevB.82.132409 JN:PHYSICAL REVIEW B PY:2010 TC:16 AU: Zhang, H. L.;Lu, S.;Punkkinen, M. P. J.;Hu, Q. -M.;Johansson, B.;Vitos, L.;
6:8:8:5 Elastic parameters of paramagnetic iron-based alloys from first-principles calculations
DOI:10.1103/PhysRevB.85.054107 JN:PHYSICAL REVIEW B PY:2012 TC:4 AU: Zhang, Hualei;Punkkinen, Marko P. J.;Johansson, Borje;Vitos, Levente;
6:8:8:6 Anomalous elastic hardening in Fe-Co alloys at high temperature
DOI:10.1103/PhysRevB.89.184107 JN:PHYSICAL REVIEW B PY:2014 TC:0 AU: Zhang, Hualei;Li, Xiaoqing;Schonecker, Stephan;Jesperson, Henrik;Johansson, Borje;Vitos, Levente;
6:8:8:7 Tetragonality of carbon-doped ferromagnetic iron alloys: A first-principles study
DOI:10.1103/PhysRevB.85.014112 JN:PHYSICAL REVIEW B PY:2012 TC:2 AU: Al-Zoubi, N.;Skorodumova, N. V.;Medvedeva, A.;Andersson, J.;Nilson, G.;Johansson, B.;Vitos, L.;
6:8:8:8 Alloying effects on the elastic parameters of ferromagnetic and paramagnetic Fe from first-principles theory
DOI:10.1063/1.3644907 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:5 AU: Zhang, H. L.;Al-Zoubi, N.;Johansson, B.;Vitos, L.;
6:8:8:9 First-principles study of solid-solution hardening in steel alloys
DOI:10.1016/j.commatsci.2011.12.020 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:5 AU: Zhang, Hualei;Johansson, Borje;Ahuja, Rajeev;Vitos, Levente;
6:8:8:10 Completeness of the exact muffin-tin orbitals: Application to hydrogenated alloys
DOI:10.1103/PhysRevB.81.045122 JN:PHYSICAL REVIEW B PY:2010 TC:3 AU: Al-Zoubi, N. I.;Punkkinen, M. P. J.;Johansson, B.;Vitos, L.;
6:8:8:11 Ab initio description of monovacancies in paramagnetic austenitic Fe-Cr-Ni alloys
DOI:10.1103/PhysRevB.85.174101 JN:PHYSICAL REVIEW B PY:2012 TC:6 AU: Delczeg, L.;Johansson, B.;Vitos, L.;
6:8:8:12 The Bain path of paramagnetic Fe-Cr based alloys
DOI:10.1063/1.3603024 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:3 AU: Al-Zoubi, N.;Johansson, B.;Nilson, G.;Vitos, L.;
6:8:8:13 Magnetic properties of FeCo alloys measured by energy-loss magnetic chiral dichroism
DOI:10.1063/1.3358217 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:5 AU: Warot-Fonrose, B.;Gatel, C.;Calmels, L.;Serin, V.;Snoeck, E.;Cherifi, S.;
6:8:8:14 Enhanced mechanical property of Fe-Al alloy due to Mn insertion: ab initio study
DOI:10.1016/j.jallcom.2013.08.167 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:0 AU: Kang, Seung Jin;Park, Sora;Kim, Miyoung;Han, Heung Nam;Lee, Suk-Kyu;Lee, Kyoo Young;Kwon, Young-Kyun;
6:8:9:1 Nanoscale co-precipitation and mechanical properties of a high-strength low-carbon steel
DOI:10.1016/j.actamat.2010.11.054 JN:ACTA MATERIALIA PY:2011 TC:21 AU: Mulholland, Michael D.;Seidman, David N.;
6:8:9:2 Microstructure characterization of Cu-rich nanoprecipitates in a Fe-2.5 Cu-1.5 Mn-4.0 Ni-1.0 Al multicomponent ferritic alloy
DOI:10.1016/j.actamat.2012.12.034 JN:ACTA MATERIALIA PY:2013 TC:13 AU: Wen, Y. R.;Hirata, A.;Zhang, Z. W.;Fujita, T.;Liu, C. T.;Jiang, J. H.;Chen, M. W.;
6:8:9:3 From embryos to precipitates: A study of nucleation and growth in a multicomponent ferritic steel
DOI:10.1103/PhysRevB.84.174114 JN:PHYSICAL REVIEW B PY:2011 TC:7 AU: Zhang, Z. W.;Liu, C. T.;Wang, X. -L.;Littrell, K. C.;Miller, M. K.;An, K.;Chin, B. A.;
6:8:9:4 Characterization of oxide nanoprecipitates in an oxide dispersion strengthened 14YWT steel using aberration-corrected STEM
DOI:10.1016/j.actamat.2012.06.042 JN:ACTA MATERIALIA PY:2012 TC:18 AU: Hirata, A.;Fujita, T.;Liu, C. T.;Chen, M. W.;
6:8:9:5 Effects of proton irradiation on nanocluster precipitation in ferritic steel containing fcc alloying additions
DOI:10.1016/j.actamat.2012.02.008 JN:ACTA MATERIALIA PY:2012 TC:12 AU: Zhang, Z. W.;Liu, C. T.;Wang, X-L.;Miller, M. K.;Ma, D.;Chen, G.;Williams, J. R.;Chin, B. A.;
6:8:9:6 Synergistic effects of Cu and Ni on nanoscale precipitation and mechanical properties of high-strength steels
DOI:10.1016/j.actamat.2013.06.040 JN:ACTA MATERIALIA PY:2013 TC:7 AU: Jiao, Z. B.;Luan, J. H.;Zhang, Z. W.;Miller, M. K.;Ma, W. B.;Liu, C. T.;
6:8:9:7 Splitting phenomenon in the precipitation evolution in an Fe-Ni-Al-Ti-Cr stainless steel
DOI:10.1016/j.actamat.2009.10.030 JN:ACTA MATERIALIA PY:2010 TC:12 AU: Leitner, H.;Schober, M.;Schnitzer, R.;
6:8:9:8 Synergistic alloying effect on microstructural evolution and mechanical properties of Cu precipitation-strengthened ferritic alloys
DOI:10.1016/j.actamat.2013.09.011 JN:ACTA MATERIALIA PY:2013 TC:4 AU: Wen, Y. R.;Li, Y. P.;Hirata, A.;Zhang, Y.;Fujita, T.;Furuhara, T.;Liu, C. T.;Chiba, A.;Chen, M. W.;
6:8:9:9 Synthesis and characterization of boron doped bismuth-calcium-cobalt oxide nanoceramic powders via polymeric precursor technique
DOI:10.1016/j.ceramint.2012.07.005 JN:CERAMICS INTERNATIONAL PY:2013 TC:4 AU: Aytimur, Arda;Uslu, Ibrahim;Cinar, Emre;Kocyigit, Serhat;Ozcan, Fatih;Akdemir, Ahmet;
6:8:9:10 High-strength steels hardened mainly by nanoscale NiAl precipitates
DOI:10.1016/j.scriptamat.2014.05.006 JN:SCRIPTA MATERIALIA PY:2014 TC:2 AU: Jiao, Z. B.;Luan, J. H.;Zhang, Z. W.;Miller, M. K.;Liu, C. T.;
6:8:9:11 Effect of Cu on the evolution of precipitation in an Fe-Cr-Ni-Al-Ti maraging steel
DOI:10.1016/j.actamat.2010.03.010 JN:ACTA MATERIALIA PY:2010 TC:13 AU: Schnitzer, Ronald;Schober, Michael;Zinner, Silvia;Leitner, Harald;
6:8:9:12 Boron effects on the ductility of a nano-cluster-strengthened ferritic steel
DOI:10.1016/j.msea.2010.10.058 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:11 AU: Zhang, Z. W.;Liu, C. T.;Guo, S.;Cheng, J. L.;Chen, G.;Fujita, Takeshi;Chen, M. W.;Chung, Yip-Wah;Vaynman, Semyon;Fine, Morris E.;Chin, Bryan A.;
6:8:9:13 Precipitate modification in PH13-8 Mo type maraging steel
DOI:10.1016/j.actamat.2011.04.053 JN:ACTA MATERIALIA PY:2011 TC:3 AU: Leitner, H.;Schnitzer, R.;Schober, M.;Zinner, S.;
6:8:9:14 Precipitation in alpha-Fe based Fe-Cu-Ni-Mn-alloys: behaviour of Ni and Mn modelled by ab initio and kinetic Monte Carlo simulations
DOI:10.1007/s00339-013-7850-9 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2014 TC:0 AU: Hocker, Stephen;Binkele, Peter;Schmauder, Siegfried;
6:8:9:15 TEM study of a fluorite-type (1-x)Bi2O3 center dot xFe(2)O(3) superstructure in BiFeO3 ceramics synthesized by the rapid liquid-phase sintering method
DOI:10.1016/j.ceramint.2009.09.023 JN:CERAMICS INTERNATIONAL PY:2010 TC:7 AU: Guo, Chao;Pu, Shizhou;Chen, Zhenlian;Li, Meiya;Cao, Jiefeng;Zou, Huamin;
6:8:10:1 Lattice dynamics, thermodynamics, and bonding strength of lithium-ion battery materials LiMPO4 (M = Mn, Fe, Co, and Ni): a comparative first-principles study
DOI:10.1039/c1jm13547c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:35 AU: Shang, S. L.;Wang, Y.;Mei, Z. G.;Hui, X. D.;Liu, Z. K.;
6:8:10:2 Lattice dynamics, thermodynamics and elastic properties of monoclinic Li2CO3 from density functional theory
DOI:10.1016/j.actamat.2012.06.006 JN:ACTA MATERIALIA PY:2012 TC:19 AU: Shang, Shun-Li;Hector, Louis G., Jr.;Shi, Siqi;Qi, Yue;Wang, Yi;Liu, Zi-Kiu;
6:8:10:3 Thermodynamic and mechanical properties of lanthanum-magnesium phases from density functional theory
DOI:10.1016/j.jallcom.2011.09.085 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:24 AU: Wrobel, J.;Hector, L. G., Jr.;Wolf, W.;Shang, S. L.;Liu, Z. K.;Kurzydlowski, K. J.;
6:8:10:4 Broken symmetry, strong correlation, and splitting between longitudinal and transverse optical phonons of MnO and NiO from first principles
DOI:10.1103/PhysRevB.82.081104 JN:PHYSICAL REVIEW B PY:2010 TC:16 AU: Wang, Yi;Saal, James E.;Wang, Jian-Jun;Saengdeejing, Arkapol;Shang, Shun-Li;Chen, Long-Qing;Liu, Zi-Kui;
6:8:10:5 Accurate calculations of phonon dispersion in CaF2 and CeO2
DOI:10.1103/PhysRevB.88.024304 JN:PHYSICAL REVIEW B PY:2013 TC:2 AU: Wang, Yi;Zhang, Lei A.;Shang, Shunli;Liu, Zi-Kui;Chen, Long-Qing;
6:8:10:6 First-principles lattice dynamics and heat capacity of BiFeO3
DOI:10.1016/j.actamat.2011.03.047 JN:ACTA MATERIALIA PY:2011 TC:17 AU: Wang, Yi;Saal, James E.;Wu, Pingping;Wang, Jianjun;Shang, Shunli;Liu, Zi-Kui;Chen, Long-Qing;
6:8:10:7 Phonon dispersion in Sr2RuO4 studied by a first-principles cumulative force-constant approach
DOI:10.1103/PhysRevB.82.172503 JN:PHYSICAL REVIEW B PY:2010 TC:7 AU: Wang, Y.;Wang, J. J.;Saal, J. E.;Shang, S. L.;Chen, L. -Q.;Liu, Z. -K.;
6:8:10:8 Mixed-space approach for calculation of vibration-induced dipole-dipole interactions
DOI:10.1103/PhysRevB.85.224303 JN:PHYSICAL REVIEW B PY:2012 TC:6 AU: Wang, Yi;Shang, Shunli;Liu, Zi-Kui;Chen, Long-Qing;
6:8:10:9 Microscopic partition of pressure and elastic constants in CdTe polymorphs
DOI:10.1016/j.jallcom.2013.12.153 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:1 AU: Ouahrani, T.;Franco, R.;Menendez, J. M.;Marques, M.;Recio, J. M.;
6:8:10:10 Theoretical and Experimental Evidence for a New Post-Cotunnite Phase of Titanium Dioxide with Significant Optical Absorption
DOI:10.1103/PhysRevLett.107.045701 JN:PHYSICAL REVIEW LETTERS PY:2011 TC:11 AU: Dekura, Haruhiko;Tsuchiya, Taku;Kuwayama, Yasuhiro;Tsuchiya, Jun;
6:8:10:11 First-principles study of the mechanical properties and phase stability of TiO2
DOI:10.1016/j.commatsci.2013.11.020 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:2 AU: Mei, Zhi-Gang;Wang, Yi;Shang, Shunli;Liu, Zi-Kui;
6:8:10:12 Raman measurements of temperature dependencies of phonons in LiMnPO4
DOI:10.1016/j.matchemphys.2011.02.027 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2011 TC:9 AU: Korona, Krzysztof P.;Papierska, Joanna;Kaminska, Maria;Witowski, Andrzej;Michalska, Monika;Lipinska, Ludwika;
6:8:10:13 A first-principles scheme to phonons of high temperature phase: No imaginary modes for cubic SrTiO3
DOI:10.1063/1.3505338 JN:APPLIED PHYSICS LETTERS PY:2010 TC:4 AU: Wang, Yi;Saal, James E.;Mei, Zhigang;Wu, Pingping;Wang, Jianjun;Shang, Shunli;Liu, Zi-Kui;Chen, Long-Qing;
6:8:10:14 Effect of carbon coating methods on structural characteristics and electrochemical properties of carbon-coated lithium iron phosphate
DOI:10.1016/j.ssi.2013.09.004 JN:SOLID STATE IONICS PY:2014 TC:1 AU: Kim, Jae-Kwang;Kim, Dul-Sun;Lim, Du-Hyun;Matic, Aleksandar;Chauhan, Ghanshyam S.;Ahn, Jou-Hyeon;
6:8:11:1 On the origin of large interstitial clusters in displacement cascades
DOI:10.1080/14786430903117141 JN:PHILOSOPHICAL MAGAZINE PY:2010 TC:34 AU: Calder, A. F.;Bacon, D. J.;Barashev, A. V.;Osetsky, Yu. N.;
6:8:11:2 Langevin model for real-time Brownian dynamics of interacting nanodefects in irradiated metals
DOI:10.1103/PhysRevB.81.224107 JN:PHYSICAL REVIEW B PY:2010 TC:18 AU: Dudarev, S. L.;Gilbert, M. R.;Arakawa, K.;Mori, H.;Yao, Z.;Jenkins, M. L.;Derlet, P. M.;
6:8:11:3 The temperature dependence of heavy-ion damage in iron: A microstructural transition at elevated temperatures
DOI:10.1080/14786430903430981 JN:PHILOSOPHICAL MAGAZINE PY:2010 TC:27 AU: Yao, Z.;Jenkins, M. L.;Hernandez-Mayoral, M.;Kirk, M. A.;
6:8:11:4 In situ study of self-ion irradiation damage in W and W-5Re at 500 degrees C
DOI:10.1080/14786435.2012.754110 JN:PHILOSOPHICAL MAGAZINE PY:2013 TC:15 AU: Yi, X.;Jenkins, M. L.;Briceno, M.;Roberts, S. G.;Zhou, Z.;Kirk, M. A.;
6:8:11:5 Phase stability, point defects, and elastic properties of W-V and W-Ta alloys
DOI:10.1103/PhysRevB.84.104115 JN:PHYSICAL REVIEW B PY:2011 TC:15 AU: Muzyk, M.;Nguyen-Manh, D.;Kurzydlowski, K. J.;Baluc, N. L.;Dudarev, S. L.;
6:8:11:6 Direct observation of the coalescence process between nanoscale dislocation loops with different Burgers vectors
DOI:10.1016/j.actamat.2010.09.018 JN:ACTA MATERIALIA PY:2011 TC:18 AU: Arakawa, K.;Amino, T.;Mori, H.;
6:8:11:7 Simulating dislocation loop internal dynamics and collective diffusion using stochastic differential equations
DOI:10.1103/PhysRevB.84.134109 JN:PHYSICAL REVIEW B PY:2011 TC:4 AU: Derlet, P. M.;Gilbert, M. R.;Dudarev, S. L.;
6:8:11:8 Impact of He and Cr on defect accumulation in ion-irradiated ultrahigh-purity Fe(Cr) alloys
DOI:10.1016/j.actamat.2013.08.007 JN:ACTA MATERIALIA PY:2013 TC:8 AU: Prokhodtseva, A.;Decamps, B.;Ramar, A.;Schaublin, R.;
6:8:11:9 Molecular dynamics and object kinetic Monte Carlo study of radiation-induced motion of voids and He bubbles in bcc iron
DOI:10.1103/PhysRevB.87.104106 JN:PHYSICAL REVIEW B PY:2013 TC:1 AU: Galloway, G. J.;Ackland, G. J.;
6:8:11:10 Solving the Puzzle of < 100 > Interstitial Loop Formation in bcc Iron
DOI:10.1103/PhysRevLett.110.265503 JN:PHYSICAL REVIEW LETTERS PY:2013 TC:2 AU: Xu, Haixuan;Stoller, Roger E.;Osetsky, Yury N.;Terentyev, Dmitry;
6:8:11:11 Influence of the picosecond defect distribution on damage accumulation in irradiated alpha-Fe
DOI:10.1103/PhysRevB.85.024105 JN:PHYSICAL REVIEW B PY:2012 TC:5 AU: Bjorkas, C.;Nordlund, K.;Caturla, M. J.;
6:8:11:12 Single- and dual-beam in situ irradiations of high-purity iron in a transmission electron microscope: Effects of heavy ion irradiation and helium injection
DOI:10.1016/j.actamat.2013.10.052 JN:ACTA MATERIALIA PY:2014 TC:1 AU: Brimbal, Daniel;Decamps, Brigitte;Henry, Jean;Meslin, Estelle;Barbu, Alain;
6:8:11:13 Effects of carbide precipitate on the mechanical properties and irradiation behavior of the low activation martensitic steel
DOI:10.1016/j.jallcom.2013.07.085 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:9 AU: Liu, P. P.;Zhao, M. Z.;Zhu, Y. M.;Bai, J. W.;Wan, F. R.;Zhan, Q.;
6:8:11:14 Reaction rate between 1D migrating self-interstitial atoms: an examination by kinetic Monte Carlo simulation
DOI:10.1080/14786435.2011.575411 JN:PHILOSOPHICAL MAGAZINE PY:2011 TC:1 AU: Amino, T.;Arakawa, K.;Mori, H.;
6:8:12:1 Atomistic simulation of the a(0) < 1 0 0 > binary junction formation and its unzipping in body-centered cubic iron
DOI:10.1016/j.actamat.2013.11.037 JN:ACTA MATERIALIA PY:2014 TC:3 AU: Haghighat, S. M. Hafez;Schaeublin, R.;Raabe, D.;
6:8:12:2 Influence of the dislocation core on the glide of the 1/2 < 111 >{110} edge dislocation in bcc-iron: An embedded atom method study
DOI:10.1016/j.commatsci.2014.02.031 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:0 AU: Haghighat, S. M. Hafez;von Pezold, J.;Race, C. P.;Koermann, F.;Friak, M.;Neugebauer, J.;Raabe, D.;
6:8:12:3 Effects of temperature on structure and mobility of the < 1 0 0 > edge dislocation in body-centred cubic iron
DOI:10.1016/j.actamat.2009.12.033 JN:ACTA MATERIALIA PY:2010 TC:20 AU: Terentyev, D. A.;Osetsky, Yu. N.;Bacon, D. J.;
6:8:12:4 Atomic-scale mechanisms of void hardening in bcc and fcc metals
DOI:10.1080/14786430903164580 JN:PHILOSOPHICAL MAGAZINE PY:2010 TC:26 AU: Osetsky, Yu. N.;Bacon, D. J.;
6:8:12:5 Transfer of molecular dynamics data to dislocation dynamics to assess dislocation-dislocation loop interaction in iron
DOI:10.1016/j.scriptamat.2013.06.026 JN:SCRIPTA MATERIALIA PY:2013 TC:3 AU: Terentyev, D.;Monnet, G.;Grigorev, P.;
6:8:12:6 Molecular dynamics simulations of dislocation interaction with voids in nickel
DOI:10.1016/j.commatsci.2011.01.020 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:12 AU: Simar, Aude;Voigt, Hyon-Jee Lee;Wirth, Brian D.;
6:8:12:7 Competing processes in reactions between an edge dislocation and dislocation loops in a body-centred cubic metal
DOI:10.1016/j.scriptamat.2010.01.034 JN:SCRIPTA MATERIALIA PY:2010 TC:17 AU: Terentyev, D.;Osetsky, Yu. N.;Bacon, D. J.;
6:8:12:8 Strengthening due to Cr-rich precipitates in Fe-Cr alloys: Effect of temperature and precipitate composition
DOI:10.1063/1.3340522 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:13 AU: Terentyev, D.;Haghighat, S. M. Hafez;Schaeublin, R.;
6:8:12:9 Modeling of Dislocation Interaction with Solutes, Nano-Precipitates and Interfaces: A Multiscale Challenge
DOI:10.1166/jctn.2010.1486 JN:JOURNAL OF COMPUTATIONAL AND THEORETICAL NANOSCIENCE PY:2010 TC:6 AU: Kioussis, Nicholas G.;Ghoniem, Nasr M.;
6:8:12:10 Ion-Irradiation Hardening of Brazed Joints of Tungsten and Oxide Dispersion Strengthened (ODS) Ferritic Steel
DOI:10.2320/matertrans.MG201212 JN:MATERIALS TRANSACTIONS PY:2013 TC:2 AU: Himei, Y.;Yabuuchi, K.;Kasada, R.;Noh, S.;Noto, H.;Nagasaka, T.;Nogami, S.;Kimura, A.;
6:8:12:11 Mesoscale thermodynamic analysis of atomic-scale dislocation-obstacle interactions simulated by molecular dynamics
DOI:10.1080/14786430903117133 JN:PHILOSOPHICAL MAGAZINE PY:2010 TC:10 AU: Monnet, G.;Osetsky, Yu. N.;Bacon, D. J.;
6:8:12:12 Reactions between a 1/2 < 111 > screw dislocation and < 100 > interstitial dislocation loops in alpha-iron modelled at atomic scale
DOI:10.1080/14786430903019073 JN:PHILOSOPHICAL MAGAZINE PY:2010 TC:14 AU: Terentyev, D.;Bacon, D. J.;Osetsky, Yu. N.;
6:8:12:13 Influence of the stress field due to pressurized nanometric He bubbles on the mobility of an edge dislocation in iron
DOI:10.1080/14786431003630801 JN:PHILOSOPHICAL MAGAZINE PY:2010 TC:9 AU: Haghighat, S. M. Hafez;Schaeublin, R.;
6:8:12:14 Determination of the activation energy by stochastic analyses of molecular dynamics simulations of dislocation processes
DOI:10.1080/14786435.2011.596494 JN:PHILOSOPHICAL MAGAZINE PY:2011 TC:3 AU: Monnet, Ghiath;
6:8:13:1 Influence of oxygen content on the mechanical properties of hexagonal Ti-First principles calculations
DOI:10.1016/j.msea.2013.10.004 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:5 AU: Kwasniak, P.;Muzyk, M.;Garbacz, H.;Kurzydlowski, K. J.;
6:8:13:2 Direct Diffusion through Interpenetrating Networks: Oxygen in Titanium
DOI:10.1103/PhysRevLett.107.045504 JN:PHYSICAL REVIEW LETTERS PY:2011 TC:9 AU: Wu, Henry H.;Trinkle, Dallas R.;
6:8:13:3 Influence of C, H, N, and O interstitial atoms on deformation mechanism in titanium-First principles calculations of generalized stacking fault energy
DOI:10.1016/j.matlet.2012.12.002 JN:MATERIALS LETTERS PY:2013 TC:8 AU: Kwasniak, P.;Muzyk, M.;Garbacz, H.;Kurzydlowski, K. J.;
6:8:13:4 Classification of the critical resolved shear stress in the hexagonal-close-packed materials by atomic simulation: Application to alpha-zirconium and alpha-titanium
DOI:10.1063/1.3599870 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:9 AU: Poty, A.;Raulot, J. -M.;Xu, H.;Bai, J.;Schuman, C.;Lecomte, J. -S.;Philippe, M. -J.;Esling, C.;
6:8:13:5 Oxygen and nitrogen interstitial ordering in hcp Ti, Zr, and Hf: An ab initio study
DOI:10.1103/PhysRevB.82.134110 JN:PHYSICAL REVIEW B PY:2010 TC:17 AU: Ruban, A. V.;Baykov, V. I.;Johansson, B.;Dmitriev, V. V.;Blanter, M. S.;
6:8:13:6 Interaction of oxygen interstitials with lattice faults in Ti
DOI:10.1016/j.actamat.2014.05.025 JN:ACTA MATERIALIA PY:2014 TC:4 AU: Ghazisaeidi, M.;Trinkle, D. R.;
6:8:13:7 Observation of yielding and strain hardening in a titanium alloy having high oxygen content
DOI:10.1016/j.msea.2011.03.064 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:21 AU: Geng, F.;Niinomi, M.;Nakai, M.;
6:8:13:8 Oxygen adsorption on small Ti clusters: A first-principles study
DOI:10.1016/j.commatsci.2013.09.041 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:2 AU: Chibisov, A. N.;
6:8:13:9 Heat treatment and mechanical properties of powder metallurgy processed Ti-35.5Nb-5.7Ta beta-titanium alloy
DOI:10.1016/j.matchar.2013.08.006 JN:MATERIALS CHARACTERIZATION PY:2013 TC:4 AU: Malek, Jaroslav;Hnilica, Frantisek;Vesely, Jaroslav;Smola, Bohumil;
6:8:13:10 Solute effect on oxygen diffusion in alpha-titanium
DOI:10.1063/1.4808283 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:2 AU: Wu, Henry H.;Trinkle, Dallas R.;
6:8:13:11 The influence of ageing treatment on the microstructure and the elastic modulus of Ti27Nb8Zr alloy
DOI:10.1016/j.msea.2010.07.070 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:7 AU: Li, Ping;Hao, Jingyan;Zhao, Jie;Duan, Hongtao;
6:8:13:12 Fabrication of high-strength Ti materials by in-process solid solution strengthening of oxygen via P/M methods
DOI:10.1016/j.msea.2012.11.058 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:1 AU: Sun, Bin;Li, Shufeng;Imai, Hisashi;Mimoto, Takanori;Umeda, Junko;Kondoh, Katsuyoshi;
6:8:13:13 Plasticity of hexagonal systems: Split slip modes and inverse Peierls relation in alpha-Ti
DOI:10.1103/PhysRevB.89.144105 JN:PHYSICAL REVIEW B PY:2014 TC:0 AU: Kwasniak, Piotr;Spiewak, Piotr;Garbacz, Halina;Kurzydlowski, Krzysztof J.;
6:8:13:14 First-principles study of atomic ordering in fcc Ni-Cr alloys
DOI:10.1103/PhysRevB.89.064103 JN:PHYSICAL REVIEW B PY:2014 TC:0 AU: Rahaman, Moshiour;Johansson, B.;Ruban, A. V.;
6:8:13:15 Improvement of Tensile and Fatigue Properties of beta-Titanium Alloy while Maintaining Low Young's Modulus through Grain Refinement and Oxygen Addition
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6:8:14:1 Simple concentration-dependent pair interaction model for large-scale simulations of Fe-Cr alloys
DOI:10.1103/PhysRevB.84.184205 JN:PHYSICAL REVIEW B PY:2011 TC:14 AU: Levesque, Maximilien;Martinez, Enrique;Fu, Chu-Chun;Nastar, Maylise;Soisson, Frederic;
6:8:14:2 Neutron study of the short range order inversion in Fe1-xCrx
DOI:10.1103/PhysRevB.82.104203 JN:PHYSICAL REVIEW B PY:2010 TC:17 AU: Mirebeau, I.;Parette, G.;
6:8:14:3 Phase-decomposition-related short-range ordering in an Fe-Cr alloy
DOI:10.1016/j.actamat.2013.07.003 JN:ACTA MATERIALIA PY:2013 TC:2 AU: Dubiel, S. M.;Zukrowski, J.;
6:8:14:4 Iron chromium potential to model high-chromium ferritic alloys
DOI:10.1080/14786435.2010.545780 JN:PHILOSOPHICAL MAGAZINE PY:2011 TC:19 AU: Bonny, G.;Pasianot, R. C.;Terentyev, D.;Malerba, L.;
6:8:14:5 Electronic origin of the anomalous segregation behavior of Cr in Fe-rich Fe-Cr alloys
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6:8:14:6 Anomalous surface segregation profiles in ferritic Fe-Cr stainless steel
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6:8:14:7 Kinetic study of phase transformation in a highly concentrated Fe-Cr alloy: Monte Carlo simulation versus experiments
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6:8:14:8 Simple bond-order-type interatomic potential for an intermixed Fe-Cr-C system of metallic and covalent bondings in heat-resistant ferritic steels
DOI:10.1063/1.4904447 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Kumagai, Tomohisa;Nakamura, Kaoru;Yamada, Susumu;Ohnuma, Toshiharu;
6:8:14:9 Effect of surface hydrogen on the anomalous surface segregation behavior of Cr in Fe-rich Fe-Cr alloys
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6:8:14:10 Diffusion of tungsten in chromium: Experiments and atomistic modeling
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6:8:14:11 Effect of thermal treatment on the short-range order in Fe-Cr alloys
DOI:10.1016/j.matlet.2013.05.127 JN:MATERIALS LETTERS PY:2013 TC:5 AU: Dubiel, S. M.;Cieslak, J.;
6:8:14:12 Short-range order in iron-rich Fe-Cr alloys as revealed by Mossbauer spectroscopy
DOI:10.1103/PhysRevB.83.180202 JN:PHYSICAL REVIEW B PY:2011 TC:8 AU: Dubiel, S. M.;Cieslak, J.;
6:8:14:13 Fe-rich border and activation energy of phase decomposition in a Fe-Cr alloy
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6:8:14:14 Determination of the phase diagram from interatomic potentials: The iron-chromium case
DOI:10.1016/j.commatsci.2011.02.032 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:4 AU: Bonny, G.;Pasianot, R. C.;Zhurkin, E. E.;Hou, M.;
6:8:15:1 Calculation of impurity diffusivities in alpha-Fe using first-principles methods
DOI:10.1016/j.actamat.2009.11.041 JN:ACTA MATERIALIA PY:2010 TC:32 AU: Huang, Shenyan;Worthington, Daniel L.;Asta, Mark;Ozolins, Vidvuds;Ghosh, Gautam;Liaw, Peter K.;
6:8:15:2 Characterization of nanoscale NiAl-type precipitates in a ferritic steel by electron microscopy and atom probe tomography
DOI:10.1016/j.scriptamat.2010.03.013 JN:SCRIPTA MATERIALIA PY:2010 TC:17 AU: Teng, Z. K.;Miller, M. K.;Ghosh, G.;Liu, C. T.;Huang, S.;Russell, K. F.;Fine, M. E.;Liaw, P. K.;
6:8:15:3 A computational study of impurity diffusivities for 5d transition metal solutes in alpha-Fe
DOI:10.1016/j.scriptamat.2012.06.010 JN:SCRIPTA MATERIALIA PY:2012 TC:6 AU: Ding, Hong;Huang, Shenyan;Ghosh, Gautam;Liaw, Peter K.;Asta, Mark;
6:8:15:4 New design aspects of creep-resistant NiAl-strengthened ferritic alloys
DOI:10.1016/j.scriptamat.2012.10.040 JN:SCRIPTA MATERIALIA PY:2013 TC:6 AU: Sun, Z.;Liebscher, C. H.;Huang, S.;Teng, Z.;Song, G.;Wang, G.;Asta, M.;Rawlings, M.;Fine, M. E.;Liaw, P. K.;
6:8:15:5 Neutron-diffraction study and modeling of the lattice parameters of a NiAl-precipitate-strengthened Fe-based alloy
DOI:10.1016/j.actamat.2012.05.033 JN:ACTA MATERIALIA PY:2012 TC:5 AU: Teng, Z. K.;Ghosh, G.;Miller, M. K.;Huang, S.;Clausen, B.;Brown, D. W.;Liaw, P. K.;
6:8:15:6 Thermodynamic modeling and experimental validation of the Fe-Al-Ni-Cr-Mo alloy system
DOI:10.1016/j.matlet.2011.11.056 JN:MATERIALS LETTERS PY:2012 TC:7 AU: Teng, Z. K.;Zhang, F.;Miller, M. K.;Liu, C. T.;Huang, S.;Chou, Y. T.;Tien, R. H.;Chang, Y. A.;Liaw, P. K.;
6:8:15:7 Room temperature ductility of NiAl-strengthened ferritic steels: Effects of precipitate microstructure
DOI:10.1016/j.msea.2012.01.103 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:8 AU: Teng, Z. K.;Liu, C. T.;Miller, M. K.;Ghosh, G.;Kenik, E. A.;Huang, S.;Liaw, P. K.;
6:8:15:8 W diffusion in paramagnetic and ferromagnetic alpha-Fe
DOI:10.1007/s00339-010-6142-x JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2011 TC:2 AU: Perez, R. A.;Torres, D. N.;
6:8:15:9 On the formation of hierarchically structured L2 (1) -Ni2TiAl type precipitates in a ferritic alloy
DOI:10.1007/s10853-012-6980-3 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:2 AU: Liebscher, C. H.;Radmilovic, V.;Dahmen, U.;Asta, M.;Ghosh, G.;
6:8:15:10 Coherent precipitation in a high-temperature Cr-Ni-Al-Ti Alloy
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6:8:15:11 The creep rate induced by interface diffusion in particulate composite materials
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6:8:15:12 Measurements of the coefficient of thermal expansion (CTE) of NiAlMo alloys and comparison with modelling predictions
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6:8:16:1 Room temperature homogeneous flow in a bulk metallic glass with low glass transition temperature
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6:8:16:2 High mixing entropy bulk metallic glasses
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6:8:16:3 Microstructure and magnetic properties of mechanically alloyed FeSiSAlNi (Nb) high entropy alloys
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6:8:16:4 Deposition and characterization of multi-principal-element (CuSiTiYZr)C coatings
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6:8:16:5 Alloy Designs of High-Entropy Crystalline and Bulk Glassy Alloys by Evaluating Mixing Enthalpy and Delta Parameter for Quinary to Decimal Equi-Atomic Alloys
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6:8:16:6 A senary TiZrHfCuNiBe high entropy bulk metallic glass with large glass-forming ability
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6:8:16:7 Al0.5TiZrPdCuNi High-Entropy (H-E) Alloy Developed through Ti20Zr20Pd20Cu20Ni20 H-E Glassy Alloy Comprising Inter-Transition Metals
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6:8:16:8 High entropy Ti20Zr20Cu20Ni20Be20 bulk metallic glass
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6:8:16:9 Enhanced non-metallic behavior on the verge of magnetic instability in Fe2V1-xNbxAl Heusler alloys
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6:8:17:1 Anomalies in the response of V, Nb, and Ta to tensile and shear loading: Ab initio density functional theory calculations
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6:8:17:2 Ideal tensile strength of cubic crystals under superimposed transverse biaxial stresses from first principles
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6:8:17:3 Elastic properties of vanadium-based alloys from first-principles theory
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6:8:17:4 Ideal strength of random alloys from first principles
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6:8:17:5 Behaviors of alloying element titanium in vanadium: From energetics to tensile/shear deformation
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6:8:17:6 Mechanical and magnetic properties of Mn-Pt compounds and nanocomposites
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6:8:17:7 Shear instabilities in perfect bcc crystals during simulated tensile tests
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6:8:17:8 The theoretical shear strength of fcc crystals under superimposed triaxial stress
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6:8:17:9 Strength of bcc crystals under combined shear and axial loading from first principles
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6:8:17:10 Tuning Ideal Tensile Strengths and Intrinsic Ductility of bcc Refractory Alloys
DOI:10.1103/PhysRevLett.112.115503 JN:PHYSICAL REVIEW LETTERS PY:2014 TC:1 AU: Qi, Liang;Chrzan, D. C.;
6:8:17:11 Ideal strength and deformation-induced phase transformation of hcp metals Re, Ru, and Os: A first-principles study
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6:8:17:12 Mechanical properties and defective effects of bcc V-4Cr-4Ti and V-5Cr-5Ti alloys by first-principles simulations
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6:8:17:13 The theoretical strength of fcc crystals under multiaxial loading
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6:8:17:14 Concerning the brittleness of iridium: An elastic and electronic view
DOI:10.1016/j.matchemphys.2011.12.080 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:1 AU: Liang, C. P.;Li, G. H.;Gong, H. R.;
6:8:17:15 Improved Finnis-Sinclair potential for bcc vanadium solid
DOI:10.1016/j.commatsci.2011.08.025 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:2 AU: Li, Xiaoqing;Zhao, Jijun;
6:8:17:16 Ideal mechanical strength and interface cohesion property of Ir-base superalloys from first principles calculation
DOI:10.1016/j.matchemphys.2010.11.025 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2011 TC:4 AU: Gong, H. R.;
6:8:18:1 Predicting Dislocation Climb and Creep from Explicit Atomistic Details
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6:8:18:2 Phase field microelasticity model of dislocation climb: Methodology and applications
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6:8:18:3 A phase field model for dislocation climb
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6:8:18:4 Dislocation dynamics simulations with climb: kinetics of dislocation loop coarsening controlled by bulk diffusion
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6:8:18:5 Power-Law Creep from Discrete Dislocation Dynamics
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6:8:18:6 The mechanism of climb in dislocation-nanovoid interaction
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6:8:18:7 Atomic level computer modelling of crystal defects with emphasis on dislocations: Past, present and future
DOI:10.1016/j.pmatsci.2011.01.002 JN:PROGRESS IN MATERIALS SCIENCE PY:2011 TC:3 AU: Vitek, V.;
6:8:18:8 Predicting dislocation climb: Classical modeling versus atomistic simulations
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6:8:18:9 Enhanced annealing of the dislocation network under irradiation
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6:8:18:10 Is the pinning of ordinary dislocations in gamma-TiAl intrinsic or extrinsic in nature? A combined atomistic and kinetic Monte Carlo approach
DOI:10.1016/j.actamat.2010.10.060 JN:ACTA MATERIALIA PY:2011 TC:2 AU: Katzarov, I. H.;Paxton, A. T.;
6:8:18:11 Microscopic Origin of Channeled Flow in Lamellar Titanium Aluminide
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6:8:18:12 Statistics of dislocation pinning at localized obstacles
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6:8:19:1 First-principles based thermodynamic model of phase equilibria in bcc Fe-Cr alloys
DOI:10.1103/PhysRevB.86.174111 JN:PHYSICAL REVIEW B PY:2012 TC:5 AU: Ruban, A. V.;Razumovskiy, V. I.;
6:8:19:2 Spin-wave method for the total energy of paramagnetic state
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6:8:19:3 Effect of Temperature on the Elastic Anisotropy of Pure Fe and Fe0.9Cr0.1 Random Alloy
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6:8:19:4 First-principles study of elastic properties of Cr- and Fe-rich Fe-Cr alloys
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6:8:19:5 Self-consistent supercell approach to alloys with local environment effects
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6:8:19:6 Self diffusion anomaly in ferromagnetic metals: A density-functional-theory investigation of magnetically ordered and disordered Fe and Co
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6:8:19:7 Phonon modes and vibrational entropy of disordered alloys with short-range order: A first-principles calculation
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6:8:19:8 Configurational thermodynamics of the Fe-Cr sigma phase
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6:8:19:9 Ab initio calculations of elastic properties of Fe-Cr-W alloys
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6:8:19:10 Effect of vacancy on the sliding of an iron grain boundary
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6:8:19:11 Ab initio-based mean-field theory of the site occupation in the Fe-Cr sigma-phase
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6:8:19:12 Vibrational Properties of alpha- and sigma-Phase Fe-Cr Alloy
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6:8:20:1 Nodal effects in alpha-iron dislocation mobility in the presence of helium bubbles
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6:8:20:2 Modeling of radiation hardening in ferritic/martensitic steel using multi-scale approach
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6:8:20:3 Active slip systems in bcc iron during nanoindentation: A molecular dynamics study
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6:8:20:4 Atomistic simulations of solid solution strengthening in Ni-based superalloy
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6:8:20:5 A dislocation dynamics study of the transition from homogeneous to heterogeneous deformation in irradiated body-centered cubic iron
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6:8:20:6 Atomistic simulations of solid solution strengthening of alpha-iron
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6:8:20:7 Atomic scale modeling of {110} twist grain boundaries in alpha-iron: Structure and energy properties
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6:8:20:8 Assessment of irradiation hardening by DD simulations
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6:8:20:9 The effect of twist angle on anisotropic mobility of {110} hexagonal dislocation networks in alpha-iron
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6:8:20:10 In-Situ TEM Observation of Dislocation Interaction with Cavity in Ion-Irradiated Pure Vanadium during Tensile Test
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6:8:20:11 Use of the Frank-Bilby equation for calculating misfit dislocation arrays in interfaces
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6:8:20:12 A crystallographic model of fcc/bcc martensitic nucleation and growth
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6:8:20:13 Modeling of irradiation hardening of polycrystalline materials
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6:8:21:1 Ab initio study of solute transition-metal interactions with point defects in bcc Fe
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6:8:21:2 First-principles study of helium, carbon, and nitrogen in austenite, dilute austenitic iron alloys, and nickel
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6:8:21:3 Defect and solute properties in dilute Fe-Cr-Ni austenitic alloys from first principles
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6:8:21:4 First-principles study of point defects in an fcc Fe-10Ni-20Cr model alloy
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6:8:21:5 Electronic effect on hydrogen brittleness of austenitic steels
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6:8:21:6 Behaviour of vacancies in dilute Fe-Re alloys: a positron annihilation study
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6:8:21:7 A study of defects in iron-based binary alloys by the Mossbauer and positron annihilation spectroscopies
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6:8:22:1 Activated states for cross-slip at screw dislocation intersections in face-centered cubic nickel and copper via atomistic simulation
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6:8:22:2 Calculations of intersection cross-slip activation energies in fcc metals using nudged elastic band method
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6:8:22:3 Atomic-scale models for hardening in fcc solid solutions
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6:8:22:4 Cross-slip process in model Ni(Al) solid solution: An embedded-atom method study
DOI:10.1016/j.commatsci.2014.04.063 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:0 AU: Du, Jun-Ping;Wang, Chong-Yu;Yu, Tao;
6:8:22:5 Atomistic simulations of surface cross-slip nucleation in face-centered cubic nickel and copper
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6:8:22:6 Spontaneous athermal cross-slip nucleation at screw dislocation intersections in FCC metals and L1(2) intermetallics investigated via atomistic simulations
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6:8:22:7 Ab initio continuum model for the influence of local stress on cross-slip of screw dislocations in fcc metals
DOI:10.1103/PhysRevB.86.094115 JN:PHYSICAL REVIEW B PY:2012 TC:2 AU: Ramirez, Benjamin R.;Ghoniem, Nasr;Po, Giacomo;
6:8:22:8 About the activation volume for cross-slip in Cu at high stresses
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6:8:22:9 Atomistic simulations of intersection cross-slip nucleation in L1(2) Ni3Al
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6:8:22:10 Atomic-scale avalanche along a dislocation in a random alloy
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6:8:22:11 A dislocation dynamics analysis of the critical cross-slip annihilation distance and the cyclic saturation stress in fcc single crystals at different temperatures
DOI:10.1016/j.actamat.2013.09.032 JN:ACTA MATERIALIA PY:2013 TC:1 AU: Paus, Petr;Kratochvil, Jan;Benes, Michal;
6:8:22:12 Dislocation pinning by substitutional impurities in an atomic-scale model for Al(Mg) solid solutions
DOI:10.1080/14786435.2010.543649 JN:PHILOSOPHICAL MAGAZINE PY:2011 TC:4 AU: Patinet, S.;Proville, L.;
6:8:23:1 Multiscale modelling of mechanical response in a martensitic steel: A micromechanical and length-scale-dependent framework for precipitate hardening
DOI:10.1016/j.actamat.2014.08.012 JN:ACTA MATERIALIA PY:2014 TC:1 AU: Li, Dong-Feng;Golden, Brian J.;O'Dowd, Noel P.;
6:8:23:2 Orowan strengthening and forest hardening superposition examined by dislocation dynamics simulations
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6:8:23:3 Orowan strengthening at low temperatures in bcc materials studied by dislocation dynamics simulations
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6:8:23:4 Dislocation-dynamics based crystal plasticity law for the low- and high-temperature deformation regimes of bcc crystal
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6:8:23:5 Experimental investigations of internal and effective stresses during fatigue loading of high-strength steel
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6:8:23:6 Dimension reduction of defect properties for application in 2D dislocation dynamics
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6:8:24:1 Diffusion of carbon in bcc Fe in the presence of Si
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6:8:24:2 Effects of dilute substitutional solutes on interstitial carbon in alpha-Fe: Interactions and associated carbon diffusion from first-principles calculations
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6:8:24:3 Ab initio study of boron in alpha-iron: Migration barriers and interaction with point defects
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6:8:24:4 Orientational ordering of interstitial atoms and martensite formation in dilute Fe-based solid solutions
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6:8:24:5 Behaviors and interactions of La atom with other foreign substitutional atoms (Al, Si, Ti, V, Cr, Mn, Co, Ni, Cu, Nb or Mo) in iron based solid solution from first principles
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6:8:24:6 Self-trapping of carbon atoms in alpha '-Fe during the martensitic transformation: A qualitative picture from ab initio calculations
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6:8:24:7 Influence of process time on microstructure and properties of 17-4PH steel plasma nitrocarburized with rare earths addition at low temperature
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6:8:24:8 Interactions of carbon-nitrogen and carbon-nitrogen-vacancy in alpha-Fe from first-principles calculations
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6:8:24:9 Microstructure and properties of 17-4PH steel plasma nitrocarburized with a carrier gas containing rare earth elements
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6:8:24:10 Influence of substitutional atoms on the solubility limit of carbon in bcc iron
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6:8:24:11 Diffusion of carbon in bcc Fe in the presence of Si (vol 81, 054116, 2010)
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6:8:24:12 Boron solution and distribution in alpha-Fe: Application to boron steel
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6:8:25:1 Radiation-induced damage and evolution of defects in Mo
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6:8:25:2 Study of defect evolution by TEM with in situ ion irradiation and coordinated modeling
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6:8:25:3 Combining in situ transmission electron microscopy irradiation experiments with cluster dynamics modeling to study nanoscale defect agglomeration in structural metals
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6:8:25:4 Defect microstructural evolution in ion irradiated metallic nanofoils: Kinetic Monte Carlo simulation versus cluster dynamics modeling and in situ transmission electron microscopy experiments
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6:8:25:5 A phase-cut method for multi-species kinetics: Sample application to nanoscale defect cluster evolution in alpha iron following helium ion implantation
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6:8:25:6 Microstructural Evolution of an Ion Irradiated Ni-Mo-Cr-Fe Alloy at Elevated Temperatures
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6:8:25:7 Fusion materials modeling: Challenges and opportunities
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6:8:25:8 Molecular ion irradiations of molybdenum
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6:8:25:9 A multiscale method for the analysis of defect behavior in Mo during electron irradiation
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6:8:25:10 In Situ TEM Concurrent and Successive Au Self-Ion Irradiation and He Implantation
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6:8:25:11 Convoluted dislocation loops induced by helium irradiation in reduced-activation martensitic steel and their impact on mechanical properties
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6:8:25:12 Cavity morphology in a Ni based superalloy under heavy ion irradiation with cold pre-injected helium. I
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6:8:26:1 Point defect modeling in materials: Coupling ab initio and elasticity approaches
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6:8:26:2 Irradiation-Induced Formation of Nanocrystallites with C15 Laves Phase Structure in bcc Iron
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6:8:26:3 Self-interstitial defects in hexagonal close packed metals revisited: Evidence for low-symmetry configurations in Ti, Zr, and Hf
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6:8:26:4 Influence of shape anisotropy of self-interstitials on dislocation sink efficiencies in Zr: Multiscale modeling
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6:8:26:5 Analysis of the anisotropy of point defect diffusion in hcp Zr
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6:8:26:6 Quantitative phase field model for dislocation sink strength calculations
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6:8:26:7 Phase-field simulations of gas density within bubbles in metals under irradiation
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6:8:26:8 Phase-field simulation of irradiated metals Part I: Void kinetics
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6:8:26:9 Phase-field simulation of irradiated metals Part II: Gas bubble kinetics
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6:8:27:1 Generation and performance of special quasirandom structures for studying the elastic properties of random alloys: Application to Al-Ti
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6:8:27:2 First-principles study of L1(2)-Al-3(Sc1-xTMx) alloys using special quasirandom structures
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6:8:27:3 The energetic and structural properties of bcc NiCu, FeCu alloys: A first-principles study
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6:8:27:4 Special quasirandom structures to study the (K0.5Na0.5)NbO3 random alloy
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6:8:27:5 Thermodynamic and mechanical stabilities of gamma '-Ir-3(Al, W)
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6:8:27:6 Theoretical prediction of mechanical stability of ferromagnetic fcc Fe-Cu alloys from first principles
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6:8:27:7 Interplay of force constants in the lattice dynamics of disordered alloys: An ab initio study
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6:8:27:8 Structural stability of higher-energy phases in Cu and Cu-Fe alloy revealed by ab initio calculations
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6:8:28:1 Noncollinear magnetism at interfaces in iron-chromium alloys: The ground states and finite-temperature configurations
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6:8:28:2 First-principles determination of the alpha-alpha ' interfacial energy in Fe-Cr alloys
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6:8:28:3 First-principles models for phase stability and radiation defects in structural materials for future fusion power-plant applications
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6:8:28:4 Magnetic and energetic properties of low-index Cr surfaces and Fe/Cr interfaces: A first-principles study
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6:8:28:5 Vacancy and substitutional impurities in the spin-density wave state of Cr from first principles
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6:8:28:6 Cluster expansion models for Fe-Cr alloys, the prototype materials for a fusion power plant
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6:8:28:7 Intrinsic noncollinear magnetization in Fe/Cr superlattices
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6:8:28:8 Anomalous behaviour of the Debye temperature in Fe-rich Fe-Cr alloys
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6:8:29:1 First-principles calculations of impurity diffusion coefficients in dilute Mg alloys using the 8-frequency model
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6:8:29:2 A first-principles study of self-diffusion coefficients of fcc Ni
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6:8:29:3 First-principles study of self-diffusion in hcp Mg and Zn
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6:8:29:4 Anomalous energy pathway of vacancy migration and self-diffusion in hcp Ti
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6:8:29:5 First-principles studies on vacancy-modified interstitial diffusion mechanism of oxygen in nickel, associated with large-scale atomic simulation techniques
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6:8:29:6 Diffusion behavior in Nickel-Aluminum and Aluminum-Uranium diluted alloys
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6:8:29:7 Fabrication of porous and pillar-shaped Mg by magnetron sputtering
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6:8:29:8 Evaluation of self-diffusion data using weighted means statistics
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6:8:30:1 Intergranular delta-hydride nucleation and orientation in zirconium alloys
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6:8:30:2 Hydrogen-enhanced degradation and oxide effects in zirconium alloys for nuclear applications
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6:8:30:3 Phase and texture analysis of a hydride blister in a Zr-2.5%Nb tube by synchrotron X-ray diffraction
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6:8:30:4 Microstructural criteria for abrupt ductile-to-brittle transition induced by delta-hydrides in zirconium alloys
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6:8:30:5 Effect of yttrium addition on microstructure and orientation of hydride precipitation in Zr-1Nb alloy
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6:8:30:6 Hydride-induced degradation of hoop ductility in textured zirconium-alloy tubes: A theoretical analysis
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6:8:30:7 Hydrogen absorption cracking of zirconium alloy in the application of nuclear industry
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6:8:30:8 Effect of thermal history on the terminal solid solubility of hydrogen in Zircaloy-4
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6:8:30:9 Effect of Nb on hydride embrittlement of Zr-xNb alloys
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6:8:30:10 EBSD studies on microstructure and crystallographic orientation of delta-hydrides in Zircaloy-4, Zr-1% Nb and Zr-2.5% Nb
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6:8:30:11 Hydrogen-enhanced degradation and oxide effects in zirconium alloys for nuclear applications (vol 36, pg 8619, 2011)
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6:8:30:12 On the study of the oriented cracks formed in ErD2 thin film
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6:8:30:13 Microstructure and hydride embrittlement of zirconium model alloys containing niobium and tin
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6:8:31:1 First-principles investigation of the effect of carbon on the stacking fault energy of Fe-C alloys
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6:8:31:2 First-principles study of Mn, Al and C distribution and their effect on stacking fault energies in fcc Fe
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6:8:31:3 Structure and thermodynamics of the key precipitated phases in the Al-Mg-Si alloys from first-principles calculations
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6:8:31:4 Microstructural developments during abrasion of M50 bearing steel
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6:8:31:5 Stacking-fault energy and anti-Invar effect in Fe-Mn alloy from first principles
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6:8:31:6 First principle study of cobalt impurity in bcc Fe with Cu precipitates
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6:8:31:7 The influence of interstitial carbon on the gamma-surface in austenite
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6:8:31:8 Copper precipitation in cobalt-alloyed precipitation-hardened stainless steel
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6:8:32:1 Effect of dislocation density on improved radiation hardening resistance of nano-structured tungsten-rhenium
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6:8:32:2 Effects of sequential tungsten and helium ion implantation on nano-indentation hardness of tungsten
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6:8:32:3 Microstructure Development in Neutron Irradiated Tungsten Alloys
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6:8:32:4 Effect of irradiation on the microstructure and mechanical behavior of nanocrystalline nickel
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6:8:32:5 Brittle-ductile transitions in polycrystalline tungsten
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6:8:32:6 Study of the effect of alpha irradiation on the microstructure and mechanical properties of nanocrystalline Ni
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6:8:32:7 The nature behind the preferentially embrittling effect of impurities on the ductility of tungsten
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6:8:32:8 Nanoindentation investigation of ion-irradiated Fe-Cr alloys using spherical indenters
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6:8:32:9 Effects of Re Content and Fabrication Process on Microstructural Changes and Hardening in Neutron Irradiated Tungsten
DOI:10.2320/matertrans.MBW201110 JN:MATERIALS TRANSACTIONS PY:2012 TC:8 AU: Fukuda, Makoto;Tanno, Takashi;Nogami, Shuhei;Hasegawa, Akira;
6:8:32:10 Neutron Irradiation Behavior of Tungsten
DOI:10.2320/matertrans.MG201208 JN:MATERIALS TRANSACTIONS PY:2013 TC:4 AU: Hasegawa, Akira;Fukuda, Makoto;Tanno, Takashi;Nogami, Shuhei;
6:8:32:11 Probing Ar ion induced nanocavities/bubbles in silicon by small-angle x-ray scattering
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6:8:33:1 Segregation behavior in proton- and heavy-ion-irradiated ferritic-martensitic alloys
DOI:10.1016/j.actamat.2011.03.070 JN:ACTA MATERIALIA PY:2011 TC:22 AU: Jiao, Z.;Was, G. S.;
6:8:33:2 Positron annihilation spectroscopy on binary Fe-Cr alloys and ferritic/martensitic steels after neutron irradiation
DOI:10.1016/j.actamat.2011.06.046 JN:ACTA MATERIALIA PY:2011 TC:16 AU: Lambrecht, Marlies;Malerba, Lorenzo;
6:8:33:3 Cr segregation on dislocation loops enhances hardening in ferritic Fe-Cr alloys
DOI:10.1016/j.actamat.2012.11.021 JN:ACTA MATERIALIA PY:2013 TC:6 AU: Terentyev, D.;Bergner, F.;Osetsky, Y.;
6:8:33:4 Chromium enrichment on the habit plane of dislocation loops in ion-irradiated high-purity Fe-Cr alloys
DOI:10.1016/j.actamat.2014.06.050 JN:ACTA MATERIALIA PY:2014 TC:4 AU: Bhattacharya, A.;Meslin, E.;Henry, J.;Pareige, C.;Decamps, B.;Genevois, C.;Brimbal, D.;Barbu, A.;
6:8:33:5 He and Cr effects on radiation damage formation in ion-irradiated pure iron and Fe-5.40 wt.% Cr: A transmission electron microscopy study
DOI:10.1016/j.actamat.2013.04.070 JN:ACTA MATERIALIA PY:2013 TC:6 AU: Brimbal, Daniel;Meslin, Estelle;Henry, Jean;Decamps, Brigitte;Barbu, Alain;
6:8:33:6 The mechanism of radiation-induced segregation in ferritic-martensitic alloys
DOI:10.1016/j.actamat.2013.09.049 JN:ACTA MATERIALIA PY:2014 TC:5 AU: Wharry, Janelle P.;Was, Gary S.;
6:8:33:7 Ion irradiation-induced precipitation of Cr23C6 at dislocation loops in austenitic steel
DOI:10.1016/j.scriptamat.2012.10.002 JN:SCRIPTA MATERIALIA PY:2013 TC:0 AU: Jin, Shuoxue;Guo, Liping;Luo, Fengfeng;Yao, Zhongwen;Ma, Shuli;Tang, Rui;
6:8:33:8 Effect of grain boundary orientation on radiation-induced segregation in a Fe-15.2 at.% Cr alloy
DOI:10.1016/j.actamat.2013.02.043 JN:ACTA MATERIALIA PY:2013 TC:9 AU: Hu, Rong;Smith, George D. W.;Marquis, Emmanuelle A.;
6:8:33:9 Direct observation of solute-dislocation interaction on screw dislocation in a neutron irradiated modified 316 stainless steel
DOI:10.1016/j.matlet.2014.01.109 JN:MATERIALS LETTERS PY:2014 TC:1 AU: Hatakeyama, M.;Tamura, S.;Yamagata, I.;
6:8:34:1 Screw dislocation in zirconium: An ab initio study
DOI:10.1103/PhysRevB.86.144104 JN:PHYSICAL REVIEW B PY:2012 TC:7 AU: Clouet, Emmanuel;
6:8:34:2 Core structure of a screw dislocation in Ti from density functional theory and classical potentials
DOI:10.1016/j.actamat.2011.11.024 JN:ACTA MATERIALIA PY:2012 TC:21 AU: Ghazisaeidi, M.;Trinkle, D. R.;
6:8:34:3 Dislocation core structure and dynamics in two atomic models of alpha-zirconium
DOI:10.1016/j.actamat.2010.01.028 JN:ACTA MATERIALIA PY:2010 TC:19 AU: Khater, H. A.;Bacon, D. J.;
6:8:34:4 First-Principles Study of Secondary Slip in Zirconium
DOI:10.1103/PhysRevLett.112.075504 JN:PHYSICAL REVIEW LETTERS PY:2014 TC:1 AU: Chaari, Nermine;Clouet, Emmanuel;Rodney, David;
6:8:34:5 Molecular statics and molecular dynamics simulations of the critical stress for motion of a/3 < 1 1 (2)over-bar 0 > screw dislocations in alpha-Ti at low temperatures using a modified embedded atom method potential
DOI:10.1016/j.actamat.2012.12.011 JN:ACTA MATERIALIA PY:2013 TC:3 AU: Rao, S. I.;Venkateswaran, A.;Letherwood, M. D.;
6:8:34:6 Microstructural characterization of creep anisotropy at 673 K in the M5 (R) alloy
DOI:10.1016/j.actamat.2012.04.001 JN:ACTA MATERIALIA PY:2012 TC:4 AU: Rautenberg, Martin;Feaugas, Xavier;Poquillon, Dominique;Cloue, Jean-Marc;
6:8:35:1 Synergetic effects of dual-beam implantation on the microstructural development in silicon
DOI:10.1103/PhysRevB.84.144118 JN:PHYSICAL REVIEW B PY:2011 TC:4 AU: Fortuna, F.;Borodin, V. A.;Ruault, M-O.;Oliviero, E.;Kirk, M. A.;
6:8:35:2 Rate theory cluster dynamics simulations including spatial correlations within displacement cascades
DOI:10.1103/PhysRevB.86.054113 JN:PHYSICAL REVIEW B PY:2012 TC:5 AU: Jourdan, T.;Crocombette, J. -P.;
6:8:35:3 Study on the electronic structure and Fermi surface of 3d-transition-metal disilisides CoSi2
DOI:10.1007/s00339-012-6980-9 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2012 TC:0 AU: Hamid, A. S.;
6:8:35:4 Selective nucleation induced by defect nanostructures: A way to control cobalt disilicide precipitation during ion implantation
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6:8:35:5 ALLOYS Strength from modelling
DOI:10.1038/nmat2840 JN:NATURE MATERIALS PY:2010 TC:7 AU: Beaber, Aaron;Gerberich, William;
6:8:35:6 Extending cluster dynamics to concentrated and disordered alloys: The linear-chain case
DOI:10.1016/j.actamat.2009.12.025 JN:ACTA MATERIALIA PY:2010 TC:6 AU: Berthier, F.;Braems, I.;Maras, E.;Creuze, J.;Legrand, B.;
6:8:35:7 Evidence for the formation of distorted nanodomains involved in the phase transformation of stabilized zirconia by coupling convergent beam electron diffraction and in situ TEM nanoindentation
DOI:10.1016/j.actamat.2012.09.047 JN:ACTA MATERIALIA PY:2013 TC:1 AU: Calvie, E.;Joly-Pottuz, L.;Esnouf, C.;Douillard, T.;Gremillard, L.;Malchere, A.;Chevalier, J.;Masenelli-Varlot, K.;
6:8:35:8 The feasibility of Al-based oxide precipitation in Fe-10%Cr alloy by ion implantation
DOI:10.1080/14786435.2014.941028 JN:PHILOSOPHICAL MAGAZINE PY:2014 TC:0 AU: Zheng, Ce;Gentils, Aurelie;Ribis, Joel;Kaitasov, Odile;Borodin, Vladimir A.;Descoins, Marion;Mangelinck, Dominique;
6:8:35:9 Direct Observation of Interstitial Dislocation Loop Coarsening in alpha-Iron
DOI:10.1103/PhysRevLett.111.015503 JN:PHYSICAL REVIEW LETTERS PY:2013 TC:2 AU: Moll, S.;Jourdan, T.;Lefaix-Jeuland, H.;
6:8:35:10 Segregation in bimetallic nanowires: Size and thermodynamic ensemble effects
DOI:10.1103/PhysRevB.86.054205 JN:PHYSICAL REVIEW B PY:2012 TC:1 AU: Maras, Emile;Berthier, Fabienne;Braems, Isabelle;Legrand, Bernard;
6:8:36:1 Full-Potential KKR Calculations for Lattice Distortion Effect of Point Defect in bcc-Fe Dilute Alloys, Based on the Generalized-Gradient Approximation
DOI:10.2320/matertrans.M2013391 JN:MATERIALS TRANSACTIONS PY:2014 TC:0 AU: Asato, M.;Liu, C.;Kawakami, K.;Fujima, N.;Hoshino, T.;
6:8:36:2 First-principles investigation of magnetism and electronic structures of substitutional 3d transition-metal impurities in bcc Fe
DOI:10.1103/PhysRevB.81.184423 JN:PHYSICAL REVIEW B PY:2010 TC:14 AU: Rahman, Gul;Kim, In Gee;Bhadeshia, H. K. D. H.;Freeman, Arthur J.;
6:8:36:3 Full-Potential KKR Calculations for Point Defect Energies in Fe-Based Dilute Alloys, Based on the Generalized-Gradient Approximation
DOI:10.2320/matertrans.M2013176 JN:MATERIALS TRANSACTIONS PY:2013 TC:1 AU: Liu, Chang;Asato, M.;Fujima, N.;Hoshino, T.;
6:8:36:4 Ab-initio calculations for defect energies in Co2MnSi and Co2CrAl
DOI:10.1016/j.jallcom.2010.02.056 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:9 AU: Hoshino, T.;Fujima, N.;Asato, M.;Tatsuoka, H.;
6:8:36:5 Nonempirical prediction of impurity segregation in alpha-Fe from first principles
DOI:10.1063/1.3340521 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:5 AU: Tsuru, T.;Suzuki, C.;Kaji, Y.;Tsukada, T.;
6:8:36:6 A first-principles investigation on the effects of magnetism on the Bain transformation of alpha-phase FeNi systems
DOI:10.1063/1.3694031 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:1 AU: Rahman, Gul;Kim, In Gee;Bhadeshia, H. K. D. H.;
6:8:36:7 Optimization of magnetic flux density in electrical steels: Slater-Pauling pattern repetition in multicomponent alloys
DOI:10.1103/PhysRevB.85.052402 JN:PHYSICAL REVIEW B PY:2012 TC:1 AU: Baik, Seung Su;Kwon, S. K.;Min, B. I.;
6:8:36:8 Ab initio study for magnetism in Ni2MnAl full-Heusler alloy: A cluster expansion approach for total energy
DOI:10.1016/j.jallcom.2010.02.057 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:3 AU: Hoshino, T.;Fujima, N.;Asato, M.;
6:8:36:9 First principles density functional calculation of magnetic moment and hyperfine fields of dilute transition metal impurities in Gd host
DOI:10.1016/j.jmmm.2013.12.015 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2014 TC:0 AU: Mohanta, S. K.;Mishra, S. N.;Srivastava, S. K.;
6:8:37:1 Ab initio study on plane defects in zirconium-hydrogen solid solution and zirconium hydride
DOI:10.1016/j.actamat.2010.03.034 JN:ACTA MATERIALIA PY:2010 TC:22 AU: Udagawa, Yutaka;Yamaguchi, Masatake;Abe, Hiroaki;Sekimura, Naoto;Fuketa, Toyoshi;
6:8:37:2 Vacancy clustering in zirconium: An atomic-scale study
DOI:10.1016/j.actamat.2014.06.012 JN:ACTA MATERIALIA PY:2014 TC:0 AU: Varvenne, Celine;Mackain, Olivier;Clouet, Emmanuel;
6:8:37:3 Mechanical and structural stability of zirconium dihydride
DOI:10.1016/j.ijhydene.2012.03.078 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2012 TC:7 AU: Wang, Fei;Gong, H. R.;
6:8:37:4 First principles study of various Zr-H phases with low H concentrations
DOI:10.1016/j.ijhydene.2012.06.037 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2012 TC:5 AU: Wang, Fei;Gong, H. R.;
6:8:37:5 Mechanical and electronic properties of A(1-x)B(x)H(y) (A and B = Ti, Zr, Hf) hydride alloys: A first-principles study
DOI:10.1016/j.jallcom.2013.07.117 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:2 AU: Dai, Yunya;Yang, Li;Nie, Jinlan;Fan, Kaimin;Peng, Shuming;Long, Xinggui;Zhou, Xiaosong;Bing, Wenzeng;Zu, Xiaotao;Gao, Fei;
6:8:37:6 Effect of Sn and Nb on generalized stacking fault energy surfaces in zirconium and gamma hydride habit planes
DOI:10.1080/14786435.2010.543651 JN:PHILOSOPHICAL MAGAZINE PY:2011 TC:2 AU: Udagawa, Yutaka;Yamaguchi, Masatake;Tsuru, Tomohito;Abe, Hiroaki;Sekimura, Naoto;
6:8:37:7 Dislocation loops in anisotropic elasticity: displacement field, stress function tensor and interaction energy
DOI:10.1080/14786435.2012.657705 JN:PHILOSOPHICAL MAGAZINE PY:2013 TC:4 AU: Lazar, Markus;Kirchner, Helmut O. K.;
6:8:37:8 Effects of spin-orbit coupling on various properties of hafnium dihydride
DOI:10.1016/j.matchemphys.2013.01.006 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2013 TC:1 AU: Wang, Fei;Liang, C. P.;Gong, H. R.;
6:8:37:9 Fundamentals in generalized elasticity and dislocation theory of quasicrystals: Green tensor, dislocation key-formulas and dislocation loops
DOI:10.1080/14786435.2014.977370 JN:PHILOSOPHICAL MAGAZINE PY:2014 TC:1 AU: Lazar, Markus;Agiasofitou, Eleni;
6:8:38:1 Constitutive relation based on Taylor slip analysis to replicate work-hardening evolution
DOI:10.1016/j.actamat.2010.09.065 JN:ACTA MATERIALIA PY:2011 TC:14 AU: Saimoto, S.;Van Houtte, P.;
6:8:38:2 A new analysis of yielding and work hardening in AA1100 and AA5754 at low temperatures
DOI:10.1016/j.actamat.2012.08.014 JN:ACTA MATERIALIA PY:2012 TC:1 AU: Saimoto, Shigeo;Lloyd, David J.;
6:8:38:3 Microstructure based and temperature dependent model of flow behavior of a polycrystalline nickel based superalloy
DOI:10.1016/j.msea.2014.01.101 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Kar, Sujoy Kumar;Sondhi, S. K.;
6:8:38:4 A new strain hardening model for rate-dependent crystal plasticity
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6:8:38:5 Characterization of work-hardening evolution in hexagonal metals using mean slip distance normalized with inter-obstacle spacing
DOI:10.1016/j.msea.2012.02.060 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:0 AU: Saimoto, S.;Cazacu, O.;Kaschner, G. C.;
6:8:38:6 Point defect generation, nano-void formation and growth. I. Validation
DOI:10.1080/14786435.2012.661479 JN:PHILOSOPHICAL MAGAZINE PY:2012 TC:1 AU: Saimoto, S.;Diak, B. J.;
6:8:38:7 Point defect generation, nano-void formation and growth. II. Criterion for ductile failure
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6:8:38:8 Effects of post-necking hardening behavior and equivalent stress-strain curves on the accuracy of M-K based forming limit diagrams
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6:8:39:1:1 Densification behavior of nanocrystalline W-Ni-Fe composite powders prepared by sol-spray drying and hydrogen reduction process
DOI:10.1016/j.jallcom.2009.09.050 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:11 AU: Fan, J. L.;Gong, X.;Huang, B. Y.;Song, M.;Liu, T.;Tian, J. M.;
6:8:39:1:2 Structural, thermodynamic, mechanical, and magnetic properties of FeW system
DOI:10.1063/1.4894396 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:5 AU: Ren, Q. Q.;Fan, J. L.;Han, Y.;Gong, H. R.;
6:8:39:1:3 Microstructure characteristics and a deformation mechanism of fine-grained tungsten heavy alloy under high strain rate compression
DOI:10.1016/j.msea.2010.07.102 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:14 AU: Gong, X.;Fan, J. L.;Huang, B. Y.;Tian, J. M.;
6:8:39:1:4 Microstructure and highly enhanced mechanical properties of fine-grained tungsten heavy alloy after one-pass rapid hot extrusion
DOI:10.1016/j.msea.2011.01.070 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:6 AU: Gong, X.;Fan, J. L.;Ding, F.;Song, M.;Huang, B. Y.;Tian, J. M.;
6:8:39:1:5 Preparation of fine-grained tungsten heavy alloys by spark plasma sintered W-7Ni-3Fe composite powders with different ball milling time
DOI:10.1016/j.jallcom.2013.02.014 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:2 AU: Xiang, D. P.;Ding, L.;Li, Y. Y.;Chen, G. B.;Zhao, Y. W.;
6:8:39:2:1 Study on improving "self-sharpening" capacity of W-Cu-Zn alloy by the pressureless infiltration method
DOI:10.1016/j.msea.2014.04.015 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Fang, Xiaoliang;Liu, Jinxu;Wang, Xing;Li, Shukui;Zheng, Lingling;
6:8:39:2:2 Self-sharpening behavior during ballistic impact of the tungsten heavy alloy rod penetrators processed by hot-hydrostatic extrusion and hot torsion
DOI:10.1016/j.msea.2010.04.050 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:7 AU: Zhou Xiaoqing;Li Shukui;Liu Jinxu;Wang Yingchun;Wang Xing;
6:8:39:2:3 The effect of interface modification on fracture behavior of tungsten fiber reinforced copper matrix composites
DOI:10.1016/j.msea.2011.11.088 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:3 AU: Wu, Z.;Kang, P. C.;Wu, G. H.;Guo, Q.;Chen, G. Q.;Jiang, L. T.;
6:8:39:3:1 The effect of explosive welding parameters on metallurgical and mechanical interfacial features of Inconel 625/plain carbon steel bimetal plate
DOI:10.1016/j.msea.2012.07.012 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:5 AU: Rajani, H. R. Zareie;Mousavi, S. A. A. Akbari;
6:8:39:3:2 Fabrication of graded density impactor via underwater shock wave and quasi-isentropic compression testing at two-stage gas gun facility
DOI:10.1007/s00339-014-8663-1 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2014 TC:0 AU: Sun, Wei;Li, Xiaojie;Hokamoto, Kazuyuki;
6:8:39:3:3 Testing of explosive welding and welded joints: joint mechanism and properties of explosive welded joints
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6:8:40:1 Self-diffusion in crystalline silicon: A Car-Parrinello molecular dynamics study
DOI:10.1103/PhysRevB.84.205203 JN:PHYSICAL REVIEW B PY:2011 TC:5 AU: Koizumi, Kenichi;Boero, Mauro;Shigeta, Yasuteru;Oshiyama, Atsushi;
6:8:40:2 First stages of silicon oxidation with the activation relaxation technique
DOI:10.1103/PhysRevB.86.075408 JN:PHYSICAL REVIEW B PY:2012 TC:2 AU: Ganster, Patrick;Beland, Laurent Karim;Mousseau, Normand;
6:8:40:3 Reactive molecular dynamics simulation of early stage of dry oxidation of Si (100) surface
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6:8:40:4 Molecular dynamics study of Si(100)-oxidation: SiO and Si emissions from Si/SiO2 interfaces and their incorporation into SiO2
DOI:10.1063/1.4876911 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Takahashi, Norihiko;Yamasaki, Takahiro;Kaneta, Chioko;
6:8:40:5 Ab initio study of the early stages of gas-phase water oxidation of the Si(100) (2 x 1):H surface
DOI:10.1103/PhysRevB.84.205314 JN:PHYSICAL REVIEW B PY:2011 TC:2 AU: Lelis-Sousa, R.;Caldas, M. J.;
6:8:40:6 Reactive molecular dynamic simulations of early stage of wet oxidation of Si (001) surface
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6:8:40:7 Molecular dynamics simulation of silicon oxidization
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6:8:40:8 Atomistic modeling of strain and diffusion at the Si/SiO2 interface
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6:8:41:1 A phase-field and electron microscopy study of phase separation in Fe-Cr alloys
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6:8:41:2 Effect of spinodal decomposition on the mechanical behavior of Fe-Cr alloys
DOI:10.1016/j.msea.2010.01.020 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:21 AU: Soriano-Vargas, Orlando;Avila-Davila, Erika O.;Lopez-Hirata, Victor M.;Cayetano-Castro, Nicolas;Gonzalez-Velazquez, Jorge L.;
6:8:41:3 Concurrent phase separation and clustering in the ferrite phase during low temperature stress aging of duplex stainless steel weldments
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6:8:41:4 Initial clustering - a key factor for phase separation kinetics in Fe-Cr-based alloys
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6:8:41:5 The 475 degrees C embrittlement in Fe-20Cr and Fe-20Cr-X (X=Ni, Cu, Mn) alloys studied by mechanical testing and atom probe tomography
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6:8:41:6 Synthesis and phase separation of (Ti,Zr)C
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6:8:41:7 Phase decomposition in an Fe-40 at.% Cr alloy after isothermal aging and its effect on hardening
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6:8:41:8 Phase Separation in Aged Diffusion-Couples Fe/Fe-40 at%Cr Alloy
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6:8:41:9 The strengthening effect of spinodal decomposition and twinning structure in MnCu-based alloy
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6:8:42:1 Computationally efficient determination of hydrogen isotope effects on the thermodynamic stability of metal hydrides
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6:8:42:2 Temperature-driven phase transitions from first principles including all relevant excitations: The fcc-to-bcc transition in Ca
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6:8:42:3 Calculating the anharmonic free energy from first principles
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6:8:42:4 First principles methods for elpasolite halide crystal structure prediction at finite temperatures
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6:8:42:5 The thermodynamics of hydride precipitation: The importance of entropy, enthalpy and disorder
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6:8:42:6 The effect of vibrational entropy on the solubility and stability of ordered Al3Li phases in Al-Li alloys
DOI:10.1063/1.4822439 JN:APL MATERIALS PY:2013 TC:1 AU: Mao, Zugang;Seidman, David N.;Wolverton, C.;
6:8:43:1:1 Improving the wear resistance of white cast iron using a new concept - High-entropy microstructure
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6:8:43:1:2 Performances of hybrid high-entropy high-Cr cast irons during sliding wear and air-jet solid-particle erosion
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6:8:43:1:3 Effect of carbon content on carbide morphology and mechanical properties of AR white cast iron with 10-12% tungsten
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6:8:43:1:4 Effect of carbon contents on dry sliding wear behavior of high vanadium high speed steel
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6:8:43:2:1 (Fe,Cr)(7)C-3/Fe surface gradient composite: Microstructure, microhardness, and wear resistance
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6:8:43:2:2 Correlation between temperature distribution and in situ formed microstructure of Fe-TiC deposited on carbon steel using laser cladding
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6:8:43:2:3 High speed sliding wear behavior of recycled WCp-reinforced ferrous matrix composites fabricated by centrifugal cast
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6:8:43:3:1 Microstructure refinement of hypereutectic high Cr cast irons using hard carbide-forming elements for improved wear resistance
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6:8:43:3:2 Heat treatment and two-body abrasion of Ni-Hard 4
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6:8:43:3:3 Effects of Mo on microstructure of as-cast 28 wt.% Cr-2.6 wt.% C-(0-10) wt.% Mo irons
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6:8:43:3:4 Abnormal erosion-slurry velocity relationship of high chromium cast iron with high carbon concentrations
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6:8:44:1 Strain-field effects on the formation and migration energies of self interstitials in alpha-Fe from first principles
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6:8:44:2 Energetics and nucleation of point defects in aluminum under extreme tensile hydrostatic stresses
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6:8:44:3 Effect of cell size on the energetics of vacancies in aluminum studied via orbital-free density functional theory
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6:8:44:4 Concise relation of substitution energy to macroscopic deformation in a deformed system
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6:8:44:5 Nanovoid characterization of nominally pure aluminium using synchrotron small angle X-ray Scattering (SAXS) methods
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6:8:44:6 Nanovoid nucleation by vacancy aggregation and vacancy-cluster coarsening in high-purity metallic single crystals
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6:8:44:7 Stress enhanced diffusion of krypton ions in polycrystalline titanium
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6:8:44:8 Intrinsic defects and krypton impurity atoms in hcp titanium: A first-principles study
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6:8:45:1 Three-dimensional crack initiation mechanisms in bcc-Fe under loading modes I, II and III
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6:8:45:2 Simulation of deformation twins and their interactions with cracks
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6:8:45:3 Transonic twins in 3D bcc iron crystal
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6:8:45:4 Quasicontinuum simulation of crack propagation in bcc-Fe
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6:8:45:5 Stress wave radiation from the cleavage crack extension in 3D bcc iron crystals
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6:8:45:6 Growth of a brittle crack (001) in 3D bcc iron crystal with a Cu nano-particle
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6:8:45:7 Use of a dislocation-based boundary element model to extract crack growth rates from depth distributions of intergranular stress corrosion cracks
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6:8:45:8 3D atomistic simulation of fatigue behavior of a ductile crack in bcc iron loaded in mode II
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6:8:46:1 In situ controlled modification of the helium density in single helium-filled nanobubbles
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6:8:46:2 In situ probing of helium desorption from individual nanobubbles under electron irradiation
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6:8:46:3 Plasmon Excitations by Photoelectron Emission from Rare Gas Nanobubbles in Aluminum
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6:8:46:4 Numerical simulations and modeling of the stability of noble gas atoms in interaction with vacancies in silicon
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6:8:46:5 Photoemission study of Al adlayers on Mn
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6:8:46:6 Radiolysis to knock-on damage transition in zeolites under electron beam irradiation
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6:8:46:7 Microstructural evolution upon annealing in Ar-implanted Si
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6:8:47:1 Self-Averaging Stochastic Kohn-Sham Density-Functional Theory
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6:8:47:2 Efficient low-order scaling method for large-scale electronic structure calculations with localized basis functions
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6:8:47:3 Massively parallel density functional calculations for thousands of atoms: KKRnano
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6:8:47:4 Electronic Structure via Potential Functional Approximations
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6:8:47:5 Leading corrections to local approximations
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6:8:47:6 Subquadratic-scaling subspace projection method for large-scale Kohn-Sham density functional theory calculations using spectral finite-element discretization
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6:8:47:7 Role of vacancies in metal-insulator transitions of crystalline phase-change materials
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6:8:48:1 Temperature dependent elastic constants for crystals with arbitrary symmetry: Combined first principles and continuum elasticity theory
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6:8:48:2 Temperature and pressure dependent geometry optimization and elastic constant calculations for arbitrary symmetry crystals: Applications to MgSiO3 perovskites
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6:8:48:3 Can twins enhance the elastic stiffness of face-centered-cubic metals?
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6:8:48:4 Elasticity of diamond at high pressures and temperatures
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6:8:48:5 Quasiharmonic thermal elasticity of crystals: An analytical approach
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6:8:48:6 Ab initio prediction of elastic and thermal properties of cubic TiO2
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6:8:49:1 Phase-field simulations with inhomogeneous elasticity: Comparison with an atomic-scale method and application to superalloys
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6:8:49:2 Alloy microstructures with atomic size effects: A Monte Carlo study under the lattice statics formalism
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6:8:49:3 Phase field simulation of precipitates morphology with dislocations under applied stress
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6:8:49:4 Phase-field microelastic modeling of microstructure evolutions in free-standing thin films
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6:8:49:5 Stress induced precipitate microstructure in anisotropic alloys
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6:8:49:6 Kinetics of cubic-to-tetragonal transformation in Ni-V-X alloys
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6:8:50:1 The interaction of a screw dislocation with point defects in bcc iron
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6:8:50:2 Method to account for arbitrary strains in kinetic Monte Carlo simulations
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6:8:50:3 Crystal plasticity-based constitutive modelling of irradiated bcc structures
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6:8:50:4 Strain dependence for microscopic growth parameters for Ag on Ag(100)
DOI:10.1103/PhysRevB.83.153406 JN:PHYSICAL REVIEW B PY:2011 TC:4 AU: Ratsch, C.;
6:8:50:5 Atomic-scale modeling of interactions of helium, vacancies and helium-vacancy clusters with screw dislocations in alpha-iron
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6:8:50:6 From non-planar dislocation cores to non-associated plasticity and strain bursts
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6:8:50:7 Surface nanopatterning from current-driven assembly of single-layer epitaxial islands
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6:8:50:8 Dislocation and defect density-based micromechanical modeling of the mechanical behavior of fcc metals under neutron irradiation
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6:8:51:1 Investigation of coherency loss by prismatic punching with a nonlinear elastic model
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6:8:51:2 Phase-field modeling of precipitate evolution dynamics in elastically inhomogeneous low-symmetry systems: Application to hydride precipitation in Zr
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6:8:51:3 Phase field study of acicular growth: Role of elasticity in Widmanstatten structure
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6:8:51:4 Elastically driven morphology of coherent trigonal precipitates inside a close-packed hexagonal matrix
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6:8:51:5 Pattern formation during diffusion limited transformations in solids
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6:8:51:6 Non-coherent interfaces in diffuse interface models
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6:8:52:1 Phase separation kinetics in a Fe-Cr-Al alloy
DOI:10.1016/j.actamat.2012.05.022 JN:ACTA MATERIALIA PY:2012 TC:10 AU: Capdevila, C.;Miller, M. K.;Chao, J.;
6:8:52:2 The effect of Al on the 475 degrees C embrittlement of Fe-Cr alloys
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6:8:52:3 Influence of the alpha-alpha ' phase separation on the tensile properties of Fe-base ODS PM 2000 alloy
DOI:10.1016/j.msea.2010.08.083 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:10 AU: Capdevila, C.;Miller, M. K.;Toda, I.;Chao, J.;
6:8:52:4 Reverse alpha-alpha ' phase separation in Fe-20Cr-6Al alloy
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6:8:52:5 Influence of recrystallization on phase separation kinetics of oxide dispersion strengthened Fe-Cr-Al alloy
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6:8:52:6 Study of isothermal delta ' (Al3Li) precipitation in an Al-Li alloy by thermoelectric power
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6:8:53:1 Validating molecular dynamics with direct imaging of radiation damage debris
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6:8:53:2 Effects of steps and ordered defects on Cu(110) surface states
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6:8:53:3 Effect of surface defects and adsorbates on the optical anisotropy of Cu(110)
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6:8:53:4 Estimating the range of influence of point defects on Cu (110) surface states
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6:8:53:5 Optical signatures of thiolate/Cu(110) and S/Cu(110) surface structures
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6:8:53:6 Contribution of steps to optical properties of vicinal diamond (100):H surfaces
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6:8:54:1 Theory and molecular dynamics modeling of spall fracture in liquids
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6:8:54:2 Mean-field theory of ferroelectricity in Sr1-xCaxTiO3 (0 <= x <= 0.4)
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6:8:54:3 Hydrodynamic simulation of converging shock waves in porous conical samples enclosed within solid targets
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6:8:54:4 Zn doping-induced enhanced dielectric response of quantum paraelectric SrTiO3
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6:8:54:5 Plasma production by means of discharge in a spherical cavity
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6:8:54:6 Double-impurity doping-induced quantum critical behaviors in Sr1-xBaxTi1-yRuyO3
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6:8:54:7 The effect of preionization on the shock wave evolution in a fast cylindrical discharge
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6:8:55:1 Modelling the effect of pressure on the critical shear stress of MgO single crystals
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6:8:55:2 Multiscale modelling of MgO plasticity
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6:8:55:3 Dislocation properties of coesite from an ab-initio parametrized interatomic potential
DOI:10.1103/PhysRevB.83.014110 JN:PHYSICAL REVIEW B PY:2011 TC:5 AU: Giacomazzi, L.;Carrez, P.;Scandolo, S.;Cordier, P.;
6:8:55:4 Plastic deformation of wadsleyite: IV Dislocation core modelling based on the Peierls-Nabarro-Galerkin model
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6:8:55:5 Deformation of periclase single crystals at high pressure and temperature: Quantification of the effect of pressure on slip-system activities
DOI:10.1063/1.4726200 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:4 AU: Girard, Jennifer;Chen, Jiuhua;Raterron, Paul;
6:8:55:6 Anomalous elastic-plastic transition of MgO under shock compression
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6:8:56:1 First-principles study of ground state properties of ZrH2
DOI:10.1016/j.commatsci.2011.06.016 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:15 AU: Zhang, Peng;Wang, Bao-Tian;He, Chao-Hui;Zhang, Ping;
6:8:56:2 First principles study of the ZrX2 (X = H, D and T) compounds
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6:8:56:3 First-principles study on the structural stabilities, electronic and elastic properties of Zr2Si alloy under pressure
DOI:10.1016/j.commatsci.2012.04.047 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:2 AU: Huang, Xiaochun;Zhang, Xinyu;Zhu, Yan;Zhang, Shiliang;Ma, Mingzhen;Liu, Riping;
6:8:56:4 Structural, electronic and thermodynamic properties of ZrCo and ZrCoH3: A first-principles study
DOI:10.1016/j.ijhydene.2012.09.108 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2012 TC:4 AU: Chattaraj, D.;Parida, S. C.;Dash, Smruti;Majumder, C.;
6:8:56:5 Reactive sputtering of delta-ZrH2 thin films by high power impulse magnetron sputtering and direct current magnetron sputtering
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6:8:56:6 Structural, electronic, elastic and thermodynamic properties of Zr2Fe and Zr2FeH5: A comprehensive study using first principles approach
DOI:10.1016/j.jallcom.2014.06.126 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:1 AU: Chattaraj, D.;Majumder, C.;Dash, Smruti;
6:8:56:7 First-principles study of atomic hydrogen adsorption and initial hydrogenation of Zr(0001) surface
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6:8:57:1 Hybrid deterministic and stochastic approach for efficient atomistic simulations at long time scales
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6:8:57:2 From Metadynamics to Dynamics
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6:8:57:3 Accelerated molecular dynamics through stochastic iterations and collective variable based basin identification
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6:8:57:4 Efficient Numerical Reconstruction of Protein Folding Kinetics with Partial Path Sampling and Pathlike Variables
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6:8:58:1 Comparative studies of yield strength and elastic compressibility between nanocrystalline and bulk cobalt
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6:8:58:2 Diamond anvil cell measurement of high-pressure yield strength of vanadium using in situ thickness determination
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6:8:58:3 Compressive-tensile deformation of nanocrystalline nickel at high pressure and temperature conditions
DOI:10.1063/1.4816744 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Yu, Xiaohui;Wang, Yuejian;Zhang, Jianzhong;Xu, Hongwu;Zhao, Yusheng;
6:8:58:4 Comparative studies of constitutive properties of nanocrystalline and bulk iron during compressive deformation
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6:8:59:1 Loss of interface coherency around a misfitting spherical inclusion
DOI:10.1016/j.actamat.2011.05.012 JN:ACTA MATERIALIA PY:2011 TC:10 AU: Quek, Siu Sin;Xiang, Yang;Srolovitz, David J.;
6:8:59:2 Dislocation climb strengthening in systems with immobile obstacles: Three-dimensional level-set simulation study
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6:8:59:3 Asymptotic behaviors of the stress fields in the vicinity of dislocations and dislocation segments
DOI:10.1080/14786435.2012.671549 JN:PHILOSOPHICAL MAGAZINE PY:2012 TC:4 AU: Zhao, Degang;Wang, Hanquan;Xiang, Yang;
6:8:59:4 Dislocation cross-slip in heteroepitaxial multilayer films
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6:8:59:5 Motion of screw segments in the early stage of fatigue testing
DOI:10.1016/j.msea.2013.09.079 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Zhu, Yichao;Chapman, Stephen Jonathan;
6:8:60:1 Hydride precipitation and stresses in zircaloy-4 observed by synchrotron X-ray diffraction
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6:8:60:2 Hydride reorientation in Zr2.5Nb studied by synchrotron X-ray diffraction
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6:8:60:3 In situ study of hydride precipitation kinetics and re-orientation in Zircaloy using synchrotron radiation
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6:8:60:4 Observation of growth of a precipitate at a stress concentration by synchrotron X-ray diffraction
DOI:10.1016/j.scriptamat.2009.10.031 JN:SCRIPTA MATERIALIA PY:2010 TC:7 AU: Kerr, M.;Daymond, M. R.;Holt, R. A.;Almer, J. D.;Stafford, S.;
6:8:61:1 Dynamic Peierls-Nabarro equations for elastically isotropic crystals
DOI:10.1103/PhysRevB.81.024101 JN:PHYSICAL REVIEW B PY:2010 TC:9 AU: Pellegrini, Yves-Patrick;
6:8:61:2 Equation of motion and subsonic-transonic transitions of rectilinear edge dislocations: A collective-variable approach
DOI:10.1103/PhysRevB.90.054120 JN:PHYSICAL REVIEW B PY:2014 TC:0 AU: Pellegrini, Yves-Patrick;
6:8:61:3 Reply to "Comment on 'Dynamic Peierls-Nabarro equations for elastically isotropic crystals' "
DOI:10.1103/PhysRevB.83.056102 JN:PHYSICAL REVIEW B PY:2011 TC:1 AU: Pellegrini, Yves-Patrick;
6:8:61:4 Comment on "Dynamic Peierls-Nabarro equations for elastically isotropic crystals"
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6:8:62:1 Preface to Special Topic: Selected Papers from the Fourth International Conference on Multiscale Materials Modeling, Tallahassee, Florida, USA, 2008
DOI:10.1063/1.3327819 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:0 AU: Phillpot, Simon R.;El-Azab, Anter;
6:8:62:2 Mechanical properties of defective single wall carbon nanotubes
DOI:10.1063/1.3340519 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:5 AU: Shtogun, Yaroslav V.;Woods, Lilia M.;
6:8:62:3 Linear augmented cylindrical wave Green's function method for electronic structure of nanotubes with substitutional impurities
DOI:10.1103/PhysRevB.82.035426 JN:PHYSICAL REVIEW B PY:2010 TC:7 AU: D'yachkov, P. N.;Kutlubaev, D. Z.;Makaev, D. V.;
6:8:62:4 Simulation of dynamical interaction between dislocations and dipolar loops
DOI:10.1063/1.3340518 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:2 AU: Minarik, Vojtech;Benes, Michal;Kratochvil, Jan;
6:8:63:1 Solubility of carbon in alpha-iron under volumetric strain and close to the Sigma 5(310)[001] grain boundary: Comparison of DFT and empirical potential methods
DOI:10.1016/j.commatsci.2010.11.006 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:16 AU: Hristova, Elisaveta;Janisch, Rebecca;Drautz, Ralf;Hartmaier, Alexander;
6:8:63:2 Solubility of Carbon in Nanocrystalline alpha-Iron
DOI:10.1155/2012/953828 JN:JOURNAL OF NANOMATERIALS PY:2012 TC:0 AU: Kirchner, Alexander;Kieback, Bernd;
6:8:63:3 A molecular-dynamics study on carbon diffusion in face-centered cubic iron
DOI:10.1016/j.commatsci.2014.04.054 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:1 AU: Timmerscheidt, Tobias A.;von Appen, Joerg;Dronskowski, Richard;
6:8:64:1 Modeling of fluctuating interaction energy between a gliding interstitial cluster and solute atoms in random binary alloys
DOI:10.1080/14786435.2012.752884 JN:PHILOSOPHICAL MAGAZINE PY:2013 TC:2 AU: Satoh, Y.;Abe, H.;Matsunaga, T.;
6:8:64:2 One-dimensional migration of interstitial clusters in SUS316L and its model alloys under electron irradiation
DOI:10.1080/14786435.2011.642318 JN:PHILOSOPHICAL MAGAZINE PY:2012 TC:7 AU: Satoh, Y.;Abe, H.;Kim, S. W.;
6:8:64:3 Radiation-induced glide motion of interstitial clusters in concentrated alloys
DOI:10.1080/14786435.2014.907511 JN:PHILOSOPHICAL MAGAZINE PY:2014 TC:1 AU: Satoh, Y.;Abe, H.;Matsunaga, T.;
6:8:64:4 Point defect processes in neutron irradiated Ni, Fe-15Cr-16Ni and Ti-added modified SUS316SS
DOI:10.1080/14786435.2012.753484 JN:PHILOSOPHICAL MAGAZINE PY:2013 TC:1 AU: Horiki, M.;Yoshiie, T.;Sato, K.;Xu, Q.;
6:8:65:1 High-resolution electron microscopy observation and dislocation reaction mechanism of fivefold twinning in a Cu-rich precipitate in a cold rolled ferritic steel containing copper
DOI:10.1016/j.matchar.2014.06.006 JN:MATERIALS CHARACTERIZATION PY:2014 TC:0 AU: Wang, Ling;Wang, Wei;Chen, Bolin;Zhou, Xiying;Li, Zhongwen;Zhou, Bangxin;Wang, Lumin;
6:8:65:2 The effect of copper precipitates on the recrystallization textures and magnetic properties of non-oriented electrical steels
DOI:10.1016/j.jallcom.2013.11.010 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:1 AU: Bian, Xiaohui;Zeng, Yanping;Nan, Di;Wu, Meng;
6:8:65:3 High-resolution electron microscopy characterization of 2H and 9R variant in the ferritic steels containing copper
DOI:10.1016/j.matchar.2011.02.006 JN:MATERIALS CHARACTERIZATION PY:2011 TC:6 AU: Wang, Wei;Zhou, Bangxin;Xu, Gang;Chu, Dafeng;Peng, Jianchao;
6:8:66:1 Effect of stress on self-diffusion in bcc Fe: An atomistic simulation study
DOI:10.1016/j.scriptamat.2010.02.045 JN:SCRIPTA MATERIALIA PY:2010 TC:13 AU: Jang, Je-Wook;Kwon, Junhyun;Lee, Byeong-Joo;
6:8:66:2 A constitutive model of nanocrystalline metals based on competing grain boundary and grain interior deformation mechanisms
DOI:10.1016/j.matlet.2011.07.039 JN:MATERIALS LETTERS PY:2011 TC:4 AU: Guerses, Ercan;El Sayed, Tamer;
6:8:66:3 On tension-compression asymmetry in ultrafine-grained and nanocrystalline metals
DOI:10.1016/j.commatsci.2010.09.028 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2010 TC:6 AU: Guerses, Ercan;El Sayed, Tamer;
6:8:67:1 On the onset of void ordering in metals under neutron or heavy-ion irradiation
DOI:10.1080/14786430903482735 JN:PHILOSOPHICAL MAGAZINE PY:2010 TC:6 AU: Barashev, A. V.;Golubov, S. I.;
6:8:67:2 Comments on 'On the onset of void ordering in metals under neutron or heavy-ion irradiation'
DOI:10.1080/14786435.2010.515549 JN:PHILOSOPHICAL MAGAZINE PY:2011 TC:0 AU: Evans, J. H.;
6:8:67:3 Small interstitials clusters migration in bcc metals: A Molybdenum model
DOI:10.1016/j.commatsci.2010.03.033 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2010 TC:1 AU: Pasianot, R. C.;Ramunni, V. P.;
6:8:67:4 Response to the comments by JH Evans on 'On the onset of void ordering in metals under neutron or heavy-ion irradiation'
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6:8:68:1 An analytical model for secondary phase dissolution kinetics
DOI:10.1007/s10853-013-8009-y JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:1 AU: Zuo, Qiang;Liu, Feng;Wang, Lei;Chen, Chang Feng;Zhang, Zhong Hua;
6:8:68:2 Nucleation and precipitation kinetics of M23C6 and M2N in an Fe-Mn-Cr-C-N austenitic matrix and their relationship with the sensitization phenomenon
DOI:10.1016/j.actamat.2011.06.038 JN:ACTA MATERIALIA PY:2011 TC:7 AU: Roncery, Lais Mujica;Weber, Sebastian;Theisen, Werner;
6:8:68:3 A dissolution kinetics model and its application to duplex stainless steels
DOI:10.1016/j.actamat.2013.01.034 JN:ACTA MATERIALIA PY:2013 TC:1 AU: Ferro, P.;
6:8:69:1 Effects of dislocation-trapped helium on mechanical properties of Fe
DOI:10.1016/j.msea.2014.06.019 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Xu, Q.;Sugiura, Y.;Pan, X. Q.;Sato, K.;Yoshiie, T.;
6:8:69:2 Effects of interactions between dislocations and/or vacancies and He atoms on mechanical property changes in Ni
DOI:10.1016/j.msea.2013.08.011 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:2 AU: Xu, Q.;Yamasaki, H.;Sugiura, Y.;Sato, K.;Yoshiie, T.;
6:8:70:1 Deformation behaviour of an advanced nickel-based superalloy studied by neutron diffraction and electron microscopy
DOI:10.1016/j.actamat.2012.09.005 JN:ACTA MATERIALIA PY:2012 TC:5 AU: Grant, Benedict M. B.;Francis, Elisabeth M.;da Fonseca, Joao Quinta;Daymond, Mark R.;Preuss, Michael;
6:8:70:2 The effect of gamma ' size and alloy chemistry on dynamic strain ageing in advanced polycrystalline nickel base superalloys
DOI:10.1016/j.msea.2013.02.027 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:2 AU: Grant, Benedict M. B.;Francis, Elisabeth M.;da Fonseca, Joao Quinta;Preuss, Michael;Daymond, Mark R.;
6:8:71:1 Correlation between the temperature dependence of yield stress and the nature of solute distribution in Cu-Ni solid solutions
DOI:10.1016/j.jallcom.2010.03.122 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:2 AU: Butt, Muhammad Zakria;Aziz, Farah;Ali, Dilawar;
6:8:71:2 Effect of UV laser irradiation on the hardness and structural parameters of AgxPd1-x (0.4 <= x <= 0.6) alloys
DOI:10.1016/j.apsusc.2012.07.113 JN:APPLIED SURFACE SCIENCE PY:2012 TC:4 AU: Butt, M. Z.;Bashir, Farooq;Arooj, Shamaila;
6:8:72:1 Ranking the Stars: A Refined Pareto Approach to Computational Materials Design
DOI:10.1103/PhysRevLett.111.075501 JN:PHYSICAL REVIEW LETTERS PY:2013 TC:1 AU: Lejaeghere, Kurt;Cottenier, Stefaan;Van Speybroeck, Veronique;
6:8:72:2 Material witness: And the winner is ...
DOI:10.1038/nmat3762 JN:NATURE MATERIALS PY:2013 TC:0 AU: Ball, Philip;
6:9:1:1 Precipitation evolution in Al-0.1Sc, Al-0.1Zr and Al-0.1Sc-0.1Zr (at.%) alloys during isochronal aging
DOI:10.1016/j.actamat.2010.05.054 JN:ACTA MATERIALIA PY:2010 TC:74 AU: Knipling, Keith E.;Karnesky, Richard A.;Lee, Constance P.;Dunand, David C.;Seidman, David N.;
6:9:1:2 Ambient- and high-temperature mechanical properties of isochronally aged Al-0.06Sc, Al-0.06Zr and Al-0.06Sc-0.06Zr (at.%) alloys
DOI:10.1016/j.actamat.2010.10.017 JN:ACTA MATERIALIA PY:2011 TC:49 AU: Knipling, Keith E.;Seidman, David N.;Dunand, David C.;
6:9:1:3 Coarsening resistance at 400 degrees C of precipitation-strengthened Al-Zr-Sc-Er alloys
DOI:10.1016/j.actamat.2011.07.057 JN:ACTA MATERIALIA PY:2011 TC:41 AU: Booth-Morrison, Christopher;Dunand, David C.;Seidman, David N.;
6:9:1:4 Improving aging and creep resistance in a dilute Al-Sc alloy by microalloying with Si, Zr and Er
DOI:10.1016/j.actamat.2013.10.008 JN:ACTA MATERIALIA PY:2014 TC:9 AU: Vo, N. Q.;Dunand, D. C.;Seidman, D. N.;
6:9:1:5 Synergetic effect of Er and Zr on the precipitation hardening of Al-Er-Zr alloy
DOI:10.1016/j.scriptamat.2011.06.033 JN:SCRIPTA MATERIALIA PY:2011 TC:28 AU: Wen, S. P.;Gao, K. Y.;Li, Y.;Huang, H.;Nie, Z. R.;
6:9:1:6 Effects of Li additions on precipitation-strengthened Al-Sc and Al-Sc-Yb alloys
DOI:10.1016/j.actamat.2010.11.037 JN:ACTA MATERIALIA PY:2011 TC:22 AU: Krug, M. E.;Dunand, D. C.;Seidman, D. N.;
6:9:1:7 Effect of Er additions on ambient and high-temperature strength of precipitation-strengthened Al-Zr-Sc-Si alloys
DOI:10.1016/j.actamat.2012.02.030 JN:ACTA MATERIALIA PY:2012 TC:16 AU: Booth-Morrison, Christopher;Seidman, David N.;Dunand, David C.;
6:9:1:8 Determination of Er and Yb solvuses and trialuminide nucleation in Al-Er and Al-Yb alloys
DOI:10.1016/j.jallcom.2013.11.211 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:3 AU: Zhang, Yi;Gao, Kunyuan;Wen, Shengping;Huang, Hui;Wang, Wei;Zhu, Zhaowei;Nie, Zuoren;Zhou, Dejing;
6:9:1:9 Microstructures and properties of Al-Zn-Mg-Mn alloy with trace amounts of Sc and Zr
DOI:10.1016/j.msea.2014.08.024 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Li, Bo;Pan, Qinglin;Huang, Xing;Yin, Zhimin;
6:9:1:10 Effects of Yb and Zr microalloying additions on the microstructure and mechanical properties of dilute Al-Sc alloys
DOI:10.1016/j.actamat.2011.09.019 JN:ACTA MATERIALIA PY:2011 TC:18 AU: van Dalen, Marsha E.;Gyger, Thomas;Dunand, David C.;Seidman, David N.;
6:9:1:11 Microstructural evolution and creep properties of precipitation-strengthened Al-0.06Sc-0.02Gd and Al-0.06Sc-0.02Yb (at.%) alloys
DOI:10.1016/j.actamat.2011.04.059 JN:ACTA MATERIALIA PY:2011 TC:13 AU: Van Dalen, Marsha E.;Dunand, David C.;Seidman, David N.;
6:9:1:12 Role of silicon in accelerating the nucleation of Al-3(Sc,Zr) precipitates in dilute Al-Sc-Zr alloys
DOI:10.1016/j.actamat.2012.05.036 JN:ACTA MATERIALIA PY:2012 TC:15 AU: Booth-Morrison, C.;Mao, Z.;Diaz, M.;Dunand, D. C.;Wolverton, C.;Seidman, D. N.;
6:9:1:13 Precipitation evolution of Al-Zr-Yb alloys during isochronal aging
DOI:10.1016/j.scriptamat.2013.06.003 JN:SCRIPTA MATERIALIA PY:2013 TC:12 AU: Zhang, Yongzhi;Zhou, Wei;Gao, Haiyan;Han, Yanfeng;Wang, Kai;Wang, Jun;Sun, Baode;Gu, Sunwang;You, Weiren;
6:9:1:14 First-principles study of thermodynamic properties and solubility of aluminum-rare-earth intermetallics
DOI:10.1016/j.commatsci.2014.04.016 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:1 AU: Zhang, Xudong;Wang, Shaoqing;
6:9:1:15 Phase transformations in isochronally annealed mould-cast and cold-rolled Al-Sc-Zr-based alloy
DOI:10.1016/j.jallcom.2009.11.126 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:23 AU: Vlach, M.;Stulikova, I.;Smola, B.;Zaludova, N.;Cerna, J.;
6:9:1:16 Precipitation evolution and coarsening resistance at 400 degrees C of Al microalloyed with Zr and Er
DOI:10.1016/j.scriptamat.2012.03.026 JN:SCRIPTA MATERIALIA PY:2012 TC:15 AU: Li, Hongying;Bin, Jie;Liu, Jiaojiao;Gao, Zhaohe;Lu, Xiaochao;
6:9:1:17 Effects of Er and Zr additions on precipitation and recrystallization of pure aluminum
DOI:10.1016/j.scriptamat.2012.09.026 JN:SCRIPTA MATERIALIA PY:2013 TC:14 AU: Li, Hongying;Gao, Zhaohe;Yin, Hao;Jiang, Haofan;Su, Xiongjie;Bin, Jie;
6:9:1:18 First-principles study of the nucleation and stability of ordered precipitates in ternary Al-Sc-Li alloys
DOI:10.1016/j.actamat.2011.01.041 JN:ACTA MATERIALIA PY:2011 TC:25 AU: Mao, Z.;Chen, W.;Seidman, D. N.;Wolverton, C.;
6:9:1:19 First-principles investigations on the electronic properties and stabilities of low-index surfaces of L1(2)-Al3Sc intermetallic
DOI:10.1016/j.apsusc.2013.10.083 JN:APPLIED SURFACE SCIENCE PY:2014 TC:2 AU: Sun, S. P.;Li, X. P.;Wang, H. J.;Jiang, H. F.;Lei, W. N.;Jiang, Y.;Yi, D. Q.;
6:9:1:20 Precipitation evolution in Al-Er-Zr alloys during aging at elevated temperature
DOI:10.1016/j.jallcom.2013.03.237 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:9 AU: Wen, S. P.;Gao, K. Y.;Huang, H.;Wang, W.;Nie, Z. R.;
6:9:1:21 Optimization of phase composition of Al-Cu-Mn-Zr-Sc alloys for rolled products without requirement for solution treatment and quenching
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6:9:1:22 A study of nanoscale Al-3(Zr,Yb) dispersoids structure and thermal stability in Al-Zr-Yb alloy
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6:9:1:27 Chemistry and structure of core/double-shell nanoscale precipitates in Al-6.5Li-0.07Sc-0.02Yb (at.%)
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6:9:1:30 Effects of Ytterbium and Zirconium on precipitation evolution and coarsening resistance in aluminum during isothermal aging
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6:9:1:33 Influence of trace Ti on the microstructure, age hardening behavior and mechanical properties of an Al-Zn-Mg-Cu-Zr alloy
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6:9:1:39 Effect of Er additions on the precipitation strengthening of Al-Hf alloys
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6:9:1:40 Role of Yb and Si on the precipitation hardening and recrystallization of dilute Al-Zr alloys
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6:9:1:41 Roles of impurities on precipitation kinetics of dilute Al-Sc alloys
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6:9:1:42 Creep properties and precipitate evolution in Al-Li alloys microalloyed with Sc and Yb
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6:9:1:48 Heat-resistant Al-0.2Sc-0.04Zr electrical conductor
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6:9:1:49 Effect of cold rolling on precipitation processes in Al-Mn-Sc-Zr alloy
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6:9:1:51 Effect of Zr, Cr and Pr additions on microstructures and properties of ultra-high strength Al-Zn-Mg-Cu alloys
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6:9:1:57 First principles calculations of magnetic properties of Rh-doped SnO2(110) surfaces
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6:9:1:60 Effects of La addition on the elevated temperature properties of the casting Al-Cu alloy
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6:9:1:62 Microstructure and mechanical properties of a spray formed and extruded AA7050 recycled alloy
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6:9:1:63 Effects of V addition on recrystallization resistance of 7150 aluminum alloy after simulative hot deformation
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6:9:1:64 gamma -precipitate strengthening in nickel-based superalloys
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6:9:1:65 Characterization of a laser-fabricated hypereutectic Al-Sc alloy bar
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6:9:2:1 Effects of rare earth Er addition on microstructure and mechanical properties of hypereutectic Al-20% Si alloy
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6:9:2:3 Fracture behaviors of A390 aluminum cylinder liner alloys under static loading
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6:9:2:6 Sb effect on micro structural and mechanical properties of rapidly solidified Al-12Si alloy
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6:9:2:8 Effect of in situ gamma-Al2O3 particles on the microstructure of hypereutectic Al-20%Si alloy
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6:9:2:11 Effects of high pressure and SiC content on microstructure and precipitation kinetics of Al-20Si alloy
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6:9:2:12 Effect of Nd on microstructure and wear resistance of hypereutectic Al-20%Si alloy
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6:9:2:15 Thermodynamic evaluation of hypereutectic Al-Si (A390) alloy with addition of Mg
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6:9:2:16 Modification of horizontal continuous casting Al-12%Si alloy using FSM master alloy
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6:9:2:17 Microstructure and mechanical properties of Al-Si-Ni-Ce alloys prepared by gas-atomization spark plasma sintering and hot-extrusion
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6:9:2:18 Al2O3 nanoparticles induced simultaneous refinement and modification of primary and eutectic Si particles in hypereutectic Al-20Si alloy
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6:9:2:20 Characterization of hot extruded Mg/SiC nanocomposites fabricated by casting
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6:9:2:21 Refinement of primary Si and modification of eutectic Si for enhanced ductility of hypereutectic Al-20Si-4.5Cu alloy with addition of Al2O3 nanoparticles
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6:9:2:22 AZ91D/TiB2 Nanocomposites Fabricated by Solidification Nanoprocessing
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6:9:2:31 Microstructure evolution and precipitation of SiC particle reinforced Al-20Si composite solidified under high pressures
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6:9:2:34 Nucleation kinetics of entrained eutectic Si in Al-5Si alloys
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6:9:2:35 Probing the local atomic structure of Sr-modified Al-Si alloys
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6:9:2:36 The modification of electroless deposited Ni-P master alloy for hypereutectic Al-Si alloy
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6:9:2:37 The phase transition of ZrP induced by Si in Al-Si melts
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6:9:2:38 Modification mechanism of eutectic silicon in Al-6Si-0.3Mg alloy with scandium
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6:9:2:39 The effect of Ca and P interaction on the Al-Si eutectic in a hypoeutectic Al-Si alloy
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6:9:2:40 Effect of Sn addition on microstructure and dry sliding wear behaviors of hypereutectic aluminum-silicon alloy A390
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6:9:2:41 Influence of scandium on the microstructure and mechanical properties of A319 alloy
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6:9:2:42 Effect of Ce on solidification and mechanical properties of A360 alloy
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6:9:2:43 Fabrication of Al-20 wt%Si powder using scrap Si by ultra high-energy milling process
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6:9:2:45 Influence of tin content on tribological characteristics of spray formed Al-Si alloys
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6:9:2:46 Investigation on the Mechanical Properties of Mg-Al Alloys (AZ41 and AZ51) and Its Composites
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6:9:3:1 Solute clustering in Al-Cu-Mg alloys during the early stages of elevated temperature ageing
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6:9:3:2 Nanostructure of aluminium alloy 2024: Segregation, clustering and precipitation processes
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6:9:3:3 Evolution of solute clustering in Al-Cu-Mg alloys during secondary ageing
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6:9:3:4 In situ evaluation of the microstructure evolution during rapid hardening of an Al-2.5Cu-1.5Mg (wt.%) alloy
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6:9:3:5 Atom Probe Tomography Study of the Nanoscale Heterostructure around an Al20Mn3Cu2 Dispersoid in Aluminum Alloy 2024
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6:9:3:6 The structure and the properties of S-phase in AlCuMg alloys
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6:9:3:7 Double-atomic-wall-based dynamic precipitates of the early-stage S-phase in AlCuMg alloys
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6:9:3:8 Solute clustering and solute nanostructures in an Al-3.5Cu-0.4Mg-0.2Ge alloy
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6:9:3:9 Variant selection and the strengthening effect of S precipitates at dislocations in Al-Cu-Mg alloy
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6:9:3:10 The coexistence of two S (Al2CuMg) phases in Al-Cu-Mg alloys
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6:9:3:11 A study of the composition dependence of the rapid hardening phenomenon in Al-Cu-Mg alloys using diffusion couples
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6:9:3:12 A conventional thermo-mechanical process of Al-Cu-Mg alloy for increasing ductility while maintaining high strength
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6:9:3:13 The effect of precipitate size on the yield strength-pitting corrosion correlation in Al-Cu-Mg alloys
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6:9:3:14 Early precipitation during cooling of an Al-Zn-Mg-Cu alloy revealed by in situ small angle X-ray scattering
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6:9:3:15 A three-dimensional Markov field approach for the analysis of atomic clustering in atom probe data
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6:9:3:16 HRTEM and HAADF-STEM tomography investigation of the heterogeneously formed S (Al2CuMg) precipitates in Al-Cu-Mg alloy
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6:9:3:17 The effect of Ge addition in Al-3.5Cu-0.4Mg (wt.%) alloy
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6:9:3:18 Ab initio analysis of Guinier-Preston-Bagaryatsky zone nucleation in Al-Cu-Mg alloys
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6:9:3:19 The influence of Cu/Mg atomic ratios on precipitation scenarios and mechanical properties of Al-Cu-Mg alloys
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6:9:3:20 Synthesis of high strength aluminum alloys in the Al-Ni-La system
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6:9:3:21 Nanoscale precipitation in aged Al-3.5Cu-0.4Mg-0.2Ge alloy
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6:9:3:22 Mg-controlled formation of Mg-Ag co-clusters in initial aged Al-Cu-Mg-Ag alloys
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6:9:3:23 Reinterpretation of precipitation behavior in an aged AlMgCu alloy
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6:9:3:24 A facile electron microscopy method for measuring precipitate volume fractions in AlCuMg alloys
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6:9:3:25 Effect of solution treatment on precipitation and age-hardening response of an Al-4Mg-1Cu-0.5Si-0.4Ag (wt%) alloy
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6:9:3:26 Enhanced age-hardening response of Al-4Mg-1Cu (wt.%) microalloyed with Ag and Si
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6:9:3:27 Effect of Si addition on the microstructure and mechanical properties of Al-Cu-Mg alloy
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6:9:3:28 Atom Probe Microscopy of Self-Assembled Monolayers: Preliminary Results
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6:9:3:29 Real-Time Atomic Scale Imaging of Nanostructural Evolution in Aluminum Alloys
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6:9:3:30 A graph-theoretic approach for characterization of precipitates from atom probe tomography data
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6:9:3:31 Corrosion behavior of 2099 Al-Li alloy in NaCl aqueous solution
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6:9:3:32 Atom Probe Tomography Characterization of Thin Copper Layers on Aluminum Deposited by Galvanic Displacement
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6:9:3:33 Controlled Field Evaporation of Fluorinated Self-Assembled Monolayers
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6:9:3:34 STEM-HAADF tomography investigation of grain boundary precipitates in Al-Cu-Mg alloy
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6:9:4:1 Analysis of strengthening in AA6111 during the early stages of aging: Atom probe tomography and yield stress modelling
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6:9:4:2 Kinetics of natural aging in Al-Mg-Si alloys studied by positron annihilation lifetime spectroscopy
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6:9:4:3 Mechanisms controlling the artificial aging of Al-Mg-Si Alloys
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6:9:4:4 A model for the thermodynamics of and strengthening due to co-clusters in Al-Mg-Si-based alloys
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6:9:4:5 Natural Aging in Al-Mg-Si Alloys - A Process of Unexpected Complexity
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6:9:4:6 Solute strengthening from first principles and application to aluminum alloys
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6:9:4:7 The influence of composition and natural aging on clustering during preaging in Al-Mg-Si alloys
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6:9:4:8 Influence of the thermal route on the peak-aged microstructures in an Al-Mg-Si aluminum alloy
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6:9:4:9 Modeling of excess vacancy annihilation at different types of sinks
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6:9:4:10 Interdependent effect of chemical composition and thermal history on artificial aging of AA6061
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6:9:4:11 Cluster strengthening in aluminium alloys
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6:9:4:12 Influence of interrupted quenching on artificial aging of Al-Mg-Si alloys
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6:9:4:13 Reversal of the negative natural aging effect in Al-Mg-Si alloys
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6:9:4:14 Diffusion on Demand to Control Precipitation Aging: Application to Al-Mg-Si Alloys
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6:9:4:15 The superposition of strengthening contributions in engineering alloys
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6:9:4:16 Effect of pre-ageing and natural ageing on the paint bake response of alloy AA6181A
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6:9:4:17 Dislocation glide through non-randomly distributed point obstacles
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6:9:4:18 Process-controlled suppression of natural aging in an Al-Mg-Si alloy
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6:9:4:19 Simulation of the effect of composition on the precipitation in 6xxx Al alloys during continuous-heating DSC
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6:9:4:20 The effects of quench rate and pre-deformation on precipitation hardening in Al-Mg-Si alloys with different Cu amounts
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6:9:4:21 Muon kinetics in heat treated Al (-Mg)(-Si) alloys
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6:9:4:22 Effect of pre-aging and maturing on the precipitation hardening of an Al-Mg-Si alloy
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6:9:4:23 Influence of starting temperature on differential scanning calorimetry measurements of an Al-Mg-Si alloy
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6:9:4:24 Probing defects in Al-Mg-Si alloys using muon spin relaxation
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6:9:4:25 Effects of beta-Mg2Si Precipitates on Semi-Solid Microstructures of Wrought Al-Mg-Si Based Alloys Produced by Deformation-Semi-Solid-Forming Process
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6:9:4:26 The effect of silicon on the strengthening and work hardening of aluminum at room temperature
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6:9:4:27 Quantitative description of atomic architecture in solid solutions: A generalized theory for multicomponent short-range order
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6:9:4:28 Natural ageing of Al-Cu-Mg revisited from a local perspective
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6:9:4:29 Clustering behaviour in an Al-Mg-Si-Cu alloy during natural ageing and subsequent under-ageing
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6:9:5:1 Effect of Zr, V and Ti on hot compression behavior of the Al-Si cast alloy for powertrain applications
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6:9:5:2 Quantitative comparison of three Ni-containing phases to the elevated-temperature properties of Al-Si piston alloys
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6:9:5:3 Work hardening and texture during compression deformation of the Al-Si-Cu-Mg alloy modified with V, Zr and Ti
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6:9:5:4 Tensile and fatigue properties of a cast aluminum alloy with Ti, Zr and V additions
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6:9:5:5 Phase formation in as-solidified and heat-treated Al-Si-Cu-Mg-Ni alloys: Thermodynamic assessment and experimental investigation for alloy design
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6:9:5:6 The effects of manganese on the T-phase and creep resistance in Al-Si-Cu-Mg-Ni alloys
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6:9:5:7 Morphological evolution of ZrAlSi phase and its impact on the elevated-temperature properties of Al-Si piston alloy
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6:9:5:8 Three-dimensional rigid multiphase networks providing high-temperature strength to cast AlSi10Cu5Ni1-2 piston alloys
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6:9:5:9 The effects of cooling rate and heat treatment on mechanical and thermal characteristics of Al-Si-Cu-Mg foundry alloys
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6:9:5:10 The combined use of EBSD and EDX analyses for the identification of complex intermetallic phases in multicomponent Al-Si piston alloys
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6:9:5:11 Microstructure, tensile properties and fracture behavior of high temperature Al-Si-Mg-Cu cast alloys
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6:9:5:12 The effect of Ni and V trace elements on the mechanical properties of A356 aluminium foundry alloy in as-cast and T6 heat treated conditions
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6:9:5:13 Structure and properties of cast Al-Si based alloy with Zr-V-Ti additions and its evaluation of high temperature performance
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6:9:5:14 The improvement of microstructures and mechanical properties of near eutectic Al-Si multicomponent alloy by an Al-8Zr-2P master alloy
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6:9:5:15 Evolution, microhardness of ZrAlSi intermetallic and its impact on the elevated-temperature properties in Al-Si alloys
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6:9:5:16 Effects of trace Be and Sc addition on the thermal stability of Al-7Si-0.6Mg alloys
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6:9:5:17 The investigation of continuous nucleation and refinement of primary Si in Al-30Si mushy zone
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6:9:5:18 Chemical composition of the Ni-containing intermetallic phases in the multicomponent Al alloys
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6:9:5:19 Precipitation-hardening in cast AL-Si-Cu-Mg alloys
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6:9:5:20 Analysis of fatigue crack initiation and S-N response of model cast aluminium piston alloys
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6:9:5:21 The effect of main alloying elements on the physical properties of Al-Si foundry alloys
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6:9:5:22 Complex modification effect by ZrAlSi intermetallic and element Sr on the microstructure and mechanical properties of hypereutectic Al-Si alloys
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6:9:5:23 Artificial ageing of Al-Si-Cu-Mg casting alloys
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6:9:5:24 Local Tomography Study of the Fracture of an ERG Metal Foam
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6:9:5:25 High Temperature Mechanical Properties of Al-Si-Mg-(Cu) Alloys for Automotive Cylinder Heads
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6:9:5:26 Effect of existing form of alloying elements on the microhardness of Al-Si-Cu-Ni-Mg piston alloy
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6:9:5:27 Supportive strengthening role of Cr-rich phase on Al-Si multicomponent piston alloy at elevated temperature
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6:9:5:28 Influence of Mg and solution heat treatment on the occurrence of incipient melting in Al-Si-Cu-Mg cast alloys
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6:9:5:29 The influence of various Ag additions on the nucleation and thermal stability of Omega phase in Al-Cu-Mg alloys
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6:9:5:30 Improvement of the tensile properties of an Al-Si-Cu-Mg aluminum industrial alloy by using multi stage solution heat treatments
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6:9:5:31 A new Al-Fe-P master alloy designed for application in low pressure casting and its refinement performance on primary Si in A390 alloy at low temperature
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6:9:5:32 Effect of Alloying Elements on High Temperature Mechanical Properties for Piston Alloy
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6:9:5:33 Micromechanisms of short fatigue crack growth in an Al-Si piston alloy
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6:9:6:1 Effects of Sc and Zr microalloying additions on the microstructure and mechanical properties of new Al-Zn-Mg alloys
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6:9:6:2 Evolution of microstructure and properties in a new type 2 mm Al-Zn-Mg-Sc-Zr alloy sheet
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6:9:6:3 Effects of Sc and Zr microalloying additions on the recrystallization texture and mechanism of Al-Zn-Mg alloys
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6:9:6:4 Influences of Ce addition on the microstructures and mechanical properties of 2519A aluminum alloy plate
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6:9:6:5 Effect of solution treatment on precipitation behaviors and age hardening response of Al-Cu alloys with Sc addition
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6:9:6:6 Alloying behavior of erbium in an Al-Cu-Mg alloy
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6:9:6:7 Impact deformation behaviour and dislocation substructure of Al-Sc alloy
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6:9:6:8 Solidification behaviour and the effects of homogenisation on the structure of an Al-Cu-Mg-Ag-Sc alloy
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6:9:6:9 Phase relationships in the Al-rich region of the Al-Cu-Er system
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6:9:6:10 Characterization of precipitate evolution in an artificially aged Al-Zn-Mg-Sc-Zr alloy
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6:9:6:11 Microstructure evolution of the 1469 Al-Cu-Li-Sc alloy during homogenization
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6:9:6:12 Effect of Sc/Zr ratio on the microstructure and mechanical properties of new type of Al-Zn-Mg-Sc-Zr alloys
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6:9:6:13 Effects of La on the age hardening behavior and precipitation kinetics in the cast Al-Cu alloy
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6:9:6:14 Transformations and structures in the Al-Zn-Mg alloy system: A diffraction study using synchrotron radiation and electron precession
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6:9:6:15 Thermodynamic analysis of Al-Sc, Cu-Sc and Al-Cu-Sc system
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6:9:6:16 Age hardening and creep resistance of cast Al-Cu alloy modified by praseodymium
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6:9:6:17 Development of grain structure during superplastic deformation of an Al-Zn-Mg-Cu-Zr alloy containing Sc
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6:9:6:18 Experimental investigation of the phase equilibria of the Al-Ca-Zn system at 623 K
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6:9:6:19 Effect of temperature on microstructures, texture and mechanical properties of hot rolled pure Mg sheets
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6:9:6:20 The effect of microalloying additions of Au on the natural ageing of Al-Cu
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6:9:6:21 On the evolution of heterogeneous microstructure and microtexture in impacted aluminum-lithium alloy
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6:9:7:1 Influence of alloy composition and heat treatment on precipitate composition in Al-Zn-Mg-Cu alloys
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6:9:7:2 Evolution of precipitate microstructures during the retrogression and re-ageing heat treatment of an Al-Zn-Mg-Cu alloy
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6:9:7:3 Revisiting the precipitation sequence in Al-Zn-Mg-based alloys by high-resolution transmission electron microscopy
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6:9:7:4 Natural aging behavior of AA7050 Al alloy after cryogenic rolling
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6:9:7:5 Effect of solution treatment on the strength and fracture toughness of aluminum alloy 7050
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6:9:7:6 High strength and large ductility in spray-deposited Al-Zn-Mg-Cu alloys
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6:9:7:8 Influence of repetitious-RRA treatment on the strength and SCC resistance of Al-Zn-Mg-Cu alloy
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6:9:7:9 Effects of Cu content on the precipitation process of Al-Zn-Mg alloys
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6:9:7:10 Effects of Cu and Al on the crystal structure and composition of eta (MgZn2) phase in over-aged Al-Zn-Mg-Cu alloys
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6:9:7:11 Spherical constituent particles formed by a multistage solution treatment in Al-Zn-Mg-Cu alloys
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6:9:7:12 Enhanced grain refinement in AA7050 Al alloy by deformation-induced precipitation
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6:9:7:13 Atomic structure of hardening precipitates in an Al-Mg-Zn-Cu alloy determined by HAADF-STEM and first-principles calculations: relation to eta-MgZn2
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6:9:7:14 Simulation of the electron diffraction patterns from needle/rod-like precipitates in Al-Mg-Si alloys
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6:9:7:15 Fine-grained AA 7075 processed by different thermo-mechanical processings
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6:9:7:17 Quantitative study of precipitates in an Al-Zn-Mg-Cu alloy aged with various typical tempers
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6:9:7:22 Controlled Diffusion Solidification (CDS) of Al-Zn-Mg-Cu (7050): Microstructure, heat treatment and mechanical properties
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6:9:8:1:2 Surface modification of pure titanium by pulsed electron beam
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6:9:8:1:4 Evaluation of the mechanical and corrosion protection performance of electrodeposited hydroxyapatite on the high energy electron beam treated titanium alloy
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6:9:8:2:3 Formation of Surface Nano- and Textured Austenite Induced by Pulsed Electron Beam Irradiation under Melting Mode
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6:9:8:2:4 Surface modification of Al-12.6Si alloy by high current pulsed electron beam
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6:9:8:3:7 Surface modification of the patterned Al6061/SUS304 metal plates using the large electron beam
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6:9:8:5:1 Surface microstructure and mechanical property of WC-6% Co hard alloy irradiated by high current pulsed electron beam
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6:9:8:6:1 Surface Nanocrystallization of 3Cr13 Stainless Steel Induced by High-Current Pulsed Electron Beam Irradiation
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6:9:8:6:2 Microstructure and property modifications of an AISI H13 (4Cr5MoSiV) steel induced by pulsed electron beam treatment
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6:9:9:1 The influence of Cu/Li ratio on precipitation in Al-Cu-Li-x alloys
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6:9:9:2 Atomic structure of T-1 precipitates in Al-Li-Cu alloys revisited with HAADF-STEM imaging and small-angle X-ray scattering
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6:9:9:4 The influence of precipitation on plastic deformation of Al-Cu-Li alloys
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6:9:9:5 Quantification and modelling of the microstructure/strength relationship by tailoring the morphological parameters of the T-1 phase in an Al-Cu-Li alloy
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6:9:9:6 On the role of microstructure in governing fracture behavior of an aluminum-copper-lithium alloy
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6:9:9:8 Combinative hardening effects of precipitation in a commercial aged Al-Cu-Li-X alloy
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6:9:9:9 Mechanical properties and fatigue crack growth rates in friction stir welded nugget of 2198-T8 Al-Li alloy joints
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6:9:9:10 Microstructure mapping of a friction stir welded AA2050 Al-Li-Cu in the T8 state
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6:9:9:11 Microstructural evolution during ageing of Al-Cu-Li-x alloys
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6:9:9:12 Influence of Natural Ageing and Deformation on Precipitation in an Al-Cu-Li Alloy
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6:9:9:13 Quantitative description of the T-1 formation kinetics in an Al-Cu-Li alloy using differential scanning calorimetry, small-angle X-ray scattering and transmission electron microscopy
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6:9:9:14 Characterization of high cycle fatigue behavior of a new generation aluminum lithium alloy
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6:9:9:15 Distribution of intermetallics in an AA 2099-T8 aluminium alloy extrusion
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6:9:9:16 TEM diffraction study of Al2CuMg (S '/S) precipitation in an Al-Li-Cu-Mg(Zr) alloy
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6:9:9:17 Microstructures and properties of 2099 Al-Li alloy
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6:9:10:1 Cluster-assisted nucleation of silicon phase in hypoeutectic Al-Si alloy with further inoculation
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6:9:10:2 In situ study of nucleation and growth of the irregular alpha-Al/beta-Al5FeSi eutectic by 3-D synchrotron X-ray microtomography
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6:9:10:3 Efficient use of iron impurity in Al-Si alloys
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6:9:10:4 Enhanced nucleation of primary silicon in Al-20Si (wt%) alloy inoculated with Al-10Si-2Fe master alloy
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6:9:10:5 Evolution of Fe based intermetallic phases in Al-Si hypoeutectic casting alloys: Influence of the Si and Fe concentrations, and solidification rate
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6:9:10:6 Three-dimensional visualization of the microstructure development of Sr-modified Al-15Si casting alloy using FIB-EsB tomography
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6:9:10:7 Distribution of Fe-rich phases in eutectic grains of Sr-modified Al-10 wt.% Si-0.1 wt.% Fe casting alloy
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6:9:10:8 Characterisation of intermetallic particles formed during solution treatment of an Al-7Si-0.4Mg-0.12Fe alloy
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6:9:10:9 An ordered metallic glass solid solution phase that grows from the melt like a crystal
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6:9:10:10 Highly Ordered Noncrystalline Metallic Phase
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6:9:10:11 Comparison of the influence of Si and Fe in 99.999% purity aluminum and in commercial-purity aluminum
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6:9:10:12 Phosphorus in Al-Si cast alloys: Thermodynamic prediction of the AlP and eutectic (Si) solidification sequence validated by microstructure and nucleation undercooling data
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6:9:10:13 Effect of homogenization treatment and silicon content on the microstructure and hot workability of dilute Al-Fe-Si alloys
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6:9:10:14 Prediction of Solidification Paths in Al-Si-Fe Ternary System and Experimental Verification: Part II. Fe-Containing Eutectic Al-Si Alloys
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6:9:10:15 Prediction of Solidification Paths in Al-Si-Fe Ternary System and Experimental Verification: Part I. Fe-Containing Hypoeutectic Al-Si Alloys
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6:9:11:1 Precipitates in Al-Cu alloys revisited: Atom-probe tomographic experiments and first-principles calculations of compositional evolution and interfacial segregation
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6:9:11:2 Structure and energetics of the coherent interface between the theta ' precipitate phase and aluminium in Al-Cu
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6:9:11:3 Simultaneous Segregation at Coherent and Semicoherent Heterophase Interfaces
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6:9:11:4 Effect of interfacial solute segregation on ductile fracture of Al-Cu-Sc alloys
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6:9:11:5 Phase transformation and precipitation of an Al-Cu alloy during non-isothermal heating studied by in situ small-angle and wide-angle scattering
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6:9:11:6 Silver segregation to theta ' (Al2Cu)-Al interfaces in Al-Cu-Ag alloys
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6:9:11:7 The magic thicknesses of theta ' precipitates in Sn-microalloyed Al-Cu
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6:9:11:8 Growth mechanism of Al2Cu precipitates during in situ TEM heating of a HPT deformed Al-3wt.%Cu alloy
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6:9:11:9 Efficient Atomic-Scale Kinetics through a Complex Heterophase Interface
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6:9:11:10 Resolution of structural transformation of intermediates in Al-Cu alloys during non-isothermal precipitation
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6:9:11:11 The effect of Si on precipitation in Al-Cu-Mg alloy with a high Cu/Mg ratio
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6:9:11:12 Dynamic grain growth and particle coarsening in Al-3.5Cu
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6:9:11:13 Compositional evolution of Q-phase precipitates in an aluminum alloy
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6:9:11:14 Strained coherent interface energy of the Guinier-Preston II phase in Al-Cu during stress aging
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6:9:11:15 Efficient Atomic-Scale Kinetics through a Complex Heterophase Interface (vol 111, 046102, 2013)
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6:9:12:1 High strain rate superplasticity at intermediate temperatures of the Al 7075 alloy severely processed by equal channel angular pressing
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6:9:12:2 Achieving microstructures prone to superplastic deformation in an Al-Zn-Mg-Cu alloy by equal channel angular pressing
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6:9:12:3 Microstructure and texture evolution in cryorolled Al 7075 alloy
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6:9:12:4 The influence of chromium on the structure and superplasticity of Al-Mg-Mn alloys
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6:9:12:5 A high-strength aluminium-based alloy with advanced superplasticity
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6:9:12:6 Characterization of microstructure and deformation texture during equal channel Angular pressing of Al-Zn-Mg-Cu alloy
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6:9:12:7 Lowering the temperature for high strain rate superplasticity in an Al-Mg-Zn-Cu alloy via cooled friction stir processing
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6:9:12:8 Time and temperature regime of continuous grain coarsening in an ECAP-processed Al(0.1 wt.% Sc) alloy
DOI:10.1016/j.jallcom.2012.02.181 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:2 AU: Bommareddy, A.;Quadir, M. Z.;Ferry, M.;
6:9:12:9 Effect of eutectic particles on the grain size control and the superplasticity of aluminium alloys
DOI:10.1016/j.msea.2011.06.042 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:8 AU: Mikhaylovskaya, A. V.;Ryazantseva, M. A.;Portnoy, V. K.;
6:9:12:10 Realization of exceptionally high elongation at high strain rate in a friction stir processed Al-Zn-Mg-Cu alloy with the presence of liquid phase
DOI:10.1016/j.scriptamat.2010.11.050 JN:SCRIPTA MATERIALIA PY:2011 TC:5 AU: Wang, K.;Liu, F. C.;Ma, Z. Y.;Zhang, F. C.;
6:9:12:11 Effect of equal-channel angular pressing routes on high-strain-rate deformation behavior of ultra-fine-grained aluminum alloy
DOI:10.1016/j.actamat.2009.12.041 JN:ACTA MATERIALIA PY:2010 TC:7 AU: Kim, Yang Gon;Ko, Young Gun;Shin, Dong Hyuk;Lee, Sunghak;
6:9:12:12 Structure and mechanical behaviour of interstitial-free steel processed by equal-channel angular pressing
DOI:10.1016/j.jallcom.2010.12.142 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:6 AU: Mathis, Kristian;Krajnak, Tomas;Kuzel, Radomir;Gubicza, Jeno;
6:9:12:13 Multi-dome forming test for determining the strain rate sensitivity index of a superplastic 7075Al alloy sheet
DOI:10.1016/j.jallcom.2013.08.194 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:0 AU: Kumaresan, G.;Kalaichelvan, K.;
6:9:13:1 Solute nanostructures and their strengthening effects in Al-7Si-0.6Mg alloy F357
DOI:10.1016/j.actamat.2011.10.029 JN:ACTA MATERIALIA PY:2012 TC:23 AU: Sha, G.;Moeller, H.;Stumpf, W. E.;Xia, J. H.;Govender, G.;Ringer, S. P.;
6:9:13:2 Applying precipitate-host lattice coherency for compositional determination of precipitates in Al-Mg-Si-Cu alloys
DOI:10.1080/14786435.2012.693214 JN:PHILOSOPHICAL MAGAZINE PY:2012 TC:10 AU: Torsaeter, M.;Ehlers, F. J. H.;Marioara, C. D.;Andersen, S. J.;Holmestad, R.;
6:9:13:3 The effect of Zn on precipitation in Al-Mg-Si alloys
DOI:10.1080/14786435.2014.913819 JN:PHILOSOPHICAL MAGAZINE PY:2014 TC:3 AU: Saito, Takeshi;Wenner, Sigurd;Osmundsen, Elisa;Marioara, Calin D.;Andersen, Sigmund J.;Royset, Jostein;Lefebvre, Williams;Holmestad, Randi;
6:9:13:4 Study of intergrown L and Q ' precipitates in Al-Mg-Si-Cu alloys
DOI:10.1016/j.scriptamat.2011.01.008 JN:SCRIPTA MATERIALIA PY:2011 TC:17 AU: Torsaeter, M.;Lefebvre, W.;Marioara, C. D.;Andersen, S. J.;Walmsley, J. C.;Holmestad, R.;
6:9:13:5 HAADF-STEM and DFT investigations of the Zn-containing beta '' phase in Al-Mg-Si alloys
DOI:10.1016/j.actamat.2014.06.055 JN:ACTA MATERIALIA PY:2014 TC:0 AU: Saito, Takeshi;Ehlers, Flemming J. H.;Lefebvre, Williams;Hernandez-Maldonado, David;Bjorge, Ruben;Marioara, Calin D.;Andersen, Sigmund J.;Holmestad, Randi;
6:9:13:6 Detailed atomistic insight into the beta" phase in Al-Mg-Si alloys
DOI:10.1016/j.actamat.2014.01.052 JN:ACTA MATERIALIA PY:2014 TC:9 AU: Ninive, Per Harald;Strandlie, Are;Gulbrandsen-Dahl, Sverre;Lefebvre, Williams;Marioara, Calm D.;Andersen, Sigmund J.;Friis, Jesper;Holmestad, Randi;Lovvik, Ole Martin;
6:9:13:7 Atomic-resolution electron energy loss studies of precipitates in an Al-Mg-Si-Cu-Ag alloy
DOI:10.1016/j.scriptamat.2013.11.007 JN:SCRIPTA MATERIALIA PY:2014 TC:3 AU: Wenner, Sigurd;Marioara, Calin D.;Ramasse, Quentin M.;Kepaptsoglou, Despoina-Maria;Hage, Fredrik S.;Holmestad, Randi;
6:9:13:8 Aberration-corrected HAADF-STEM investigations of precipitate structures in Al-Mg-Si alloys with low Cu additions
DOI:10.1080/14786435.2013.857051 JN:PHILOSOPHICAL MAGAZINE PY:2014 TC:3 AU: Saito, Takeshi;Marioara, Calin D.;Andersen, Sigmund J.;Lefebvre, Williams;Holmestad, Randi;
6:9:13:9 Atomistic structure of Cu-containing beta '' precipitates in an Al-Mg-Si-Cu alloy
DOI:10.1016/j.scriptamat.2013.11.030 JN:SCRIPTA MATERIALIA PY:2014 TC:1 AU: Li, Kai;Beche, Armand;Song, Min;Sha, Gang;Lu, Xingxu;Zhang, Kai;Du, Yong;Ringer, Simon P.;Schryvers, Dominique;
6:9:13:10 Thermal Stability and Transition Behavior of Nanoclusters during Two-Step Aging at 250 degrees C in Al-Mg-Si(-Cu) Alloys
DOI:10.2320/matertrans.M2013411 JN:MATERIALS TRANSACTIONS PY:2014 TC:0 AU: Kim, JaeHwang;Kim, SeongNyeong;Kobayashi, Equo;Sato, Tatsuo;
6:9:13:11 Effects of Cu and Ag additions on age-hardening behavior during multi-step aging in Al-Mg-Si alloys
DOI:10.1016/j.msea.2012.09.051 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:7 AU: Kim, JaeHwang;Marioara, Calin Daniel;Holmestad, Randi;Kobayashi, Equo;Sato, Tatsuo;
6:9:13:12 HAADF-STEM study of beta '-type precipitates in an over-aged Al-Mg-Si-Ag alloy
DOI:10.1080/14786435.2011.642319 JN:PHILOSOPHICAL MAGAZINE PY:2012 TC:6 AU: Marioara, C. D.;Nakamura, J.;Matsuda, K.;Andersen, S. J.;Holmestad, R.;Sato, T.;Kawabata, T.;Ikeno, S.;
6:9:13:13 Formation of multiple orientation relationships of Q precipitates in Al-Mg-Si-Cu alloys
DOI:10.1016/j.scriptamat.2014.05.013 JN:SCRIPTA MATERIALIA PY:2014 TC:3 AU: Fiawoo, M.;Gao, X.;Bourgeois, L.;Parson, N.;Zhang, X. Q.;Couper, M.;Nie, J. F.;
6:9:13:14 First-principles investigation of the mechanical, electronic and thermophysical properties of Q-phase in Al-Mg-Si-Cu alloys
DOI:10.1016/j.commatsci.2012.09.030 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:0 AU: Ouyang, Yifang;Liu, Fenglian;Lu, Tong;Tao, Xiaoma;Du, Yong;He, Yuehui;
6:9:13:15 How calcium prevents precipitation hardening in Al-Mg-Si alloys
DOI:10.1016/j.msea.2013.03.067 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:1 AU: Wenner, Sigurd;Marioara, Calin D.;Andersen, Sigmund J.;Holmestad, Randi;
6:9:14:1 Aberration-corrected scanning transmission electron microscopy study of beta '-like precipitates in an Al-Mg-Ge alloy
DOI:10.1016/j.actamat.2012.02.039 JN:ACTA MATERIALIA PY:2012 TC:8 AU: Bjorge, R.;Dwyer, C.;Weyland, M.;Nakashima, P. N. H.;Marioara, C. D.;Andersen, S. J.;Etheridge, J.;Holmestad, R.;
6:9:14:2 Ab initio interface configuration determination for beta" in Al-Mg-Si: Beyond the constraint of a preserved precipitate stoichiometry
DOI:10.1016/j.commatsci.2013.08.037 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:5 AU: Ehlers, Flemming J. H.;
6:9:14:3 Investigation of the as-solidified microstructure of an Al-Mg-Si-Cu alloy
DOI:10.1016/j.jallcom.2014.03.026 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:0 AU: Li, Kai;Song, Min;Du, Yong;Tang, Ying;Dong, Hongbiao;Ni, Song;
6:9:14:4 Phase stabilization principle and precipitate-host lattice influences for Al-Mg-Si-Cu alloy precipitates
DOI:10.1007/s10853-014-8371-4 JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:2 AU: Ehlers, F. J. H.;Wenner, S.;Andersen, S. J.;Marioara, C. D.;Lefebvre, W.;Boothroyd, C. B.;Holmestad, R.;
6:9:14:5 Ab initio based interface modeling for fully coherent precipitates of arbitrary size in Al alloys
DOI:10.1016/j.commatsci.2013.01.034 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:5 AU: Ehlers, Flemming J. H.;Holmestad, Randi;
6:9:14:6 Three-dimensional characterization of interaction between beta '' precipitate and dislocation in Al-Mg-Si alloy
DOI:10.1016/j.jallcom.2014.02.059 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:5 AU: Misumi, Kazuki;Kaneko, Kenji;Nishiyama, Takeshi;Maeda, Takuya;Yamada, Kazuhiro;Ikeda, Ken-ichi;Kikuchi, Masao;Takata, Ken;Saga, Makoto;Ushioda, Kohsaku;
6:9:14:7 TEM study of beta ' precipitate interaction mechanisms with dislocations and beta ' interfaces with the aluminium matrix in Al-Mg-Si alloys
DOI:10.1016/j.matchar.2012.10.003 JN:MATERIALS CHARACTERIZATION PY:2013 TC:8 AU: Teichmann, Katharina;Marioara, Calin D.;Andersen, Sigmund J.;Marthinsen, Knut;
6:9:14:8 Precipitates in an Al-Mg-Ge alloy studied by aberration-corrected scanning transmission electron microscopy
DOI:10.1016/j.actamat.2011.06.021 JN:ACTA MATERIALIA PY:2011 TC:6 AU: Bjorge, R.;Nakashima, P. N. H.;Marioara, C. D.;Andersen, S. J.;Muddle, B. C.;Etheridge, J.;Holmestad, R.;
6:9:14:9 Determination of interfacial atomic structure, misfits and energetics of Omega phase in Al-Cu-Mg-Ag alloy
DOI:10.1016/j.actamat.2014.07.074 JN:ACTA MATERIALIA PY:2014 TC:2 AU: Kang, Sung Jin;Kim, Young-Woon;Kim, Miyoung;Zuo, Jian-Min;
6:9:14:10 3D modelling of beta '' in Al-Mg-Si: Towards an atomistic level ab initio based examination of a full precipitate enclosed in a host lattice
DOI:10.1016/j.commatsci.2014.04.060 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:1 AU: Ehlers, F. J. H.;Dumoulin, S.;Holmestad, R.;
6:9:14:11 Interface configuration stability and interfacial energy for the beta '' phase in Al-Mg-Si as examined with a first principles based hierarchical multi-scale scheme
DOI:10.1016/j.jallcom.2013.12.198 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:3 AU: Ehlers, F. J. H.;Dumoulin, S.;
6:9:14:12 Scanning transmission electron microscopy investigation of an Al-Mg-Si-Ge-Cu alloy
DOI:10.1080/14786435.2012.700129 JN:PHILOSOPHICAL MAGAZINE PY:2012 TC:5 AU: Bjorge, R.;Andersen, S. J.;Marioara, C. D.;Etheridge, J.;Holmestad, R.;
6:9:14:13 Structural relationship between one-dimensional crystals of Guinier-Preston-Bagaryatsky zones in Al-Cu-Mg alloys
DOI:10.1016/j.scriptamat.2011.01.033 JN:SCRIPTA MATERIALIA PY:2011 TC:5 AU: Kovarik, L.;Mills, M. J.;
6:9:14:14 Ab initio interface configuration determination for beta '' in Al-Mg-Si: Beyond the constraint of a preserved precipitate stoichiometry (vol 81, pg 617, 2014)
DOI:10.1016/j.commatsci.2014.01.030 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:0 AU: Ehlers, Flemming J. H.;
6:9:15:1 Fatigue crack growth behavior of Al-Mg-Sc alloy
DOI:10.1016/j.msea.2014.01.045 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Li, Mengjia;Pan, Qinglin;Wang, Ying;Shi, Yunjia;
6:9:15:2 Effects of inclusions, grain boundaries and grain orientations on the fatigue crack initiation and propagation behavior of 2524-T3 Al alloy
DOI:10.1016/j.msea.2013.05.053 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:6 AU: Chen, Y. Q.;Pan, S. P.;Zhou, M. Z.;Yi, D. Q.;Xu, D. Z.;Xu, Y. F.;
6:9:15:3 Twinning and orientation relationships of T-phase precipitates in an Al matrix
DOI:10.1007/s10853-012-7102-y JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:4 AU: Chen, Y. Q.;Yi, D. Q.;Jiang, Y.;Wang, B.;Xu, D. Z.;Li, S. C.;
6:9:15:4 Microstructure dependent fatigue crack growth in Al-Mg-Sc alloy
DOI:10.1016/j.msea.2014.05.087 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Li, Mengjia;Pan, Qinglin;Shi, Yunjia;Wang, Ying;
6:9:15:5 Crystal substructures of the rotation-twinned T (Al20Cu2Mn3) phase in 2024 aluminum alloy
DOI:10.1016/j.jallcom.2013.08.200 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:5 AU: Feng, Z. Q.;Yang, Y. Q.;Huang, B.;Li, M. H.;Chen, Y. X.;Ru, J. G.;
6:9:15:6 Effect of Ce addition on microstructure of Al20Cu2Mn3 twin phase in an Al-Cu-Mn casting alloy
DOI:10.1016/j.msea.2011.11.025 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:9 AU: Chen, Zhongwei;Chen, Pei;Li, Shishun;
6:9:15:7 The separation of recrystallization and precipitation processes in a cold-rolled Al-Mg-Sc solid solution
DOI:10.1016/j.scriptamat.2012.12.009 JN:SCRIPTA MATERIALIA PY:2013 TC:4 AU: Yang, Wen;Yan, Desheng;Rong, Lijian;
6:9:15:8 The influence of higher surface hardness on fretting fatigue life of hard anodized aerospace AL7075-T6 alloy
DOI:10.1016/j.msea.2012.09.082 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:12 AU: Sarhan, Ahmed A. D.;Zalnezhad, E.;Hamdi, M.;
6:9:15:9 Fatigue crack growth behaviors in hot-rolled low carbon steels: A comparison between ferrite-pearlite and ferrite-bainite microstructures
DOI:10.1016/j.msea.2012.09.036 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:7 AU: Guan, Mingfei;Yu, Hao;
6:9:15:10 Effect of Ce addition on the mechanical and electrochemical properties of a lithium battery shell alloy
DOI:10.1016/j.jallcom.2014.08.089 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:0 AU: Zhang, Junchao;Ding, Dongyan;Xu, Xinglong;Gao, Yongjin;Chen, Guozhen;Chen, Weigao;You, Xiaohua;Huang, Yuanwei;Tang, Jinsong;
6:9:15:11 The behavior of fatigue crack initiation and propagation in AA2524-T34 alloy
DOI:10.1016/j.msea.2010.10.085 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:9 AU: Zheng, Z. Q.;Cai, B.;Zhai, T.;Li, S. C.;
6:9:15:12 Structural and mechanical characterization of Al/Al2O3 nanotube thin film on TiV alloy
DOI:10.1016/j.apsusc.2014.10.040 JN:APPLIED SURFACE SCIENCE PY:2014 TC:2 AU: Sarraf, M.;Zalnezhad, E.;Bushroa, A. R.;Hamouda, A. M. S.;Baradaran, S.;Nasiri-Tabrizi, B.;Rafieerad, A. R.;
6:9:15:13 Enhanced fatigue crack propagation resistance of an Al-Cu-Mg alloy by artificial aging under influence of electrical field
DOI:10.1016/j.msea.2010.03.011 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:3 AU: Zhou Mingzhe;Yi Danqing;Liu Huiqun;Liu Wenjun;Zheng Feng;
6:9:15:14 In-situ scanning electron microscopy studies of small fatigue crack growth in recrystallized layer of a directionally solidified superalloy
DOI:10.1016/j.matlet.2010.06.044 JN:MATERIALS LETTERS PY:2010 TC:6 AU: Ma, Xianfeng;Shi, Hui-Ji;Gu, Jialin;
6:9:15:15 The characterization and formation mechanism of nanosized insoluble intermetallic phase in 2024Al alloy
DOI:10.1016/j.matchemphys.2010.02.034 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2010 TC:1 AU: Fan, G. H.;Geng, L.;Meng, Q. C.;Zheng, Z. Z.;
6:9:15:16 Fatigue behaviour and crack growth rate of cryorolled Al 7075 alloy
DOI:10.1016/j.msea.2011.05.021 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:7 AU: Das, Prosenjit;Jayaganthan, R.;Chowdhury, T.;Singh, I. V.;
6:9:15:17 Investigating the fretting fatigue life of thin film titanium nitride coated aerospace Al7075-T6 alloy
DOI:10.1016/j.msea.2012.08.123 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:15 AU: Zalnezhad, E.;Sarhan, Ahmed A. D.;Hamdi, M.;
6:9:16:1 Microstructure evolution of Al-Mg alloy during solidification under high pressure
DOI:10.1016/j.matlet.2010.01.047 JN:MATERIALS LETTERS PY:2010 TC:20 AU: Jie, Jinchuan;Zou, Chunming;Wang, Hongwei;Wei, Zunjie;
6:9:16:2 Enhancement of mechanical properties of Al-Mg alloy with a high Mg content solidified under high pressures
DOI:10.1016/j.scriptamat.2010.11.049 JN:SCRIPTA MATERIALIA PY:2011 TC:13 AU: Jie, J. C.;Zou, C. M.;Wang, H. W.;Li, B.;Wei, Z. J.;
6:9:16:3 Mechanical properties of Al(Mg) solid solution prepared by solidification under high pressures
DOI:10.1016/j.jallcom.2011.08.088 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:2 AU: Jie, J. C.;Zou, C. M.;Wang, H. W.;Li, B.;Wei, Z. J.;
6:9:16:4 Microstructure evolution and precipitation of Al-12Mg alloy solidified under high pressure
DOI:10.1016/j.jallcom.2010.06.189 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:8 AU: Jie, J. C.;Zou, C. M.;Wang, H. W.;Wei, Z. J.;
6:9:16:5 Microstructure and mechanical properties of an Al-Mg alloy solidified under high pressures
DOI:10.1016/j.jallcom.2013.04.184 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:2 AU: Jie, J. C.;Zou, C. M.;Brosh, E.;Wang, H. W.;Wei, Z. J.;Li, T. J.;
6:9:16:6 Effects of super-high pressure on microstructures, nano-mechanical behaviors and corrosion properties of Mg-Al alloys
DOI:10.1016/j.jallcom.2013.09.026 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:3 AU: Zhao, Shuangshuang;Peng, Qiuming;Li, Hui;Liu, Baozhong;
6:9:16:7 Hardening mechanisms of high pressure Mg-Li alloys
DOI:10.1063/1.4861631 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Peng, Qiuming;Wu, Wenshi;Guo, Jianxin;Xiang, Jianyong;Zhao, S. S.;
6:9:16:8 Thermal stability of Al-Mg alloys after solidification under high pressures
DOI:10.1016/j.jallcom.2013.09.106 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:2 AU: Jie, J. C.;Zou, C. M.;Wang, H. W.;Wei, Z. J.;Li, T. J.;
6:9:16:9 Age hardening response of a Mg-5 wt.%Sc alloy under an applied stress field
DOI:10.1016/j.matlet.2012.03.063 JN:MATERIALS LETTERS PY:2012 TC:7 AU: Peng, Qiuming;Ma, Ning;Li, Xuejun;Zhang, Jinghuai;
6:9:16:10 Inhomogeneous evolution of microstructure in AZ91 Mg-alloy during high temperature equal-channel angular pressing
DOI:10.1016/j.jallcom.2009.11.150 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:8 AU: Gubicza, Jeno;Mathis, Krisztian;Hegedus, Zoltan;Ribarik, Gabor;Toth, Attila L.;
6:9:16:11 Precipitation in Al-Mg solid solution prepared by solidification under high pressure
DOI:10.1016/j.matchar.2013.10.023 JN:MATERIALS CHARACTERIZATION PY:2014 TC:2 AU: Jie, J. C.;Wang, H. W.;Zou, C. M.;Wei, Z. J.;Li, T. J.;
6:9:16:12 Phase transformation of Mg-Li alloys induced by super-high pressure
DOI:10.1016/j.matlet.2013.11.094 JN:MATERIALS LETTERS PY:2014 TC:0 AU: Wu, Wenshi;Peng, Qiuming;Guo, Jianxin;Zhao, Shuangshuang;
6:9:16:13 Spherical strengthening precipitate in a Mg-10 wt%Y alloy with superhigh pressure aging
DOI:10.1016/j.matlet.2013.01.015 JN:MATERIALS LETTERS PY:2013 TC:2 AU: Zhao, Haigen;Pan, Junling;Li, Hui;Tian, Yongjun;Peng, Qiuming;
6:9:16:14 Phase transitions of Cu-based alloys under high pressure
DOI:10.1016/j.jallcom.2009.11.164 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:6 AU: Wang, Zhi-Xin;Lu, Jin-Bin;Xi, Yan-Jun;Fan, Ji-Wei;
6:9:16:15 Microstructural evolution of high manganese steel solidified under superhigh pressure
DOI:10.1016/j.matlet.2011.11.057 JN:MATERIALS LETTERS PY:2012 TC:1 AU: Han, Bo;Wu, Sujun;
6:9:16:16 Estimation of residual stress and its effects on the mechanical properties of detonation gun sprayed WC-Co coatings
DOI:10.1016/j.msea.2009.10.009 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:14 AU: Wang, Tie-Gang;Zhao, Sheng-Sheng;Hua, Wei-Gang;Li, Jia-Bao;Gong, Jun;Sun, Chao;
6:9:16:17 Minimization of residual stress in heat-treated Al-Si-Mg cast alloys using uphill quenching: Mechanisms and effects on static and dynamic properties
DOI:10.1016/j.msea.2010.01.064 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:14 AU: Lados, Diana A.;Apelian, Diran;Wang, Libo;
6:9:17:1 Effect of Co on Si and Fe-containing intermetallic compounds (IMCs) in Al-20Si-5Fe alloys
DOI:10.1016/j.msea.2012.07.053 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:5 AU: Kilicaslan, M. Fatih;Yilmaz, Fikret;Hong, Soon-Jik;Uzun, Orhan;
6:9:17:2 Microstructure and microhardness of melt-spun Al-25Si-5Fe-XCo (X=0, 1, 3, 5) alloys
DOI:10.1016/j.matchar.2012.12.006 JN:MATERIALS CHARACTERIZATION PY:2013 TC:4 AU: Kilicaslan, M. Fatih;Yilmaz, Fikret;Ergen, Semra;Hong, Soon-Jik;Uzun, Orhan;
6:9:17:3 Optimizing microstructures of hypereutectic Al-Si alloys with high Fe content via spray forming technique
DOI:10.1016/j.msea.2010.06.066 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:21 AU: Hou, L. G.;Cui, C.;Zhang, J. S.;
6:9:17:4 Effect of Cr and Mn on the microstructure of spray-formed Al-25Si-5Fe-3Cu alloy
DOI:10.1016/j.msea.2011.02.029 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:15 AU: Cai, Yuanhua;Liang, Ruiguang;Hou, Longgang;Zhang, Jishan;
6:9:17:5 Effect of V addition on the nano-size spherical particles growing on the Fe-bearing intermetallics and silicon phases of gas atomized hypereutectic Al-20Si-5Fe alloys
DOI:10.1016/j.jallcom.2014.04.020 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:2 AU: Kilicaslan, Muhammed Fatih;
6:9:17:6 Mechanical properties and thermal stability of Al-23Si-8Fe-1Cr and Al-23Si-8Fe-5Mn alloys prepared by powder metallurgy
DOI:10.1016/j.msea.2012.11.119 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:5 AU: Prusa, F.;Vojtech, D.;
6:9:17:7 Formation of novel flower-like silicon phases and evaluation of mechanical properties of hypereutectic melt-spun Al-20Si-5Fe alloys with addition of V
DOI:10.1016/j.msea.2014.04.025 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Uzun, Orhan;Kilicaslan, Muhammed Fatih;Yilmaz, Fikret;
6:9:17:8 Structural and mechanical characterization of rapidly solidified Al95Ni5 and Al(93)Ni(5)Mm(2) alloys prepared by centrifugal atomization
DOI:10.1016/j.jallcom.2010.07.081 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:6 AU: Vojtech, D.;Prusa, F.;Michalcova, A.;
6:9:17:9 Shape memory properties and microstructural evolution of rapidly solidified CuAlBe alloys
DOI:10.1016/j.matchar.2013.03.010 JN:MATERIALS CHARACTERIZATION PY:2013 TC:3 AU: Ergen, Semra;Uzun, Orhan;Yilmaz, Fikret;Kilicaslan, M. Fatih;
6:9:17:10 Structural and mechanical characteristics of the Al-23Si-8Fe-5Mn alloy prepared by combination of centrifugal spraying and hot die forging
DOI:10.1016/j.msea.2014.05.045 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Dam, Karel;Pausa, Filip;Vojtech, Dalibor;
6:9:17:11 Thermally stable Al-Fe-Mn-based alloy prepared by centrifugal spraying and hot die forging
DOI:10.1016/j.msea.2013.10.028 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Dam, Karel;Vojtech, Dalibor;
6:9:17:12 The effect of Fe, Mn and Sr on the microstructure and tensile properties of A356-10% SiC composite
DOI:10.1016/j.msea.2010.03.063 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:5 AU: Abedi, K.;Emamy, M.;
6:9:18:1 Microstructure and mechanical properties of rheo-diecast hypereutectic Al-Si alloy with 2%Fe assisted with ultrasonic vibration process
DOI:10.1016/j.jallcom.2013.03.089 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:5 AU: Lin, Chong;Wu, Shusen;Lu, Shulin;An, Ping;
6:9:18:2 Effects of ultrasonic vibration on the iron-containing intermetallic compounds of high silicon aluminum alloy with 2% Fe
DOI:10.1016/j.jallcom.2009.11.145 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:29 AU: Zhong, Gu;Wu, Shusen;Jiang, Huawen;An, Ping;
6:9:18:3 Variation of microstructure of RE-containing AlSi20Cu2Ni1RE0.6 alloy with different cobalt contents
DOI:10.1016/j.jallcom.2010.09.053 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:8 AU: Sha, Meng;Wu, Shusen;Zhong, Gu;An, Ping;
6:9:18:4 Effect of high-intensity ultrasonic irradiation on the modification of solidification microstructure in a Si-rich hypoeutectic Al-Si alloy
DOI:10.1016/j.matchemphys.2010.09.035 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2011 TC:23 AU: Das, A.;Kotadia, H. R.;
6:9:18:5 Physical modification of intermetallic phases in Al-Si-Cu alloys
DOI:10.1016/j.matchemphys.2014.09.041 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:0 AU: Barbosa, J.;Puga, H.;Oliveira, J.;Ribeiro, S.;Prokic, M.;
6:9:18:6 Preparation and rheocasting of semisolid slurry of 5083 Al alloy with indirect ultrasonic vibration process
DOI:10.1016/j.msea.2011.08.014 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:16 AU: Lu, Shulin;Wu, Shusen;Lin, Chong;Hu, Zuqi;An, Ping;
6:9:18:7 Combined effects of cobalt addition and ultrasonic vibration on microstructure and mechanical properties of hypereutectic Al-Si alloys with 0.7% Fe
DOI:10.1016/j.msea.2012.06.026 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:5 AU: Sha, Meng;Wu, Shusen;Wan, Li;
6:9:18:8 Effect of semi-solid forming on the microstructure and mechanical properties of the iron containing Al-Si alloys
DOI:10.1016/j.jallcom.2011.05.052 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:10 AU: Shabestari, S. G.;Parshizfard, E.;
6:9:18:9 Characterization of precipitates in a hot-deformed hypereutectic Al-Si alloy
DOI:10.1016/j.jallcom.2012.06.051 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:4 AU: He, Kezhun;Yu, Fuxiao;Zhao, Dazhi;Zuo, Liang;
6:9:18:10 Effects of Co addition on Fe-bearing intermetallic compounds and mechanical properties of AlSi20Cu2Ni1Fe0.7-1 alloys
DOI:10.1016/j.jallcom.2012.10.181 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:2 AU: Sha, Meng;Wu, Shusen;Wang, Xingtao;Wan, Li;
6:9:18:11 Microstructure and property of rheocasting aluminum-alloy made with indirect ultrasonic vibration process
DOI:10.1016/j.matlet.2012.01.040 JN:MATERIALS LETTERS PY:2012 TC:11 AU: Wu, Shusen;Lu, Shulin;An, Ping;Nakae, H.;
6:9:18:12 Effects of cobalt content on microstructure and mechanical properties of hypereutectic Al-Si alloys
DOI:10.1016/j.msea.2011.12.077 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:5 AU: Sha, Meng;Wu, Shusen;Wang, Xingtao;Wan, Li;An, Ping;
6:9:18:13 Microstructure, hardness and tensile properties of A380 aluminum alloy with and without Li additions
DOI:10.1016/j.msea.2013.05.088 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: Karamouz, Mostafa;Azarbarmas, Mortaza;Emamy, Masoud;Alipour, Mohammad;
6:9:18:14 Microstructural refinement of Al-10.2%Si alloy by intensive shearing
DOI:10.1016/j.matlet.2009.12.033 JN:MATERIALS LETTERS PY:2010 TC:11 AU: Kotadia, H. R.;Babu, N. Hari;Zhang, H.;Fan, Z.;
6:9:19:1:1 The influence of Cu rich intermetallic phases on the microstructure, hardness and tensile properties of Al-15% Mg2Si composite
DOI:10.1016/j.msea.2010.01.063 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:19 AU: Emamy, M.;Nemati, N.;Heidarzadeh, A.;
6:9:19:1:2 The influence of pure Na on the microstructure and tensile properties of Al-Mg2Si metal matrix composite
DOI:10.1016/j.msea.2011.02.010 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:25 AU: Emamy, M.;Khorshidi, R.;Raouf, A. Honarbakhsh;
6:9:19:1:3 Influence of pores on workability of porous Al/SiC composites fabricated through powder metallurgy plus mechanical alloying
DOI:10.1016/j.jallcom.2013.12.205 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:7 AU: Hassani, A.;Bagherpour, E.;Qods, F.;
6:9:19:1:4 The influence of beryllium addition on the microstructure and mechanical properties of Al-15%Mg2Si in-situ metal matrix composite
DOI:10.1016/j.msea.2011.07.048 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:4 AU: Azarbarmas, Mortaza;Emamy, Masoud;Rassizadehghani, Jafar;Alipour, Mohammad;Karamouz, Mostafa;
6:9:19:1:5 The influence of Li on the tensile properties of extruded in situ Al-15%Mg2Si composite
DOI:10.1016/j.msea.2011.10.101 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:11 AU: Razaghian, A.;Bahrami, A.;Emamy, M.;
6:9:19:1:6 The influence of Cu-15P master alloy on the microstructure and tensile properties of Al-25 wt% Mg2Si composite before and after hot-extrusion
DOI:10.1016/j.msea.2012.12.078 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:2 AU: Yeganeh, S. E. Vaziri;Razaghian, A.;Emamy, M.;
6:9:19:1:7 Study on fracture behaviour of Al-15%Mg2Si metal matrix composite with and without beryllium additions
DOI:10.1007/s10853-011-5648-8 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:2 AU: Azarbarmas, Mortaza;Emamy, Masoud;Alipour, Mohammad;
6:9:19:1:8 High temperature sliding wear behavior of press-extruded AA6061/fly ash composite
DOI:10.1016/j.msea.2009.10.016 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:8 AU: Kumar, P. R. S.;Kumaran, S.;Rao, T. Srinivasa;Natarajan, S.;
6:9:19:2:1 Improved mechanical properties in cast Al-Si alloys by combined alloying of Fe and Cu
DOI:10.1016/j.msea.2010.08.058 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:21 AU: Wang, E. R.;Hui, X. D.;Wang, S. S.;Zhao, Y. F.;Chen, G. L.;
6:9:19:2:2 Effect of Mn addition on the microstructure and tensile properties of Al-15%Mg2Si composite
DOI:10.1016/j.msea.2012.04.056 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:12 AU: Ghorbani, M. R.;Emamy, M.;Khorshidi, R.;Rasizadehghani, J.;Emami, A. R.;
6:9:19:2:3 Microstructures and tensile properties of hot-extruded Al matrix composites containing different amounts of Mg2Si
DOI:10.1016/j.msea.2013.08.026 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:2 AU: Emamy, M.;Yeganeh, S. E. Vaziri;Razaghian, A.;Tavighi, K.;
6:9:19:2:4 The sequence of intermetallic formation and solidification pathway of an Al-13Mg-7Si-2Cu in-situ composite
DOI:10.1016/j.matchar.2014.09.018 JN:MATERIALS CHARACTERIZATION PY:2014 TC:1 AU: Farahany, Saeed;Nordin, Nur Azmah;Ourdjini, Ali;Abu Bakar, TutyAsma;Hamzah, Esah;Idris, Mohd Hasbullah;Hekmat-Ardakan, Alireza;
6:9:19:2:5 Effect of Ni on eutectic structural evolution in hypereutectic Al-Mg2Si cast alloys
DOI:10.1016/j.msea.2010.09.056 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:9 AU: Li, Chong;Wu, Yaping;Li, Hui;Wu, Yuying;Liu, Xiangfa;
6:9:19:3:1 Effect of P and Sr additions on the microstructure of hypereutectic Al-15Si-14Mg-4Cu alloy
DOI:10.1016/j.matchar.2014.01.005 JN:MATERIALS CHARACTERIZATION PY:2014 TC:4 AU: Tebib, M.;Samuel, A. M.;Ajersch, F.;Chen, X. -G.;
6:9:19:3:2 The study of Li effect on the microstructure and tensile properties of cast Al-Mg2Si metal matrix composite
DOI:10.1016/j.jallcom.2011.07.012 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:13 AU: Khorshidi, R.;Raouf, A. Honarbakhsh;Emamy, M.;Campbell, J.;
6:9:19:3:3 The effect of Cu addition and solution heat treatment on the microstructure, hardness and tensile properties of Al-15%Mg2Si-0.15%Li composite
DOI:10.1016/j.msea.2013.03.066 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:2 AU: Emamy, M.;Emami, A. R.;Tavighi, K.;
6:9:19:4:1 Assessment of the effect of grain refinement on the solidification characteristics of 319 aluminum alloy using thermal analysis
DOI:10.1016/j.jallcom.2009.11.122 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:13 AU: Shabestari, S. G.;Malekan, M.;
6:9:19:4:2 Refinement of Mg2Si reinforcement in a commercial Al-20%Mg2Si in-situ composite with bismuth, antimony and strontium
DOI:10.1016/j.matchar.2013.10.007 JN:MATERIALS CHARACTERIZATION PY:2013 TC:5 AU: Nordin, Nur Azmah;Farahany, Saeed;Ourdjini, Ali;Abu Bakar, Tuty Asma;Harnzah, Esah;
6:9:19:4:3 Effect of modification and aging treatment on mechanical properties of Mg2Si/Al composite
DOI:10.1016/j.msea.2009.12.017 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:12 AU: Qin, Q. D.;Li, W. X.;Zhao, K. W.;Qiu, S. L.;Zhao, Y. G.;
6:9:19:4:4 A comparative study on the effects of three commercial Ti-B-based grain refiners on the impact properties of A356 cast aluminium alloy
DOI:10.1007/s10853-013-7252-6 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:1 AU: Casari, Daniele;Merlin, Mattia;Garagnani, Gian Luca;
6:9:20:1 Study on inhomogeneous characteristics and optimize homogenization treatment parameter for large size DC ingots of Al-Zn-Mg-Cu alloys
DOI:10.1016/j.jallcom.2013.09.139 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:5 AU: Wang, Haijun;Xu, Ju;Kang, Yonglin;Tang, Mengou;Zhang, Zhifeng;
6:9:20:2 Nanostructured Al-Zn-Mg-Cu-Zr alloy prepared by mechanical alloying followed by hot pressing
DOI:10.1016/j.msea.2013.11.094 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:8 AU: Azimi, Amin;Shokuhfar, Ali;Zolriasatein, Ashkan;
6:9:20:3 Microstructure and tensile properties of large-size 7055 aluminum billets fabricated by spray forming rapid solidification technology
DOI:10.1016/j.jallcom.2013.05.117 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:4 AU: Yu Hongchun;Wang Mingpu;Sheng Xiaofei;Li Zhou;Chen Libao;Lei Qian;Chen Chang;Jia Yanglin;Xiao Zhu;Chen Wei;Wei Haigen;Zhang Hao;Fan Xi;Wang Yangguo;
6:9:20:4 Studies on the microstructures and properties in phase transformation of homogenized 7050 alloy
DOI:10.1016/j.msea.2014.06.027 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Jia, Pinfeng;Cao, Yiheng;Geng, Yidong;He, Lizi;Xiao, Na;Cui, Jianzhong;
6:9:20:5 Microstructural evolution of nanostructure 7075 aluminum alloy during isothermal annealing
DOI:10.1016/j.jallcom.2009.12.144 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:19 AU: Yazdian, N.;Karimzadeh, F.;Tavoosi, M.;
6:9:20:6 Effects of d.c. current on the phase transformation in 7050 alloy during homogenization
DOI:10.1016/j.matchar.2014.07.017 JN:MATERIALS CHARACTERIZATION PY:2014 TC:0 AU: Jia, P. F.;Cao, Y. H.;Geng, Y. D.;He, L. Z.;Xiao, N.;Cui, J. Z.;
6:9:20:7 Effects of high magnetic field on the evolutions of constituent phases in 7085 aluminum alloy during homogenization
DOI:10.1016/j.matchar.2012.05.014 JN:MATERIALS CHARACTERIZATION PY:2012 TC:10 AU: He, Lizi;Li, Xiehua;Zhu, Pei;Cao, Yiheng;Guo, Yaping;Cui, Jianzhong;
6:9:20:8 Influence of Mg content on quench sensitivity of Al-Zn-Mg-Cu aluminum alloys
DOI:10.1016/j.jallcom.2011.01.147 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:11 AU: Deng, Yun-lai;Wan, Li;Zhang, Yun-ya;Zhang, Xin-ming;
6:9:20:9 Solidification phases and their evolution during homogenization of a DC cast Al-8.35Zn-2.5Mg-2.25Cu alloy
DOI:10.1016/j.matchar.2014.04.004 JN:MATERIALS CHARACTERIZATION PY:2014 TC:1 AU: Liu, Yan;Jiang, Daming;Xie, Wenlong;Hu, Jie;Ma, Boran;
6:9:20:10 A high-strength AlZnMg alloy hardened by the T-phase precipitates
DOI:10.1016/j.jallcom.2014.04.185 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:0 AU: Yang, X. B.;Chen, J. H.;Liu, J. Z.;Qin, F.;Xie, J.;Wu, C. L.;
6:9:20:11 Effects of gas to melt ratio on the microstructure of an Al-10.83Zn-3.39Mg-1.22Cu alloy produced by spray atomization and deposition
DOI:10.1016/j.matchar.2013.10.030 JN:MATERIALS CHARACTERIZATION PY:2014 TC:1 AU: Guo, S.;Ning, Z. L.;Zhang, M. X.;Cao, F. Y.;Sun, J. F.;
6:9:20:12 Nanoindentation behavior of bulk metastable Al65Cu20Ti15 alloy prepared by consolidation of the ball milled powder
DOI:10.1016/j.msea.2011.07.020 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:4 AU: Roy, D.;Sinha, A.;Chattopadhyay, P. P.;Manna, I.;
6:9:20:13 Preparation of a high strength Al-Cu-Mg alloy by mechanical alloying and press-forming
DOI:10.1016/j.msea.2012.04.016 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:6 AU: Tang, Huaguo;Cheng, Zhiqiang;Liu, Jianwei;Ma, Xianfeng;
6:9:20:14 Combined effect of hot extrusion and heat treatment on the mechanical behavior of 7055 AA processed via spray metal forming
DOI:10.1016/j.jallcom.2014.07.184 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:0 AU: Schreiber, J. M.;Omcikus, Z. R.;Eden, T. J.;Sharma, M. M.;Champagne, V.;Patankar, S. N.;
6:9:20:15 Composition segregation in semi-solid metal cast AA7075 aluminium alloy
DOI:10.1007/s10853-012-6340-3 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:5 AU: George, S. L.;Knutsen, R. D.;
6:9:21:1 Influence of a new kind of Al-Ti-C master alloy on the microstructure and mechanical properties of Al-5Cu alloy
DOI:10.1016/j.jallcom.2013.11.187 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:5 AU: Wang, Tao;Gao, Tong;Zhang, Ping;Nie, Jinfeng;Liu, Xiangfa;
6:9:21:2 High strength and good ductility of casting Al-Cu alloy modified by PrxOy and LaxOy
DOI:10.1016/j.jallcom.2010.09.059 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:5 AU: Zhao, Hailong;Yao, Dongming;Qiu, Feng;Xia, Yumei;Jiang, Qichuan;
6:9:21:3 Effects of multi-modification of rare earth oxides PrxOy and LaxOy on microstructure and tensile properties of casting Al-Cu alloy
DOI:10.1016/j.msea.2012.08.059 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:6 AU: Xia, Yumei;Bai, Zhihao;Qiu, Feng;Jin, Shenbao;Jiang, Qichuan;
6:9:21:4 Effect of grain size refinement and precipitation reactions on strengthening in friction stir processed Al-Cu alloys
DOI:10.1016/j.scriptamat.2011.09.009 JN:SCRIPTA MATERIALIA PY:2011 TC:17 AU: Feng, Xiuli;Liu, Huijie;Babu, Sudarsanam Suresh;
6:9:21:5 Effects of fluoride on the structure and properties of microarc oxidation coating on aluminium alloy
DOI:10.1016/j.jallcom.2010.06.027 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:13 AU: Wang, Zhijiang;Wu, Lina;Cai, Wei;A, Shan;Jiang, Zhaohua;
6:9:21:6 Grain refinement limit and mechanical properties of 6063 alloy inoculated by Al-Ti-C (B) master alloys
DOI:10.1016/j.jallcom.2014.01.145 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:5 AU: Wang, Enzhao;Gao, Tong;Nie, Jinfeng;Liu, Xiangfa;
6:9:21:7 Effects of nano-TiCp on the microstructures and tensile properties of TiCp/Al-Cu composites
DOI:10.1016/j.matchar.2014.05.012 JN:MATERIALS CHARACTERIZATION PY:2014 TC:1 AU: Zhou, Dong Shuai;Tang, Jian;Qiu, Feng;Wang, Jin Guo;Jiang, Qi Chuan;
6:9:21:8 Effects of RExOy addition on corrosion behavior of the Al-Cu alloys in 3.5 wt.% NaCl solution and pH=4 acid solution
DOI:10.1016/j.apsusc.2014.03.198 JN:APPLIED SURFACE SCIENCE PY:2014 TC:0 AU: Bai, Zhihao;Xia, Yumei;Qiu, Feng;Liu, Yingying;Hu, Wei;Jiang, Qichuan;
6:9:21:9 Influence of cooling rate on the Fe intermetallic formation in an AA6063 Al alloy
DOI:10.1016/j.jallcom.2012.12.077 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:13 AU: Verma, A.;Kumar, S.;Grant, P. S.;O'Reilly, K. A. Q.;
6:9:21:10 Mechanical properties and deformation behavior of Al/Al7075, two-phase material
DOI:10.1016/j.jallcom.2010.04.083 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:3 AU: Sherafat, Z.;Paydar, M. H.;Ebrahimi, R.;Sohrabi, S.;
6:9:22:1 Isothermal section of the Al-Dy-Zr ternary system at 773 K
DOI:10.1016/j.jallcom.2011.02.079 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:3 AU: Yuan, Xiaoli;Liu, Libin;Cai, Gemei;Bo, Hong;Cao, Fuyong;Zheng, Feng;
6:9:22:2 The phase relationships in the Al-Zr-Ho ternary system at 773 K
DOI:10.1016/j.jallcom.2010.08.058 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:8 AU: Pang, Mingjun;Zhan, Yongzhong;Yang, Wenchao;Li, Chunliu;Du, Yong;
6:9:22:3 Comparison of residual microstructures associated with impact craters in Al-Sc and Al-Ti alloys
DOI:10.1016/j.actamat.2009.12.038 JN:ACTA MATERIALIA PY:2010 TC:9 AU: Ye, Yicong;Li, Peijie;Novikov, L. S.;Avilkina, V. S.;He, Liangju;
6:9:22:4 Phase equilibria in the Al-Zr-Ce system at 773 K
DOI:10.1016/j.jallcom.2009.10.272 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:7 AU: Hu, Zhaohua;Zhan, Yongzhong;She, Jia;Du, Yong;Xu, Honghui;
6:9:22:5 Deformed microstructure and mechanical properties of AM60B magnesium alloy under hypervelocity impact at a velocity of 4 km s(-1)
DOI:10.1016/j.msea.2010.02.037 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:10 AU: Zou, D. L.;Zhen, L.;Zhu, Y.;Xu, C. Y.;Shao, W. Z.;Pang, B. J.;
6:9:22:6 Phase equilibria of the Al-Pr-Zr ternary system at 773 K
DOI:10.1016/j.jallcom.2010.05.004 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:6 AU: She, Jia;Zhan, Yongzhong;Li, Chunliu;Du, Yong;Xu, Honghui;He, Yuehui;
6:9:22:7 Phase equilibria in the ternary Al-Zr-La system
DOI:10.1016/j.jallcom.2010.07.133 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:2 AU: Peng, Dan;Zhan, Yongzhong;She, Jia;Pang, Mingjun;Du, Yong;
6:9:22:8 Residual microstructure and damage geometry associated with high speed impact crater in Al2O3 and TiB2 particles reinforced 2024 Al composite
DOI:10.1016/j.matchar.2012.01.006 JN:MATERIALS CHARACTERIZATION PY:2012 TC:4 AU: Guo, Q.;Sun, D. L.;Jiang, L. T.;Wu, G. H.;Chen, G. Q.;
6:9:22:9 Damage behaviour of Al matrix composite reinforced with Ti-6Al-4V meshes under the hypervelocity impact
DOI:10.1016/j.msea.2011.12.055 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:2 AU: Guo, Q.;Sun, D. L.;Han, X. L.;Yang, W. S.;Jiang, L. T.;Wu, G. H.;
6:9:22:10 Experimental study of Al-Zr-Y system phase equilibria at 773 K
DOI:10.1016/j.jallcom.2010.03.073 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:5 AU: She, Jia;Zhan, Yongzhong;Hu, Zhaohua;Li, Chunliu;Hu, Jing;Du, Yong;Xu, Honghui;
6:9:22:11 Grain refining mechanism of Al-containing Mg alloys with the addition of Mn-Al alloys
DOI:10.1016/j.jallcom.2010.07.164 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:6 AU: Qin, Gaowu W.;Ren, Yuping;Huang, Wei;Li, Song;Pei, Wenli;
6:9:22:12 Phase relationships of the La-Al-Sb system at 773 K from 0 to 50.0 at.% Sb
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6:9:22:13 The phase equilibria in the Pr-Si-Zr ternary system at 773 K
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6:9:22:14 Dynamic response and microstructure control of Al-Sc binary alloy under high-speed impact
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6:9:23:1 Integrated modeling of friction stir welding of 6xxx series Al alloys: Process, microstructure and properties
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6:9:23:2 Mechanical properties of Al-Mg-Si alloy sheets produced using asymmetric cryorolling and ageing treatment
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6:9:23:3 Improving mechanical properties of friction stir welded AA2024-T3 joints by using a composite backplate
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6:9:23:4 HRTEM study of the effect of deformation on the early precipitation behaviour in an AA6060 Al-Mg-Si alloy
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6:9:23:5 Quantitative investigation of the tensile plastic deformation characteristic and microstructure for friction stir welded 2024 aluminum alloy
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6:9:23:6 Coupled precipitation and yield strength modelling for non-isothermal treatments of a 6061 aluminium alloy
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6:9:23:7 Effects of heat treatments on the microstructure and mechanical properties of a 6061 aluminium alloy
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6:9:23:8 Development of a visco-plastic constitutive modeling for thixoforming of AA6061 in semi-solid state
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6:9:23:9 The effect of simultaneous deformation and annealing on the precipitation behaviour and mechanical properties of an Al-Mg-Si alloy
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6:9:24:1 Morphological evolution and growth mechanism of primary Mg2Si phase in Al-Mg2Si alloys
DOI:10.1016/j.actamat.2010.10.036 JN:ACTA MATERIALIA PY:2011 TC:42 AU: Li, C.;Wu, Y. Y.;Li, H.;Liu, X. F.;
6:9:24:2 Faceted-nonfaceted growth transition and 3-D morphological evolution of primary Al6Mn microcrystals in directionally solidified Al-3 at.% Mn alloy
DOI:10.1557/jmr.2014.111 JN:JOURNAL OF MATERIALS RESEARCH PY:2014 TC:1 AU: Kang, Huijun;Wang, Tongmin;
6:9:24:3 Efficient production of Mg2Si in a fluidized-bed reactor
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6:9:24:4 Calculation of Jackson's factor of Mg2Si in Mg melt using coordination polyhedron
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6:9:24:5 Controllable 3D morphology and growth mechanism of quasicrystalline phase in directionally solidified Al-Mn-Be alloy
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6:9:24:6 Preparation of a novel Al-3B-5Sr master alloy and its modification and refinement performance on A356 alloy
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6:9:24:7 Microstructure of directionally solidified Ti-Fe eutectic alloy with low interstitial and high mechanical strength
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6:9:24:8 Thermodynamic evaluation of Al-Mg2Si with addition of Ni
DOI:10.1016/j.matlet.2011.10.074 JN:MATERIALS LETTERS PY:2012 TC:2 AU: Li, Chong;Hou, Jing;Zhao, Degang;Wu, Yuying;Liu, Xiangfa;
6:9:24:9 Microstructural and mechanical behavior of Mg/Mg2Si composite fabricated by a directional solidification system
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6:9:24:10 Improvement of microstructure and mechanical properties of Mg-8Gd-3Y by adding Mg3Zn6Y icosahedral phase alloy
DOI:10.1016/j.msea.2011.03.094 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:4 AU: Kang, Huijun;Wu, Shiping;Li, Xinzhong;Guo, Jingjie;Wang, Ye;
6:9:24:11 Comments on "Microstructural and mechanical behavior of Mg/Mg2Si composite fabricated by a directional solidification system" by Mirshahi et al. [Mater. Sci. Eng. A 528 (2011) 8319-8323]
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6:9:24:12 Microstructural modulation of Ti-Fe-V ultrafine eutectic alloys with enhanced mechanical properties
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6:9:24:13 Morphologies and growth mechanisms of alpha-Al(FeMn)Si in Al-Si-Fe-Mn alloy
DOI:10.1016/j.matlet.2013.08.039 JN:MATERIALS LETTERS PY:2013 TC:0 AU: Gao, Tong;Wu, Yuying;Li, Chong;Liu, Xiangfa;
6:9:24:14 Influence of preparation temperature on morphology evolution and growth mechanism of CrB2 in Al-Cr-B alloys
DOI:10.1016/j.matlet.2013.12.045 JN:MATERIALS LETTERS PY:2014 TC:0 AU: Cui, X. L.;Wu, Y. Y.;Gao, T.;Liu, X. F.;
6:9:24:15 Multi-scale modeling and control of fluidized beds for the production of solar grade silicon
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6:9:25:1 Effect of solution heat treatment on the internal architecture and compressive strength of an AlMg4.7Si8 alloy
DOI:10.1016/j.msea.2013.06.033 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:3 AU: Tolnai, D.;Requena, G.;Cloetens, P.;Lendvai, J.;Degischer, H. P.;
6:9:25:2 Effect of thermally stable Cu- and Mg-rich aluminides on the high temperature strength of an AlSi12CuMgNi alloy
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6:9:25:3 The Effect of the Connectivity of Rigid Phases on Strength of Al-Si Alloys
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6:9:25:4 The role of Ni and Fe aluminides on the elevated temperature strength of an AlSi12 alloy
DOI:10.1016/j.msea.2010.05.033 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:17 AU: Asghar, Z.;Requena, G.;Kubel, F.;
6:9:25:5 Sub-micrometre holotomographic characterisation of the effects of solution heat treatment on an AlMg7.3Si3.5 alloy
DOI:10.1016/j.msea.2012.04.060 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:6 AU: Tolnai, D.;Requena, G.;Cloetens, P.;Lendvai, J.;Degischer, H. P.;
6:9:25:6 Three dimensional post-mortem study of damage after compression of cast Al-Si alloys
DOI:10.1016/j.msea.2013.10.067 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:6 AU: Asghar, Z.;Requena, G.;
6:9:25:7 In situ synchrotron diffraction of the solidification of Mg4Y3Nd
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6:9:25:8 The effect of spheroidisation heat treatment on the creep resistance of a cast AlSi12CuMgNi piston alloy
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6:9:25:9 Three dimensional post-mortem study of damage after compression of cast Al-Si alloys (vol 591, pg 136, 2014)
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6:9:26:1 Evolution of microstructures and textures of 7050 Al alloy hot-rolled plate during staged solution heat-treatments
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6:9:26:2 Extrusion textures in Al, 6061 alloy and 6061/SiCp nanocomposites
DOI:10.1016/j.matchar.2013.11.009 JN:MATERIALS CHARACTERIZATION PY:2014 TC:2 AU: Jiang, X.;Galano, M.;Audebert, F.;
6:9:26:3 Effect of grain shape on the texture evolution during cold rolling of Al-Mg alloys
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6:9:26:4 Deformation texture evolution of pure aluminum sheet under electromagnetic bulging
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6:9:26:5 Comparison of texture evolution between different thickness layers in cold rolled Al-Mg alloy
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6:9:26:6 Hot rolling textures of Al-Cu-Li and Al-Zn-Mg-Cu aeronautical alloys: Experiments and simulations to high strains
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6:9:26:7 Deformation and recrystallization textures in straight-rolled and pseudo cross-rolled AA 3105 aluminum alloy
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6:9:26:8 Microstructural evolution of Al-Zn-Mg-Cu alloy during homogenization
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6:9:26:9 Analysis of textures heterogeneity in cold and warm asymmetrically rolled aluminium
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6:9:26:10 Effect of strain hardening on texture development in cold rolled Al-Mg alloy
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6:9:26:11 The effect of Mn and Zr dispersoid-forming additions on recrystallization resistance in Al-Cu-Li AA2198 sheet
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6:9:26:12 Effects of thermomechanical processing on production of Al-Zn-Mg-Cu alloy plate
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6:9:27:1 Dynamic precipitation during cyclic deformation of an underaged Al-Cu alloy
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6:9:27:2 In situ evaluation of dynamic precipitation during plastic straining of an Al-Zn-Mg-Cu alloy
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6:9:27:3 Quantitative measurements of dynamic precipitation during fatigue of an Al-Zn-Mg-(Cu) alloy using small-angle X-ray scattering
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6:9:27:4 On the reversibility of dislocation slip during cyclic deformation of Al alloys containing shear-resistant particles
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6:9:27:5 Strain ratio effects on low-cycle fatigue behavior and deformation microstructure of 2124-T851 aluminum alloy
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6:9:27:6 Microstructures and mechanical properties evolution of an Al-Fe-Cu alloy processed by repetitive continuous extrusion forming
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6:9:27:7 Precipitation in solution-treated aluminium-4 wt% copper under cyclic strain
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6:9:27:8 Combined Effect of Pre-Straining and Pre-Aging on Bake-Hardening Behavior of an Al-0.6 mass%Mg-1.0 mass%Si Alloy
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6:9:27:9 Aluminium in Innovative Light-Weight Car Design
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6:9:28:1 A study of the mechanical properties of an Al-Si-Cu alloy (ADC12) produced by various casting processes
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6:9:28:2 Effects of rare earth elements addition on microstructures, tensile properties and fractography of A357 alloy
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6:9:28:3 Correlation of microstructure with mechanical properties and fracture behavior of A356-T6 aluminum alloy fabricated by expendable pattern shell casting with vacuum and low-pressure, gravity casting and lost foam casting
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6:9:28:4 Combined effects of mechanical vibration and wall thickness on microstructure and mechanical properties of A356 aluminum alloy produced by expendable pattern shell casting
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6:9:28:5 HRTEM and ADF-STEM of precipitates at peak-ageing in cast A356 aluminium alloy
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6:9:28:6 Tensile and fatigue properties of gravity casting aluminum alloys for engine cylinder heads
DOI:10.1016/j.msea.2013.08.016 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:10 AU: Fan, K. L.;He, G. Q.;Liu, X. S.;Liu, B.;She, M.;Yuan, Y. L.;Yang, Y.;Lu, Q.;
6:9:28:7 Hydrogen pick-up during mould filling in the lost foam casting of Al alloys
DOI:10.1007/s10853-011-5781-4 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:5 AU: Griffiths, W. D.;Ainsworth, M. J.;
6:9:28:8 Characterization and fracture behavior of bismuth-tin thermal fuse alloy wires produced by the Ohno continuous casting process
DOI:10.1016/j.matchar.2010.05.013 JN:MATERIALS CHARACTERIZATION PY:2010 TC:5 AU: Bhardwaj, Divya;Soda, Hiroshi;McLean, Alexander;
6:9:29:1 Stress-induced phase transformation characteristics and its effect on the enhanced ductility in continuous columnar-grained polycrystalline Cu-12 wt % Al alloy
DOI:10.1016/j.msea.2013.12.041 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:5 AU: Huang, Hai-You;Wang, Yu;Xie, Jian-Xin;
6:9:29:2 Characterization of microstructure evolution after severe plastic deformation of pure copper with continuous columnar crystals
DOI:10.1016/j.msea.2010.04.019 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:12 AU: Gao, Kewei;Liu, Meiyan;Zou, Fenglei;Pang, Xiaolu;Xie, Jianxin;
6:9:29:3 Mechanical properties of Al-Si(13)-Ni(1.4)-Mg(1.4)-Cu(1) alloys produced by the Ohno continuous casting process
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6:9:29:4 Texture evolution and flow stress of columnar-grained polycrystalline copper during intense plastic deformation process at room temperature
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6:9:29:5 Effects of room-temperature deformation on mechanical properties, microstructure and texture of continuous columnar-grained BFe10-1-1 cupronickel alloy tubes
DOI:10.1016/j.msea.2013.05.029 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:3 AU: Gan Chunlei;Liu Xuefeng;Huang Haiyou;Xie Jianxin;
6:9:29:6 Enhanced room-temperature tensile ductility of columnar-grained polycrystalline Cu-12 wt.%Al alloy through texture control by Ohno continuous casting process
DOI:10.1016/j.matlet.2011.01.039 JN:MATERIALS LETTERS PY:2011 TC:11 AU: Wang, Yu;Huang, Hai-You;Xie, Jian-Xin;
6:9:29:7 Tension-compression asymmetry of stress-induced transformations in martensitic Cu-12 wt.% Al alloys
DOI:10.1016/j.matlet.2012.03.088 JN:MATERIALS LETTERS PY:2012 TC:2 AU: Huang, Hai-You;Liu, Jin-Ping;Wang, Yu;Liu, Xue-Feng;Xie, Jian-Xin;
6:9:29:8 Microstructural and high temperature deformation characterization of Ti-45Al-3Nb-(Cr, Mn, Mo, Sc) alloy
DOI:10.1016/j.msea.2010.08.039 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:6 AU: Liu, J.;Luan, Q. D.;Wang, X. G.;Peng, L. M.;
6:9:29:9 Tensile properties and high temperature creep behavior of microalloyed Ti-Ti3Al-Nb alloys by directional solidification
DOI:10.1016/j.msea.2010.03.096 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:6 AU: Luan, Qingdong;Duan, Qiuqi;Wang, Xiaoguang;Liu, Jing;Peng, Liangming;
6:9:29:10 Comparison of the tribological behavior of columnar-grained polycrystalline copper with vertical/horizontal orientation sliding against AISI 1045 steel
DOI:10.1016/j.wear.2012.10.021 JN:WEAR PY:2013 TC:0 AU: Shang, Jian;Ma, Wenlin;Lu, Jinjun;
6:9:30:1 Identification and analysis of intermetallic phases in overaged Zr-containing and Cr-containing Al-Zn-Mg-Cu alloys
DOI:10.1016/j.jallcom.2010.09.064 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:17 AU: Li, X. M.;Starink, M. J.;
6:9:30:2 An experimental and theoretical investigation of the formation of Zr-containing dispersoids in Al-4.5Zn-1Mg aluminum alloy
DOI:10.1016/j.msea.2010.01.012 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:13 AU: Eivani, A. R.;Ahmed, H.;Zhou, J.;Duszczyk, J.;
6:9:30:3 Microstructural evolution of Fe-rich particles in an Al-Zn-Mg-Cu alloy during equal-channel angular pressing
DOI:10.1016/j.msea.2010.04.041 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:11 AU: Sha, G.;Wang, Y. B.;Liao, X. Z.;Duan, Z. C.;Ringer, S. P.;Langdon, T. G.;
6:9:30:4 Effect of Zr on microstructures and mechanical properties of an Al-Mg-Si-Cu-Cr alloy prepared by low frequency electromagnetic casting
DOI:10.1016/j.matchar.2014.02.013 JN:MATERIALS CHARACTERIZATION PY:2014 TC:0 AU: Meng, Yi;Cui, Jianzhong;Zhao, Zhihao;He, Lizi;
6:9:30:5 The effect of Ti and Zr elements and cooling rate on the microstructure and tensile properties of a new developed super high-strength aluminum alloy
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6:9:30:6 Characterization of microstructures obtained in wedge shaped Al-Zn-Mg ingots
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6:9:30:7 Numerical modeling of subgrain growth of hot extruded Al-4.5Zn-1 Mg alloy in the presence of nanosized dispersoids
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6:9:30:8 Direct Preparation of Nano-Quasicrystals via a Water-Cooled Wedge-Shaped Copper Mould
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6:9:31:1 Modified embedded atom method potential for Al, Si, Mg, Cu, and Fe alloys
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6:9:31:2 Mechanisms of Guinier-Preston zone hardening in the athermal limit
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6:9:31:3 Atomistic simulations of dislocation-precipitate interactions emphasize importance of cross-slip
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6:9:31:4 Transformation of shear loop into prismatic loops during bypass of an array of impenetrable particles by edge dislocations
DOI:10.1016/j.msea.2014.08.079 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Groh, Sebastien;
6:9:31:5 Local atomic structures in grain boundaries of bulk nanocrystalline aluminium: A molecular dynamics simulation study
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6:9:31:6 Thermal expansion and recrystallization of amorphous Al and Ti: A molecular dynamics study
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6:9:31:7 Plastic Deformation of a Nano-Precipitate Strengthened Ni-Base Alloy Investigated by Complementary In Situ Neutron Diffraction Measurements and Molecular-Dynamics Simulations
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6:9:31:8 Solubility limit of carbon in Rh measured by graphene growth on the surface
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6:9:31:9 Modified embedded-atom method interatomic potentials for the Nb-C, Nb-N, Fe-Nb-C, and Fe-Nb-N systems
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6:9:32:1 Effect of rapid solidification on mechanical properties of a lead free Sn-3.5Ag solder
DOI:10.1016/j.jallcom.2010.05.179 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:18 AU: Shalaby, R. M.;
6:9:32:2 Microstructure and mechanical properties of Al-Si-Mg ribbons
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6:9:32:3 Structure and properties of nanostructured A357 alloy produced by melt spinning compared with direct chill ingot
DOI:10.1016/j.jallcom.2011.04.082 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:11 AU: Chen, Zhongwei;Lei, Yimin;Zhang, Haifang;
6:9:32:4 Microstructure and mechanical properties of nanostructured A8006 ribbons
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6:9:32:5 Gradient microstructure and multiple mechanical properties of AlSi9Cu alloy ribbon produced by melt spinning
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6:9:32:6 Effect of silicon addition on mechanical and electrical properties of Sn-Zn based alloys rapidly quenched from melt
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6:9:32:7 Al-Fe hypoeutectic alloys directionally solidified under steady-state and unsteady-state conditions
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6:9:33:1 A mathematical model coupled to CALPHAD to predict precipitation kinetics for multicomponent aluminum alloys
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6:9:33:2 Precipitation of partially coherent alpha-Al(Mn,Fe)Si dispersoids and their strengthening effect in AA 3003 alloy
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6:9:33:3 The influence of microchemistry on the softening behaviour of two cold-rolled Al-Mn-Fe-Si alloys
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6:9:33:4 Impact of homogenization on particles in the Al-Mg-Mn alloy AA 5454-Experiment and simulation
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6:9:33:5 Impact of homogenization on microchemistry and recrystallization of the Al-Fe-Mn alloy AA 8006
DOI:10.1016/j.matchar.2013.02.012 JN:MATERIALS CHARACTERIZATION PY:2013 TC:8 AU: Engler, Olaf;Laptyeva, Galyna;Wang, Ning;
6:9:33:6 Microstructure evolution during homogenization of Al-Mn-Fe-Si alloys: Modeling and experimental results
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6:9:33:7 Modeling precipitate growth in multicomponent alloy systems by a variational principle
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6:9:33:8 Thermodynamics based modelling of the precipitation kinetics in commercial aluminium alloys
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6:9:33:9 Optimization of homogenization for a low alloyed AlMgSi alloy
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6:9:33:10 Mobilities and diffusivities for bcc Nb-W, Nb-Ta, Zr-Mo and Zr-Hf alloys
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6:9:33:11 Effect of cooling rate on precipitation during homogenization cooling in an excess silicon AlMgSi alloy
DOI:10.1016/j.matchar.2012.07.015 JN:MATERIALS CHARACTERIZATION PY:2012 TC:5 AU: Birol, Yucel;
6:9:34:1 Evolution of microstructure and mechanical properties in naturally aged 7050 and 7075 Al friction stir welds
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6:9:34:2 Hardness recovery mechanism in the heat-affected zone during long-term natural aging and its influence on the mechanical properties and fracture behavior of friction stir welded 2024Al-T351 joints
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6:9:34:3 Influence of water cooling on microstructure and mechanical properties of friction stir welded 2014Al-T6 joints
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6:9:34:4 Effect of welding heat input and post-welding natural aging on hardness of stir zone for friction stir-welded 2024-T3 aluminum alloy thin-sheet
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6:9:34:5 Natural aging behaviour of friction stir welded 6005A-T6 aluminium alloy
DOI:10.1016/j.msea.2013.03.077 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: Dong, Peng;Sun, Daqian;Li, Hongmei;
6:9:34:6 Achieving friction stir welded SiCp/Al-Cu-Mg composite joint of nearly equal strength to base material at high welding speed
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6:9:34:7 Texture and microstructure evolution and mechanical properties during friction stir welding of extruded aluminum billets
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6:9:34:8 Top surface microstructure of friction-stir welded AA2524-T3 aluminum alloy joints
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6:9:35:1 Electron microscopy studies of the age-hardening behaviors in 6005A alloy and microstructural characterizations of precipitates
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6:9:35:2 The diffraction patterns from beta '' precipitates in 12 orientations in Al-Mg-Si alloy
DOI:10.1016/j.scriptamat.2010.01.039 JN:SCRIPTA MATERIALIA PY:2010 TC:12 AU: Yang, Wenchao;Wang, Mingpu;Zhang, Ruirong;Zhang, Qian;Sheng, Xiaofei;
6:9:35:3 Investigation and characterization of the nanoscale precipitation sequence and their kinetics in Al-1.0% Mg2Si-0.4 wt% Si-0.5Cu (wt%) alloy
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6:9:35:4 The compositions of metastable phase precipitates observed at peak hardness condition in an Al-Mg-Si alloy
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6:9:35:5 Initial precipitation and hardening mechanism during non-isothermal aging in an Al-Mg-Si-Cu 6005A alloy
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6:9:35:6 Variation of age-hardening behavior of TM-addition Al-Mg-Si alloys
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6:9:35:7 Effects of Cu content on microstructure and mechanical properties of Al-14.5Si-0.5Mg alloy
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6:9:35:8 Microstructure and mechanical properties of an Al-12.7Si-0.7Mg alloy processed by extrusion and heat treatment
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6:9:35:9 Effect of Mg, Si and Cu content on the microstructure of dilute 6000 series aluminium alloys
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6:9:36:1 Microstructure-based modelling of isotropic and kinematic strain hardening in a precipitation-hardened aluminium alloy
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6:9:36:2 Dislocation depinning from ordered nanophases in a model fcc crystal: From cutting mechanism to Orowan looping
DOI:10.1016/j.actamat.2010.06.018 JN:ACTA MATERIALIA PY:2010 TC:9 AU: Proville, Laurent;Bako, Botond;
6:9:36:3 Influence of dispersoids on microstructure evolution and work hardening of aluminium alloys during tension and cold rolling
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6:9:36:4 The effect of interrupted aging on the yield strength and uniform elongation of precipitation-hardened Al alloys
DOI:10.1016/j.actamat.2013.06.036 JN:ACTA MATERIALIA PY:2013 TC:4 AU: Chen, Y.;Weyland, M.;Hutchinson, C. R.;
6:9:36:5 Modelling work hardening of aluminium alloys containing dispersoids
DOI:10.1080/14786435.2013.805271 JN:PHILOSOPHICAL MAGAZINE PY:2013 TC:4 AU: Zhao, Qinglong;Holmedal, Bjorn;
6:9:36:6 Crystal plasticity modeling of the effect of precipitate states on the work hardening and plastic anisotropy in an Al-Mg-Si alloy
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6:9:36:7 Work-hardening behaviour of a heat-treatable AA7108 aluminium alloy deformed to intermediate strains by compression
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6:9:36:8 Modeling of the influence of coarsening on viscoplastic behavior of a 319 foundry aluminum alloy
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6:9:37:1 Influence of specimen thickness with rectangular cross-section on the tensile properties of structural steels
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6:9:37:2 Distribution of TiB2 particles and its effect on the mechanical properties of A390 alloy
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6:9:37:3 An analysis on necking effect and stress distribution in round cross-section specimens of pure copper with different diameters
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6:9:37:4 In-situ synthesis of SiC particles by the structural evolution of TiCx in Al-Si melt
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6:9:37:5 An investigation of the relative effects of thickness and strength on the formability of steel sheet
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6:9:37:6 Experimental evidence of structural evolution for TiB2 microcrystal under externally high stresses
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6:9:37:7 Tailoring of microstructure and mechanical properties of Ti-6Al-4V with local rapid (induction) heat treatment
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6:9:38:1 Achieving uniform distribution and dispersion of a high percentage of nanoparticles in metal matrix nanocomposites by solidification processing
DOI:10.1016/j.scriptamat.2013.07.016 JN:SCRIPTA MATERIALIA PY:2013 TC:9 AU: Chen, Lian-Yi;Peng, Jun-Yang;Xu, Jia-Quan;Choi, Hongseok;Li, Xiao-Chun;
6:9:38:2 Ultrasonic-Assisted Synthesis of Surface-Clean TiB2 Nanoparticles and Their Improved Dispersion and Capture in Al-Matrix Nanocomposites
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6:9:38:3 A novel method for preparing nano-NbC/Fe powder and nano-NbC particle reinforced cast low-carbon steel
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6:9:38:4 Heterogeneous nucleation effect of in situ nanoparticles on the metal-matrix microstructure
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6:9:38:5 Shape effects on nanoparticle engulfment for metal matrix nanocomposites
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6:9:38:6 Effects of aging on shape memory and wear resistance of a Fe-Mn-Si-based alloy
DOI:10.1557/jmr.2014.344 JN:JOURNAL OF MATERIALS RESEARCH PY:2014 TC:0 AU: Liu, Yongren;Dong, Zhizhong;Yu, Liming;Liu, Yongchang;Li, Huijun;Zhang, Lin;
6:9:38:7 Evaluation of electroslag remelting in TiC particle reinforced 304 stainless steel
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6:9:38:8 Using diluted master nanocomposites to achieve grain refinement and mechanical property enhancement in as-cast Al-9Mg
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6:9:38:9 Microstructure and mechanical property of in-situ nano-particle strengthened ferritic steel by novel internal oxidation
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6:9:38:10 Fabrication and mechanical properties of metal matrix composite with homogeneously dispersed ceramic particles
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6:9:38:11 Wear characteristics of a new type austenitic stainless steel
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6:9:39:1 Precipitation behavior of the beta phase in Al-5083
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6:9:39:2 Microstructure evolution of a modified AA5083 aluminum alloy during a multistage homogenization treatment
DOI:10.1016/j.matchar.2011.12.006 JN:MATERIALS CHARACTERIZATION PY:2012 TC:7 AU: Radetic, Tamara;Popovic, Miljana;Romhanji, Endre;
6:9:39:3 Grain boundary misorientation dependence of beta phase precipitation in an Al-Mg alloy
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6:9:39:4 Delamination of a sensitized commercial Al-Mg alloy during fatigue crack growth
DOI:10.1016/j.scriptamat.2010.06.017 JN:SCRIPTA MATERIALIA PY:2010 TC:5 AU: Brosi, J. K.;Lewandowski, J. J.;
6:9:39:5 Vacancy-Mg complexes and their evolution in early stages of aging of Al-Mg based alloys
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6:9:39:6 Direct visualization of beta phase causing intergranular forms of corrosion in Al-Mg alloys
DOI:10.1016/j.matchar.2013.03.014 JN:MATERIALS CHARACTERIZATION PY:2013 TC:2 AU: Yang, Young-Ki;Allen, Todd;
6:9:39:7 Effects of homogenization on microstructures and properties of a new type Al-Mg-Mn-Zr-Ti-Er alloy
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6:9:39:8 The role of grain boundary plane orientation in the beta phase precipitation of an Al-Mg alloy
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6:9:39:9 Microstructure and mechanical properties of aluminum 5083 weldments by gas tungsten arc and gas metal arc welding
DOI:10.1016/j.msea.2012.03.108 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:9 AU: Liu, Yao;Wang, Wenjing;Xie, Jijia;Sun, Shouguang;Wang, Liang;Qian, Ye;Meng, Yuan;Wei, Yujie;
6:9:40:1 Research on fatigue behavior evaluation and fatigue fracture mechanisms of cruciform welded joints
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6:9:40:2 Microstructural analysis of friction stir welded ferritic stainless steel
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6:9:40:3 Assessment of fatigue life and crack growth resistance of friction stir welded AISI 409M ferritic stainless steel joints
DOI:10.1016/j.msea.2012.01.071 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:12 AU: Lakshminarayanan, A. K.;Balasubramanian, V.;
6:9:40:4 Mechanical properties of SPCC low carbon steel joints prepared by metal inert gas welding
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6:9:40:5 Fatigue behaviors prediction method of welded joints based on soft computing methods
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6:9:40:6 Mechanical strength and failure characteristics of cast Mg-9%Al-1%Zn alloys produced by a heated-mold continuous casting process: Fatigue properties
DOI:10.1016/j.msea.2014.01.098 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Okayasu, Mitsuhiro;Takeuchi, Shuhei;
6:9:40:7 The Combined Effect of Shock Impacts and Operational Power Cycles on the Reliability of Handheld Device Component Board Interconnections
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6:9:40:8 Cyclic mechanical behaviour of Sn3.0Ag0.5Cu alloy under high temperature isothermal ageing
DOI:10.1016/j.msea.2011.03.001 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:4 AU: Dompierre, B.;Aubin, V.;Charkaluk, E.;Maia Filho, W. C.;Brizoux, M.;
6:9:40:9 Effect of substrate modulus on the fatigue behavior of adhesively bonded joints
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6:9:41:1 Effect of initial microstructures on hot forging of Ca-containing cast Mg alloys
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6:9:41:2 Mechanical properties of Al-Si-Cu alloys produced by the twin rolled continuous casting process
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6:9:41:3 Microstructure modification of Al-17%Si alloy by addition of Mg
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6:9:41:4 Influence of microstructural characteristics on mechanical properties of ADC12 aluminum alloy
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6:9:41:5 Microstructure evolution of thixomolding AZ91D magnesium alloy during heat treatment
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6:9:41:6 Relevance of instrumented nano-indentation for the assessment of the mechanical properties of eutectic crystals and alpha-Al grain in cast aluminum alloys
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6:9:41:7 Design and microstructural analysis of magnesium alloys for dynamical applications
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6:9:41:8 Effect of isothermal ageing on the semi-solid microstructure of rheoprocessed and partially remelted of A390 alloy with 10% Mg addition
DOI:10.1016/j.matchar.2010.04.012 JN:MATERIALS CHARACTERIZATION PY:2010 TC:2 AU: Hekmat-Ardakan, Alireza;Ajersch, Frank;
6:9:41:9 Effect of Initial Microstructure on Mg Scroll Forging under Warm Forming Condition
DOI:10.2320/matertrans.M2013274 JN:MATERIALS TRANSACTIONS PY:2014 TC:0 AU: Yoon, Jonghun;Lee, Junghwan;
6:9:42:1 Structure-property characterization of an age hardenable Al-Mg-Si alloy after straining and flash annealing
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6:9:42:2 Influence of natural aging on the precipitation hardening of an AlMgSi alloy
DOI:10.1016/j.msea.2010.05.003 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:19 AU: Cuniberti, A.;Tolley, A.;Castro Riglos, M. V.;Giovachini, R.;
6:9:42:3 The effect of prestrain and subsequent annealing on the mechanical behavior of AA5182-O
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6:9:42:4 Recovery kinetics in the presence of precipitates: The softening response of an Al-Mg-Sc alloy
DOI:10.1016/j.actamat.2009.08.062 JN:ACTA MATERIALIA PY:2010 TC:13 AU: Roumina, R.;Sinclair, C. W.;
6:9:42:5 Electrical resistometry study of an AlMgSi alloy under artificial aging
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6:9:42:6 Experimental and numerical study on effect of forming rate on AA5086 sheet formability
DOI:10.1016/j.msea.2009.09.013 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:10 AU: Zhang, Cunsheng;Leotoing, Lionel;Guines, Dominique;Ragneau, Eric;
6:9:42:7 Annealing response of AA5182 deformed in plane strain and equibiaxial strain paths
DOI:10.1080/14786435.2013.781696 JN:PHILOSOPHICAL MAGAZINE PY:2013 TC:0 AU: Mishra, Sushil Kumar;Tatiparti, Sankara Sarma V.;Tiwari, Shashank M.;Raghavan, Rajesh S.;Carsley, John E.;Li, Jingjing;
6:9:42:8 Modeling uniaxial, temperature and strain rate dependent behavior of Al-Mg alloys
DOI:10.1016/j.commatsci.2010.05.019 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2010 TC:10 AU: Toros, S.;Ozturk, F.;
6:9:42:9 A methodology for evaluating sheet formability combining the tensile test with the M-K model
DOI:10.1016/j.msea.2010.09.001 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:6 AU: Zhang, Cunsheng;Leotoing, Lionel;Zhao, Guoqun;Guines, Dominique;Ragneau, Eric;
6:9:42:10 Effect of ageing on the mechanical behaviour of a novel automotive grade Al-Mg-Si alloy
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6:9:43:1 Coherency loss of Al-3(Sc,Zr) precipitates by deformation of an Al-Zn-Mg alloy
DOI:10.1016/j.actamat.2012.04.011 JN:ACTA MATERIALIA PY:2012 TC:4 AU: Schoebel, M.;Pongratz, P.;Degischer, H. P.;
6:9:43:2 High resolution cone beam X-ray computed tomography of 3D-microstructures of cast Al-alloys
DOI:10.1016/j.matchar.2010.11.004 JN:MATERIALS CHARACTERIZATION PY:2011 TC:10 AU: Kastner, Johann;Harrer, Bernhard;Degischer, H. Peter;
6:9:43:3 Improved solution treatment for an as-rolled Al-Zn-Mg-Cu alloy. Part II. Microstructure and mechanical properties
DOI:10.1016/j.msea.2011.11.073 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:10 AU: Xu, D. K.;Rometsch, P. A.;Birbilis, N.;
6:9:43:4 Effect of recrystallisation on Al3Zr dispersoid behaviour in thick plates of aluminium alloy AA7150
DOI:10.1007/s10853-013-7856-x JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:2 AU: Zhang, Yong;Bettles, Colleen;Rometsch, Paul A.;
6:9:43:5 Improved solution treatment for an as-rolled Al-Zn-Mg-Cu alloy. Part I. Characterisation of constituent particles and overheating
DOI:10.1016/j.msea.2011.11.065 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:15 AU: Xu, D. K.;Rometsch, P. A.;Birbilis, N.;
6:9:43:6 Development of continuous cooling precipitation diagrams for aluminium alloys AA7150 and AA7020
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6:9:43:7 Effect of processing parameters on quench sensitivity of an AA7050 sheet
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6:9:43:8 Critical conditions for the occurrence of quench cracking in an Al-Zn-Mg-Cu alloy
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6:9:43:9 Non-destructive characterisation of polymers and Al-alloys by polychromatic cone-beam phase contrast tomography
DOI:10.1016/j.matchar.2011.12.004 JN:MATERIALS CHARACTERIZATION PY:2012 TC:5 AU: Kastner, Johann;Plank, Bernhard;Requena, Guillermo;
6:9:44:1 Effects of low-cycle fatigue on static mechanical properties, microstructures and fracture behavior of 304 stainless steel
DOI:10.1016/j.msea.2010.03.027 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:13 AU: Ye, Duyi;Xu, Yuandong;Xiao, Lei;Cha, Haibo;
6:9:44:2 A few details of the austenite to martensite phase transformation in 304 stainless steel powders under mechanical processing
DOI:10.1016/j.actamat.2010.12.007 JN:ACTA MATERIALIA PY:2011 TC:8 AU: Delogu, Francesco;
6:9:44:3 Magnetic properties of cyclically deformed austenite
DOI:10.1016/j.jmmm.2014.02.006 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2014 TC:4 AU: Das, Arpan;
6:9:44:4 Morphologies and characteristics of deformation induced martensite during low cycle fatigue behaviour of austenitic stainless steel
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6:9:44:5 Effect of pre-fatigue deformation on thickness-dependent tensile behavior of coarse-grained pure aluminum sheets
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6:9:44:6 Estimation of deformation induced martensite in austenitic stainless steels
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6:9:44:7 Stress induced creep cavity
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6:9:44:8 Martensite-Void Interaction
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6:9:44:9 Microstructural studies and remnant life assessment of eleven years service exposed reformer tube
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6:9:44:10 Dependence of the cyclic stress-strain curve on loading history and its interaction with fatigue of 304L stainless steel
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6:9:45:1 A combined approach to microstructure mapping of an Al-Li AA2199 friction stir weld
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6:9:45:2 Effect of Nd:YAG laser welding on microstructure and hardness of an Al-Li based alloy
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6:9:45:3 Effect of Rotation Speed to Welding Speed Ratio on Microstructure and Mechanical Behavior of Friction Stir Welded Aluminum-Lithium Alloy Joints
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6:9:45:4 Non-equilibrium solute partitioning in a laser re-melted Al-Li-Cu alloy
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6:9:45:5 Where Does the Lithium Go? A Study of the Precipitates in the Stir Zone of a Friction Stir Weld in a Li-containing 2xxx Series Al Alloy
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6:9:45:6 Microstructure and mechanical properties of newly developed aluminum-lithium alloy 2A97 welded by fiber laser
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6:9:46:1 Structural, elastic and electronic properties of Mg(Cu1-xZnx)(2) alloys calculated by first-principles
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6:9:46:2 Mechanical and thermal properties of Tb-2(MoO4)(3) crystals
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6:9:46:3 Effect of cohesive energy on thermal expansion behavior of T6 tempered 7A09 aluminum alloy
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6:9:46:4 Effect of microstructure on the quench sensitivity of AlZnMgCu alloys
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6:9:46:5 Quench sensitivity of 2219-T87 aluminum alloy plate
DOI:10.1016/j.msea.2010.04.060 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:6 AU: Tiryakioglu, Murat;Shuey, Ralph T.;
6:9:46:6 On the quench sensitivity of 7010 aluminum alloy forgings in the overaged condition
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6:9:47:1 Crystallographic features of the primary Al3Zr phase in as-cast Al-1.36 wt% Zr alloy
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6:9:47:2 Effect of a high magnetic field on the morphological and crystallographic features of primary Al6Mn phase formed during solidification process
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6:9:47:3 Influence of a high magnetic field on the precipitation behavior of the primary Al3Fe phase during the solidification of a hypereutectic Al-3.31 wt% Fe alloy
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6:9:47:4 Morphological and crystallographic characterization of solidified Al-3Ti-1B master alloy under a high magnetic field
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6:9:47:5 Abatement of segregation with the electro and static magnetic field during twin-roll casting of 7075 alloy sheet
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6:9:47:6 Control of iron nitride formation by a high magnetic field
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6:9:47:7 Kinetics of intermetallic compound layers and Cu dissolution at Sn1.5Cu/Cu interface under high magnetic field
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6:9:48:1 Identification of singular interfaces with Delta gs and its basis of the O-lattice
DOI:10.1007/s10853-011-5431-x JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:10 AU: Zhang, W. -Z.;Yang, X. -P.;
6:9:48:2 Composition and orientation relationships of constituent particles in 3xxx aluminum alloys
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6:9:48:3 A systematic investigation of the development of the orientation relationship in an fcc/bcc system
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6:9:48:4 Precipitation crystallography of plate-shaped Al-6(Mn,Fe) dispersoids in AA5182 alloy
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6:9:48:5 Analytical O-line solutions to phase transformation crystallography in fcc/bcc systems
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6:9:48:6 Dispersoid strengthening in AA3xxx alloys with varying Mn and Si content during annealing at low temperatures
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6:9:48:7 A two-dimensional analytical method for the transformation crystallography based on vector analysis
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6:9:49:1 Effect of graphite addition on mechanical behavior of Al6061/TiB2 hybrid composite using acoustic emission
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6:9:49:2 Development of TiB2 reinforced aluminum foundry alloy based in situ composites - Part I: An improved halide salt route to fabricate Al-5 wt%TiB2 master composite
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6:9:49:3 A study on microstructure and mechanical properties of Al 6061-TiB2 in-situ composites
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6:9:49:4 Pore Morphology of Porous Al-Ti Alloy Fabricated by Continuous Casting in Hydrogen Atmosphere
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6:9:49:5 Effect of Conditions of Unidirectional Solidification on Microstructure and Pore Morphology of Al-Mg-Si Alloys
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6:9:49:6 Solidification microstructure of SiC particulate reinforced Zn-Al composites under ultrasonic exposure
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6:9:49:7 Microstructural evolution of reinforcements in the remelting in situ TiC/Al-12Si composites treated by ultrasonic vibration
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6:9:49:8 Fatigue life of ablation-cast 6061-T6 components
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6:9:50:1 Effect of zirconium on the microstructure and mechanical properties of Zn-4%Al hypoeutectic alloy
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6:9:50:2 The effect of zirconium addition on microstructure and properties of ball milled and hot compacted powder of Al-12 wt% Zn-3 wt% Mg-1.5 wt% Cu alloy
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6:9:50:3 The effect of Zn on the microarc oxidation coating behavior of synthetic Al-Zn binary alloys
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6:9:50:4 The effects of Cu and cooling rate on the fraction and distribution of epsilon phase in Zn-4Al-(3-5.6)Cu alloys
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6:9:50:5 Effect of Ag addition to Zn-12Al alloy on kinetics of growth of intermediate phases on Cu substrate
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6:9:50:6 Effect of Cu addition on microstructure and corrosion behavior of spray-deposited Zn-30Al alloy
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6:9:50:7 Plasma electrolytic oxidation coating of synthetic Al-Mg binary alloys
DOI:10.1016/j.matchar.2011.10.010 JN:MATERIALS CHARACTERIZATION PY:2011 TC:13 AU: Tarakci, Mehmet;
6:9:51:1 Effects of scandium addition on iron-bearing phases properties of Al-7Si-0.6Mg alloys
DOI:10.1016/j.msea.2013.11.039 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:5 AU: Tzeng, Yu-Chih;Wu, Chih-Ting;Bor, Hui-Yun;Horng, Jain-Long;Tsai, Mu-Lin;Lee, Sheng-Long;
6:9:51:2 Grain refinement mechanism in an Al-Si-Mg alloy with scandium
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6:9:51:3 Thermodynamic aspects of grain growth restriction in multicomponent alloy solidification
DOI:10.1016/j.actamat.2011.06.026 JN:ACTA MATERIALIA PY:2011 TC:15 AU: Schmid-Fetzer, R.;Kozlov, A.;
6:9:51:4 Effects of iron on intermetallic compound formation in scandium modified Al-Si-Mg Alloys
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6:9:51:5 Effects of Sc content on the microstructure of As-Cast Al-7 wt.% Si alloys
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6:9:51:6 Electron beam processing of Al-2Sc alloy for enhanced precipitation hardening
DOI:10.1016/j.scriptamat.2010.03.039 JN:SCRIPTA MATERIALIA PY:2010 TC:3 AU: Tomus, Dacian;Qian, Ma;Brice, Craig A.;Muddle, Barry C.;
6:9:51:7 High strength aluminum cast alloy: A Sc modification of a standard Al-Si-Mg cast alloy
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6:9:52:1:1 Microstructure and Mechanical Properties of Friction Stir Welded Q345 Steel
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6:9:52:1:2 Microstructural Characterizations Following Friction Stir Welding of Dissimilar Alloys of Low- and High-Carbon Steels
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6:9:52:1:3 Microstructure Evaluation of Friction Stir Welded AZ91 with CaO Mg Alloy
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6:9:52:1:4 Microstructures and Mechanical Properties of Friction Stir Welded 2.25Cr-1Mo Steel
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6:9:52:2:1 Submerged Friction Stir Weld of Polyethylene Sheets
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6:9:52:2:2 Molecular dynamics study on the effect of molecular orientation on polymer welding
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6:9:52:2:3 Polymer-polymer adhesion with mobile promoters: Connector areal density dependence
DOI:10.1063/1.4775350 JN:AIP ADVANCES PY:2013 TC:1 AU: Zhang, Bin;
6:9:52:2:4 Effect of welding parameters on the heat affected zone and the mechanical properties of friction stir welded poly(ethylene-terephthalate-glycol)
DOI:10.1002/app.36440 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2012 TC:5 AU: Kiss, Z.;Czigany, T.;
6:9:52:3:1 Microstructures and properties of friction stir welded 409L stainless steel using a Si3N4 tool
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6:9:52:3:2 Mechanical Properties and Tool Life of Friction-Stir-Welded DP590 Using the Si3N4 Tool
DOI:10.2320/matertrans.M2014159 JN:MATERIALS TRANSACTIONS PY:2014 TC:0 AU: Kim, Young-Gon;Kim, In-Ju;Kim, Ji-Sun;Park, Jae-Hyun;
6:9:53:1 Directional solidification of Cu-20Sn alloy at low speed: From peritectic coupled growth to banding
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6:9:53:2 Discontinuous precipitation with metastable zeta phase in a Cu8.6% Sn alloy
DOI:10.1080/14786435.2012.738940 JN:PHILOSOPHICAL MAGAZINE PY:2013 TC:0 AU: Wang, Zeng-Jie;Konno, Toyohiko J.;
6:9:53:3 Comparative TEM study on as-cast ingot and nodular bainite of Cu-14.9%Sn alloy
DOI:10.1080/14786435.2013.853886 JN:PHILOSOPHICAL MAGAZINE PY:2014 TC:0 AU: Wang, Zeng-Jie;Konno, Toyohiko J.;
6:9:53:4 Competition of the primary and peritectic phases in hypoperitectic Cu-Sn alloys solidified at low speed in a diffusive regime
DOI:10.1016/j.actamat.2012.03.030 JN:ACTA MATERIALIA PY:2012 TC:5 AU: Valloton, J.;Wagniere, J. -D.;Rappaz, M.;
6:9:53:5 Modeling of peritectic coupled growth in Cu-Sn alloys
DOI:10.1016/j.actamat.2013.05.011 JN:ACTA MATERIALIA PY:2013 TC:0 AU: Valloton, J.;Dantzig, J. A.;Plapp, M.;Rappaz, M.;
6:9:53:6 Transmission Electron Microscopy Study of Precipitation Behaviors in Cu-15 mass%Sn Alloy Annealed at 593 K
DOI:10.2320/matertrans.MAW201206 JN:MATERIALS TRANSACTIONS PY:2012 TC:2 AU: Wang, Zeng-Jie;Konno, Toyohiko J.;
6:9:53:7 Concurrent emergence of Hume-Rothery phases in Cu-8.6% Sn alloy annealed at 573K
DOI:10.1080/14786435.2012.750767 JN:PHILOSOPHICAL MAGAZINE PY:2013 TC:1 AU: Wang, Zeng-Jie;Konno, Toyohiko J.;
6:9:54:1 Structural and mechanical properties of transition metals doped ZnMgO nanoparticles
DOI:10.1016/j.powtec.2012.10.045 JN:POWDER TECHNOLOGY PY:2013 TC:15 AU: Arda, L.;Ozturk, O.;Asikuzun, E.;Ataoglu, S.;
6:9:54:2 Structural and mechanical properties of ZnMgO nanoparticles
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6:9:54:3 Characteristic of copper matrix simultaneously reinforced with nano- and micro-sized Al2O3 particles
DOI:10.1016/j.matchar.2012.02.022 JN:MATERIALS CHARACTERIZATION PY:2012 TC:8 AU: Rajkovic, Viseslava;Bozic, Dusan;Devecerski, Aleksandar;Jovanovic, Milan T.;
6:9:54:4 In situ CrB2 and its effect on the mechanical properties of A390 alloy
DOI:10.1016/j.matchar.2013.10.017 JN:MATERIALS CHARACTERIZATION PY:2013 TC:2 AU: Cui, Xiaoli;Wu, Yuying;Gao, Tong;Li, Chong;Nie, Jinfeng;Liu, Xiangfa;
6:9:54:5 A Work Approach to Determine Vickers Indentation Fracture Toughness
DOI:10.1111/j.1551-2916.2010.04289.x JN:JOURNAL OF THE AMERICAN CERAMIC SOCIETY PY:2011 TC:5 AU: Feng, Yihui;Zhang, Taihua;Yang, Rong;
6:9:54:6 A correlation between Vickers Hardness indentation values and the Bond Work Index for the grinding of brittle minerals
DOI:10.1016/j.powtec.2012.02.056 JN:POWDER TECHNOLOGY PY:2012 TC:4 AU: Gent, Malcolm;Menendez, Mario;Torano, Javier;Torno, Susana;
6:9:54:7 The effect of processing techniques on microstructural and tribological properties of copper-based alloys
DOI:10.1016/j.apsusc.2013.05.039 JN:APPLIED SURFACE SCIENCE PY:2013 TC:1 AU: Vencl, Aleksandar;Rajkovic, Viseslava;Zivic, Fatima;Mitrovic, Slobodan;Cvijovic-Alagic, Ivana;Jovanovic, Milan T.;
6:9:54:8 Evaluation of mechanical hardness and fracture toughness of Co and Al co-doped ZnO
DOI:10.1016/j.msea.2012.08.028 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:2 AU: Siddheswaran, R.;Mangalaraja, R. V.;Avila, Ricardo E.;Manikandan, D.;Jeyanthi, C. Esther;Ananthakumar, S.;
6:9:55:1 The characteristics of in vitro biological activity of titanium surfaces anodically oxidized in chloride solutions
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6:9:55:2 The Morphostructural, Compositional, and Electrochemical Characterization of Electrodeposited Nanolayers on a New Ti-15Ta-5Zr Alloy
DOI:10.1155/2014/369034 JN:JOURNAL OF NANOMATERIALS PY:2014 TC:1 AU: Vasilescu, Cora;Drob, Silviu Iulian;Osiceanu, Petre;Anastasescu, Mihai;Calderon-Moreno, Jose M.;Drob, Paula;Vasilescu, Ecaterina;
6:9:55:3 Surface Hydrophilicity and Osteoconductivity of Anodized Ti in Aqueous Solutions with Various Solute Ions
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6:9:55:4 Biological Properties of Ti-Nb-Zr-O Nanostructures Grown on Ti35Nb5Zr Alloy
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6:9:55:5 Osteoconductivity of Anodized Titanium with Controlled Micron-Level Surface Roughness
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6:9:55:6 Formation of Amorphous TiO2 Film on Ti Using Anodizing in Concentrated H3PO4 Aqueous Solution and Its Osteoconductivity
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6:9:55:7 Characteristics and in vitro biological assessment of (Ti, O, N)/Ti composite coating formed on NiTi shape memory alloy
DOI:10.1016/j.tsf.2011.01.005 JN:THIN SOLID FILMS PY:2011 TC:3 AU: Sun, Tao;Wang, Lang-Ping;Wang, Min;Tong, Ho-Wang;Lu, William W.;
6:9:56:1 Effect of samarium (Sm) addition on the microstructures and mechanical properties of Al-7Si-0.7Mg alloys
DOI:10.1016/j.jallcom.2013.03.050 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:5 AU: Qiu Hongxu;Yan Hong;Hu Zhi;
6:9:56:2 Effects of Sr-modification, iron-based intermetallics and aging treatment on the impact toughness of 356 Al-Si-Mg alloy
DOI:10.1007/s10853-010-5181-1 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:15 AU: Elsebaie, O.;Samuel, A. M.;Samuel, F. H.;
6:9:56:3 The effect of mischmetal and heat treatment on the microstructure and tensile properties of A357 Al-Si casting alloy
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6:9:56:4 Multiple silicon nanotwins formed on the eutectic silicon particles in Al-Si alloys
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6:9:56:5 Modification of near-eutectic Al-Si alloys with rare earth element samarium
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6:9:56:6 Evaluation of the thixoformability of the A332 Alloy (Al-9.5 wt%Si-2.5 wt% Cu)
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6:9:56:7 The negative effect of solution treatment on the age hardening of A356 alloy
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6:9:56:8 Effects of samarium on microstructures and tensile properties of Mg-5Al-0.3Mn alloy
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6:9:57:1 Fabrication, characterization and wear corrosion testing of bioactive hydroxyapatite/nano-TiO2 composite coatings on anodic Ti-6Al-4V substrate for biomedical applications
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6:9:57:2 Influence of grain-boundary pre-precipitation and corrosion characteristics of inter-granular phases on corrosion behaviors of an Al-Zn-Mg-Cu alloy
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6:9:57:3 Effect of Sc and Zr additions on corrosion behaviour of Al-Zn-Mg-Cu alloys
DOI:10.1016/j.jallcom.2014.05.128 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:4 AU: Shi, Yunjia;Pan, Qinglin;Li, Mengjia;Huang, Xing;Li, Bo;
6:9:57:4 The characteristics of aluminum-scandium alloys processed by ECAP
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6:9:57:5 Electrochemical behaviour of TiO2 reinforced Al 7075 composite
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6:9:57:6 Surface characterization of anodized zirconium for biomedical applications
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6:9:57:7 In situ TEM investigation of microstructural behavior of superplastic Al-Mg-Sc alloy
DOI:10.1016/j.matchar.2012.12.005 JN:MATERIALS CHARACTERIZATION PY:2013 TC:2 AU: Dam, Karel;Lejcek, Pavel;Michalcova, Alena;
6:9:58:1 Effect of friction stir processing on fatigue behavior of an investment cast Al-7Si-0.6 Mg alloy
DOI:10.1016/j.actamat.2009.10.015 JN:ACTA MATERIALIA PY:2010 TC:23 AU: Jana, S.;Mishra, R. S.;Baumann, J. B.;Grant, G.;
6:9:58:2 Change of microstructure and cyclic deformation behavior along the thickness in a friction-stir-welded aluminum alloy
DOI:10.1016/j.scriptamat.2011.08.021 JN:SCRIPTA MATERIALIA PY:2012 TC:8 AU: Xu, W. F.;Liu, J. H.;Chen, D. L.;Luan, G. H.;Yao, J. S.;
6:9:58:3 Double-stage hardening behavior and fracture characteristics of a heavily alloyed Al-Si piston alloy during low-cycle fatigue loading
DOI:10.1016/j.msea.2012.10.073 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:1 AU: Zhang, Guohua;Zhang, Jianxin;Li, Bingchao;Cai, Wei;
6:9:58:4 Effect of friction stir processing on the tensile and fatigue behavior of a cast A206 alloy
DOI:10.1016/j.msea.2012.10.090 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:2 AU: Kapoor, R.;Kandasamy, K.;Mishra, R. S.;Baumann, J. A.;Grant, G.;
6:9:58:5 Probabilistic fatigue life prediction model for alloys with defects: Applied to A206
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6:9:58:6 Characterization of fracture and debonding of Si particles in AlSi alloys
DOI:10.1016/j.msea.2010.07.106 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:6 AU: Su, Jun Feng;Nie, Xueyuan;Stoilov, Vesselin;
6:9:59:1 Abnormal growth relationship between Si and other phases in undercooled Al-Cu-Si alloy
DOI:10.1016/j.jallcom.2012.07.068 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:2 AU: Ruan, Y.;Lu, X. Y.;
6:9:59:2 Experimental investigation and thermodynamic calculations of the Al-Cu-Sb phase diagram
DOI:10.1016/j.jallcom.2012.12.059 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:0 AU: Minic, Dusko;Premovic, Milena;Cosovic, Vladan;Manasijevic, Dragan;Zivkovic, Dragana;Kostov, Ana;Talijan, Nadezda;
6:9:59:3 New investigation of phase equilibria in the system Al-Cu-Si
DOI:10.1016/j.jallcom.2011.09.076 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:9 AU: Ponweiser, Norbert;Richter, Klaus W.;
6:9:59:4 Effects of strontium and heat treatment on the wear-corrosion property of Al-7Si-0.3Mg alloy
DOI:10.1016/j.matchemphys.2012.05.015 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:4 AU: Lee, Sheng-Long;Cheng, Yin-Chun;Chen, Wen-Chi;Lee, Cheng-Kuo;Tan, Ah-Hung;
6:9:59:5 Doe applied to microstructural and mechanical properties of Al-Si-Cu-Mg casting alloys for automotive applications
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6:9:59:6 New investigation of phase equilibria in the system Al-Cu-Si (vol 512, pg 252, 2012)
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6:9:60:1 On the mechanism of grain refinement in Al-Zr-Ti alloys
DOI:10.1016/j.jallcom.2010.09.046 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:15 AU: Atamanenko, T. V.;Eskin, D. G.;Sluiter, M.;Katgerman, L.;
6:9:60:2 Effect of vanadium on the microstructures and mechanical properties of an Al-Mg-Si-Cu-Cr-Ti alloy of 6XXX series
DOI:10.1016/j.jallcom.2013.03.239 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:10 AU: Meng, Yi;Cui, Jianzhong;Zhao, Zhihao;Zuo, Yubo;
6:9:60:3 Influence of ultrasonic melt treatment on the formation of primary intermetallics and related grain refinement in aluminum alloys
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6:9:60:4 Effect and kinetic mechanism of ultrasonic vibration on solidification of 7050 aluminum alloy
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6:9:60:5 Solidification of Pb-Sn alloys under ultrasonic field
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6:9:61:1 Atomic resolution imaging of precipitate transformation from cubic TaN to tetragonal CrTaN
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6:9:61:2 Creep behaviour and microstructural evolution in AISI 316LN+Nb steels at 650 degrees C
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6:9:61:3 New amorphous interface for precipitate nitrides in steel
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6:9:61:4 Stability of Z-phase and M6X in creep-resistant steels
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6:9:61:5 Creep behavior and microstructure evolution at 750 degrees C in a new precipitation-strengthened heat-resistant austenitic stainless steel
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6:9:61:6 Effects of heat treatment processes on microstructure and creep properties of a high nitrogen 15Cr-15Ni austenitic heat resistant stainless steel
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6:9:61:7 Research on damage evolution and damage model of 316LN steel during forging
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6:9:62:1 Microstructures and fatigue fracture behavior of an Al-Cu-Mg-Ag alloy with addition of rare earth Er
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6:9:62:2 Effects of rare earth Er additions on microstructure development and mechanical properties of die-cast ADC12 aluminum alloy
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6:9:62:3 Evolution of the semi-solid microstructure of ADC12 alloy in a modified SIMA process
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6:9:62:4 Enhanced mechanical properties in an Al-Cu-Mg-Ag alloy by duplex aging
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6:9:62:5 Effects of Gd and Y additions on microstructure and properties of Al-Zn-Mg-Cu-Zr alloys
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6:9:63:1 Precipitation strengthening of Al-B4C metal matrix composites alloyed with Sc and Zr
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6:9:63:2 The thermal stability of mechanical properties of Al-B4C composites alloyed with Sc and Zr at elevated temperatures
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6:9:63:3 Effect of titanium on microstructure and fluidity of Al-B4C composites
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6:9:63:4 Effect of Sc, Zr, and Ti on the interfacial reactions of the B4C/Al system
DOI:10.1007/s10853-010-4914-5 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:7 AU: Lai, J.;Zhang, Z.;Chen, X-G;
6:9:63:5 Effects of substituting ytterbium for scandium on the microstructure and age-hardening behaviour of Al-Sc alloy
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6:9:64:1 Nearest neighbour diagnostic statistics on the accuracy of APT solute cluster characterisation
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6:9:64:2 Theory of solute clustering in materials for atom probe
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6:9:64:3 Atom probe microscopy investigation of Mg site occupancy within delta ' precipitates in an Al-Mg-Li alloy
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6:9:64:4 Experimental and modelling assessment of precipitation kinetics in an Al-Li-Mg alloy
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6:9:64:5 Precipitation and austenite reversion behavior of a maraging steel produced by selective laser melting
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6:9:64:6 Studying nearest neighbor correlations by atom probe tomography (APT) in metallic glasses as exemplified for Fe40Ni40B20 glassy ribbons
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6:9:65:1 Severe wear of a near eutectic aluminium-silicon alloy
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6:9:65:2 Dry sliding wear behaviour of hypereutectic Al-Si piston alloys containing iron-rich intermetallics
DOI:10.1016/j.matchar.2010.07.001 JN:MATERIALS CHARACTERIZATION PY:2010 TC:9 AU: Abouei, V.;Shabestari, S. G.;Saghafian, H.;
6:9:65:3 Pressure and thermally induced stages of wear in dry sliding of a steel ball against an aluminium-silicon alloy flat
DOI:10.1016/j.wear.2010.01.008 JN:WEAR PY:2010 TC:8 AU: Mahato, Anirban;Perry, Thomas A.;Jayaram, Vikram;Biswas, S. K.;
6:9:65:4 Effects of complex modificating technique on microstructure and mechanical properties of hypereutectic Al-Si alloys
DOI:10.1007/s10853-011-6010-x JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:8 AU: Sun, Yujie;Wang, Qinglei;Geng, Haoran;
6:9:65:5 Dry sliding wear of aluminium-high silicon hypereutectic alloys
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6:9:65:6 Lubricated Tribology of a Eutectic Aluminium-Silicon Alloy in the Ultra-Mild Wear and Mild Wear Regimes for Long Sliding Times
DOI:10.1021/am100550m JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:1 AU: Mahato, Anirban;Sachdev, Anil;Biswas, S. K.;
6:9:66:1 3D surface topography study of the biofunctionalized nanocrystalline Ti-6Zr-4Nb/Ca-P
DOI:10.1016/j.matchar.2012.05.006 JN:MATERIALS CHARACTERIZATION PY:2012 TC:8 AU: Jakubowicz, J.;Adamek, G.;Jurczyk, M. U.;Jurczyk, M.;
6:9:66:2 Titanium-SiO2 nanocomposites and their scaffolds for dental applications
DOI:10.1016/j.matchar.2013.01.007 JN:MATERIALS CHARACTERIZATION PY:2013 TC:5 AU: Jurczyk, M. U.;Jurczyk, K.;Niespodziana, K.;Miklaszewski, A.;Jurczyk, M.;
6:9:66:3 Fabrication and properties of titanium-hydroxyapatite nanocomposites
DOI:10.1016/j.matchemphys.2010.03.076 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2010 TC:28 AU: Niespodziana, K.;Jurczyk, K.;Jakubowicz, J.;Jurczyk, M.;
6:9:66:4 Titanium-10 wt% 45S5 Bioglass nanocomposite for biomedical applications
DOI:10.1016/j.matchemphys.2011.10.020 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2011 TC:5 AU: Jurczyk, K.;Jurczyk, M. U.;Niespodziana, K.;Jakubowicz, J.;Jurczyk, M.;
6:9:66:5 Microstructure of the mechanically alloyed and electrochemically etched Ti-6Al-4V and Ti-15Zr-4Nb nanocrystalline alloys
DOI:10.1016/j.matchemphys.2010.08.057 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2010 TC:9 AU: Adamek, G.;Jakubowicz, J.;
6:9:67:1 Interphase energies of hcp precipitates in fcc metals: A density-functional theory study in Al-Ag
DOI:10.1103/PhysRevB.81.014113 JN:PHYSICAL REVIEW B PY:2010 TC:4 AU: Finkenstadt, Daniel;Johnson, D. D.;
6:9:67:2 On chemical order and interfacial segregation in gamma ' (AlAg2) precipitates
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6:9:67:3 Nucleation and growth of the gamma '(AlAg2) precipitate in Al-Ag(-Cu) alloys
DOI:10.1016/j.actamat.2011.08.001 JN:ACTA MATERIALIA PY:2011 TC:3 AU: Rosalie, Julian M.;Bourgeois, Laure;Muddle, Barrington C.;
6:9:67:4 First-principles calculations on the crystal, electronic structures and elastic properties of Ag-rich gamma ' phase approximates in Al-Ag alloys
DOI:10.1016/j.commatsci.2011.08.006 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:0 AU: Pang, Mingjun;Zhan, Yongzhong;Yang, Wenchao;Li, Chunliu;Wang, Haizhou;Jiang, Wenping;Du, Yong;
6:9:68:1 Experimental investigation and thermodynamic calculation of the Al-Si-Ti system in Al-rich corner
DOI:10.1016/j.jallcom.2014.02.107 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:3 AU: Luo, Qun;Li, Qian;Zhang, Jie-Yu;Chen, Shuang-Lin;Chou, Kuo-Chih;
6:9:68:2 Influence of Si and Ti contents on the microstructure, microhardness and performance of TiAlSi intermetallics in Al-Si-Ti alloys
DOI:10.1016/j.jallcom.2011.05.032 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:7 AU: Gao, Tong;Li, Pengting;Li, Yunguo;Liu, Xiangfa;
6:9:68:3 Compositions and morphologies of TiAlSi intermetallics in different diffusion couples
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6:9:68:4 The evolution of AlTiSi intermetallic phases in Ti-added A356 Al-Si alloy
DOI:10.1016/j.jallcom.2012.04.087 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:6 AU: Ghomashchi, Reza;
6:9:69:1 Effects of Cu Addition on Behavior of Nanoclusters during Multi-Step Aging in Al-Mg-Si Alloys
DOI:10.2320/matertrans.L-MZ201121 JN:MATERIALS TRANSACTIONS PY:2011 TC:11 AU: Kim, JaeHwang;Kobayashi, Equo;Sato, Tatsuo;
6:9:69:2 Formation Behavior of Nanoclusters in Al-Mg-Si Alloys with Different Mg and Si Concentration
DOI:10.2320/matertrans.MBW201208 JN:MATERIALS TRANSACTIONS PY:2013 TC:5 AU: Kim, SeongNyeong;Kim, JaeHwang;Tezuka, Hiroyasu;Kobayashi, Equo;Sato, Tatsuo;
6:9:69:3 Influence of Mg/Si Ratio on Nanocluster Formation in Al-Mg-Si Alloys with Constant Mg plus Si Concentration
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6:9:69:4 Effects of Natural Aging on Bake Hardening Behavior of Al-Mg-Si Alloys with Multi-Step Aging Process
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6:9:70:1 Characterization of the microstructure evolution of a semi-solid metal slurry during the early stages
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6:9:70:2 Precipitation hardening of A356 Al alloy produced by gas induced semi-solid process
DOI:10.1016/j.msea.2011.11.026 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:5 AU: Wisutmethangoon, S.;Thongjan, S.;Mahathaninwong, N.;Plookphol, T.;Wannasin, J.;
6:9:70:3 Characterization of flow behavior of semi-solid slurries containing low solid fractions in high-pressure die casting
DOI:10.1016/j.actamat.2013.07.010 JN:ACTA MATERIALIA PY:2013 TC:1 AU: Janudom, S.;Wannasin, J.;Basem, J.;Wisutmethangoon, S.;
6:9:70:4 Grain refinement behavior of an aluminum alloy by inoculation and dynamic nucleation
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6:9:70:5 Thixoforging of Al-3.8% Si alloy recycled from aluminum cans
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6:9:71:1 Atom probe tomography of nanoscale microstructures within precipitate free zones in Al-Zn-Mg(-Ag) alloys
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6:9:71:2 Improvement of strength and ductility of an Al-Zn-Mg alloy by controlling grain size and precipitate microstructure with Mn and Ag addition
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6:9:71:3 Effects of Microalloying Tin and Combined Addition of Silver and Tin on the Formation of Precipitate Free Zones and Mechanical Properties in Al-Zn-Mg Alloys
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6:9:71:4 Concurrent formation of two different type precipitation-free zones during the initial stage of homogenization
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6:9:72:1 Flow stress model for IN718 accounting for evolution of strengthening precipitates during thermal treatment
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6:9:72:2 Precipitate evolution in the early stages of ageing in Inconel 718 investigated using small-angle x-ray scattering
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6:9:72:3 Precipitation and clustering in the early stages of ageing in Inconel 718
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6:9:73:1 Impact of pre-ageing on age hardening response of twin-belt cast AlMg1SiCu sheet
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6:9:73:2 On the age-hardening of an Al-Zn-Mg-Cu alloy: A vacancy perspective
DOI:10.1016/j.scriptamat.2010.08.054 JN:SCRIPTA MATERIALIA PY:2011 TC:14 AU: Liu, M.;Klobes, B.;Maier, K.;
6:9:73:3 Heat treatment of twin-belt cast EN AW 7075 alloy
DOI:10.1016/j.matchar.2011.11.001 JN:MATERIALS CHARACTERIZATION PY:2012 TC:1 AU: Birol, Yucel;
6:9:73:4 Variation of solute distributions during deformation and bake hardening process and their effect on bake hardening phenomenon in ultra-low carbon bake hardening steels
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6:9:73:5 Effect of casting parameters on the freezing point position of the 304 stainless steel during twin-roll strip casting process by numerical simulation
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6:9:74:1 Grain structure and texture evolution during friction stir welding of thin 6016 aluminum alloy sheets
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6:9:74:2 Microstructure, crystallographic texture and mechanical properties of friction stir welded AA2017A
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6:9:74:3 Through-thickness crystallographic texture of stationary shoulder friction stir welded aluminium
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6:9:75:1 Diffusional solidification phenomena in clad aluminum automotive braze sheet
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6:9:75:2 Sagging mechanisms in the brazing of aluminum heat exchangers
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6:9:75:3 Effects of Ti Addition into Core Alloy on Forming and Brazing Characteristics of 4343/3003/4343 Aluminum Alloy Clad Sheets
DOI:10.2320/matertrans.M2013213 JN:MATERIALS TRANSACTIONS PY:2013 TC:0 AU: Shin, Jesik;Kim, Kitae;Ko, Sehyun;
6:9:76:1 Caliber Rolling Process and Mechanical Properties of High Fe-Containing Al-Mg-Si Alloys
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6:9:76:2 Semi-Solid Microstructure Control of Wrought Al-Mg-Si Based Alloys with Fe and Mn Additions in Deformation-Semi-Solid-Forming Process
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6:10:1:1 Microstructure and texture development during friction stir processing of Al-Mg alloy sheets with TiO2 nanoparticles
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6:10:1:2 Particle-reinforced aluminum matrix composites produced from powder mixtures via friction stir processing
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6:10:1:3 Wear characteristics of surface-hybrid-MMCs layer fabricated on aluminum plate by friction stir processing
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6:10:1:4 Microstructure and sliding wear behavior of AA6360/(TiC+B4C) hybrid surface composite layer synthesized by friction stir processing on aluminum substrate
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6:10:1:5 Reactive mechanism and mechanical properties of in situ composites fabricated from an Al-TiO2 system by friction stir processing
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6:10:1:6 In-situ formation of Al2O3 nanoparticles during friction stir processing of Al-SiO2 composite
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6:10:1:7 In situ Al3Ti and Al2O3 nanoparticles reinforced Al composites produced by friction stir processing in an Al-TiO2 system
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6:10:1:8 Effect of friction stir processing (FSP) on microstructure and properties of Al-TiC in situ composite
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6:10:1:9 Effect of friction stir processing on the microstructure and mechanical properties of Cu-TiC composite
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6:10:1:10 Al-Ni intermetallic composites produced in situ by friction stir processing
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6:10:1:11 The microstructure and mechanical properties of an Al-CuO in-situ composite produced using friction stir processing
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6:10:1:12 Microstructural evolution and mechanical properties of ultrafine grained Al3Ti/Al-5.5Cu composites produced via hot pressing and subsequent friction stir processing
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6:10:1:13 A novel approach for development of surface nanocomposite by friction stir processing
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6:10:1:29 Effect of the TiO2 nanoparticle size on the decomposition behaviors in aluminum matrix composites
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6:10:1:30 Microstructure and mechanical property of nano-SiCp reinforced high strength Mg bulk composites produced by friction stir processing
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6:10:2:8 Thermomechanical properties of copper-carbon nanofibre composites prepared by spark plasma sintering and hot pressing
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6:10:2:13 Effect of chromium carbide coating on thermal properties of short graphite fiber/Al composites
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6:10:2:21 Enhancement of the thermal properties of silver-diamond composites with chromium carbide coating
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6:10:2:26 Alloy development for highly conductive thermal management materials using copper-diamond composites fabricated by field assisted sintering technology
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6:10:2:27 Thermal conductivity improvement of copper-carbon fiber composite by addition of an insulator: calcium hydroxide
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6:10:2:28 Effect of titanium on copper-titanium/carbon nanofibre composite materials
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6:10:2:30 Effects of Ti addition on thermal properties of diamond/Ag-Ti composites fabricated by liquid sintering
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6:10:2:31 Processing of diamond particle reinforced silicon(Ti) matrix composites by in-situ reactive sintering and their thermal properties
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6:10:2:32 Thermal conductivity and interfacial conductance of AlN particle reinforced metal matrix composites
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6:10:2:33 Influence of processing route on electrical and thermal conductivity of Al/SiC composites with bimodal particle distribution
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6:10:3:1 Fabrication and effective thermal conductivity of multi-walled carbon nanotubes reinforced Cu matrix composites for heat sink applications
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6:10:3:3 Investigation of carbon nanotube reinforced aluminum matrix composite materials
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6:10:3:5 Engineering Strong Intergraphene Shear Resistance in Multi-walled Carbon Nanotubes and Dramatic Tensile Improvements
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6:10:3:6 Dual-nanoparticulate-reinforced aluminum matrix composite materials
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6:10:3:7 Effect of size and shape of metal particles to improve hardness and electrical properties of carbon nanotube reinforced copper and copper alloy composites
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6:10:3:8 Hot extruded carbon nanotube reinforced aluminum matrix composite materials
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6:10:3:9 Epitaxial growth of chromium carbide nanostructures on multiwalled carbon nanotubes (MWCNTs) in MWCNT-copper composites
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6:10:3:10 Novel Cu-Cr alloy matrix CNT composites with enhanced thermal conductivity
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6:10:3:11 Effects of carbon nanotube content and annealing temperature on the hardness of CNT reinforced aluminum nanocomposites processed by the high pressure torsion technique
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6:10:3:12 Influence of embedded-carbon nanotubes on the thermal properties of copper matrix nanocomposites processed by molecular-level mixing
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6:10:3:13 On the thermal expansion of CNT/Cu composites for electronic packaging applications
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6:10:3:14 On thermal and electrical properties of multiwalled carbon nanotubes/copper matrix nanocomposites
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6:10:3:15 Effect of milling time on dual-nanoparticulate-reinforced aluminum alloy matrix composite materials
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6:10:3:16 Effective load transfer by a chromium carbide nanostructure in a multi-walled carbon nanotube/copper matrix composite
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6:10:3:17 Strength versus ductility in carbon nanotube reinforced nickel matrix nanocomposites
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6:10:4:7 Exchange bias and its training effect in Ni/NiO nanocomposites
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6:10:5:15 In Situ Synthesized Al4C3 Nanorods with Excellent Strengthening Effect in Aluminum Matrix Composites
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6:10:5:17 Mechanical properties and interfacial analysis of aluminum matrix composites reinforced by carbon nanotubes with diverse structures
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6:10:6:1 Process conditions optimization in Al-Cu alloy matrix composites
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6:10:6:2 Optimization of process conditions in casting aluminum matrix composites via interconnection of artificial neurons and progressive solutions
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6:10:6:3 Nano-sized silicon carbide reinforced commercial casting aluminum alloy matrix: Experimental and novel modeling evaluation
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6:10:6:4 Study on microstructure and abrasive wear behavior of sintered Al matrix composites
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6:10:6:5 Computational modeling of cast aluminum 2024 alloy matrix composites: Adapting the classical algorithms for optimal results in finding multiple optima
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6:10:6:6 Efficient optimum solution for high strength Al alloys matrix composites
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6:10:6:7 The synthesis of the particulates Al matrix composites by the compocasting method
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6:10:6:8 Fabrication of AMCs by spray forming: Setting of cognition and social parameters to accelerate the convergence in optimization of spray forming process
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6:10:6:9 Tribological behaviour of semisolid-semisolid compocast Al-Si matrix composites reinforced with TiB2 coated B4C particulates
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6:10:6:10 Modeling of the wear behavior in A356-B4C composites
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6:10:6:11 Development of the principle of simulated natural evolution in searching for a more superior solution: Proper selection of processing parameters in AMCs
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6:10:6:12 Fabrication and mechanical properties of Al2O3-Si3N4/ZrO2-Al2O3 laminated composites
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6:10:6:13 Modeling and Pareto optimization of gas cyclone separator performance using RBF type artificial neural networks and genetic algorithms
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6:10:6:14 Elaboration of an operative and efficacious optimization route to ameliorate the mechanical and tribological properties of implants
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6:10:6:15 Prediction of wear properties in A356 matrix composite reinforced with B4C particulates
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6:10:6:16 Structural properties of the oxide coatings prepared by electrolyte plasma process on the Al 2021 alloy in various nitrogen solutions
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6:10:6:17 Finite element modelling of crack propagation in metal powder compaction using Mohr-Coulomb and Elliptical Cap yield criteria
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6:10:6:18 The influence of porosity and hot isostatic pressing treatment on wear characteristics of cast and P/M aluminum alloys
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6:10:7:1 Evaluation of strengthening behavior of Al-AlN nanostructured composite by the use of modified Heckel model and response surface methodology
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6:10:7:2 Synthesis of Al/SiC nanocomposite and evaluation of its mechanical properties using pulse echo overlap method
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6:10:7:3 Fabrication of silicon carbide reinforced aluminum matrix nanocomposites and characterization of its mechanical properties using non-destructive technique
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6:10:7:4 Investigation of planetary milling for nano-silicon carbide reinforced aluminium metal matrix composites
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6:10:7:5 Fabrication and properties of mechanically milled alumina/aluminum nanocomposites
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6:10:7:6 Synthesis of nanocomposites by mechanical alloying
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6:10:7:7 Processing and surface properties of Al-AlN composites produced from nanostructured milled powders
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6:10:7:8 Structural and morphological evaluation of Al-5 vol.%SiC nanocomposite powder produced by mechanical milling
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6:10:7:9 Effects of SiC volume fraction and aluminum particulate size on interfacial reactions in SiC nanoparticulate reinforced aluminum matrix composites
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6:10:7:10 Nano-silicon carbide reinforced aluminium produced by high-energy milling and hot consolidation
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6:10:7:11 Microstructure and mechanical properties of 6061 Al alloy based composites with SiC nanoparticles
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6:10:7:12 Properties and densification of nanocrystalline MoSi2-Si3N4 composite from mechanically alloyed powders by pulsed current-activated sintering
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6:10:7:13 Fabrication of SiC nanoparticulates reinforced Al matrix composites by combining pressureless infiltration with ball-milling and cold-pressing technology
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6:10:7:14 Effect of reinforcement particle size on microstructure and mechanical properties of AlZnMgCu/AlN nano-composites produced using mechanical alloying
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6:10:7:15 Influence of MoSi2 content on the microstructure and properties of MoSi2-RSiC composites
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6:10:7:16 Lubrication of pharmaceutical powder/wall interfaces and electrostatic effects
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6:10:7:17 Nanoindentation studies of ex situ AlN/Al metal matrix nanocomposites
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6:10:7:18 Stress distribution in lubricated vs unlubricated pharmaceutical powder columns and their container walls during translational and torsional shear testing
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6:10:8:1 An investigation on flowability and compressibility of AA 6061(100-x)-x wt.% TiO2 micro and nanocomposite powder prepared by blending and mechanical alloying
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6:10:8:2 Synthesis, structure and sinterability of 6061 AA(100-x)-x wt.% TiO2 composites prepared by high-energy ball milling
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6:10:8:3 Analysis of the compaction behavior of Al-SiC nanocomposites using linear and non-linear compaction equations
DOI:10.1016/j.apt.2009.12.003 JN:ADVANCED POWDER TECHNOLOGY PY:2010 TC:29 AU: Hafizpour, H. R.;Simchi, A.;Parvizi, S.;
6:10:8:4 Fabrication and consolidation behavior of Al 6061 nanocomposite powders reinforced by multi-walled carbon nanotubes
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6:10:8:5 Influence of particle size of the dispersoid on compressibility and sinterability of TiO2 dispersed Al 7075 alloy composites prepared by mechanical milling
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6:10:8:6 Evaluation of compaction equations and prediction using adaptive neuro-fuzzy inference system on compressibility behavior of AA 6061(100-x)-x wt.% TiO2 nanocomposites prepared by mechanical alloying
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6:10:8:7 Effect of strengthening mechanisms on cold workability and instantaneous strain hardening behavior during grain refinement of AA 6061-10 wt.% TiO2 composite prepared by mechanical alloying
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6:10:8:8 Effect of SiC content on the processing, compaction behavior, and properties of Al6061/SiC/Gr hybrid composites
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6:10:8:9 Effect of the SiC particle size on the dry sliding wear behavior of SiC and SiC-Gr-reinforced Al6061 composites
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6:10:8:10 Microstructure, cold workability and strain hardening behavior of trimodaled AA 6061-TiO2 nanocomposite prepared by mechanical alloying
DOI:10.1016/j.msea.2011.05.056 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:3 AU: Sivasankaran, S.;Sivaprasad, K.;Narayanasamy, R.;
6:10:8:11 Densification of Al powder and Al-Cu matrix composite (reinforced with 15% Saffil short fibres) during axial cold compaction
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6:10:8:12 Effect of nanosized SiC particles addition to CP Al and Al-Mg powders on their compaction behavior
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6:10:8:13 Consolidation behavior of mechanically alloyed aluminum based nanocomposites reinforced with nanoscale Y2O3/Al2O3 particles
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6:10:8:14 Fabrication of Al/Al2O3 composites by in-situ powder metallurgy (IPM)
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6:10:8:15 Effects of lubricant on green strength, compressibility and ejection of parts in die compaction process
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6:10:8:16 Densification and deformation studies on powder metallurgy Al-TiO2-Gr composite during cold upsetting
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6:10:8:17 Effect of nano-size Al2O3 reinforcement on the mechanical behavior of synthesis 7075 aluminum alloy composites by mechanical alloying
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6:10:8:18 Development of Intermetallic Compounds Reinforced Al Alloy Composites Using Reaction of Porous Nickel and Aluminum
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6:10:8:19 Investigation of the impact of insoluble diluents on the compression and release properties of matrix based sustained release tablets
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6:10:9:1:1 Effect of Milling on Properties and Consolidation of TiO2 by High-Frequency Induction Heated Sintering
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6:10:9:1:2 Mechanical properties of (W, Ti)C and (W, Ti)C-NiAl3 cermet consolidated by the high-frequency induction-heating method
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6:10:9:1:3 Consolidation of binderless nanostructured titanium carbide by high-frequency induction heated sintering
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6:10:9:1:4 Effect of FeAl3 on properties of (W,Ti)C-FeAl3 hard materials consolidated by a pulsed current activated sintering method
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6:10:9:1:5 Rapid Synthesis and Consolidation of a Nanostructured Mg0.6Al0.8Ti1.6O5 Compound by Pulsed Current Activated Heating
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6:10:9:1:6 Mechanochemical Synthesis and Rapid Consolidation of Nanocrystalline Al2O3-2.25Co Composite by High-Frequency Induction Heating and Its Mechanical Properties
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6:10:9:1:7 Mechanochemical Synthesis and Rapid Consolidation of Nanostructured (Ti,Al,V)C by Pulsed Current Activated Heating and Its Mechanical Properties
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6:10:9:1:8 Mechanical properties and consolidation of binderless nanostructured (Ti,Cr)C from mechanochemically-synthesized powder by high-frequency induction heating sintering
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6:10:9:1:9 Simultaneously rapid synthesis and consolidation of nanostructured Mg0.3Al1.4Ti1.3O5 by high-frequency induction heating
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6:10:9:1:10 Enhanced mechanical properties of nanostructured WSi2-NbSi2 composite synthesized and sintered by high-frequency induction heating
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6:10:9:1:11 Pulsed Current Activated Synthesis and Consolidation of Nanostructured MoSi2-NbSi2 Composite and Its Mechanical Properties
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6:10:9:1:12 Rapid consolidation of nanostructured TaSi2 from mechanochemically synthesized powder by high frequency induction heated sintering
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6:10:9:1:13 Simultaneous synthesis and consolidation of Mg4Al2Ti9O25 by pulsed current activated heating and its mechanical properties
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6:10:9:2:1 Effect of Fe2O3 on properties and densification of 8YSZ by pulsed current activated sintering
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6:10:9:2:2 Rapid Consolidation of TiN-Cr2N-(Ti,Cr)N Nanoparticles Using Pulsed Current Activated Sintering and the Mechanical Properties of Sintered Product
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6:10:9:2:3 Bulk (Ti,Cr)N consolidated by pulsed current activated sintering and its mechanical properties
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6:10:9:2:4 High-frequency induction heated sintering of High-energy ball milled TiC0.5N0.5 powders and mechanical properties of the sintered products
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6:10:9:2:5 Properties of Nanostructured TiCN and TiCN-TiAl Hard Materials Sintered by the High-Frequency Induction-Heating
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6:10:9:2:6 Electrical Wire Explosion of Cr-Coated Ti Wire in N-2 Gas
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6:10:9:2:7 Preparation of Titanium-Chromium Nitride by Gas Nitriding of the Explosion Products of Cr-Coated Ti Wire
DOI:10.2320/matertrans.M2010284 JN:MATERIALS TRANSACTIONS PY:2011 TC:2 AU: Lee, Sujeong;Kim, Wonbaek;Suh, Chang-yul;Cho, Sung-wook;Ryu, Taegong;Park, Je-shin;Shon, In-Jin;
6:10:9:2:8 Properties and Rapid Consolidation of Nanostructured TiC and TiC-TiAl Hard Materials by High-Frequency Induction Heating
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6:10:9:3:1 Enhanced mechanical properties of a nanostructured Mg2Al4Si5O18-MgAl2O4 composite
DOI:10.1016/j.msea.2014.03.095 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Shon, In-Jin;Kang, Hyun-Su;Doh, Jung-Mann;Yoon, Jin-Kook;
6:10:9:3:2 Simultaneous synthesis and rapid consolidation of a nanocrystalline Mg0.6Al0.8Ti1.6O5 by high-frequency induction heating and its mechanical properties
DOI:10.1016/j.materresbull.2013.09.042 JN:MATERIALS RESEARCH BULLETIN PY:2014 TC:3 AU: Shon, In-Jin;Du, Song-Lee;Kang, Hyun-Su;Doh, Jung-Mann;Yoon, Jin-Kook;
6:10:9:3:3 Mechanical properties of nanostructured TiN-AlN composites rapidly consolidated by pulsed current activated sintering
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6:10:9:3:4 Simultaneous synthesis and consolidation of nanostructured WSi2-TaSi2 composite and its mechanical properties
DOI:10.1016/j.materresbull.2014.06.008 JN:MATERIALS RESEARCH BULLETIN PY:2014 TC:0 AU: Kim, Dong-Ki;Shon, In-Jin;
6:10:9:3:5 The effect of ball milling on the mechanical properties of TiN consolidated by pulsed current activated sintering
DOI:10.1016/j.jallcom.2013.05.060 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:4 AU: Kim, Wonbaek;Roh, Ki-Min;Lim, Jae-Won;Oh, Hyun-Su;Shon, In-Jin;
6:10:10:1 Microstructural and morphological evaluation of MCrAlY/YSZ composite produced by mechanical alloying method
DOI:10.1016/j.jallcom.2012.01.161 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:4 AU: Tahari, M.;Shamanian, M.;Salehi, M.;
6:10:10:2 Microstructure and properties of AA7075/Al-SiC composites fabricated using powder metallurgy and hot pressing
DOI:10.1016/j.powtec.2014.08.016 JN:POWDER TECHNOLOGY PY:2014 TC:8 AU: Canakci, Aykut;Varol, Temel;
6:10:10:3 Modeling the influence of a process control agent on the properties of metal matrix composite powders using artificial neural networks
DOI:10.1016/j.powtec.2012.04.045 JN:POWDER TECHNOLOGY PY:2012 TC:26 AU: Canakci, Aykut;Ozsahin, Sukru;Varol, Temel;
6:10:10:4 Effect of particle size and ratio of B4C reinforcement on properties and morphology of nanocrystalline Al2024-B4C composite powders
DOI:10.1016/j.powtec.2013.05.048 JN:POWDER TECHNOLOGY PY:2013 TC:16 AU: Varol, Temel;Canakci, Aykut;
6:10:10:5 Effect of ethanol on the formation and properties of a Cu-NbC composite
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6:10:10:6 Role of nano-size reinforcement and milling on the synthesis of nano-crystalline aluminium alloy composites by mechanical alloying
DOI:10.1016/j.jallcom.2010.06.139 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:18 AU: Ahamed, Hafeez;Senthilkumar, V.;
6:10:10:7 Fabrication of Al2O3-20 vol.% Al nanocomposite powders using high energy milling and their sinterability
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6:10:10:8 High energy ball milling of titania and titania-ceria powder mixtures
DOI:10.1016/j.powtec.2014.01.075 JN:POWDER TECHNOLOGY PY:2014 TC:2 AU: Furlani, Erika;Aneggi, Eleonora;de Leitenburg, Carla;Maschio, Stefano;
6:10:10:9 Characterization and formation mechanism of nanocrystalline W-Al alloy prepared by mechanical alloying
DOI:10.1016/j.jallcom.2009.09.056 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:7 AU: Rafiei, Mahdi;Khademzadeh, Saeed;Parvin, Nader;
6:10:10:10 Mechanical alloying synthesis and soldering microstructures of nanocrystalline Sn-3.5Ag-0.7Cu alloy powders
DOI:10.1016/j.jallcom.2010.03.087 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:5 AU: Tang, Wenming;Zhang, Hong;Wu, Yucheng;Zheng, Zhixiang;
6:10:10:11 Effect of passivation and precipitation hardening on processing and mechanical properties of B4C-Al composites
DOI:10.1016/j.ceramint.2011.05.007 JN:CERAMICS INTERNATIONAL PY:2011 TC:5 AU: Tuncer, Nihan;Tasdelen, Basak;Arslan, Gursoy;
6:10:10:12 Pin-on-disc characterization of 2xxx and 6xxx aluminium alloys aged by precipitation age hardening
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6:10:10:13 The microstructure and microhardness of W-5wt% Cr alloy fabricated by spark plasma sintering
DOI:10.1016/j.jallcom.2013.10.010 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:0 AU: Zhou, Y.;Sun, Q. X.;Xie, Z. M.;Liu, R.;Wang, X. P.;Fang, Q. F.;Liu, C. S.;
6:10:10:14 Effect of die design on the welding quality during solid state recycling of AA6060 chips by hot extrusion
DOI:10.1016/j.msea.2013.03.010 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:7 AU: Gueley, V.;Guezel, A.;Jaeger, A.;Ben Khalifa, N.;Tekkaya, A. E.;Misiolek, W. Z.;
6:10:10:15 A study of jet-milling and spray-drying process for the physicochemical and aerodynamic dispersion properties of amiloride HCl
DOI:10.1016/j.powtec.2014.04.066 JN:POWDER TECHNOLOGY PY:2014 TC:0 AU: Djokic, Marija;Kachrimanis, Kyriakos;Solomun, Ljiljana;Djuris, Jelena;Vasiljevic, Dragana;Ibric, Svetlana;
6:10:11:1 Synergetic effect of graphene nanoplatelets (GNPs) and multi-walled carbon nanotube (MW-CNTs) on mechanical properties of pure magnesium
DOI:10.1016/j.jallcom.2014.03.038 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:10 AU: Rashad, Muhammad;Pan, Fusheng;Tang, Aitao;Asif, Muhammad;Aamir, Muhammad;
6:10:11:2 Microstructural and mechanical analysis of carbon nanotube reinforced magnesium alloy powder composites
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6:10:11:3 Potential and challenges of metal-matrix-composites reinforced with carbon nanofibers and carbon nanotubes
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6:10:11:4 Interfacial analysis between Mg matrix and carbon nanotubes in Mg-6 wt.% Al alloy matrix composites reinforced with carbon nanotubes
DOI:10.1016/j.compscitech.2011.01.015 JN:COMPOSITES SCIENCE AND TECHNOLOGY PY:2011 TC:19 AU: Fukuda, Hiroyuki;Kondoh, Katsuyoshi;Umeda, Junko;Fugetsu, Bunshi;
6:10:11:5 In situ synthesis of CNTs in Mg powder at low temperature for fabricating reinforced Mg composites
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6:10:11:6 Fabrication of magnesium based composites reinforced with carbon nanotubes having superior mechanical properties
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6:10:11:8 Quantitative evaluation of initial galvanic corrosion behavior of CNTs reinforced Mg-Al alloy
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6:10:11:9 Study of Mg Powder as Catalyst Carrier for the Carbon Nanotube Growth by CVD
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6:10:11:10 The effects of ball milling intensity on morphology of multiwall carbon nanotubes
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6:10:11:11 Electroless composite coating of Ni-P-carbon nanotubes on magnesium powder
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6:10:11:12 Conducting polymer functionalized multi-walled carbon nanotubes nanocomposites: Optical properties and morphological characteristics
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6:10:12:1 Effect of high volume fraction of B4C particles on the microstructure and mechanical properties of aluminum alloy based composites
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6:10:12:2 Synthesis and consolidation via spark plasma sintering of nanostructured Al-5356/B4C composite
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6:10:12:3 Effect of plasma activated sintering parameters on microstructure and mechanical properties of Al-7075/B4C composites
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6:10:12:4 Optimizing the strength and ductility of spark plasma sintered Al 2024 alloy by conventional thermo-mechanical treatment
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6:10:12:5 Consolidation of cryomilled Al-Si using spark plasma sintering
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6:10:12:6 Improving the mechanical reliability of cryomilled Al-Mg alloy using a two-stage spark plasma sintering cycle
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6:10:12:7 Microstructure and mechanical properties of Al-7075/B4C composites fabricated by plasma activated sintering
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6:10:12:8 Nanostructured Al87Ni8.5Ce3Fe1Cu0.5 alloy prepared by mechanical milling spark plasma sintering and hot extrusion
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6:10:12:10 Solid-state reaction in mechanically milled and spark plasma sintered Al-B4C composite materials
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6:10:12:11 Microstructure and mechanical properties of in-situ Al13Fe4/Al composites prepared by mechanical alloying and spark plasma sintering
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6:10:12:12 Cladding AA7075 with a cryomilled Al-12Si alloy using spark plasma sintering
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6:10:12:13 Formation of metastable phases and nanocomposite structures in rapidly solidified Al-Fe alloys
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6:10:12:14 Formation of nanostructured weldments in the Al-Si system using electrospark welding
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6:10:12:15 The effect of grain size on the oxidation of NiCoCrAlY
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6:10:12:16 Effect of mechanical alloying on the microstructure and properties of Al-Sn-Mg alloy
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6:10:13:1 Effect of carbon nanotube (CNT) content on the mechanical properties of CNT-reinforced aluminium composites
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6:10:13:2 A comparison of mechanical and wear properties of plasma sprayed carbon nanotube reinforced aluminum composites at nano and macro scale
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6:10:13:3 Friction and wear behavior of Al-CNT composites
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6:10:13:4 Wear characteristic of aluminum-based composites containing multi-walled carbon nanotubes
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6:10:13:5 Fabricating and improving properties of copper matrix nanocomposites by electroless copper-coated MWCNTs
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6:10:13:6 Mechanical properties of Fe-based composites reinforced with multi-walled carbon nanotubes
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6:10:13:7 Wear and friction behavior of Al6061 alloy reinforced with carbon nanotubes
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6:10:13:8 Real-time imaging of complex nanoscale mechanical responses of carbon nanotubes in highly compressible porous monoliths
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6:10:13:9 Improving the wettability of aluminum on carbon nanotubes
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6:10:13:10 Nanoindentation studies on MWCNT/aluminum alloy 6061 nanocomposites
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6:10:13:11 Tribological studies on microwave sintered copper-carbon nanotube composites
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6:10:13:12 Manufacturing and tribological properties of copper matrix/carbon nanotubes composites
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6:10:13:13 Electroplating formation of Al-C covalent bonds on multiwalled carbon nanotubes
DOI:10.1016/j.synthmet.2010.10.023 JN:SYNTHETIC METALS PY:2011 TC:4 AU: So, Kang Pyo;Biswas, Chandan;Lim, Seong Chu;An, Kay Hyeok;Lee, Young Hee;
6:10:14:1:1 Structural evolution during mechanical alloying of stainless steels under nitrogen
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6:10:14:1:2 Characterization of Fe-Cr-Mn-N amorphous powders with a wide supercooled liquid region developed by mechanical alloying
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6:10:14:1:3 Microstructural and hardness evolution of mechanically alloyed Fe-Cr-Mn-N powders
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6:10:14:1:4 Crystal interstitial sites contribution to nitrogen supersaturation in mechanically alloyed Fe-Cr-Mn-N alloys
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6:10:14:1:5 On the general outline of physical properties of amorphous-nanocrystalline Fe-Cr-Mn-N alloy powders prepared by mechanical alloying under nitrogen
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6:10:14:1:6 A novel approach to quantify nitrogen distribution in nanocrystalline-amorphous alloys
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6:10:14:1:7 Effect of milling time on structure and mechanical properties of porous nickel-free austenitic stainless steels processed by mechanical alloying and sintering
DOI:10.1016/j.msea.2010.05.008 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:8 AU: Salahinejad, E.;Amini, R.;Hadianfard, M. J.;
6:10:14:2:1 Microstructural characterization of medical-grade stainless steel powders prepared by mechanical alloying and subsequent annealing
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6:10:14:2:2 Liquid-phase sintering of medical-grade P558 stainless steel using a new biocompatible eutectic additive
DOI:10.1016/j.matlet.2012.01.118 JN:MATERIALS LETTERS PY:2012 TC:8 AU: Salahinejad, E.;Hadianfard, M. J.;Ghaffari, M.;Mashhadi, Sh Bagheri;Okyay, A. K.;
6:10:14:2:3 New material for orthopedic implants: Electrochemical study of nickel free P558 stainless steel in minimum essential medium
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6:10:14:2:4 Pressure assisted master sintering surface of Co, Cu and Fe powder mixture
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6:10:14:3:1 Microstructural characterization and amorphous phase formation in Co40Fe22Ta8B30 powders produced by mechanical alloying
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6:10:14:3:2 Influence of mean grain size with ultrasonic velocity on microhardness of B4C-Fe-Ni composite
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6:10:14:3:3 Characterization investigations of a mechanically alloyed and sintered Al-2 wt%Cu alloy reinforced with WC particles
DOI:10.1016/j.jallcom.2010.02.136 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:4 AU: Evirgen, Alper;Ovecoglu, M. Luetfi;
6:10:14:3:4 Study on nanocrystallization and amorphization in Fe-Cr-Mo-B-P-Si-C system during mechanical alloying
DOI:10.1016/j.mseb.2010.04.016 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2010 TC:4 AU: Movahedi, B.;Enayati, M. H.;Wong, C. C.;
6:10:14:4:1 Phase transformation and microstructure study of nano-structured austenitic and ferritic stainless steel powders prepared by planetary milling
DOI:10.1016/j.powtec.2014.03.061 JN:POWDER TECHNOLOGY PY:2014 TC:4 AU: Shashanka, R.;Chaira, D.;
6:10:14:4:2 The effect of particle size of iron powder on alpha to gamma transformation in the nanostructured high nitrogen Fe-Cr-Mn-Mo stainless steel produced by mechanical alloying
DOI:10.1016/j.msea.2010.12.043 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:4 AU: Tehrani, F.;Abbasi, M. H.;Golozar, M. A.;Panjepour, M.;
6:10:14:4:3 Characterization of nanostructured high nitrogen Fe-18Cr-xMn-4Mo austenitic stainless steel prepared by mechanical alloying
DOI:10.1016/j.msea.2011.11.059 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:0 AU: Tehrani, F.;Golozar, M. A.;Abbasi, M. H.;Panjepour, M.;
6:10:15:1 Solid-state transformation in nanocrystalline Ti induced by ball milling
DOI:10.1016/j.matlet.2010.02.054 JN:MATERIALS LETTERS PY:2010 TC:18 AU: Phasha, M. J.;Bolokang, A. S.;Ngoepe, P. E.;
6:10:15:2 Microstructure and crystal structure of an equimolar Mg-Ti alloy processed by Simoloyer high-energy ball mill
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6:10:15:3 Formation mechanism of nanocrystalline tungsten-titanium aluminides by ball milling of Ti(C,N)-W powders at subzero temperature
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6:10:15:4 Mechanical alloying by ball milling of Ti and Mg elemental powders: Operation condition considerations
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6:10:15:5 Effects of tungsten and aluminium on the oxidation and phase formation in mechanically alloyed Ti(C,N)-W-Al systems
DOI:10.1016/j.jeurceramsoc.2012.05.010 JN:JOURNAL OF THE EUROPEAN CERAMIC SOCIETY PY:2012 TC:1 AU: Maweja, Kasonde;Cornish, L. A.;Can, Nedret;
6:10:15:6 Polycrystalline cubic boron nitride sintered with Ti(C,N)-W-Al mechanically alloyed binders
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6:10:15:7 Structural characterization of mechanically milled and annealed tungsten powder
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6:10:15:8 Novel synthesis of metastable HCP nickel by water quenching
DOI:10.1016/j.matlet.2010.09.045 JN:MATERIALS LETTERS PY:2011 TC:8 AU: Bolokang, A. S.;Phasha, M. J.;
6:10:15:9 Mechanical Alloying of beta-Type Ti-Nb for Biomedical Applications
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6:10:15:10 Effect of pressure and treatment temperature on the structural evolution of mechanically alloyed Ti(W)(C,N)-Al admixes in boron nitride
DOI:10.1016/j.ceramint.2012.06.062 JN:CERAMICS INTERNATIONAL PY:2013 TC:0 AU: Maweja, Kasonde;Katuku, Kambuyi;
6:10:15:11 Phase transformations in ball-milled Ti-40Nb and Ti-45Nb powders upon quenching from the beta-phase region
DOI:10.1016/j.powtec.2013.11.002 JN:POWDER TECHNOLOGY PY:2014 TC:2 AU: Zhuravleva, K.;Boenisch, M.;Scudino, S.;Calin, M.;Schultz, L.;Eckert, J.;Gebert, A.;
6:10:15:12 Thermal analysis on the curie temperature of nanocrystalline Ni produced by ball milling
DOI:10.1016/j.apt.2010.07.005 JN:ADVANCED POWDER TECHNOLOGY PY:2011 TC:8 AU: Bolokang, A. S.;Phasha, M. J.;
6:10:15:13 Characterization investigations of ZrB2/ZrC ceramic powders synthesized by mechanical alloying of elemental Zr, B and C blends
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6:10:15:14 Solid-state transformation in ball milled nickel powder
DOI:10.1016/j.matlet.2010.05.052 JN:MATERIALS LETTERS PY:2010 TC:4 AU: Bolokang, A. S.;Phasha, M. J.;
6:10:15:15 Wear mechanisms of PcBN cutting tools when dry turning ASTM Grade 2 austempered ductile iron under finishing conditions
DOI:10.1016/j.wear.2009.08.027 JN:WEAR PY:2010 TC:5 AU: Katuku, K.;Koursaris, A.;Sigalas, I.;
6:10:15:16 Controlled precipitation of W2B4 platelets and of beta-WB nanolaminates for the in situ reinforcement of ternary TiB2-W2B4-CrB2 ceramics
DOI:10.1016/j.jeurceramsoc.2011.07.030 JN:JOURNAL OF THE EUROPEAN CERAMIC SOCIETY PY:2012 TC:2 AU: Momozawa, Ai;Telle, Rainer;
6:10:15:17 Disclination dipoles observation and nanocrystallization mechanism in ball milled Cu-Nb powders
DOI:10.1016/j.matlet.2011.06.001 JN:MATERIALS LETTERS PY:2011 TC:4 AU: Lei, R. S.;Wang, M. P.;Li, Z.;Wei, H. G.;
6:10:16:1 Mo-Si-B Alloys for Ultrahigh-Temperature Structural Applications
DOI:10.1002/adma.201200764 JN:ADVANCED MATERIALS PY:2012 TC:17 AU: Lemberg, J. A.;Ritchie, R. O.;
6:10:16:2 Synthesis of Mo5SiB2 based nanocomposites by mechanical alloying and subsequent heat treatment
DOI:10.1016/j.msea.2011.01.033 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:10 AU: Abbasi, A. R.;Shamanian, M.;
6:10:16:3 Synthesis of alpha-Mo-Mo5SiB2-Mo3Si nanocomposite powders by two-step mechanical alloying and subsequent heat treatment
DOI:10.1016/j.jallcom.2011.05.066 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:9 AU: Abbasi, A. R.;Shamanian, M.;
6:10:16:4 Alloying and microstructural changes in platinum-titanium milled and annealed powders
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6:10:16:5 Characterization of in situ alpha-Mo/Mo5SiB2 nanocomposite produced by mechanical alloying
DOI:10.1016/j.jallcom.2010.08.036 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:5 AU: Abbasi, A. R.;Shamanian, M.;
6:10:16:6 Tensile creep of Mo-Si-B alloys
DOI:10.1016/j.actamat.2009.11.054 JN:ACTA MATERIALIA PY:2010 TC:20 AU: Jain, P.;Kumar, K. S.;
6:10:16:7 Effect of diluent on the synthesis of molybdenum disilicide by mechanically-induced self-propagating reaction
DOI:10.1016/j.jallcom.2010.01.016 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:5 AU: Feng, Peizhong;Farid, Akhtar;Wang, Xiaohong;Liu, Weisheng;Wu, Jie;Zhang, Shuai;Qiang, Yinghuai;
6:10:16:8 Experimental study of Mo-ss-T-2, Mo-ss-Mo3Si-T-2, and Mo3Si-T-2 eutectic reactions in Mo-rich Mo-Si-B alloys
DOI:10.1016/j.jallcom.2014.01.089 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:0 AU: Ha, Seong-Ho;Yoshimi, Kyosuke;Nakamura, Junya;Kaneko, Takahiro;Maruyama, Kouichi;Tu, Rong;Goto, Takashi;
6:10:16:9 Fabrication of Mo-Si-B intermetallic powder by mechano-chemical process
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6:10:16:10 Preparation of fine-grained Mo-12Si-8.5B alloys with improved mechanical properties via a mechanical alloying process
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6:10:16:11 The effect of Pt nanoparticles loading on H-2 sensing properties of flame-spray-made SnO2 sensing films
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6:10:16:12 Dissolved Si in Mo and its effects on the properties of Mo-Si-B alloys
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6:10:16:13 Effect of Si/B ratio on the microstructure and mechanical properties of lanthanum oxide-doped Mo-Si-B alloys
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6:10:16:14 Phase Formation and Solidification Routes Near Mo-Mo5SiB2 Eutectic Point in Mo-Si-B System
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6:10:16:15 Compositional regions of single phases at 1800 degrees C in Mo-rich Mo-Si-B ternary system
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6:10:16:16 Microstructure and mechanical properties of lanthanum oxide-doped Mo-12Si-8.5B(at%) alloys
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6:10:16:17 Synthesis and characterization of nano-structured TiB2 processed by milling assisted SHS route
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6:10:16:18 Microstructural and micro-mechanical properties of Mo-Si-B alloyed with Y and La
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6:10:16:19 Si boride-coated Si nanoparticles with improved thermal oxidation resistance
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6:10:16:20 Effect of Ce addition on the oxidation behaviour of Mo-Si-B-Al ultrafine composites at 1100 degrees C
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6:10:17:1 In situ fabrication of (alpha-Al2O3 + Al3Zr)/Al composites in an Al-ZrO2 system
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6:10:17:2 Effects of in situ generated ZrB2 nano-particles on microstructure and tensile properties of 2024Al matrix composites
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6:10:17:3 In situ (Al3Zr + Al2O3np)/2024Al metal matrix composite with novel reinforcement distributions fabricated by reaction hot pressing
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6:10:17:4 Improvements in microstructure and mechanical properties of Al-Si-Cu alloy-Al2O3 nanocomposite modified by ZrO2
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6:10:17:5 Reaction mechanism and mechanical properties of an aluminum-based composite fabricated in-situ from Al-SiO2 system
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6:10:17:6 In situ fabrication and microstructure of Al2O3 particles reinforced aluminum matrix composites
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6:10:17:7 Reaction mechanisms of the TiC/Fe composite fabricated by exothermic dispersion from Fe-Ti-C element system
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6:10:17:8 Study on the reaction mechanism and mechanical properties of aluminum matrix composites fabricated in an Al-ZrO2-B system
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6:10:17:9 Microstructure and high temperature wear of the aluminum matrix composites fabricated by reaction from Al-ZrO2-B elemental powders
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6:10:17:10 In situ synthesis of alpha-alumina layer at top yttrium-stabilized zirconia thermal barrier coatings for oxygen barrier
DOI:10.1016/j.ceramint.2014.04.118 JN:CERAMICS INTERNATIONAL PY:2014 TC:2 AU: Zhang, Xiao-feng;Zhou, Ke-song;Wei, Xu;Chen, Bo-yu;Song, Jin-bing;Liu, Min;
6:10:17:11 Reaction pathways, activation energies and mechanical properties of hybrid composites synthesized in-situ from Al-TiO2-C powder mixtures
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6:10:17:12 Dry sliding wear behavior of Al-based composites fabricated by exothermic dispersion reaction in an Al-ZrO2-C system
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6:10:17:13 The reaction mechanism and mechanical properties of the composites fabricated in an Al-ZrO2-C system
DOI:10.1016/j.msea.2010.07.001 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:6 AU: Zhu, Heguo;Min, Jing;Ai, Yinglu;Chu, Da;Wang, Huan;Wang, Hengzhi;
6:10:17:14 Microstructure characterization of thermal barrier coating systems after controlled exposure to a high temperature
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6:10:17:15 Temperature and velocity transitions in dry sliding wear of Al-Li/SiC composites
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6:10:17:16 Influence of B/ZrO2 molar ratios on the ambient temperature wear properties of composites made by an Al-ZrO2-B system
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6:10:18:1 Sliding wear resistance of fine Co powders compacted by the magnetic-pulsed compaction method
DOI:10.1016/j.wear.2013.08.009 JN:WEAR PY:2013 TC:0 AU: Yilmaz, Fikret;Hong, Soon-Jik;
6:10:18:2 Fabrication and Densification Behavior Analysis of Metalizing Targets Using ZrO2 Nanopowders by Magnetic Pulsed Compaction
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6:10:18:3 Effect of multiple pressures by magnetic pulsed compaction (MPC) on the density of gas-atomized Al-20Si powder
DOI:10.1016/j.powtec.2012.03.020 JN:POWDER TECHNOLOGY PY:2012 TC:4 AU: Park, Hyo-Young;Kilicaslan, M. Fatih;Hong, Soon-Jik;
6:10:18:4 Powder refinement, consolidation and mechanical properties of cemented carbides - An overview
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6:10:18:5 Consolidation of mixed diamond and cobalt granule powders by magnetic pulsed compaction
DOI:10.1016/j.matlet.2009.09.063 JN:MATERIALS LETTERS PY:2010 TC:5 AU: Lee, Jung G.;Lee, M. K.;Hong, S. J.;Lee, H. W.;Pyun, S. P.;Rhee, C. K.;
6:10:18:6 Densification behaviour analysis of ZrO2 nanopowders for dental applications compacted by magnetic pulsed compaction
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6:10:18:7 Highly dense steel components prepared by magnetic pulsed compaction of iron-based powders
DOI:10.1016/j.powtec.2012.05.027 JN:POWDER TECHNOLOGY PY:2012 TC:3 AU: Lee, Jung G.;Lim, C. H.;Kim, H. S.;Hong, S. J.;Kim, M. T.;Kang, B. C.;Park, D. K.;Lee, M. K.;Rhee, C. K.;
6:10:18:8 Microstructure and mechanical properties of rapidly solidified Mg alloy powders compacted by magnetic pulsed compaction (MPC) method
DOI:10.1016/j.jallcom.2011.01.163 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:3 AU: Chae, Hong Jun;Do Kim, Young;Kim, Taek-Soo;
6:10:18:9 Evaluation of mechanical properties and processing conditions of WC-Co alloys fabricated by magnetic pulsed compaction
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6:10:18:10 Densification of TiO2 Nanopowders by Magnetic Pulsed Compaction
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6:10:18:11 Consolidation of WC-Co alloys by magnetic pulsed compaction and evaluation of their mechanical properties
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6:10:18:12 A multi-scale model of intergranular fracture and computer simulation of fracture toughness of a carburized steel
DOI:10.1016/j.commatsci.2010.01.003 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2010 TC:2 AU: Hao, Su;Lin, H.;Binomiemi, Robert R.;Combs, Dana M. G.;Fett, Greg;
6:10:18:13 Fabrication of an Yttria Thin-Wall Tube by Radial Magnetic Pulsed Compaction of Powder-Based Tapes
DOI:10.2320/matertrans.M2010113 JN:MATERIALS TRANSACTIONS PY:2010 TC:1 AU: Lee, Jung G.;Hong, S. J. .;Park, J. J.;Lee, M. K.;Ivanov, V. V.;Rhee, C. K.;
6:10:18:14 A phase-field model of anisotropic polycrystalline system and computer simulation - Part I: Theory
DOI:10.1016/j.commatsci.2011.10.043 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:0 AU: Hao, S.;
6:10:18:15 Characterization of short-duration high-energy ball milled WC-Co powders and subsequent consolidations
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6:10:18:16 The effect of surface hardening treatments on the mechanical properties of iron based P/M specimens
DOI:10.1016/j.powtec.2010.08.007 JN:POWDER TECHNOLOGY PY:2010 TC:5 AU: Yilmaz, Selim Sarper;Varol, Remzi;
6:10:18:17 Wear behavior of Al-Fe-Cr-Ti alloys fabricated by magnetic pulsed compaction
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6:10:19:1 A flake powder metallurgy approach to Al2O3/Al biomimetic nanolaminated composites with enhanced ductility
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6:10:19:2 Enhanced strength and ductility in particulate-reinforced aluminum matrix composites fabricated by flake powder metallurgy
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6:10:19:3 Microstructure and tensile behavior of Al and Al-matrix carbon nanotube composites processed by high pressure torsion of the powders
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6:10:19:4 Strong and ductile particulate reinforced ultrafine-grained metallic composites fabricated by flake powder metallurgy
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6:10:19:5 Fabrication of an aluminum-carbon nanotube metal matrix composite by accumulative roll-bonding
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6:10:19:6 A model for volume fraction and/or particle size selection in metal matrix composites
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6:10:19:7 Fabrication of biomorphic Al2O3 ceramics with hierarchical architectures by templating of cotton fibers
DOI:10.1016/j.ceramint.2014.05.005 JN:CERAMICS INTERNATIONAL PY:2014 TC:2 AU: Zhang, Tao;Zhou, Yuming;Bu, Xiaohai;Wang, Yongjuan;Zhang, Muyang;Hu, Jingang;
6:10:19:8 Filament formation during elevated temperature deformation of high purity ultrafine-grained aluminum
DOI:10.1016/j.matlet.2010.02.039 JN:MATERIALS LETTERS PY:2010 TC:7 AU: Dirras, G.;
6:10:19:9 Inverse Hall-Petch behavior in diamantane stabilized bulk nanocrystalline aluminum
DOI:10.1016/j.actamat.2012.07.026 JN:ACTA MATERIALIA PY:2012 TC:7 AU: Maung, Khinlay;Earthman, James C.;Mohamed, Farghalli A.;
6:10:19:10 Influence of flake thickness on the shape and distribution of Al2O3 particles in Al matrix composites fabricated by flake powder metallurgy
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6:10:19:11 Inverse Hall-Petch behavior in diamantane stabilized bulk nanocrystalline aluminum (vol 60, pg 5850, 2012)
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6:10:20:1 Mixing of carbon nanotubes (CNTs) and aluminum powder for powder metallurgy use
DOI:10.1016/j.powtec.2010.12.001 JN:POWDER TECHNOLOGY PY:2011 TC:38 AU: Liao, Jinzhi;Tan, Ming-Jen;
6:10:20:2 Microstructural characterization of Al-MWCNT composites produced by mechanical milling and hot extrusion
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6:10:20:3 Microstructural and hardness behavior of graphene-nanoplatelets/aluminum composites synthesized by mechanical alloying
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6:10:20:4 Processing of CNTs Reinforced Al-Based Nanocomposites Using Different Consolidation Techniques
DOI:10.1155/2013/370785 JN:JOURNAL OF NANOMATERIALS PY:2013 TC:3 AU: Al-Aqeeli, N.;
6:10:20:5 CNT reinforced light metal composites produced by melt stirring and by high pressure die casting
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6:10:20:6 Characterization of Al-2024-CNTs composites produced by mechanical alloying
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6:10:20:7 Mechanical properties of nanostructured Al2024-MWCNT composite prepared by optimized mechanical milling and hot pressing methods
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6:10:20:8 Effect of milling time and CNT concentration on hardness of CNT/Al-2024 composites produced by mechanical alloying
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6:10:20:9 A simple approach to prepare Al/CNT composite: Spread Dispersion (SD) method
DOI:10.1016/j.matlet.2011.05.067 JN:MATERIALS LETTERS PY:2011 TC:6 AU: Liao, Jinzhi;Tan, Ming-Jen;
6:10:20:10 Microstructure and Properties of Spark Plasma Sintered Carbon Nanotube Reinforced Aluminum Matrix Composites
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6:10:20:11 Mechanical alloying of multi-walled carbon nanotubes reinforced aluminum composite powder
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6:10:20:12 Wear behavior in Al-2024-CNTs composites synthesized by mechanical alloying
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6:10:21:1 Tribological behaviour of powder metallurgy-processed aluminium hybrid composites with the addition of graphite solid lubricant
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6:10:21:2 Wear characteristics of hybrid aluminium matrix composites reinforced with graphite and silicon carbide particulates
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6:10:21:3 Effect of dual reinforced ceramic particles on high temperature tribological properties of aluminum composites
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6:10:21:4 Microstructural and wear behavior of dual reinforced particle (DRP) aluminum alloy composite
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6:10:21:5 Room temperature dry and lubricant wear behaviors of Al2O3f/SiCp/Al hybrid metal matrix composites
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6:10:21:6 Wear behavior of aluminum matrix hybrid nanocomposites fabricated by powder metallurgy
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6:10:21:7 High temperature tensile and wear behaviour of aluminum silicon alloy
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6:10:21:8 Friction and wear properties of C/C-SiC braking composites
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6:10:21:9 Analysis of wear track and debris of stir cast LM13/Zr composite at elevated temperatures
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6:10:21:10 Mechanical properties of SiCp/Al2O3 ceramic matrix composites prepared by directed oxidation of an aluminum alloy
DOI:10.1016/j.ceramint.2011.08.042 JN:CERAMICS INTERNATIONAL PY:2012 TC:5 AU: Kumar, S. Santhosh;Devaiah, M.;Bai, V. Seshu;Rajasekharan, T.;
6:10:21:11 Highly efficient densification of carbon fiber-reinforced SiC-matrix composites by melting infiltration and pyrolysis using polycarbosilane
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6:10:21:12 Characteristics and Effects of Particle Morphology and Tensile Ductility Resulting from FSP of Al-Si-Cu-Ni Casting and Forging Piston
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6:10:21:13 Effect of extrusion ratio on wear behaviour of hot extruded Al6061-SiCp (Ni-P coated) composites
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6:10:21:14 Effect of tensile properties on the abrasive wear of steel saw wires used for silicon ingot slicing
DOI:10.1016/j.wear.2012.05.004 JN:WEAR PY:2012 TC:3 AU: Hwang, Bin;Park, Kijung;Kim, Hoi-Bong;Kim, Kwang Ho;Bae, Dong-Su;Cho, Young-Rae;
6:10:21:15 Solidification behaviour of ceramic particle reinforced Al-alloy matrices
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6:10:22:1 Preparation of Al2O3-TiB2 nanocomposite powder by mechanochemical reaction between Al, B2O3 and Ti
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6:10:22:2 Mechanochemically synthesized Al2O3-TiC nanocomposite
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6:10:22:3 Mechanochemical synthesis of Al2O3/Co nanocomposite by aluminothermic reaction
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6:10:22:4 Synthesis of (Fe,Cr)(3)Al-Al2O3 nanocomposite through mechanochemical combustion reaction induced by ball milling of Cr, Al and Fe2O3 powders
DOI:10.1016/j.apt.2013.06.006 JN:ADVANCED POWDER TECHNOLOGY PY:2014 TC:3 AU: Aghili, S. E.;Enayati, M. H.;Karimzadeh, F.;
6:10:22:5 Toughening mechanisms and microstructure of Al2O3-TiC-Co composites
DOI:10.1016/j.msea.2011.03.054 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:5 AU: Shi, Rui-xia;Li, Jia;Yin, Yan-sheng;Ge, He-yi;
6:10:22:6 Study of annealing effects on structural and sorption properties of low energy mechanically alloyed AB(5)'s
DOI:10.1016/j.jallcom.2009.10.248 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:6 AU: Talaganis, B. A.;Esquivel, M. R.;Meyer, G.;
6:10:22:7 Synthesis of the CaAl2O4 nanoceramic compound using high-energy ball milling with subsequent annealing
DOI:10.1016/j.apt.2013.05.012 JN:ADVANCED POWDER TECHNOLOGY PY:2014 TC:2 AU: Shiri, S.;Abbasi, M. H.;Monshi, A.;Karimzadeh, F.;
6:10:22:8 Effect of sintering on structure and mechanical properties of alumina-15 vol% zirconia nanocomposite compacts
DOI:10.1016/j.jallcom.2009.12.166 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:8 AU: Maneshian, Mohammad H.;Banerjee, Malay K.;
6:10:22:9 A study on the mechanochemical behavior of TiO2-Al-Si system to produce Ti5Si3-Al2O3 nanocomposite
DOI:10.1016/j.apt.2011.02.004 JN:ADVANCED POWDER TECHNOLOGY PY:2012 TC:5 AU: Sabooni, S.;Karimzadeh, F.;Abbasi, M. H.;
6:10:22:10 Development and characterization of CoAl-Al2O3 intermetallic matrix nanocomposite
DOI:10.1016/j.matchemphys.2012.06.030 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:2 AU: Hosseini, S. N.;Karimzadeh, F.;Enayati, M. H.;
6:10:22:11 The effect of processing parameters in the carbothermal synthesis of titanium diboride powder
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6:10:22:12 Mechanochemical synthesis of a La0.67Ce0.21Nd0.08Pr0.04Ni5 intermetallic compound
DOI:10.1016/j.apt.2012.02.005 JN:ADVANCED POWDER TECHNOLOGY PY:2013 TC:2 AU: Blanco, V.;Esquivel, M. R.;
6:10:22:13 Effects of Ca-, Mg- and Si-doping on microstructures of alumina-zirconia composites
DOI:10.1016/j.jeurceramsoc.2011.11.011 JN:JOURNAL OF THE EUROPEAN CERAMIC SOCIETY PY:2012 TC:1 AU: Biotteau-Deheuvels, K.;Zych, L.;Gremillard, L.;Chevalier, J.;
6:10:23:1 Effects of particle size and distribution on the mechanical properties of SiC reinforced Al-Cu alloy composites
DOI:10.1016/j.msea.2010.11.028 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:39 AU: Wang, Zhangwei;Song, Min;Sun, Chao;He, Yuehui;
6:10:23:2 Effect of extrusion and particle volume fraction on the mechanical properties of SiC reinforced Al-Cu alloy composites
DOI:10.1016/j.msea.2010.07.017 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:28 AU: Wang, Zhangwei;Song, Min;Sun, Chao;Xiao, Daihong;He, Yuehui;
6:10:23:3 An experimental and statistical study of interaction effects of matrix particle size, reinforcement particle size and volume fraction on the flexural strength of Al-SiCp composites by P/M using central composite design
DOI:10.1016/j.msea.2012.03.066 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:17 AU: Diler, Ege Anil;Ipek, Rasim;
6:10:23:4 Enhanced properties of Cu/Sn alloy matrix composites reinforced with b-silicon nitride whiskers
DOI:10.1557/jmr.2014.47 JN:JOURNAL OF MATERIALS RESEARCH PY:2014 TC:0 AU: Yin, Jinwei;Zeng, Yuping;Yao, Dongxu;Xia, Yongfeng;Zuo, Kaihui;
6:10:23:5 Tensile properties and strengthening mechanisms of SiCp-reinforced aluminum matrix composites as a function of relative particle size ratio
DOI:10.1557/jmr.2013.202 JN:JOURNAL OF MATERIALS RESEARCH PY:2013 TC:2 AU: Hao, Shiming;Xie, Jingpei;
6:10:23:6 Mechanical characterization of copper coated carbon nanotubes reinforced aluminum matrix composites
DOI:10.1016/j.matchar.2013.09.006 JN:MATERIALS CHARACTERIZATION PY:2013 TC:8 AU: Maqbool, Adnan;Hussain, M. Asif;Khalid, F. Ahmad;Bakhsh, Nabi;Hussain, An;Kim, Myong Ho;
6:10:23:7 Effects of SiC particle pretreatment and stirring parameters on the microstructure and mechanical properties of SiCp/Al-6.8Mg composites fabricated by semi-solid stirring technique
DOI:10.1016/j.msea.2010.09.046 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:16 AU: Zhang, Hongwei;Geng, Lin;Guan, Lina;Huang, Lujun;
6:10:23:8 Microstructure, properties and application of YAl2 intermetallic compound as particle reinforcements
DOI:10.1016/j.msea.2014.08.047 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Li, N.;Zhang, Q. Q.;Niu, L. Y.;Wu, G. Q.;Sha, W.;
6:10:23:9 Effect of heat treatment on microstructure and interface of SiC particle reinforced 2124 Al matrix composite
DOI:10.1016/j.matchar.2013.08.014 JN:MATERIALS CHARACTERIZATION PY:2013 TC:12 AU: Mandal, Durbadal;Viswanathan, Srinath;
6:10:23:10 Experimental and modeling investigation on SiCp distribution in powder metallurgy processed SiCp/2024 Al composites
DOI:10.1016/j.msea.2010.05.006 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:14 AU: Liu, Z. Y.;Wang, Q. Z.;Xiao, B. L.;Ma, Z. Y.;Liu, Y.;
6:10:24:1 Why the ball to powder ratio (BPR) is insufficient for describing the mechanical ball milling process
DOI:10.1016/j.ijhydene.2014.03.009 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2014 TC:2 AU: Kuziora, P.;Wyszynska, M.;Polanski, M.;Bystrzycki, J.;
6:10:24:2 Phase formation during mechanically activated annealing of nanocrystalline Cr-60at.%Al
DOI:10.1016/j.jallcom.2010.04.046 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:9 AU: Archana, M. S.;Hebalkar, Neha;Radha, K.;Joardar, J.;
6:10:24:3 Production of a nanocrystalline Ni3Al-based alloy using mechanical alloying
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6:10:24:4 Application of statistical methodology for the evaluation of mechanically activated phase transformation in nanocrystalline TiO2
DOI:10.1016/j.jallcom.2011.06.015 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:7 AU: Rezaee, Masih;Khoie, Seyyed Mohammad Mousavi;Fatmehsari, Davoud Haghshenas;Liu, Hua Kun;
6:10:24:5 Effects of mechanical alloying on the characteristics of a nanocrystalline Ti-50 at.%Al during hot pressing consolidation
DOI:10.1016/j.mseb.2009.10.032 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2010 TC:12 AU: Farhang, Mohammad Reza;Kamali, Ali Reza;Nazarian-Samani, Masoud;
6:10:24:6 Effects of milling and annealing on formation and structural characterization of nanocrystalline intermetallic compounds from Ni-Ti elemental powders
DOI:10.1016/j.matlet.2012.04.098 JN:MATERIALS LETTERS PY:2012 TC:4 AU: Ghadimi, Morteza;Shokuhfar, Ali;Rostami, Hamid Reza;Ghaffari, Mohammad;
6:10:24:7 Obtaining and stability verification of superconducting phases of the Nb-Al and Nb-Sn systems by mechanical alloying and low-temperature heat treatments
DOI:10.1016/j.jallcom.2009.11.011 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:3 AU: Santos, F. A.;Ramos, A. S.;Santos, C.;Rodrigues, D., Jr.;
6:10:24:8 Production of Al nanocomposite reinforced by Fe-Al intermetallic, Al4C3 and nano-Al2O3 particles using wet milling in toluene
DOI:10.1016/j.jallcom.2011.03.111 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:3 AU: Razavi-Tousi, S. S.;Yazdani-Rad, R.;Manafi, S. A.;
6:10:24:9 Phase transformations of Ni-15 wt.% B powders during mechanical alloying and annealing
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6:10:24:10 Kinetics of mechanically induced anatase-to-rutile phase transformations under inelastic impact conditions
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6:10:24:11 Synthesis of nano intermetallic Nb3Sn by mechanical alloying and annealing at low temperature
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6:10:25:1 Direct synthesis of nanocrystalline tungsten carbide from scheelite ore by solid state reaction method
DOI:10.1016/j.ceramint.2012.06.092 JN:CERAMICS INTERNATIONAL PY:2013 TC:10 AU: Singh, Harjinder;Pandey, O. P.;
6:10:25:2 A novel technique for production of nano-crystalline mono tungsten carbide single phase via mechanical alloying
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6:10:25:3 Combustion synthesis of nano-sized tungsten carbide powder and effects of sodium halides
DOI:10.1007/s11051-009-9736-5 JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2010 TC:15 AU: Won, H. I.;Nersisyan, H. H.;Won, C. W.;
6:10:25:4 Superhard diamond/tungsten carbide nanocomposites
DOI:10.1063/1.3570645 JN:APPLIED PHYSICS LETTERS PY:2011 TC:7 AU: Lin, Z. J.;Zhang, J. Z.;Li, B. S.;Wang, L. P.;Mao, Ho-Kwang;Hemley, Russell J.;Zhao, Yusheng;
6:10:25:5 Effect of substrate temperature on the mechanical and tribological properties of W/WC produced by DC magnetron sputtering
DOI:10.1016/j.ceramint.2013.12.033 JN:CERAMICS INTERNATIONAL PY:2014 TC:2 AU: Agudelo-Morimitsu, L. C.;De La Roche, J.;Ruden, A.;Escobar, D.;Restrepo-Parra, E.;
6:10:25:6 Single step synthesis of tungsten carbide (WC) nanoparticles from scheelite ore
DOI:10.1016/j.ceramint.2013.01.109 JN:CERAMICS INTERNATIONAL PY:2013 TC:7 AU: Singh, Harjinder;Pandey, O. P.;
6:10:25:7 Nanostructured tungsten carbides by thermochemical processing
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6:10:25:8 Stability of nanostructured W-C phases during carburization of WO3
DOI:10.1016/j.matchemphys.2011.02.045 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2011 TC:9 AU: Reddy, K. Madhav;Rao, T. N.;Joardar, J.;
6:10:25:9 Properties and rapid consolidation of ultra-hard tungsten carbide
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6:10:25:10 Simple, green self-construction approach for large-scale synthesis of hollow, needle-like tungsten carbide
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6:10:25:11 Spark Plasma Sintering of Diamond Binderless WC Composites
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6:10:25:12 Nanostructured diamond-TiC composites with high fracture toughness
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6:10:25:13 Carbide formation in tungsten coatings on carbon-fibre reinforced carbon substrates
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6:10:26:1 Synthesis of Fe3O4/Fe nanocomposite powder from Fe2O3 and Fe powder by mechanosynthesis. Structural, thermal and magnetic characterisation
DOI:10.1016/j.jallcom.2014.04.123 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:2 AU: Marinca, Traian Florin;Neamtu, Bogdan Viorel;Chicinas, Ionel;Isnard, Olivier;
6:10:26:2 Synthesis and characterization of the NiFe2O4/Ni3Fe nanocomposite powder and compacts obtained by mechanical milling and spark plasma sintering
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6:10:26:3 Structural and magnetic properties of nanocrystalline NiFeCuMo powders produced by wet mechanical alloying
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6:10:26:4 The addition of a surfactant at regular time intervals in the mechanical alloying process
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6:10:26:5 Nanocrystalline/Nanosized Ni1-gamma Fe2+gamma O4 Ferrite Obtained by Contamination with Fe During Milling of NiOFe2O3 Mixture. Structural and Magnetic Characterization
DOI:10.1111/jace.12043 JN:JOURNAL OF THE AMERICAN CERAMIC SOCIETY PY:2013 TC:6 AU: Marinca, Traian F.;Chicinas, Ionel;Isnard, Olivier;Popescu, Violeta;
6:10:26:6 Synthesis of nanocrystalline Supermalloy powders by mechanical alloying: A thermomagnetic analysis
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6:10:26:7 Influence of benzene on the Ni3Fe nanocrystalline compound formation by wet mechanical alloying: An investigation combining DSC, X-ray diffraction, mass and IR spectrometries
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6:10:26:8 Fabrication and characterization of Fe-Ni alloy/nickel ferrite composite nanofibers by electrospinning and partial reduction
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6:10:26:9 Neutron powder thermo-diffraction in mechanically alloyed Fe64Ni36 invar alloy
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6:10:26:10 Thermal evolution of the Ni3Fe compound obtained by mechanical alloying as probed by differential scanning calorimetry
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6:10:26:11 Evolution of microstructural and magnetic properties of mechanically alloyed Fe80-xNi20Six nanostructured powders
DOI:10.1016/j.powtec.2013.07.024 JN:POWDER TECHNOLOGY PY:2013 TC:4 AU: Bahrami, A. H.;Ghayour, H.;Sharafi, S.;
6:10:27:1:1 Fabrication of CuW pseudo alloy by W-CuO nanopowders
DOI:10.1016/j.jallcom.2011.12.018 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:8 AU: Liang, Shuhua;Wang, Xianhui;Wang, Lingling;Cao, Weichan;Fang, Zhikang;
6:10:27:1:2 Engineered chemistry of Cu-W composites sintered by field-assisted sintering technology for heat sink applications
DOI:10.1007/s10853-010-4842-4 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:7 AU: Rape, A.;Chanthapan, S.;Singh, J.;Kulkarni, A.;
6:10:27:1:3 The effect of Cr on the properties and sintering of W skeleton as an activated element
DOI:10.1016/j.msea.2011.01.101 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:5 AU: Yang, Xiaohong;Gao, Yong;Xiao, Peng;Liang, Shuhua;
6:10:27:1:4 Solid-state reactive diffusion between Ni and W
DOI:10.1016/j.jallcom.2011.01.139 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:1 AU: Inomata, S.;Kajihara, M.;
6:10:27:1:5 Mutual dependency of mechanical properties and contiguity in W-Cu composites
DOI:10.1016/j.msea.2010.06.076 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:4 AU: Amirjan, M.;Parvin, N.;Zangeneh-Madar, K.;
6:10:27:2:1 Microstructure and properties of fine grained W-15 wt.% Cu composite sintered by microwave from the sol-gel prepared powders
DOI:10.1016/j.jallcom.2012.08.143 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:9 AU: Zhou, Y.;Sun, Q. X.;Liu, R.;Wang, X. P.;Liu, C. S.;Fang, Q. F.;
6:10:27:2:2 Fabrication of W-Cu composites by microwave infiltration
DOI:10.1016/j.jallcom.2009.12.011 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:14 AU: Guo, Yingli;Yi, Jianhong;Luo, Shudong;Zhou, Chengshang;Chen, Lifang;Peng, Yuandong;
6:10:27:2:3 Influence of copper content on the property of Cu-W alloy prepared by microwave vacuum infiltration sintering
DOI:10.1016/j.jallcom.2013.12.202 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:4 AU: Xu, Lei;Yan, Mi;Xia, Yi;Peng, Jinhui;Li, Wei;Zhang, Libo;Liu, Chenhui;Chen, Guo;Li, Yun;
6:10:27:2:4 Influences of temperatures on tungsten copper alloy prepared by microwave sintering
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6:10:27:3:1 Synthesis and densification of W-Cu, W-Cu-Ag and W-Ag composite powders via a chemical precipitation method
DOI:10.1016/j.jallcom.2013.04.172 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:0 AU: Azar, G. Taghavi Pourian;Rezaie, H. R.;Gohari, B.;Razavizadeh, H.;
6:10:27:3:2 Chemical mechanism of precipitate formation and pH effect on the morphology and thermochemical co-precipitation of W-Cu nanocomposite powders
DOI:10.1016/j.matchemphys.2009.12.029 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2010 TC:15 AU: Hashempour, Mazdak;Razavizadeh, Hekmat;Rezaie, Hamid-Reza;Hashempour, Maral;Ardestani, Mohammad;
6:10:27:3:3 A new method to investigate the sliding wear behaviour of materials based on energy dissipation: W-25 wt%Cu composite
DOI:10.1016/j.wear.2011.08.023 JN:WEAR PY:2012 TC:3 AU: Jahangiri, M.;Hashempour, M.;Razavizadeh, H.;Rezaie, H. R.;
6:10:27:3:4 On sinterability of Cu-coated W nanocomposite powder prepared by a hydrogen reduction of a high-energy ball-milled WO3-CuO mixture
DOI:10.1007/s10853-012-6557-1 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:1 AU: Ryu, S. S.;Park, H. R.;Kim, H. T.;Kim, Y. D.;
6:10:27:4:1 Microstructural characterizations of Ni activated sintered W-2 wt% TiC composites produced via mechanical alloying
DOI:10.1016/j.jallcom.2010.03.008 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:11 AU: Genc, A.;Coskun, S.;Ovecoglu, M. L.;
6:10:27:4:2 Fabrication and microstructure of CNTs activated sintered W-Nb alloys
DOI:10.1016/j.jallcom.2013.10.164 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:2 AU: Sha, J. J.;Hao, X. N.;Li, J.;Wang, Z.;
6:10:27:5:1 Investigation on wear mechanism of thermochemically fabricated W-Cu composites
DOI:10.1016/j.wear.2010.04.026 JN:WEAR PY:2010 TC:9 AU: Hashempour, M.;Razavizadeh, H.;Rezaie, H.;
6:10:27:5:2 Application and conceptual explanation of an energy-based approach for the modelling and prediction of sliding wear
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6:10:28:1 Characterization of the correlation between the interfaces and failure behaviors for particle reinforced Mg-Li composites
DOI:10.1016/j.matchar.2013.12.010 JN:MATERIALS CHARACTERIZATION PY:2014 TC:2 AU: Zhang, Q. Q.;Wu, G. Q.;Huang, Z.;Tao, Y.;
6:10:28:2 Microstructures and mechanical properties of Al-base composite materials reinforced by Al-Cu-Fe particles
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6:10:28:3 Powder metallurgy processing and compressive properties of Ti3AlC2/Al composites
DOI:10.1016/j.msea.2011.09.068 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:12 AU: Wang, W. J.;Gauthier-Brunet, V.;Bei, G. P.;Laplanche, G.;Bonneville, J.;Joulain, A.;Dubois, S.;
6:10:28:4 Interface structure and formation mechanism of BN/intergranular amorphous phase in pressureless sintered Si3N4/BN composites
DOI:10.1016/j.scriptamat.2010.03.045 JN:SCRIPTA MATERIALIA PY:2010 TC:8 AU: Li, Yongfeng;Liu, Ping;Wang, Xiangdong;Jin, Haiyun;Yang, Jianfeng;Qiao, Guanjun;
6:10:28:5 Research on YAl2 intermetallics particles reinforced Mg-14Li-3Al matrix composites
DOI:10.1016/j.jallcom.2010.07.139 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:5 AU: Wu, G. Q.;Ling, Z. H.;Zhang, X.;Wang, S. J.;Zhang, T.;Huang, Z.;
6:10:28:6 Effects of particle/matrix interfaces on the mechanical properties for SiCp or YAl2p reinforced Mg-Li composites
DOI:10.1016/j.jallcom.2013.11.004 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:3 AU: Zhang, Q. Q.;Wu, G. Q.;Huang, Z.;Tao, Y.;
6:10:28:7 Effects of heat treatment on interface and mechanical properties of YAl2 reinforced Mg-14Li-3Al matrix composite
DOI:10.1016/j.msea.2012.11.117 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: Zhang, Q. Q.;Wu, G. Q.;Niu, L. Y.;Huang, Z.;Tao, Y.;
6:10:28:8 Al-based metal matrix composites reinforced with Al-Cu-Fe quasicrystalline particles: Strengthening by interfacial reaction
DOI:10.1016/j.jallcom.2014.04.086 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:7 AU: Ali, F.;Scudino, S.;Anwar, M. S.;Shahid, R. N.;Srivastava, V. C.;Uhlenwinkel, V.;Stoica, M.;Vaughan, G.;Eckert, J.;
6:10:28:9 Microstructural and mechanical study of an Al matrix composite reinforced by Al-Cu-Fe icosahedral particles
DOI:10.1557/JMR.2010.0118 JN:JOURNAL OF MATERIALS RESEARCH PY:2010 TC:4 AU: Laplanche, Guillaume;Joulain, Anne;Bonneville, Joel;Gauthier-Brunet, Veronique;Dubois, Sylvain;El Kabir, Tarik;
6:10:28:10 Spark plasma sintering synthesis and mechanical spectroscopy of the omega-Al0.7Cu0.2Fe0.1 phase
DOI:10.1007/s10853-011-5784-1 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:2 AU: Laplanche, G.;Gadaud, P.;Bonneville, J.;Joulain, A.;Gauthier-Brunet, V.;Dubois, S.;Jay, F.;
6:10:28:11 Synthesis and brittle-to-ductile transition of the omega-Al0.7Cu0.2Fe0.1 tetragonal phase
DOI:10.1016/j.msea.2010.02.049 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:4 AU: Laplanche, G.;Joulain, A.;Bonneville, J.;Gauthier-Brunet, V.;Dubois, S.;
6:10:28:12 Microstructure and tensile properties of cast Al-15%Mg2Si composite: Effects of phosphorous addition and heat treatment
DOI:10.1016/j.msea.2012.07.011 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:1 AU: Nasiri, N.;Emamy, M.;Malekan, A.;Norouzi, M. H.;
6:10:29:1 Mechanochemical synthesis and shock wave consolidation of TiN(Al) nanostructure solid solution
DOI:10.1016/j.matchemphys.2014.02.025 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:0 AU: Mashhadi, H. Amini;Bataev, I.;Sadeghi, B. Mohammad;Hokamoto, K.;
6:10:29:2 Fabrication of bulk AlN-TiN nanocomposite by reactive ball milling and underwater shock consolidation technique
DOI:10.1016/j.ceramint.2011.01.036 JN:CERAMICS INTERNATIONAL PY:2011 TC:4 AU: Mashhadi, H. Amini;Wada, N.;Tomoshige, R.;Manikandan, P.;Hokamoto, K.;
6:10:29:3 Preparation of nano-Al2O3 dispersion strengthened coating via coating-substrate co-sintering and underwater shock wave compaction
DOI:10.1016/j.ceramint.2012.10.241 JN:CERAMICS INTERNATIONAL PY:2013 TC:2 AU: Sun, Wei;Li, Xiaojie;Hokamoto, Kazuyuki;
6:10:29:4 Synthesis of AIN-TiN nanostructured composite powder by reactive ball milling and subsequent thermal treatment
DOI:10.1016/j.jallcom.2010.07.037 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:7 AU: Mashhadi, H. Amini;Manikandan, P.;Suetsugu, R.;Tanaka, S.;Hokamoto, K.;
6:10:29:5 Fabrication of in situ AlN-TiN/Al inoculant and its refining efficiency and reinforcing effect on pure aluminum
DOI:10.1016/j.jallcom.2012.08.082 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:5 AU: Wang, Kui;Cui, Chunxiang;Wang, Qian;Qi, Yumin;Wang, Chao;
6:10:29:6 Shock-consolidated TiO2 bulk with pure anatase phases fabricated by explosive compaction using underwater shockwave
DOI:10.1016/j.jeurceramsoc.2010.12.020 JN:JOURNAL OF THE EUROPEAN CERAMIC SOCIETY PY:2011 TC:5 AU: Kim, Youngkook;Mitsugi, Fumiaki;Tomoaki, Ikegami;Hokamoto, Kazuyuki;Itoh, Shigeru;
6:10:29:7 High resolution transmission electron microscopy study on the development of nanostructured precipitates in Al-Cu obtained by mechanical alloying
DOI:10.1016/j.matchemphys.2011.11.007 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:5 AU: Gomez-Villalba, L. S.;Delgado, M. L.;Ruiz-Navas, E. M.;
6:10:29:8 Dynamic consolidation of W-Cu nanocomposites from W-CuO powder mixture
DOI:10.1016/j.msea.2010.05.077 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:10 AU: Wang, Zhanlei;Li, Xiaojie;Zhu, Jianqiao;Mo, Fei;Zhao, Chunfeng;Wang, Lihe;
6:10:29:9 Magnetization, magnetic transition and magnetic entropy changes of bulk MnAs1-xSbx fabricated by underwater shock compaction
DOI:10.1016/j.mseb.2010.01.056 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2010 TC:4 AU: Kim, Youngkook;Wada, Hirofumi;Lee, Yeonwon;Itoh, Shigeru;
6:10:29:10 Characteristics of ZnO thin films fabricated by shock-consolidated ZnO target
DOI:10.1016/j.ceramint.2011.05.076 JN:CERAMICS INTERNATIONAL PY:2011 TC:2 AU: Kim, Youngkook;Mitsugi, Fumiaki;Ueda, Tsuyoshi;Ikegami, Tomoaki;
6:10:29:11 Underwater shock consolidation of Mg-SiC composites
DOI:10.1007/s10853-010-4547-8 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:3 AU: Manikandan, P.;Faruqui, A. Nayeem;Raghukandan, K.;Mori, A.;Hokamoto, K.;
6:10:29:12 Microstructure and mechanical properties of an oxide dispersion strengthened ferritic steel by a new fabrication route
DOI:10.1016/j.msea.2010.04.084 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:13 AU: Guo, Lina;Jia, Chengchang;Hu, Benfu;Li, Huiying;
6:10:30:1 Evaluation of process behavior and crystallite specifications of mechano-chemically synthesized WC-Al2O3 nano-composites
DOI:10.1016/j.materresbull.2013.08.040 JN:MATERIALS RESEARCH BULLETIN PY:2014 TC:2 AU: Bafghi, M. Sh.;Sakaki, M.;Khaki, J. Vahdati;Zhang, Q.;Saito, F.;
6:10:30:2 Preparation of alumina-tungsten carbide nanocomposite by mechano-chemical reduction of WO3 with aluminum and graphite
DOI:10.1016/j.jallcom.2009.11.019 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:11 AU: Zakeri, M.;Rahimipour, M. R.;Sadrnezhad, S. Kh.;Yazdanni-rad, R.;
6:10:30:3 Mechanochemical synthesis of tungsten carbide nano particles by using WO3/Zn/C powder mixture
DOI:10.1016/j.materresbull.2012.10.036 JN:MATERIALS RESEARCH BULLETIN PY:2013 TC:6 AU: Hoseinpur, Arman;Khaki, Jalil Vandati;Marashi, Maryam Sadat;
6:10:30:4 The effect of Al2O3 and CaO presence on the kinetics of mechanochemical reduction of MoS2 by Zn
DOI:10.1016/j.jallcom.2013.10.231 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:0 AU: Hoseinpur, Arman;Bezanaj, Malihe Mohammadi;Khaki, Jalil Vahdati;
6:10:30:5 The nanostructure evolution of Ag powder synthesized by high energy ball milling
DOI:10.1016/j.apt.2011.05.005 JN:ADVANCED POWDER TECHNOLOGY PY:2012 TC:6 AU: Khayati, G. R.;Janghorban, K.;
6:10:30:6 Synthesis of alumina reinforced nanostructured alpha-brass by mechanochemical reduction of CuO and ZnO with Al and C
DOI:10.1016/j.matchemphys.2010.03.054 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2010 TC:5 AU: Marashi, Maryam Sadat;Khaki, Jalil Vandati;
6:10:30:7 Effects of stearic acid on synthesis of nanocomposite WC-MgO powders by mechanical alloying
DOI:10.1007/s10853-009-4164-6 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:6 AU: Zhu, S. G.;Wu, C. X.;Luo, Y. L.;
6:10:30:8 Mechanochemical synthesis of Al2O3-ZrB2-ZrO2 nanocomposite powder
DOI:10.1016/j.materresbull.2013.09.041 JN:MATERIALS RESEARCH BULLETIN PY:2014 TC:5 AU: Abbasi, B. Jamal;Zakeri, M.;Tayebifard, S. A.;
6:10:30:9 High frequency induction heated sintering of nanostructured Al2O3-ZrB2 composite produced by MASHS technique
DOI:10.1016/j.ceramint.2014.01.141 JN:CERAMICS INTERNATIONAL PY:2014 TC:4 AU: Abbasi, B. Jamal;Zakeri, M.;Tayebifard, S. A.;
6:10:30:10 Synthesis of Nanocrystalline WC Single-Phase Refractory via Mechanical Milling
DOI:10.1155/2011/540540 JN:JOURNAL OF NANOMATERIALS PY:2011 TC:2 AU: Razavi, Mansour;Rahimipour, Mohammad Reza;Yazdani-Rad, Rahim;
6:10:30:11 Development and verification of a mathematical model for variations of the specific surface area of mineral powders during intensive milling
DOI:10.1016/j.powtec.2009.08.025 JN:POWDER TECHNOLOGY PY:2010 TC:2 AU: Bafghi, M. Sh.;Emami, A. H.;Zakeri, A.;Khaki, J. Vahdati;
6:10:31:1 X-ray peak broadening analysis of AA 6061(100-x)-x wt.% Al2O3 nanocomposite prepared by mechanical alloying
DOI:10.1016/j.matchar.2011.04.017 JN:MATERIALS CHARACTERIZATION PY:2011 TC:28 AU: Sivasankaran, S.;Sivaprasad, K.;Narayanasamy, R.;Satyanarayana, P. V.;
6:10:31:2 Cold spray deposition characteristics of mechanically alloyed Cu-CNT composite powders
DOI:10.1016/j.apsusc.2014.04.096 JN:APPLIED SURFACE SCIENCE PY:2014 TC:6 AU: Pialago, Edward Joshua T.;Park, Chan Woo;
6:10:31:3 Experimental and numerical study of residual stress evolution in cold spray coating
DOI:10.1016/j.apsusc.2013.09.074 JN:APPLIED SURFACE SCIENCE PY:2014 TC:7 AU: Ghelichi, R.;Bagherifard, S.;MacDonald, D.;Fernandez-Pariente, I.;Jodoin, B.;Guagliano, M.;
6:10:31:4 Almen intensity effect on microstructure and mechanical properties of low carbon steel subjected to severe shot peening
DOI:10.1016/j.apsusc.2013.10.184 JN:APPLIED SURFACE SCIENCE PY:2014 TC:8 AU: Unal, Okan;Varol, Remzi;
6:10:31:5 Residual stress and thermo-mechanical properties of cold spray metal coatings
DOI:10.1016/j.actamat.2010.10.058 JN:ACTA MATERIALIA PY:2011 TC:34 AU: Luzin, V.;Spencer, K.;Zhang, M. -X.;
6:10:31:6 Mechanical alloying, sintering and characterization of Al2O3-20 wt%-Cu nanocomposite
DOI:10.1016/j.ceramint.2013.05.099 JN:CERAMICS INTERNATIONAL PY:2014 TC:4 AU: Zawrah, Mahmoud F.;Essawy, Raghieba A.;Zayed, Hamdia A.;Fattah, Amira H. Abdel;Taha, Mohammed A.;
6:10:31:7 On the shot peening surface coverage and its assessment by means of finite element simulation: A critical review and some original developments
DOI:10.1016/j.apsusc.2012.07.017 JN:APPLIED SURFACE SCIENCE PY:2012 TC:15 AU: Bagherifard, Sara;Ghelichi, Ramin;Guagliano, Mario;
6:10:31:8 High temperature magnetic properties of Sm-Co and Sm-Co/polyamide-12 materials: effects of temperature, particle size, and silanization
DOI:10.1007/s10853-013-7629-6 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:2 AU: Qadeer, M. I.;Savage, S. J.;Hedenqvist, M. S.;
6:10:31:9 Microstructure and fatigue behavior of cold spray coated A15052
DOI:10.1016/j.actamat.2012.08.020 JN:ACTA MATERIALIA PY:2012 TC:16 AU: Ghelichi, R.;MacDonald, D.;Bagherifard, S.;Jahed, H.;Guagliano, M.;Jodoin, B.;
6:10:31:10 Residual stress development in cold sprayed Al, Cu and Ti coatings
DOI:10.1016/j.actamat.2013.06.033 JN:ACTA MATERIALIA PY:2013 TC:5 AU: Suhonen, T.;Varis, T.;Dosta, S.;Torrell, M.;Guilemany, J. M.;
6:10:31:11 Rheological and dynamic mechanical properties of polymer-bonded magnets based on Sm2Co17 and polyamide-12
DOI:10.1007/s10853-014-8460-4 JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:0 AU: Qadeer, M. I.;Savage, S. J.;Gedde, U. W.;Hedenqvist, M. S.;
6:10:31:12 Identifying changes in residual stress using indentation on machined metallic surfaces
DOI:10.1016/j.matlet.2012.08.005 JN:MATERIALS LETTERS PY:2012 TC:3 AU: Groth, B. P.;Mann, A. B.;
6:10:32:1 Effects of particle size and properties on the microstructures, mechanical properties, and fracture mechanisms of 7075Al hybrid composites prepared by squeeze casting
DOI:10.1007/s10853-014-8496-5 JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:0 AU: Liu, Yixiong;Yang, Chao;Chen, Weiping;Zhu, Dezhi;Li, Yuanyuan;
6:10:32:2 Nickel particle embedded aluminium matrix composite with high ductility
DOI:10.1016/j.matlet.2009.12.030 JN:MATERIALS LETTERS PY:2010 TC:18 AU: Yadav, Devinder;Bauri, Ranjit;
6:10:32:3 Processing, microstructure and mechanical properties of nickel particles embedded aluminium matrix composite
DOI:10.1016/j.msea.2010.10.035 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:14 AU: Yadav, Devinder;Bauri, Ranjit;
6:10:32:4 Strengthening of ultrafine PM aluminium using nano-sized oxycarbonitride dispersoids
DOI:10.1016/j.msea.2011.07.069 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:2 AU: Cintas, J.;Cuevas, F. G.;Montes, J. M.;Caballero, E. S.;Herrera, E. J.;
6:10:32:5 The influence of ECAP on the small punch creep of Al-4 vol.% Al4C3 composite
DOI:10.1007/s10853-010-4554-9 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:5 AU: Dobes, Ferdinand;Milicka, Karel;Besterci, Michal;Kvackaj, Tibor;
6:10:32:6 Fabrication of AA6061/Al2O3 nano ceramic particle reinforced composite coating by using friction stir processing
DOI:10.1007/s10853-010-4525-1 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:19 AU: Yang, Min;Xu, Chengying;Wu, Chuansong;Lin, Kuo-chi;Chao, Yuh J.;An, Linan;
6:10:32:7 Analysis of creep fracture in Al-Al4C3 composite after ECAP
DOI:10.1016/j.msea.2011.10.122 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:2 AU: Dobes, Ferdinand;Besterci, Michal;Ballokova, Beata;Sulleiova, Katarina;Dymacek, Petr;
6:10:32:8 The effect of process parameters on microstructural characteristics of AZ91/SiO2 composite fabricated by FSP
DOI:10.1016/j.msea.2012.08.084 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:8 AU: Khayyamin, D.;Mostafapour, A.;Keshmiri, R.;
6:10:32:9 (SiCp+Ti)/7075Al hybrid composites with high strength and large plasticity fabricated by squeeze casting
DOI:10.1016/j.msea.2014.05.008 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:5 AU: Chen, Weiping;Liu, Yixiong;Yang, Chao;Zhu, Dezhi;Li, Yuanyuan;
6:10:33:1 Fabrication of aluminum-alumina metal matrix composites via cold gas dynamic spraying at low pressure followed by friction stir processing
DOI:10.1016/j.msea.2012.06.066 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:19 AU: Hodder, K. J.;Izadi, H.;McDonald, A. G.;Gerlich, A. P.;
6:10:33:2 Effect of reinforcing particles on the wear rate of low-pressure cold-sprayed WC-based MMC coatings
DOI:10.1016/j.wear.2013.08.006 JN:WEAR PY:2013 TC:2 AU: Melendez, N. M.;Narulkar, V. V.;Fisher, G. A.;McDonald, A. G.;
6:10:33:3 Improvement of wear resistance of sprayed layer on 52100 steel by friction stir processing
DOI:10.1016/j.apsusc.2014.08.033 JN:APPLIED SURFACE SCIENCE PY:2014 TC:0 AU: Rahbar-Kelishami, A.;Abdollah-zadeh, A.;Hadavi, M. M.;Seraj, R. A.;Gerlich, A. P.;
6:10:33:4 Interfacial heating during low-pressure cold-gas dynamic spraying of aluminum coatings
DOI:10.1007/s10853-011-5786-z JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:7 AU: Dewar, M. P.;McDonald, A. G.;Gerlich, A. P.;
6:10:33:5 Mechanical behavior of Ti cold spray coatings determined by a multi-scale indentation method
DOI:10.1016/j.msea.2011.09.083 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:18 AU: Goldbaum, Dina;Ajaja, Jihane;Chromik, Richard R.;Wong, Wilson;Yue, Stephen;Irissou, Eric;Legoux, Jean-Gabriel;
6:10:33:6 Comparison of abrasive wear of a complex high alloy hardfacing deposit and WC-Ni based metal matrix composite
DOI:10.1016/j.wear.2012.07.015 JN:WEAR PY:2012 TC:9 AU: Leech, Patrick W.;Li, Xing S.;Alam, Nazmul;
6:10:33:7 Microstructures and abrasive wear performance of PTAW deposited Ni-WC overlays using different Ni-alloy chemistries
DOI:10.1016/j.wear.2011.10.001 JN:WEAR PY:2012 TC:14 AU: Liyanage, T.;Fisher, G.;Gerlich, A. P.;
6:10:33:8 Cold spray deposition of a WC-25Co cermet onto Al7075-T6 and carbon steel substrates
DOI:10.1016/j.actamat.2012.10.011 JN:ACTA MATERIALIA PY:2013 TC:13 AU: Dosta, S.;Couto, M.;Guilemany, J. M.;
6:10:33:9 Comparison of abrasive wear in diamond composites and WC-based coatings
DOI:10.1016/j.wear.2011.01.049 JN:WEAR PY:2011 TC:5 AU: Leech, P. W.;Li, X. S.;
6:10:34:1 Deposition and characterization of cold sprayed nanocrystalline NiTi
DOI:10.1016/j.powtec.2011.02.026 JN:POWDER TECHNOLOGY PY:2011 TC:10 AU: Tria, S.;Elkedim, O.;Hamzaoui, R.;Guo, X.;Bernard, F.;Millot, N.;Rapaud, O.;
6:10:34:2 Effect of addition of primary tungsten carbide on the properties of ferrotungsten and carbon black powders during mechanical alloying process
DOI:10.1557/jmr.2013.269 JN:JOURNAL OF MATERIALS RESEARCH PY:2013 TC:0 AU: Razavi, Mansour;
6:10:34:3 Influence of substrate hardness transition on built-up of nanostructured WC-12Co by cold spraying
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6:10:34:4 Martensitic transformation of Ti50Ni30Cu20 alloy prepared by powder metallurgy
DOI:10.1016/j.jallcom.2011.01.154 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:6 AU: Valeanu, M.;Lucaci, M.;Crisan, A. D.;Sofronie, M.;Leonat, L.;Kuncser, V.;
6:10:34:5 Quantitative phase evolution during mechano-synthesis of Ti-Ni-Cu shape memory alloys
DOI:10.1016/j.jallcom.2012.05.084 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:2 AU: Amini, Rasool;Alijani, Fatemeh;Ghaffari, Mohammad;Alizadeh, Morteza;Okyay, Ali Kemal;
6:10:34:6 Dry sliding wear behavior of hot forged and annealed Cu-Cr-graphite in-situ composites
DOI:10.1016/j.wear.2010.11.033 JN:WEAR PY:2011 TC:12 AU: Gautam, R. K.;Ray, S.;Sharma, Satish C.;Jain, S. C.;Tyagi, R.;
6:10:34:7 Characterization of cold-sprayed nanostructured Fe-based alloy
DOI:10.1016/j.apsusc.2009.09.072 JN:APPLIED SURFACE SCIENCE PY:2010 TC:8 AU: Li, Wen-Ya;Li, Chang-Jiu;
6:10:34:8 Tribological behavior of cold-sprayed nanocrystalline and conventional copper coatings
DOI:10.1016/j.apsusc.2012.04.070 JN:APPLIED SURFACE SCIENCE PY:2012 TC:2 AU: Liu, Jingchun;Zhou, Xianglin;Zheng, Xiong;Cui, Hua;Zhang, Jishan;
6:10:34:9 Magnetic properties of nanocrystalline Fe-10%Ni alloy obtained by planetary ball mills
DOI:10.1016/j.jallcom.2013.03.183 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:3 AU: Hamzaoui, Rabah;Elkedim, Omar;
6:10:34:10 Fabrication of Ti-Nb alloys by powder metallurgy process and their shape memory characteristics
DOI:10.1016/j.jallcom.2011.12.166 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:3 AU: Terayama, A.;Fuyama, N.;Yamashita, Y.;Ishizaki, I.;Kyogoku, H.;
6:10:34:11 Shape memory characteristics of the P/M-processed Ti-Ni-Cu alloys
DOI:10.1016/j.msea.2010.05.012 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:8 AU: Terayama, A.;Kyogoku, H.;
6:10:34:12 Microstructure evolution of Fe-based WC composite coating prepared by laser induction hybrid rapid cladding
DOI:10.1016/j.apsusc.2010.05.079 JN:APPLIED SURFACE SCIENCE PY:2010 TC:11 AU: Zhou, Shengfeng;Dai, Xiaoqin;
6:10:35:1 Reinforcement architectures and thermal fatigue in diamond particle-reinforced aluminum
DOI:10.1016/j.actamat.2010.08.004 JN:ACTA MATERIALIA PY:2010 TC:12 AU: Schoebel, M.;Degischer, H. P.;Vaucher, S.;Hofmann, M.;Cloetens, P.;
6:10:35:2 Microstresses and crack formation in AlSi7MgCu and AlSi17Cu4 alloys for engine components
DOI:10.1016/j.actamat.2014.07.052 JN:ACTA MATERIALIA PY:2014 TC:1 AU: Schoebel, M.;Baumgartner, G.;Gerth, S.;Bernardi, J.;Hofmann, M.;
6:10:35:3 Internal stresses and voids in SiC particle reinforced aluminum composites for heat sink applications
DOI:10.1016/j.compscitech.2011.01.020 JN:COMPOSITES SCIENCE AND TECHNOLOGY PY:2011 TC:15 AU: Schoebel, M.;Altendorfer, W.;Degischer, H. P.;Vaucher, S.;Buslaps, T.;Di Michiel, M.;Hofmann, M.;
6:10:35:4 High-temperature strength and damage evolution in short fiber reinforced aluminum alloys studied by miniature creep testing and synchrotron microtomography
DOI:10.1016/j.actamat.2011.09.022 JN:ACTA MATERIALIA PY:2012 TC:5 AU: Kurumlu, D.;Payton, E. J.;Young, M. L.;Schoebel, M.;Requena, G.;Eggeler, G.;
6:10:35:5 Triple ion beam cutting of diamond/Al composites for interface characterization
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6:10:35:6 Mechanical response of discontinuous ceramic fiber reinforced metal matrix composites under quasi-static and dynamic loadings
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6:10:35:7 On the presence of work-hardened zones around fibers in a short-fiber-reinforced Al metal matrix composite
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6:10:35:8 Multi scale modeling and characterization of inelastic deformation mechanisms in continuous fiber and 2D woven fabric reinforced metal matrix composites
DOI:10.1016/j.msea.2014.08.063 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: McWilliams, B.;Dibelka, J.;Yen, C. -F.;
6:10:35:9 Probabilistic response of heterogeneous particle reinforced metal matrix composites with particle size dependent strengthening
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6:10:35:10 In-situ measurement of phase transformation kinetics in austempered ductile iron
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6:10:35:11 Aluminum/diamond composites: A preparative method to characterize reactivity and selectivity at the interface
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6:10:36:1 Modeling the mean grain size of synthesized nanopowders produced by mechanical alloying
DOI:10.1016/j.ceramint.2012.07.111 JN:CERAMICS INTERNATIONAL PY:2013 TC:3 AU: Nazari, Ali;Zakeri, Mohammad;
6:10:36:2 Synthesis of (Mo1-x-Cr-x)Si-2 nanostructured powders via mechanical alloying and following heat treatment
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6:10:36:3 Mechanochemical synthesis of MoSi2-SiC nanocomposite powder
DOI:10.1016/j.ceramint.2011.11.076 JN:CERAMICS INTERNATIONAL PY:2012 TC:4 AU: Zakeri, M.;Ahmadi, M.;
6:10:36:4 High temperature oxidation of Mo-Si-B alloys: Effect of low and very low oxygen partial pressures
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6:10:36:5 Synthesis of MoSi2-TiC nanocomposite powder via mechanical alloying and subsequent annealing
DOI:10.1016/j.ceramint.2011.09.012 JN:CERAMICS INTERNATIONAL PY:2012 TC:5 AU: Zakeri, M.;Ramezani, M.;
6:10:36:6 Synthesis of titanium carbide and TiC-SiO2 nanocomposite powder using rutile and Si by mechanically activated sintering
DOI:10.1016/j.apt.2014.02.008 JN:ADVANCED POWDER TECHNOLOGY PY:2014 TC:3 AU: Hajalilou, A.;Hashim, M.;Ebrahimi-Kahizsangi, R.;Ismail, I.;Sarami, N.;
6:10:36:7 Mechanochemical carboaluminothermic reduction of rutile to produce TiC-Al2O3 nanocomposite
DOI:10.1016/j.apt.2013.07.004 JN:ADVANCED POWDER TECHNOLOGY PY:2014 TC:9 AU: Hajalilou, Abdollah;Hashim, Mansor;Nahavandi, Mahdi;Ismail, Ismayadi;
6:10:36:8 Phase and microstructural characterization of Mo-Si-B multiphase intermetallic alloys produced by pressureless sintering
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6:10:37:1 Influence of TiB2 particle size on the microstructure and properties of Al matrix composites prepared via mechanical alloying and pressureless sintering
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6:10:37:2 Microstructural and mechanical evaluation of Al-TiB2 nanostructured composite fabricated by mechanical alloying
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6:10:37:3 Synthesis and characterization of Al (Al2O3-TiB2/Fe) nanocomposite by means of mechanical alloying and hot extrusion processes
DOI:10.1016/j.apt.2014.06.016 JN:ADVANCED POWDER TECHNOLOGY PY:2014 TC:0 AU: Rizaneh, Sh;Borhani, G. H.;Tavoosi, M.;
6:10:37:4 Aluminum diboride synthesis from elemental powders by mechanical alloying and annealing
DOI:10.1016/j.jeurceramsoc.2011.03.037 JN:JOURNAL OF THE EUROPEAN CERAMIC SOCIETY PY:2012 TC:3 AU: Agaogullari, Duygu;Gokce, Hasan;Duman, Ismail;Ovecoglu, M. Lutfi;
6:10:37:5 Impact behavior of in situ TiB2/Al composite at various temperatures
DOI:10.1007/s10853-011-5454-3 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:12 AU: Wang, Feifei;Ma, Naiheng;Li, Yugang;Li, Xianfeng;Wang, Haowei;
6:10:37:6 The relationship between TiB2 volume fraction and fatigue crack growth behavior in the in situ TiB2/A356 composites
DOI:10.1007/s10853-011-6179-z JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:3 AU: Wang, Feifei;Meng, Xiangqi;Ma, Naiheng;Xu, Jianming;Li, Xianfeng;Wang, Haowei;
6:10:37:7 Study of particle-matrix interaction in Al/AIB(2) composite via nanoindentation
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6:10:37:8 Study of preparation of TiB2 by TiC in Al melts
DOI:10.1016/j.matchar.2011.10.006 JN:MATERIALS CHARACTERIZATION PY:2012 TC:6 AU: Ding, Haimin;Liu, Xiangfa;Nie, Jinfeng;
6:10:37:9 Reinforcement Behavior in Laser Welding of A356/TiB2p MMCs
DOI:10.2320/matertrans.M2011385 JN:MATERIALS TRANSACTIONS PY:2012 TC:2 AU: Cui, Haichao;Lu, Fenggui;Tang, Xinhua;Yao, Shun;
6:10:38:1 Multi-Walled Carbon Nanotube-Aluminum Matrix Composites Prepared by Combination of Hetero-Agglomeration Method, Spark Plasma Sintering and Hot Extrusion
DOI:10.2320/matertrans.M2011146 JN:MATERIALS TRANSACTIONS PY:2011 TC:19 AU: Kurita, Hiroki;Kwon, Hansang;Estili, Mehdi;Kawasaki, Akira;
6:10:38:2 Microstructure of a carbon fiber-reinforced aluminum matrix composite fabricated by spark plasma sintering in various pulse conditions
DOI:10.1007/s10853-014-8032-7 JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:3 AU: Lalet, Gregory;Kurita, Hiroki;Miyazaki, Takamichi;Kawasaki, Akira;Silvain, Jean-Francois;
6:10:38:3 Thermal expansion coefficient and thermal fatigue of discontinuous carbon fiber-reinforced copper and aluminum matrix composites without interfacial chemical bond
DOI:10.1007/s10853-013-7717-7 JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:4 AU: Lalet, Gregory;Kurita, Hiroki;Heintz, Jean-Marc;Lacombe, Guillaume;Kawasaki, Akira;Silvain, Jean-Francois;
6:10:38:4 Spark plasma sintering of mechanically alloyed in situ copper-niobium carbide composite
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6:10:38:5 Thermomechanical stability of a carbon fiber-reinforced aluminum matrix composite fabricated by spark plasma sintering in various pulse conditions
DOI:10.1016/j.matlet.2014.05.070 JN:MATERIALS LETTERS PY:2014 TC:3 AU: Lalet, Gregory;Kurita, Hiroki;Miyazaki, Takamichi;Kawasaki, Akira;Silvain, Jean-Francois;
6:10:39:1 Investigation on microstructure and wear behavior of the NiAl-TiC-Al2O3 composite fabricated by self-propagation high-temperature synthesis with extrusion
DOI:10.1016/j.jallcom.2012.11.144 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:14 AU: Sheng, L. Y.;Yang, F.;Xi, T. F.;Guo, J. T.;
6:10:39:2 Study the effect of mechanical alloying parameters on synthesis of Cr2Nb-Al2O3 nanocomposite
DOI:10.1016/j.materresbull.2013.08.053 JN:MATERIALS RESEARCH BULLETIN PY:2014 TC:1 AU: Shayesteh, Payam;Mirdamadi, Shamseddin;Razavi, Hossein;
6:10:39:3 Investigation of in-situ synthesis of NbAl3/Al2O3 nanocomposite by mechanical alloying and its formation mechanism
DOI:10.1016/j.jallcom.2010.05.046 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:9 AU: Mostaan, H.;Karimzadeh, F.;Abbasi, M. H.;
6:10:39:4 In-situ fabrication of Al3V/Al2O3 nanocomposite through mechanochemical synthesis and evaluation of its mechanism
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6:10:39:5 Microstructure characteristics and compressive properties of NiAl-based multiphase alloy during heat treatments
DOI:10.1016/j.msea.2011.07.072 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:18 AU: Sheng, L. Y.;Xie, Y.;Xi, T. F.;Guo, J. T.;Zheng, Y. F.;Ye, H. Q.;
6:10:39:6 Microstructure evolution and mechanical properties of Ni3Al/Al2O3 composite during self-propagation high-temperature synthesis and hot extrusion
DOI:10.1016/j.msea.2012.06.042 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:14 AU: Sheng, L. Y.;Yang, F.;Xi, T. F.;Guo, J. T.;Ye, H. Q.;
6:10:39:7 In Situ Synthesis of Ti5Si3 Matrix Nanocomposites Reinforced with Nanoparticles by High-Energy Mechanical Alloying
DOI:10.1002/adem.201000377 JN:ADVANCED ENGINEERING MATERIALS PY:2011 TC:3 AU: Li, Chuang;Gu, Dongdong;Shen, Yifu;Meng, Guangbin;Li, Yufang;
6:10:39:8 Primary MC decomposition and its effects on the rupture behaviors in hot-corrosion resistant Ni-based superalloy K444
DOI:10.1016/j.msea.2012.05.077 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:6 AU: Wang, Jian;Zhou, Lanzhang;Qin, Xuezhi;Sheng, Liyuan;Hou, Jieshan;Guo, Jianting;
6:10:40:1 Effects of mechanical alloying on an Al6061-CNT composite fabricated by semi-solid powder processing
DOI:10.1016/j.msea.2012.01.025 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:23 AU: Wu, Yufeng;Kim, Gap-Yong;Russell, Alan M.;
6:10:40:2 Mechanical alloying of carbon nanotube and Al6061 powder for metal matrix composites
DOI:10.1016/j.msea.2011.10.121 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:12 AU: Wu, Yufeng;Kim, Gap-Yong;Russell, Alan M.;
6:10:40:3 Fabrication of Al6061 composite with high SiC particle loading by semi-solid powder processing
DOI:10.1016/j.actamat.2010.04.036 JN:ACTA MATERIALIA PY:2010 TC:23 AU: Wu, Yufeng;Kim, Gap-Yong;Anderson, Iver E.;Lograsso, Thomas A.;
6:10:40:4 Study on the progress of solidification, deformation and densification during semi-solid powder rolling
DOI:10.1016/j.powtec.2014.04.001 JN:POWDER TECHNOLOGY PY:2014 TC:3 AU: Luo, Xia;Liu, Yunzhong;Gu, Caixin;Li, Zhilong;
6:10:40:5 Compaction behavior of Al6061 powder in the semi-solid state
DOI:10.1016/j.powtec.2011.08.017 JN:POWDER TECHNOLOGY PY:2011 TC:12 AU: Wu, Yufeng;Kim, Gap-Yong;
6:10:41:1 Nanocrystalline Al/Al-12(Fe,V)(3)Si alloy prepared by mechanical alloying: Synthesis and thermodynamic analysis
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6:10:41:2 Nanocrystalline intermetallic compounds in the Ni-Al-Cr system synthesized by mechanical alloying and their thermodynamic analysis
DOI:10.1016/j.jallcom.2013.07.037 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:2 AU: Bidabadi, A. R. Shirani;Enayati, M. H.;Dastanpoor, E.;Varin, R. A.;Biglari, M.;
6:10:41:3 Formation and characterization of amorphous-nanocrystalline Al80Fe10M10 [M = Fe, Nb, Ti, Ni, (Ni0.5Ti0.5)] alloys
DOI:10.1016/j.jallcom.2012.11.038 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:6 AU: Tavoosi, M.;Karimzadeh, F.;Enayati, M. H.;
6:10:41:4 Amorphous phase formation in Al80Fe10M10 (M = Ni, Ti, and V) ternary systems by mechanical alloying
DOI:10.1007/s10853-011-5741-z JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:7 AU: Tavoosi, M.;Karimzadeh, F.;Enayati, M. H.;Joo, S. -H.;Kim, H. S.;
6:10:41:5 Investigation of chromium effect on synthesis behavior of nickel aluminide during mechanical alloying process
DOI:10.1016/j.jallcom.2010.06.014 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:6 AU: Alizadeh, Mostafa;Mohammadi, Ghaffar;Fakhrabadi, Gholam-Hosein Akbari;Aliabadi, Morteza Mirzaei;
6:10:41:6 An experimental study on synthesizing TiC-TiB2-Ni composite coating using electro-thermal explosion ultra-high speed spraying method
DOI:10.1016/j.matlet.2009.12.038 JN:MATERIALS LETTERS PY:2010 TC:10 AU: Liu, Jing-jing;Liu, Zong-de;
6:10:41:7 A novel method for the preparation of Al-Mg intermetallic coating
DOI:10.1016/j.matlet.2010.10.037 JN:MATERIALS LETTERS PY:2011 TC:3 AU: Song, G.;Shen, Q. X.;Zhu, M. L.;
6:10:41:8 Effect of micro-alloying chromium on the corrosion resistance of nanocrystalline nickel aluminide intermetallic produced by mechanical alloying process
DOI:10.1016/j.matlet.2011.09.068 JN:MATERIALS LETTERS PY:2012 TC:1 AU: Alizadeh, Mostafa;Mohammadi, Ghaffar;
6:10:41:9 Metastable Phases in Al80Fe10Ti5Ni5 Alloy Fabricated by Non-Equilibrium Processes
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6:10:42:1 Effect of the surface preparation techniques on the EBSD analysis of a friction stir welded AA1100-B4C metal matrix composite
DOI:10.1016/j.matchar.2011.06.007 JN:MATERIALS CHARACTERIZATION PY:2011 TC:19 AU: Guo, J.;Amira, S.;Gougeon, P.;Chen, X. -G.;
6:10:42:2 Effect of friction stir welding on microstructure, mechanical and wear properties of AA6061/ZrB2 in situ cast composites
DOI:10.1016/j.msea.2012.02.085 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:12 AU: Dinaharan, I.;Murugan, N.;
6:10:42:3 In situ formed Al3Ti particles in Al alloy matrix and their effects on the microstructure and mechanical properties of 7075 alloy
DOI:10.1557/jmr.2014.123 JN:JOURNAL OF MATERIALS RESEARCH PY:2014 TC:0 AU: Liu, Zhiwei;Rakita, Milan;Wang, Xiaoming;Xu, Wilson;Han, Qingyou;
6:10:42:4 Microstructure and tensile properties of in situ TiCp/Al-4.5 wt.% Cu composites obtained by direct reaction synthesis
DOI:10.1016/j.msea.2010.08.098 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:11 AU: Liang, Y. F.;Zhou, J. E.;Dong, S. Q.;
6:10:42:5 Influence of in situ formed ZrB2 particles on microstructure and mechanical properties of AA6061 metal matrix composites
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6:10:42:6 Synthesis of submicrometer-sized TiC particles in aluminum melt at low melting temperature
DOI:10.1557/jmr.2014.56 JN:JOURNAL OF MATERIALS RESEARCH PY:2014 TC:1 AU: Liu, Zhiwei;Wang, Xiaoming;Han, Qingyou;Li, Jianguo;
6:10:42:7 Fabrication of in situ Al3Ti/Al composites by using ultrasound assisted direct reaction between solid Ti powders and liquid Al
DOI:10.1016/j.powtec.2013.07.005 JN:POWDER TECHNOLOGY PY:2013 TC:7 AU: Liu, Zhiwei;Han, Qingyou;Li, Jianguo;
6:10:42:8 Effects of the addition of Ti powders on the microstructure and mechanical properties of A356 alloy
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6:10:42:9 Matrix grain characterisation by electron backscattering diffraction of powder metallurgy aluminum matrix composites reinforced with MoSi2 intermetallic particles
DOI:10.1016/j.matchar.2010.08.010 JN:MATERIALS CHARACTERIZATION PY:2010 TC:3 AU: Corrochano, J.;Hidalgo, P.;Lieblich, M.;Ibanez, J.;
6:10:43:1 Combustion synthesis of NiAl matrix composite powder reinforced by TiB2 and TiN particulates from Ni-Al-Ti-BN reaction system
DOI:10.1016/j.jallcom.2013.09.020 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:1 AU: Shokati, Ali Akbar;Parvin, Nader;Shokati, Mohammad;
6:10:43:2 Characterization of NiAl with cobalt produced by combustion synthesis
DOI:10.1016/j.jallcom.2010.08.056 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:3 AU: Ozdemir, O.;Zeytin, S.;Bindal, C.;
6:10:43:3 Development of in situ NiAl-Al2O3 nanocomposite by reactive milling and spark plasma sintering
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6:10:43:4 In situ synthesis of NiAl-NbB2 composite powder through combustion synthesis
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6:10:43:5 Combustion synthesis of TiC-NiAl composite by induction heating
DOI:10.1016/j.jeurceramsoc.2010.06.002 JN:JOURNAL OF THE EUROPEAN CERAMIC SOCIETY PY:2010 TC:10 AU: Zhu, X.;Zhang, T.;Marchant, D.;Morris, V.;
6:10:43:6 Long term stability and mechanical properties of Al2O3-NiAl composites reinforced with partially fragmented long fibers
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6:10:43:7 Mechanical activation of aluminothermic reduction of NiO by high energy ball milling
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6:10:43:8 Ultrafine-grained, high-strength NiAl with Al2O3 and Al4C3 nanosized particles dispersed via mechanical alloying in toluene with spark plasma sintering
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6:10:43:9 The mechanism of combustion synthesis of (TiCxNy-TiB2)/Ni from a Ni-Ti-C-BN system
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6:10:44:1 Evolution of interfacial nanostructures and stress states in Mg matrix composites reinforced with coated continuous carbon fibers
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6:10:44:2 Effect of Y addition on the interfacial microstructures and mechanical properties of C-f/Mg composites
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6:10:44:3 Interfacial and fracture behavior of short-fibers reinforced AE44 based magnesium matrix composites
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6:10:44:4 Wear behaviors of C-f/Mg composites fabricated by extrusion directly following vacuum pressure infiltration technique
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6:10:44:5 Mechanical properties and wear behavior of Al-2 wt.% Cu alloy composites reinforced by B4C nanoparticles and fabricated by mechanical milling and hot extrusion
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6:10:44:6 Temperature effects on the dry sliding wear of Al2O3f/SiCp/Al MMCs with different fiber orientations and hybrid ratios
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6:10:44:7 Wear performance of nano-Al2O3 particles and CNTs reinforced magnesium matrix composites by friction stir processing
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6:10:44:8 Interfacial reaction and nanostructures in Mg matrix composites reinforced with carbon fibers modified by sol-gel method
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6:10:45:1 Study on depth-related microstructure and wear property of rare earth nitrocarburized layer of M50NiL steel
DOI:10.1016/j.apsusc.2013.10.169 JN:APPLIED SURFACE SCIENCE PY:2014 TC:2 AU: Yan, M. F.;Zhang, C. S.;Sun, Z.;
6:10:45:2 Optimizing the mechanical properties of M50NiL steel by plasma nitrocarburizing
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6:10:45:3 Effect of surface nanocrystallization on the tribological properties of 1Cr18Ni9Ti stainless steel
DOI:10.1016/j.matlet.2011.01.041 JN:MATERIALS LETTERS PY:2011 TC:19 AU: Ma, Guo-zheng;Xu, Bin-shi;Wang, Hai-dou;Si, Hong-juan;Yang, Da-xiang;
6:10:45:4 Zirconium based bulk metallic glass-Better resistance to slurry erosion compared to hydroturbine steel
DOI:10.1016/j.wear.2013.08.016 JN:WEAR PY:2013 TC:2 AU: Arora, H. S.;Grewal, H. S.;Singh, H.;Mukherjee, S.;
6:10:45:5 Improving tribological properties of tool steels through combination of deep-cryogenic treatment and plasma nitriding
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6:10:45:6 Effects of surface nanocrystallization pretreatment on low-temperature ion sulfurization behavior of 1Cr18Ni9Ti stainless steel
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6:10:45:7 Erosion and wear behavior of nitrocarburized DC53 tool steel
DOI:10.1016/j.wear.2009.10.012 JN:WEAR PY:2010 TC:8 AU: Wen, Dong-Cherng;
6:10:45:8 Surface Nanocrystalline of Martensite Steel Induced by Sandblasting at High Temperature
DOI:10.1002/adem.201200252 JN:ADVANCED ENGINEERING MATERIALS PY:2013 TC:1 AU: Fu, Licai;Li, Dongyang;
6:10:45:9 Characterization of the carbides and the martensite phase in powder-metallurgy high-speed steel
DOI:10.1016/j.matchar.2010.02.003 JN:MATERIALS CHARACTERIZATION PY:2010 TC:17 AU: Godec, Matjaz;Batic, Barbara Setina;Mandrino, Djordje;Nagode, Ales;Leskovsek, Vojteh;Skapin, Sreco D.;Jenko, Monika;
6:10:46:1 The effect of process control agent on the structure and magnetic properties of nanocrystalline mechanically alloyed Fe-45% Ni powders
DOI:10.1016/j.jmmm.2013.05.007 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2013 TC:1 AU: Gheisari, Kh.;Javadpour, S.;
6:10:46:2 Effect of process control agent on the porous structure and mechanical properties of a biomedical Ti-Sn-Nb alloy produced by powder metallurgy
DOI:10.1016/j.actbio.2009.10.005 JN:ACTA BIOMATERIALIA PY:2010 TC:29 AU: Nouri, A.;Hodgson, P. D.;Wen, C. E.;
6:10:46:3 Phase and magnetic studies of the high-energy alloyed Ni-Fe
DOI:10.1016/j.jallcom.2014.01.138 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:1 AU: Jiraskova, Y.;Bursik, J.;Turek, I.;Hapla, M.;Titov, A.;Zivotsky, O.;
6:10:46:4 Characterization of mechanically alloyed f.c.c. Ti-Mg-based powders
DOI:10.1016/j.powtec.2010.11.023 JN:POWDER TECHNOLOGY PY:2011 TC:4 AU: Machin, C.;Nyabadza, D.;Sibanda, V.;Chikwanda, H. K.;
6:10:46:5 Influence of Fe2O3 on alloying and magnetic properties of Fe-Al
DOI:10.1016/j.mseb.2014.03.012 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2014 TC:2 AU: Jiraskova, Y.;Bursik, J.;Zivotsky, O.;Cuda, J.;
6:10:46:6 Solid-state reactions during mechanical milling of Fe-Al under nitrogen atmosphere
DOI:10.1016/j.jallcom.2013.03.087 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:8 AU: Jiraskova, Y.;Bursik, J.;Cizek, J.;Jancik, D.;
6:10:47:1 Dispersion and diameter separation of multi-wall carbon nanotubes in aqueous solutions
DOI:10.1016/j.jcis.2010.01.081 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2010 TC:40 AU: Bystrzejewski, M.;Huczko, A.;Lange, H.;Gemming, T.;Buechner, B.;Ruemmeli, M. H.;
6:10:47:2 Dispersion of carbon nanotubes in iron by wet processing for the preparation of iron-carbon nanotube composites
DOI:10.1016/j.powtec.2014.03.006 JN:POWDER TECHNOLOGY PY:2014 TC:0 AU: Mandi Sotoudehnia, Mohammad;Paul, A.;
6:10:47:3 Influence of nano-reinforcements on the mechanical properties and microstructure of titanium matrix composites
DOI:10.1016/j.compscitech.2011.04.005 JN:COMPOSITES SCIENCE AND TECHNOLOGY PY:2011 TC:9 AU: Melendez, I. Montealegre;Neubauer, E.;Angerer, P.;Danninger, H.;Torralba, J. M.;
6:10:47:4 Highly Efficient Hyperbranched CNT Surfactants: Influence of Molar Mass and Functionalization
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6:10:47:5 Analysis of Stability of Nanotube Dispersions Using Surface Tension Isotherms
DOI:10.1021/la2028466 JN:LANGMUIR PY:2011 TC:20 AU: Sa, Vijoya;Kornev, Konstantin G.;
6:10:47:6 Elaboration of single wall carbon nanotubes-based gas sensors: Evaluating the bundling effect on the sensor performance
DOI:10.1016/j.tsf.2012.02.071 JN:THIN SOLID FILMS PY:2012 TC:6 AU: Ndiaye, Amadou L.;Varenne, Christelle;Bonnet, Pierre;Petit, Elodie;Spinelle, Laurent;Brunet, Jerome;Pauly, Alain;Lauron, Bernard;
6:10:47:7 Dye-assisted dispersion of single-walled carbon nanotubes for solution fabrication of NO2 sensors
DOI:10.1063/1.4752760 JN:AIP ADVANCES PY:2012 TC:0 AU: Ramli, M. M.;Zhang, W.;Silva, S. R. P.;Henley, S. J.;
6:10:47:8 Fabrication and characterization of Al-matrix composites reinforced with amino-functionalized carbon nanotubes
DOI:10.1016/j.compscitech.2011.10.007 JN:COMPOSITES SCIENCE AND TECHNOLOGY PY:2011 TC:7 AU: Singhal, S. K.;Pasricha, Renu;Teotia, Satish;Kumar, Girish;Mathur, R. B.;
6:10:47:9 Consolidation of titanium matrix composites to maximum density by different hot pressing techniques
DOI:10.1016/j.msea.2010.03.093 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:3 AU: Melendez, I. Montealegre;Neubauer, E.;Danninger, H.;
6:10:48:1 Preparation and characterization of aluminum matrix composites based on Al-WO3 system
DOI:10.1016/j.jallcom.2012.07.132 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:2 AU: Fan, G. H.;Wang, Q. W.;Geng, L.;Wang, G. S.;Feng, Y. C.;
6:10:48:2 Effect of co-modification by Ba and Sb on the microstructure of Mg2Si/Mg-Zn-Si composite and mechanism
DOI:10.1016/j.jallcom.2013.12.041 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:0 AU: Chen, Ke;Li, Ziquan;
6:10:48:3 ZrC particle reinforced Al-4 wt.% Cu alloy composites fabricated by mechanical alloying and vacuum hot pressing: Microstructural evaluation and mechanical properties
DOI:10.1016/j.msea.2010.06.007 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:9 AU: Kaftelen, Huelya;Ovecoglu, M. Lutfi;Henein, Hani;Cimenoglu, Hueseyin;
6:10:48:4 In situ WAl12 particle-reinforced Al matrix composites synthesized by combining mechanical alloying and vacuum hot pressing technology
DOI:10.1016/j.jallcom.2011.12.168 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:2 AU: Cai, Shuguang;Ma, Xianfeng;Tang, Huaguo;
6:10:48:5 Characterization of severely deformed new composites fabricated by powder metallurgy including a stage of mechanical alloying
DOI:10.1016/j.jallcom.2014.08.031 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:1 AU: Ashuri, H.;Hassani, A.;
6:10:49:1 Effect of upset forging on microstructure and tensile properties in a devitrified Al-Ni-Co-Y Alloy
DOI:10.1007/s10853-013-7185-0 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:2 AU: Gordillo, M. A.;Zhang, L. C.;Watson, T. J.;Aindow, M.;
6:10:49:2 Synthesis of nanocomposites and amorphous alloys by mechanical alloying
DOI:10.1007/s10853-011-5287-0 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:14 AU: Suryanarayana, C.;Klassen, T.;Ivanov, E.;
6:10:49:3 Crystallization and microstructural evolution process from the mechanically alloyed amorphous SiBCN powder to the hot-pressed nano SiC/BN(C) ceramic
DOI:10.1007/s10853-012-6683-9 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:2 AU: Zhang, Pengfei;Jia, Dechang;Yang, Zhihua;Duan, Xiaoming;Zhou, Yu;
6:10:49:4 Effect of heat-treatment on phase stability and grain coarsening in a powder-processed Al-Ni-Co-Zr-Y alloy
DOI:10.1007/s10853-014-8297-x JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:0 AU: Gordillo, M. A.;Bedard, B.;Watson, T. J.;Aindow, M.;
6:10:49:5 Formation of B19 ', B2, and amorphous phases during mechano-synthesis of nanocrystalline NiTi intermetallics
DOI:10.1016/j.powtec2013.12.029 JN:POWDER TECHNOLOGY PY:2014 TC:0 AU: Amini, Rasool;Alijani, Fatemeh;Ghaffari, Mohammad;Alizadeh, Morteza;Okyay, Ali Kemal;
6:10:49:6 Mechanical synthesis of nanostructured titanium-nickel alloys
DOI:10.1016/j.apt.2010.01.010 JN:ADVANCED POWDER TECHNOLOGY PY:2010 TC:6 AU: Radev, D. D.;
6:10:49:7 Microstructural evolution during mechanical milling of Ti/Al powder mixture and production of intermetallic TiAl cathode target
DOI:10.1007/s10853-011-5886-9 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:6 AU: Gabbitas, Brian;Cao, Peng;Raynova, Stella;Zhang, Deliang;
6:10:49:8 Phase stability in a powder-processed Al-Mn-Ce alloy
DOI:10.1007/s10853-014-8086-6 JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:1 AU: Gordillo, M. A.;Cernatescu, I.;Aindow, T. T.;Watson, T. J.;Aindow, M.;
6:10:50:1:1 Time delay neural network modeling for particle size in SAG mills
DOI:10.1016/j.powtec.2010.09.023 JN:POWDER TECHNOLOGY PY:2011 TC:10 AU: Ko, Young-Don;Shang, Helen;
6:10:50:1:2 A neural network-based soft sensor for particle size distribution using image analysis
DOI:10.1016/j.powtec.2011.06.013 JN:POWDER TECHNOLOGY PY:2011 TC:13 AU: Ko, Young-Don;Shang, Helen;
6:10:50:1:3 Soft sensing of particle size in a grinding process: Application of support vector regression, fuzzy inference and adaptive neuro fuzzy inference techniques for online monitoring of cement fineness
DOI:10.1016/j.powtec.2014.05.051 JN:POWDER TECHNOLOGY PY:2014 TC:4 AU: Pani, Ajaya Kumar;Mohanta, Hare Krishna;
6:10:50:1:4 Estimation of particle size distribution on an industrial conveyor belt using image analysis and neural networks
DOI:10.1016/j.powtec.2014.04.038 JN:POWDER TECHNOLOGY PY:2014 TC:2 AU: Hamzeloo, E.;Massinaei, M.;Mehrshad, N.;
6:10:50:1:5 Minimizing profile error when estimating the sieve-size distribution of iron ore pellets using ordinal logistic regression
DOI:10.1016/j.powtec.2010.09.021 JN:POWDER TECHNOLOGY PY:2011 TC:2 AU: Andersson, Tobias;Thurley, Matthew J.;
6:10:50:2:1 Measurement of the floating particle size distribution by a buoyancy weighing-bar method
DOI:10.1016/j.powtec.2010.04.015 JN:POWDER TECHNOLOGY PY:2010 TC:4 AU: Motoi, Takumi;Ohira, Yuichi;Obata, Eiji;
6:10:50:2:2 Size distribution measurement of floating particles in the Allen region by a buoyancy weighing-bar method
DOI:10.1016/j.apt.2010.11.012 JN:ADVANCED POWDER TECHNOLOGY PY:2011 TC:1 AU: Tambun, Rondang;Motoi, Takumi;Shimadzu, Masamitsu;Ohira, Yuichi;Obata, Eiji;
6:10:50:2:3 Sizes influences of weighing bar and vessel in the buoyancy weighing-bar method on floating particle size distribution measurements
DOI:10.1016/j.apt.2011.12.002 JN:ADVANCED POWDER TECHNOLOGY PY:2012 TC:0 AU: Tambun, Rondang;Nakano, Kazuya;Shimadzu, Masamitsu;Ohira, Yuichi;Obata, Eiji;
6:10:50:3:1 An improved estimation of coal particle mass using image analysis
DOI:10.1016/j.powtec.2012.06.027 JN:POWDER TECHNOLOGY PY:2012 TC:7 AU: Zhang, Zelin;Yang, Jianguo;Ding, Lihua;Zhao, Yuemin;
6:10:50:3:2 Harmful effects of airborne dust diffused from ceramic tiles during home decoration
DOI:10.1016/j.powtec.2014.07.014 JN:POWDER TECHNOLOGY PY:2014 TC:0 AU: Lu, Zhaolin;He, Yaqun;Yu, Bing;Hu, Xiaojuan;
6:10:51:1 Effects of the corona pretreatment of PET substrates on the properties of flexible transparent CNT electrodes
DOI:10.1016/j.tsf.2014.09.066 JN:THIN SOLID FILMS PY:2014 TC:1 AU: Han, Sang-Hoon;Kim, Bu-Jong;Park, Jin-Seok;
6:10:51:2 Correlation between electrokinetic potential, dispersibility, surface chemistry and energy of carbon nanotubes
DOI:10.1016/j.compscitech.2011.07.014 JN:COMPOSITES SCIENCE AND TECHNOLOGY PY:2011 TC:11 AU: Ma, Peng-Cheng;Siddiqui, Naveed A.;Maeder, Edith;Kim, Jang-Kyo;
6:10:51:3 Covalent functionalization of carbon nanotubes for ultimate interfacial adhesion to liquid crystalline polymer
DOI:10.1039/c1sm05360d JN:SOFT MATTER PY:2011 TC:9 AU: Sahoo, Nanda Gopal;Cheng, Henry Kuo Feng;Bao, Hongqian;Pan, Yongzheng;Li, Lin;Chan, Siew Hwa;
6:10:51:4 Mechanical behavior of ultrafine-grained Ni-carbon nanotube composite
DOI:10.1007/s10853-013-7897-1 JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:2 AU: Nguyen, Jonathan;Holland, Troy B.;Wen, Haiming;Fraga, Martin;Mukherjee, Amiya;Lavernia, Enrique;
6:10:51:5 Pretreatment of Polypropylene Films for the Creation of Thin Polymer Layers, Part 1: The Use of Chemical, Electrochemical, and UV Methods
DOI:10.1002/app.34301 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2011 TC:4 AU: Urbaniak-Domagala, Wieslawa;
6:10:51:6 Collagen immobilization on polyethylene terephthalate surface after helium plasma treatment
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6:10:52:1 Preparation and mechanical properties of in situ TiCx-Ni (Si, Ti) alloy composites
DOI:10.1016/j.msea.2014.08.020 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Wang, Wenjuan;Zhai, Hongxiang;Chen, Lin;Huang, Zhenying;Bei, Guoping;Baumgaertner, Christoph;Greil, Peter;
6:10:52:2 Microstructure and mechanical behaviors of in situ TiC particulates reinforced Ni matrix composites
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6:10:52:3 Microstructure and mechanical properties of TiC0.5 reinforced copper matrix composites
DOI:10.1016/j.msea.2013.09.054 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: Li, Mengqi;Zhai, Hongxiang;Huang, Zhenying;Liu, Xiaohan;Zhou, Yang;Li, Shibo;Li, Cuiwei;
6:10:52:4 Effect of powders refinement on the tribological behavior of Ni-based composite coatings by laser cladding
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6:10:52:5 Microstructural characterization and compression properties of TiC0.(61)/Cu(Al) composite synthesized from Cu and Ti3AlC2 powders
DOI:10.1016/j.jallcom.2014.02.159 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:4 AU: Huang, Zhenying;Bonneville, Joel;Zhai, Hongxiang;Gauthier-Brunet, Veronique;Dubois, Sylvain;
6:10:52:6 Fabrication and characterization of reactive Ni-Ti-C powder by mechanical alloying
DOI:10.1016/j.jallcom.2013.11.156 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:2 AU: Sadeghian, Zohreh;Zohari, Shokat;Lotfi, Behnam;Broeckmann, Christoph;
6:10:52:7 Fabrication of Ni/WC composite with two distinct layers through centrifugal infiltration combined with a thermite reaction
DOI:10.1016/j.ceramint.2013.06.101 JN:CERAMICS INTERNATIONAL PY:2014 TC:0 AU: Xu, Yu;Yang, Zengchao;Han, Zhao;Liu, Guanghua;Li, Jiangtao;
6:10:52:8 Nanoparticulate-Reinforced Composites Prepared by Laser Solution and Aging Treatments
DOI:10.1080/10584587.2013.787832 JN:INTEGRATED FERROELECTRICS PY:2013 TC:0 AU: Wang, Weifu;Zheng, Yugui;Hong, Yang;
6:10:53:1 Mechanochemically activated synthesis of zirconium carbide nanoparticles at room temperature: A simple route to prepare nanoparticles of transition metal carbides
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6:10:53:2 Spark plasma sintering of the nonstoichiometric ultrafine-grained titanium carbides with nano superstructural domains of the ordered carbon vacancies
DOI:10.1016/j.matchemphys.2011.06.048 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2011 TC:9 AU: Xiang, JianYong;Hu, WenTao;Liu, ShaoCun;Chen, CanKun;Zhang, Yang;Wang, Peng;Wang, HaiTao;Wen, FuSheng;Xu, Bo;Yu, DongLi;He, JuLong;Tian, Yongjun;Liu, Zhongyuan;
6:10:53:3 Mechanical properties of nanocrystalline TiC-ZrC solid solutions fabricated by spark plasma sintering
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6:10:53:4 Superstructural nanodomains of ordered carbon vacancies in nonstoichiometric ZrC0.61
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6:10:53:5 {111} twinning structure and interfacial energy in nonstoichiometric TiCx with ordered carbon vacancies
DOI:10.1016/j.matchar.2014.01.026 JN:MATERIALS CHARACTERIZATION PY:2014 TC:1 AU: Li, XiaoXia;Xiang, JianYong;Hu, WenTao;
6:10:53:6 Synthesis of ultrafine zirconium carbide particles by SHS in an Al-Zr-C system: Microstructural evaluation and formation mode
DOI:10.1016/j.jallcom.2013.02.091 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:1 AU: Song, Mousheng;Ran, Maowu;Long, Yu;
6:10:53:7 Effects of ZrC on microstructure, mechanical properties and thermal shock resistance of TiC-ZrC-Co-Ni cermets
DOI:10.1016/j.msea.2012.11.003 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:8 AU: Zhang, Xiaobo;Liu, Ning;
6:10:54:1 Computational structural modeling and mechanical behavior of carbon nanotube reinforced aluminum matrix composites
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6:10:54:2 Compressive behavior of CNT-reinforced aluminum composites using molecular dynamics
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6:10:54:3 Experimental and numerical investigation into the effect of carbon nanotube buckling on the reinforcement of CNT/Cu composites
DOI:10.1016/j.compscitech.2013.02.003 JN:COMPOSITES SCIENCE AND TECHNOLOGY PY:2013 TC:6 AU: Tsai, Ping-Chi;Jeng, Yeau-Ren;
6:10:54:4 SiC formation on carbon nanotube surface for improving wettability with aluminum
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6:10:54:5 Preparation by mechanical alloying of Al powders with single-, double-, and multi-walled carbon nanotubes for carbon/metal nanocomposites
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6:10:54:6 Composite structure modeling and mechanical behavior of particle reinforced metal matrix composites
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6:10:54:7 Low-temperature solid-state dissolution of carbon atoms into aluminum nanoparticles
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6:10:55:1 Nanoquasicrystalline Al-Fe-Cr-based alloys with high strength at elevated temperature
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6:10:55:2 Properties of the thermally stable Al95Cr3.1Fe1.1Ti0.8 alloy prepared by cold-compression at ultra-high pressure and by hot-extrusion
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6:10:55:3 The use of Nb in rapid solidified Al alloys and composites
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6:10:55:4 Powder metallurgy Al-6Cr-2Fe-1Ti alloy prepared by melt atomisation and hot ultra-high pressure compaction
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6:10:55:5 Laser remelting of Al91Fe4Cr3Ti2 quasicrystalline phase former alloy
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6:10:55:6 Formation of nano quasicrystalline and crystalline phases by mechanical alloying
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6:10:55:7 Nanoquasicrystalline Al-Fe-Cr-Nb alloys produced by powder metallurgy
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6:10:55:8 Effect of different annealing atmospheres on crystallization and corrosion resistance of Al86Ni9La5 amorphous alloy
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6:10:56:1 Structural and microstructural phase evolution during mechano-synthesis of nanocrystalline/amorphous CuAlMn alloy powders
DOI:10.1016/j.apt.2013.03.005 JN:ADVANCED POWDER TECHNOLOGY PY:2013 TC:2 AU: Amini, R.;Mousavizad, S. M. M.;Abdollahpour, H.;Ghaffari, M.;Alizadeh, M.;Okyay, Ali K.;
6:10:56:2 The effect of mechanical alloying on microstructure and mechanical properties of MoSi2 prepared by spark plasma sintering
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6:10:56:3 Synthesis and structural characterization of nanocrystalline (Ni, Fe)(3)Al intermetallic compound prepared by mechanical alloying
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6:10:56:4 The effect of temperature on the in situ synthesis-sintering and mechanical properties of MoSi2 prepared by spark plasma sintering
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6:10:56:5 Synthesis and characterization of nano structured Cu-Al-Mn shape memory alloy by mechanical alloying
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6:10:56:6 The synthesis and characterization of ultrafine grain NiAl intermetallic
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6:10:57:1 Synthesis of titanium diboride reinforced alumina matrix nanocomposite by mechanochemical reaction of Al-TiO2-B2O3
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6:10:57:2 Influence of AlN layers on mechanical properties and thermal stability of Cr-based nitride coatings
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6:10:57:3 The features of combustion and structure formation of ceramic materials in the Cr-Al-Si-B system
DOI:10.1016/j.ceramint.2014.07.068 JN:CERAMICS INTERNATIONAL PY:2014 TC:1 AU: Pogozhev, Yu S.;Potanin, A. Yu;Levashov, E. A.;Kovalev, D. Yu;
6:10:57:4 Self-propagating high-temperature synthesis of advanced ceramics in the Mo-Si-B system: Kinetics and mechanism of combustion and structure formation
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6:10:57:5 Combustion synthesis of MoSi2 and MoSi2-Mo5Si3 composites: Multi layer modeling and control of the microstructure
DOI:10.1016/j.jallcom.2010.06.024 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:6 AU: Baras, F.;Kondepudi, D. K.;Bernard, F.;
6:10:57:6 A Taguchi optimisation for production of Al-B master alloys using boron oxide
DOI:10.1016/j.jallcom.2013.05.112 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:5 AU: Savas, Omer;Kayikci, Ramazan;
6:10:58:1 Modeling, analysis and optimization of aircyclones using artificial neural network, response surface methodology and CFD simulation approaches
DOI:10.1016/j.powtec.2011.05.002 JN:POWDER TECHNOLOGY PY:2011 TC:24 AU: Elsayed, Khairy;Lacor, Chris;
6:10:58:2 Performance comparison of a single and triple tangential inlet gas separation cyclone: A CFD Study
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6:10:58:3 Numerical simulation of flow field in three types of standard cyclone separators
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6:10:58:4 The effect of particle agglomeration and attrition on the separation efficiency of a Stairmand cyclone
DOI:10.1016/j.powtec.2014.03.008 JN:POWDER TECHNOLOGY PY:2014 TC:4 AU: Haig, C. W.;Hursthouse, A.;McIlwain, S.;Sykes, D.;
6:10:58:5 Simulation of catalyst loss from an industrial fluidized bed reactor on the basis of labscale attrition tests
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6:10:58:6 Modeling, analysis and optimization of aircyclones using artificial neural network, response surface methodology and CFD simulation approaches (vol 212, pg 115, 2011)
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6:10:58:7 A practical model for estimating pressure drop in cyclone separators: An experimental study
DOI:10.1016/j.powtec.2014.08.024 JN:POWDER TECHNOLOGY PY:2014 TC:2 AU: Demir, Selami;
6:10:58:8 Nonlinear programming optimization of series and parallel cyclone arrangement of NPK fertilizer plants
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6:10:59:1 Effect of SiC volume fraction and size on dry sliding wear of Fe/SiC/graphite hybrid composites for high sliding speed applications
DOI:10.1016/j.wear.2013.10.006 JN:WEAR PY:2014 TC:9 AU: Prabhu, T. Ram;Varma, V. K.;Vedantam, Srikanth;
6:10:59:2 Effect of reinforcement type, size, and volume fraction on the tribological behavior of Fe matrix composites at high sliding speed conditions
DOI:10.1016/j.wear.2013.10.001 JN:WEAR PY:2014 TC:7 AU: Prabhu, T. Ram;Varma, V. K.;Vedantam, Srikanth;
6:10:59:3 Microstructure, billet surface quality and tensile property of (Al2O3 + Al3Zr)(p)/Al composites in situ synthesized with electromagnetic field
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6:10:59:4 Experiment and modeling of mechanical properties on iron matrix composites reinforced by different types of ceramic particles
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6:10:59:5 Tribological and mechanical behavior of multilayer Cu/SiC plus Gr hybrid composites for brake friction material applications
DOI:10.1016/j.wear.2014.06.006 JN:WEAR PY:2014 TC:4 AU: Prabhu, T. Ram;Varma, V. K.;Vedantam, Srikanth;
6:10:59:6 Effects of selected nanoadditives on the friction and wear performance of carbon-carbon aircraft brake composites
DOI:10.1016/j.wear.2011.01.093 JN:WEAR PY:2011 TC:6 AU: Policandriotes, T.;Filip, P.;
6:10:60:1 Mechanically driven phase transformation in single phase Al62.5Cu25Fe12.5 quasi-crystals: Effect of milling intensity
DOI:10.1016/j.actamat.2013.03.020 JN:ACTA MATERIALIA PY:2013 TC:1 AU: Ali, F.;Scudino, S.;Gorantla, S. M.;Srivastava, V. C.;Shahid, H. R.;Uhlenwinkel, V.;Stoica, M.;Vaughan, G.;Mukhopadhyay, N. K.;Eckert, J.;
6:10:60:2 Inverse Hall-Petch effect in quasi- and nanocrystalline materials
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6:10:60:3 Grain size softening effect in Al62.5Cu25Fe12.5 nanoquasicrystals
DOI:10.1063/1.4831737 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Mukhopadhyay, N. K.;Ali, F.;Scudino, S.;Khoshkhoo, M. Samadi;Stoica, M.;Srivastava, V. C.;Uhlenwinkel, V.;Vaughan, G.;Suryanarayana, C.;Eckert, J.;
6:10:60:4 Strain rate sensitivity studies on bulk nanocrystalline aluminium by nanoindentation
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6:10:60:5 Modeling the strengthening effect of Al-Cu-Fe quasicrystalline particles in Al-based metal matrix composites
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6:10:60:6 Strain-induced structural transformation of single-phase Al-Cu-Fe icosahedral quasicrystal during mechanical milling
DOI:10.1080/14786435.2010.536178 JN:PHILOSOPHICAL MAGAZINE PY:2011 TC:7 AU: Mukhopadhyay, N. K.;Ali, F.;Srivastava, V. C.;Yadav, T. P.;Sakaliyska, M.;Surreddi, K. B.;Scudino, S.;Uhlenwinkel, V.;Eckert, J.;
6:10:60:7 XRD and HREM studies from the decomposition of icosahedral AlCuFe single-phase by high-energy ball milling
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6:10:61:1 Synthesis and characterization of nanocrystalline CoTi intermetallic compound prepared by mechanical alloying
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6:10:61:2 Synthesis of nanocrystalline Ni3Al by mechanical alloying and its microstructural characterization
DOI:10.1016/j.jallcom.2010.03.123 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:7 AU: Yu, Youjun;Zhou, Jiansong;Chen, Jianmin;Zhou, Huidi;Guo, Chun;Guo, Baogang;
6:10:61:3 Effect of milling variables on the synthesis of NiAl intermetallic compound by mechanical alloying
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6:10:61:4 Stress in electrodeposited CoFe alloy films
DOI:10.1016/j.jcrysgro.2009.11.061 JN:JOURNAL OF CRYSTAL GROWTH PY:2010 TC:14 AU: Shao, I.;Romankiw, L. T.;Bonhote, C.;
6:10:61:5 Nanocrystalline cobalt-iron alloy: Synthesis and characterization
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6:10:61:6 Structural evolution of B2-NiAl synthesized by high-energy ball milling
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6:10:62:1 First-principle calculation of yield stress anomaly of Ni3Al-based alloys
DOI:10.1016/j.msea.2012.12.049 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:3 AU: Lu, Bai Lin;Chen, Guo Qing;Qu, Shen;Su, Hui;Zhou, Wen Long;
6:10:62:2 Modeling of pseudoelasticity via reversible slip in Fe3Ga
DOI:10.1016/j.commatsci.2014.02.001 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:1 AU: Wang, J.;Sehitoglu, H.;
6:10:62:3 Ni/boride interfaces and environmental embrittlement in Ni-based superalloys: A first-principles study
DOI:10.1016/j.msea.2011.09.098 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:4 AU: Sanyal, Suchismita;Waghmare, Umesh V.;Hanlon, Timothy;Hall, Ernest L.;
6:10:62:4 Investigation of the characteristics of the nanocrystalline Ni3Al-based alloy fabricated by hot pressing and sintering
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6:10:62:5 Ab initio electronic structure calculations and optical properties of ordered and disordered Ni3Al
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6:10:62:6 Magnetic perturbation and associated energies of the antiphase boundaries in ordered Ni3Al
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6:10:63:1 Thermite reduction of Ta2O5/SiO2 powder mixtures for combustion synthesis of Ta-based silicides
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6:10:63:2 Fabrication of FeNi-Al2O3 nanocomposites and optimization of mechanical properties using Taguchi method
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6:10:63:3 In situ synthesis of FeSi-Al2O3 nanocomposite powder by mechanical alloying
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6:10:63:4 Rapid synthesis and consolidation of nanostructured TaSi2-SiC-Si3N4 composite from mechanically activated powders by high-frequency induction-heated combustion
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6:10:63:5 Parametric optimization of Ti-Ni powder mixtures produced by mechanical alloying
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6:10:63:6 Phenomenological study of the densification behavior of Aluminum-Nickel powder mixtures during cold isostatic pressing and differential hydrostatic extrusion
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6:10:64:1 Mechanisms of Mono-Vacancy and Oxygen Permeability in Y2SiO5 Orthosilicate Studied by First-Principles Calculations
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6:10:64:2 Understanding the Behavior of Native Point Defects in ZrC by First-Principles Calculations
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6:10:64:3 Vacancy-cluster mechanism of metal-atom diffusion in substoichiometric carbides
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6:10:64:4 Ab initio study of point defect structures and energetics in ZrC
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6:10:64:5 Investigation of Native Point Defects and Nonstoichiometry Mechanisms of Two Yttrium Silicates by First-Principles Calculations
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6:10:65:1 Effect of friction stir processing on microstructure and mechanical properties of aluminium
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6:10:65:2 Microstructure-Property Relationship for Friction Stir Processed Magnesium Alloy
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6:10:65:3 Microstructure evolution in aluminum alloy AA 2014 during multi-layer friction deposition
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6:10:65:4 Dynamic recrystallization in friction surfaced austenitic stainless steel coatings
DOI:10.1016/j.matchar.2012.09.001 JN:MATERIALS CHARACTERIZATION PY:2012 TC:6 AU: Puli, Ramesh;Ram, G. D. Janaki;
6:10:65:5 Numerical simulation of temperature distribution using finite difference equations and estimation of the grain size during friction stir processing
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6:10:66:1 Effect of carbon nanotube damage on the mechanical properties of aluminium-carbon nanotube composites
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6:10:66:2 Yield stress of SiC reinforced aluminum alloy composites
DOI:10.1007/s10853-010-4498-0 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:8 AU: Song, Min;He, Yuehui;Fang, Shanfeng;
6:10:66:3 Strengthening behavior of chopped multi-walled carbon nanotube reinforced aluminum matrix composites
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6:10:66:4 Investigation of the interfacial phases formed between carbon nanotubes and aluminum in a bulk material
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6:10:66:5 Creep and microstructure in powder metallurgy 15 vol.% SiCp-2009 Al composite
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6:10:67:1 Superplastic behavior of Al-coated Mg alloy sheet
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6:10:67:2 Microstructure of Al-Al2O3 nanocomposite formed by in situ phase transformation during Al nanopowder consolidation
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6:10:67:3 Wear and corrosion behavior of Mg-Gd-Y-Zr alloy treated by mixed molten-salt bath
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6:10:67:4 Effect of QPQ nitriding time on wear and corrosion behavior of 45 carbon steel
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6:10:68:1 Effects of Cu interlayer on the wettability of aluminum on carbon
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6:10:68:2 Fabrication of carbon nanofiber reinforced aluminum alloy nanocomposites by a liquid process
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6:10:68:3 Adsorption effect in non-reaction wetting: In-Ti on CaF2
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6:10:68:4 Effects of CNF dispersion on mechanical properties of CNF reinforced A7xxx nanocomposites
DOI:10.1016/j.msea.2012.06.096 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:5 AU: Lim, Jun-Young;Oh, Se-Il;Kim, Yu-Chan;Jee, Kwang-Koo;Sung, Yun-Mo;Han, Jun Hyun;
6:10:68:5 Interface study of carbon fibre reinforced Al-Cu composites
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6:10:69:1 Friction and wear performance of copper graphite surface composites fabricated by friction stir processing (FSP)
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6:10:69:2 A study on graphite extrusion phenomenon under the sliding wear response of cast iron using microindentation and microscratch techniques
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6:10:69:3 Friction and wear of copper-carbon nanofibers compact composites prepared by chemical vapor deposition
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6:10:69:4 The relationship between flake graphite orientation, smearing effect, and closing tendency under abrasive wear conditions
DOI:10.1016/j.wear.2014.05.015 JN:WEAR PY:2014 TC:2 AU: Ghasemi, Rohollah;Elmquist, Lennart;
6:10:69:5 Characterization of Graphite Crystal Structure and Growth Mechanisms Using FIB and 3D Image Analysis
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6:10:70:1 Wood cellulose biocomposites with fibrous structures at micro- and nanoscale
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6:10:70:2 In situ synthesis and characterization of a hierarchically structured Al2O3/Al3Ti composite
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6:10:70:3 Fabrication of nature-inspired bulk laminar composites by a powder processing
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6:10:70:4 A non-solvent approach for high-stiffness all-cellulose biocomposites based on pure wood cellulose
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6:10:71:1 Prediction of jet penetration depth based on least square support vector machine
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6:10:71:2 Gas-solid structure in the vicinity of a sparger nozzle in a fluidized bed
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6:10:71:3 Flow regime recognition in spouted bed based on recurrence plot method
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6:10:71:4 Gas jet penetration lengths from upward and downward nozzles in dense gas-solid fluidized beds
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6:10:71:5 Prediction of jet penetration depth based on least square support vector machine (vol 203, pg 404, 2010)
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6:10:71:6 Recognition of the flow regimes in the spouted bed based on fuzzy c-means clustering
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6:10:72:1 Investigation of Ti and Cr based PVD coatings deposited onto HSS Co 5 twist drills
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6:10:72:2 Comparison of CrAlN layers obtained with one (CrAl) or two targets (Cr and Al) by magnetron sputtering
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6:10:72:3 Fabrication and performance of TiN/TiAlN nanometer modulated coatings
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6:10:72:4 Application of hard coatings for blanking and piercing tools
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6:10:72:5 Comparative study of the structure and corrosion behavior of Zr-20%Cr and Zr-20%Ti alloy films deposited by multi-arc ion plating technique
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6:10:73:1 Creep characteristics and microstructure in nano-particle strengthened AA6082
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6:10:73:2 Creep Properties in TiO2 Nanoparticle Reinforced Aluminum Matrix Composites
DOI:10.1002/adem.201300099 JN:ADVANCED ENGINEERING MATERIALS PY:2013 TC:0 AU: Shin, Jaehyuck;Bae, Donghyun;
6:10:73:3 Creep and microstructure in ultrafine-grained 5083 Al
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6:10:73:4 Creep properties of aluminum-based composite containing multi-walled carbon nanotubes
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6:10:73:5 High temperature deformation characteristics of equal channel angular pressed AA6082-T6
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6:10:74:1 Effects of Fe-Ni alloy nanoparticles on the mechanical properties and microstructures of Al2O3/Fe-Ni nanocomposites prepared by rapid sintering
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6:10:74:2 Mechanical synthesis and rapid consolidation of a nanocrystalline 5.33Fe(0.37)Cr(0.16)Al(0.4)Si(0.07)-Al2O3 composite by high-frequency induction heating
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6:10:74:3 Mechanical synthesis and rapid consolidation of a nanocrystalline 3.3Fe(0.6)Cr(0.3)Al(0.1)-Al2O3 composite by high frequency induction heating
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6:10:74:4 Rapid consolidation of nanocrystalline 3Ni-Al2O3 composite from mechanically synthesized powders by high frequency induction heated sintering
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6:10:75:1 Evaluation of thermal stability of ultrafine grained aluminium matrix composites reinforced with carbon nanotubes
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6:10:75:2 Elevated temperature tensile properties and thermal expansion of CNT/2009Al composites
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6:10:75:3 Fabrication and mechanical properties of bulk NiTip/Al composites prepared by friction stir processing
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6:10:76:1 The mechanical properties of co-continuous Si3N4/Al composites manufactured by squeeze casting
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6:10:76:2 Fabrication and Properties of Surface-Modified beta-Si3N4 Whiskers Reinforced Dental Resin Composites
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6:10:76:3 The Mechanical Properties of beta-Si3N4 Whiskers-Reinforced Dental Resin Composites
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6:10:76:4 Effect of porous Si3N4 preform on the mechanical properties of Si3N4/Al composites with interpenetrating network structure
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6:10:77:1 Electrical conductivity of nanostructured and C-60-modified aluminum
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6:10:77:2 Cu-C-60 nanocomposite with suppressed recrystallization
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6:10:77:3 Effect of metallic addition on mechanical properties in an aluminum-graphite composite synthesized by means of mechanical milling
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6:10:77:4 Fulleride of aluminum nanoclusters
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6:10:78:1 Evaluation of structure and morphology of aluminum powder particles milled at different conditions
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6:10:78:2 Synthesis of aluminum alloy 7075-graphite composites by milling processes and hot extrusion
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6:10:78:3 Mechanical and microstructural characterization of dispersion strengthened Al-C system nanocomposites
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6:10:78:4 Effect of particle additions on microstructure evolution of aluminium matrix composite
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6:10:79:1 A Different Extensional Viscosity Prediction Based on Entry Pressure Drop
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6:10:79:2 Melt Shear Viscosity of PP/Al(OH)(3)/Mg(OH)(2) Flame Retardant Composites at High Extrusion Rates
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6:10:79:3 A single-mode rheological model for steady flows of polymer melts
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6:10:79:4 Analysis of melt spinning master-curves of low density polyethylene
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6:10:80:1 The synthesis of single phase WC nanoparticles/C composite by solid state reaction involving nitrogen-rich carbonized polyaniline
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6:10:80:2 Thermal and chemical durability of nitrogen-doped carbon nanotubes
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6:10:80:3 Tungsten carbide (WC) nanopowders synthesized Via novel core-shell structured precursors
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6:10:81:1 Fabrication and thermal conductivity of near-net-shaped diamond/copper composites by pressureless infiltration
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6:10:81:2 Fabrication and infiltration kinetics analysis of Ti-coated diamond/copper composites with near-net-shape by pressureless infiltration
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6:10:81:3 Diamond tools wear and their applicability when ultra-precision turning of SiCp/2009Al matrix composite
DOI:10.1016/j.wear.2009.09.002 JN:WEAR PY:2010 TC:17 AU: Ge Yingfei;Xu Jiuhua;Yang Hui;
6:10:82:1 Microstructural analysis and properties of Al-Cu-Mg/bagasse ash particulate composites
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6:10:82:2 The study of the microstructure and interfacial reaction of Al-Cu-Mg/bagasse ash particulate composite
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6:10:82:3 Evaluation of Al-Cu-Mg alloy/bean pod ash nanoparticles synthesis by double layer feeding-stir casting method
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6:10:83:1 Numerical simulation of the influence of particle clustering on tensile behavior of particle-reinforced composites
DOI:10.1016/j.commatsci.2013.02.021 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:2 AU: Abedini, A.;Butcher, C.;Chen, Z. T.;
6:10:83:2 A micromechanical model of particle-reinforced metal matrix composites considering particle size and damage
DOI:10.1016/j.commatsci.2014.01.012 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:2 AU: Abedini, A.;Chen, Z. T.;
6:10:83:3 Fracture of high volume fraction ceramic particle reinforced aluminium under multiaxial stress
DOI:10.1016/j.actamat.2010.03.037 JN:ACTA MATERIALIA PY:2010 TC:2 AU: Hauert, Aude;Rossoll, Andreas;Mortensen, Andreas;
6:10:84:1 Microstructure evolution and mechanical properties of dissimilar friction stir welded joints between AA1100-B4C MMC and AA6063 alloy
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6:10:84:2 Dissimilar linear friction welding between a SiC particle reinforced aluminum composite and a monolithic aluminum alloy: Microstructural, tensile and fatigue properties
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6:10:84:3 Dissimilar linear friction welding between a SiC particle reinforced aluminum composite and a monolithic aluminum alloy: Microstructural, tensile and fatigue properties (vol 559, pg 852, 2013)
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6:10:85:1 Relationship between interphase chemistry and mechanical properties at the scale of micron in Cu-Cr/CF composite
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6:10:85:2 Innovative process for submicronic Cu particle deposition onto various substrates
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6:10:86:1 Nanostructured Mo3Al-based composites strengthened by Al2O3 precipitates
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6:10:86:2 A novel method for the preparation of Cu/Al2O3 nanocomposite
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6:10:87:1 Silicon dissolution and interfacial characteristics in Si/Al composites fabricated by gas pressure infiltration
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6:10:87:2 An experimental investigation of the interface characteristics of aluminium/silicon carbide
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6:10:88:1 Mechanical synthesis and rapid consolidation of nanostructured FeAl-Al2O3 composites by high-frequency induction heated sintering
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6:10:88:2 Fast low-temperature consolidation of a nanostructured 2Ti-ZrO2 composite for biomedical applications
DOI:10.1016/j.ceramint.2013.10.034 JN:CERAMICS INTERNATIONAL PY:2014 TC:3 AU: Park, Na-Ra;Song, Chul-Gyu;Shon, In-Jin;
6:11:1:1 Direct observation of the NiTi martensitic phase transformation in nanoscale volumes
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6:11:1:2 Superelastic cycling of Cu-Al-Ni shape memory alloy micropillars
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6:11:1:3 Size effects in shape memory alloy microwires
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6:11:1:4 Stress-induced martensitic transformation in nanometric NiTi shape memory alloy strips: An in situ TEM study of the thickness/size effect
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6:11:1:5 Transition from many domain to single domain martensite morphology in small-scale shape memory alloys
DOI:10.1016/j.actamat.2013.06.003 JN:ACTA MATERIALIA PY:2013 TC:6 AU: Ueland, Stian M.;Schuh, Christopher A.;
6:11:1:6 Size Independent Shape Memory Behavior of Nickel-Titanium
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6:11:1:7 Thermomechanical behavior at the nanoscale and size effects in shape memory alloys
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6:11:1:8 Grain boundary and triple junction constraints during martensitic transformation in shape memory alloys
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6:11:1:9 On the plasticity of small-scale nickel-titanium shape memory alloys
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6:11:1:10 Superelasticity and fatigue in oligocrystalline shape memory alloy microwires
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6:11:1:11 Ni59.0Mn23.5In17.5 Heusler alloy as the core of glass-coated microwires: Magnetic properties and magnetocaloric effect
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6:11:1:12 Size effects in the superelastic response of Ni54Fe19Ga27 shape memory alloy pillars with a two stage martensitic transformation
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6:11:1:13 Oligocrystalline Shape Memory Alloys
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6:11:1:14 Long-term superelastic cycling at nano-scale in Cu-Al-Ni shape memory alloy micropillars
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6:11:1:15 Surface roughness-controlled superelastic hysteresis in shape memory microwires
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6:11:1:16 Effects of grain size on the rate-dependent thermomechanical responses of nanostructured superelastic NiTi
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6:11:1:17 Superelasticity and shape memory at nano-scale: Size effects on the martensitic transformation
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6:11:1:18 Superelasticity of TiNi-based shape memory alloys at micro/nanoscale
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6:11:1:19 Investigation of the role of Ti oxide layer in the size-dependent superelasticity of NiTi pillars: Modeling and simulation
DOI:10.1016/j.actamat.2013.07.004 JN:ACTA MATERIALIA PY:2013 TC:1 AU: Qiao, Lei;Radovitzky, Raul;
6:11:1:20 Quantitative analysis of stress-induced martensites by in situ transmission electron microscopy superelastic tests in Cu-Al-Ni shape memory alloys
DOI:10.1016/j.actamat.2010.07.038 JN:ACTA MATERIALIA PY:2010 TC:9 AU: No, M. L.;Ibarra, A.;Caillard, D.;San Juan, Jose;
6:11:1:21 Superelasticity of TiNi thin films induced by cyclic nanoindentation deformation at nanoscale
DOI:10.1016/j.msea.2014.02.019 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:5 AU: Pan, Guanjun;Cao, Zhenhua;Wei, Mingzhen;Xu, Lijun;Shi, Jun;Meng, Xiangkang;
6:11:1:22 Ambient effect on damping peak of NiTi shape memory alloy
DOI:10.1016/j.matlet.2010.03.068 JN:MATERIALS LETTERS PY:2010 TC:35 AU: He, Yongjun;Yin, Hao;Zhou, Runhua;Sun, Qingping;
6:11:1:23 Nonlocal Superelastic Model of Size-Dependent Hardening and Dissipation in Single Crystal Cu-Al-Ni Shape Memory Alloys
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6:11:1:24 Bulk-like behavior in the temperature driven martensitic transformation of Cu-Zn-Al thin films with 2H structure
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6:11:1:25 Stress hysteresis and temperature dependence of phase transition stress in nanostructured NiTi-Effects of grain size
DOI:10.1063/1.4812643 JN:APPLIED PHYSICS LETTERS PY:2013 TC:6 AU: Ahadi, Aslan;Sun, Qingping;
6:11:1:26 Nonhysteretic Superelasticity of Shape Memory Alloys at the Nanoscale
DOI:10.1103/PhysRevLett.111.145701 JN:PHYSICAL REVIEW LETTERS PY:2013 TC:2 AU: Zhang, Zhen;Ding, Xiangdong;Sun, Jun;Suzuki, Tetsuro;Lookman, Turab;Otsuka, Kazuhiro;Ren, Xiaobing;
6:11:1:27 Pseudoelastic fatigue of NiTi wires: frequency and size effects on damping capacity
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6:11:1:28 Kinetic effects in the mixed beta to beta(3)' + gamma(3)' martensitic transformation in a Cu-Al-Ni shape memory alloy
DOI:10.1016/j.actamat.2009.09.047 JN:ACTA MATERIALIA PY:2010 TC:5 AU: Rodriguez-Aseguinolaza, J.;Ruiz-Larrea, I.;No, M. L.;Lopez-Echarri, A.;San Juan, J.;
6:11:1:29 Thermodynamic study of the temperature memory effects in Cu-Al-Ni shape memory alloys
DOI:10.1063/1.3357310 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:5 AU: Rodriguez-Aseguinolaza, J.;Ruiz-Larrea, I.;No, M. L.;Lopez-Echarri, A.;San Juan, Jose;
6:11:1:30 Development of laminated nanocomposites on the bases of magnetic and non-magnetic shape memory alloys: Towards new tools for nanotechnology
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6:11:1:31 Evolution of phase transformation behavior and mechanical properties with crystallization in NiTi thin films
DOI:10.1016/j.scriptamat.2010.02.037 JN:SCRIPTA MATERIALIA PY:2010 TC:6 AU: Huang, Xu;San Juan, J.;Ramirez, A. G.;
6:11:1:32 Shape Memory and Superelasticity in Amorphous/Nanocrystalline Cu-15.0 Atomic Percent (at.%) Sn Wires
DOI:10.1002/adem.201300167 JN:ADVANCED ENGINEERING MATERIALS PY:2014 TC:0 AU: Zhao, Yang-Yong;Li, Hui;Wang, Yong-Sheng;Zhang, Yong;Liaw, Peter K.;
6:11:1:33 Single crystalline beta phase Cu-Zn nanowires: Synthesis and martensitic transformation
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6:11:1:34 Rate dependent damping of single crystal CuAlNi shape memory alloy
DOI:10.1016/j.matlet.2013.07.062 JN:MATERIALS LETTERS PY:2013 TC:8 AU: Yin, Hao;Yan, Yan;Huo, Yongzhong;Sun, Qingping;
6:11:1:35 Development and characterization of shape memory Cu-Zn-Al thin films
DOI:10.1016/j.mseb.2010.01.058 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2010 TC:3 AU: Haberkorn, N.;Lovey, F. C.;Condo, A. M.;Guimpel, J.;
6:11:1:36 Synthesis and characterization of Cu-Al-Ni shape memory alloy multilayer thin films
DOI:10.1016/j.tsf.2012.12.062 JN:THIN SOLID FILMS PY:2013 TC:0 AU: Gomez-Cortes, J. F.;San Juan, J.;Lopez, G. A.;No, M. L.;
6:11:1:37 A macroscale phase-field model for shape memory alloys with non-isothermal effects: Influence of strain rate and environmental conditions on the mechanical response
DOI:10.1016/j.actamat.2011.09.040 JN:ACTA MATERIALIA PY:2012 TC:6 AU: Grandi, D.;Maraldi, M.;Molari, L.;
6:11:1:38 Effect of deformation on the stability of stress-induced martensite in nanocrystalline NiTi shape memory alloy
DOI:10.1016/j.matlet.2014.06.001 JN:MATERIALS LETTERS PY:2014 TC:0 AU: Shi, Xiaobin;Yu, Mengying;Guo, Fangmin;Liu, Zhenyang;Jiang, Daqiang;Han, Xiaodong;Cui, Lishan;
6:11:1:39 Ni-Mn-Ga ferromagnetic shape memory wires
DOI:10.1063/1.3445265 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:5 AU: Gomez-Polo, C.;Perez-Landazabal, J. I.;Recarte, V.;Sanchez-Alarcos, V.;Badini-Confalonieri, G.;Vazquez, M.;
6:11:1:40 Nonlocal Superelastic Model of Size-Dependent Hardening and Dissipation in Single Crystal Cu-Al-Ni Shape Memory Alloys (vol 106, 085504, 2011)
DOI:10.1103/PhysRevLett.106.109901 JN:PHYSICAL REVIEW LETTERS PY:2011 TC:0 AU: Qiao, Lei;Rimoli, Julian J.;Chen, Ying;Schuh, Christopher A.;Radovitzky, Raul;
6:11:1:41 Superelastic Deformation of TiNi Shape Memory Alloy Subjected to Various Sub loop Loadings
DOI:10.2320/matertrans.M2011288 JN:MATERIALS TRANSACTIONS PY:2012 TC:5 AU: Takeda, Kohei;Tobushi, Hisaaki;Miyamoto, Kouji;Pieczyska, Elzbieta Alicja;
6:11:2:1 Formation of nanoscaled precipitates and their effects on the high-temperature shape-memory characteristics of a Ti50Ni15Pd25Cu10 alloy
DOI:10.1016/j.actamat.2012.07.032 JN:ACTA MATERIALIA PY:2012 TC:9 AU: Khan, M. Imran;Kim, Hee Young;Nam, Tae-hyun;Miyazaki, Shuichi;
6:11:2:2 Effect of precipitation hardening and thermomechanical training on microstructure and shape memory properties of Ti50Ni15Pd25Cu10 high temperature shape memory alloys
DOI:10.1016/j.jallcom.2014.07.116 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:1 AU: Rehman, Saif Ur;Khan, Mushtaq;Khan, A. Nusair;Khan, M. Imran;Ali, Liaqat;Jaffery, Syed Husain Imran;
6:11:2:3 The effect of Pd content on microstructure and shape-memory properties of Ti-Ni-Pd-Cu alloys
DOI:10.1016/j.msea.2014.02.038 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Imahashi, Masamine;Kha, M. Imran;Kim, Hee Young;Miyazaki, Shuichi;
6:11:2:4 Transmission electron microscopy study of phase compatibility in low hysteresis shape memory alloys
DOI:10.1080/14786430903074755 JN:PHILOSOPHICAL MAGAZINE PY:2010 TC:38 AU: Delville, Remi;Kasinathan, Sakthivel;Zhang, Zhiyong;Van Humbeeck, Jan;James, Richard D.;Schryvers, Dominique;
6:11:2:5 Comparative analysis of the effects of severe plastic deformation and thermomechanical training on the functional stability of Ti50.5Ni24.5Pd25 high-temperature shape memory alloy
DOI:10.1016/j.scriptamat.2010.10.022 JN:SCRIPTA MATERIALIA PY:2011 TC:20 AU: Atli, K. C.;Karaman, I.;Noebe, R. D.;Maier, H. J.;
6:11:2:6 Structural analysis of a new precipitate phase in high-temperature TiNiPt shape memory alloys
DOI:10.1016/j.actamat.2010.04.039 JN:ACTA MATERIALIA PY:2010 TC:27 AU: Kovarik, L.;Yang, F.;Garg, A.;Diercks, D.;Kaufman, M.;Noebe, R. D.;Mills, M. J.;
6:11:2:7 Shape memory characteristics of Ti49.5Ni25Pd25Sc0.5 high-temperature shape memory alloy after severe plastic deformation
DOI:10.1016/j.actamat.2011.04.009 JN:ACTA MATERIALIA PY:2011 TC:20 AU: Atli, K. C.;Karaman, I.;Noebe, R. D.;Garg, A.;Chumlyakov, Y. I.;Kireeva, I. V.;
6:11:2:8 Role of severe plastic deformation on the cyclic reversibility of a Ti50.3Ni33.7Pd16 high temperature shape memory alloy
DOI:10.1016/j.actamat.2010.08.003 JN:ACTA MATERIALIA PY:2010 TC:19 AU: Kockar, B.;Atli, K. C.;Ma, J.;Haouaoui, M.;Karaman, I.;Nagasako, M.;Kainuma, R.;
6:11:2:9 Combined effects of work hardening and precipitation strengthening on the cyclic stability of TiNiPdCu-based high-temperature shape memory alloys
DOI:10.1016/j.actamat.2013.04.066 JN:ACTA MATERIALIA PY:2013 TC:6 AU: Khan, M. Imran;Kim, Hee Young;Namigata, Yuki;Nam, Tae-hyun;Miyazaki, Shuichi;
6:11:2:10 Influence of tantalum additions on the microstructure and shape memory response of Ti50.5Ni24.5Pd25 high-temperature shape memory alloy
DOI:10.1016/j.msea.2014.06.104 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Atli, K. C.;Karaman, I.;Noebe, R. D.;
6:11:2:11 The effect of training on two-way shape memory effect of binary NiTi and NiTi based ternary high temperature shape memory alloys
DOI:10.1016/j.msea.2012.10.009 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:13 AU: Atli, K. C.;Karaman, I.;Noebe, R. D.;Gaydosh, D.;
6:11:2:12 Cold workability and shape memory properties of novel Ti-Ni-Hf-Nb high-temperature shape memory alloys
DOI:10.1016/j.scriptamat.2011.07.049 JN:SCRIPTA MATERIALIA PY:2011 TC:17 AU: Kim, Hee Young;Jinguu, Takafumi;Nam, Tae-hyun;Miyazaki, Shuichi;
6:11:2:13 Influence of crystallographic compatibility on residual strain of TiNi based shape memory alloys during thermo-mechanical cycling
DOI:10.1016/j.msea.2013.02.035 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:14 AU: Atli, K. C.;Franco, B. E.;Karaman, I.;Gaydosh, D.;Noebe, R. D.;
6:11:2:14 Transformation behavior and shape memory properties of Ti50Ni15Pd25Cu10 high temperature shape memory alloy at various aging temperatures
DOI:10.1016/j.msea.2014.09.081 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Rehman, Saif Ur;Khan, Mushtaq;Khan, A. Nusair;Ali, Liaqat;Zaman, Sabah;Waseem, Muhammad;Ali, Liaqat;Jaffery, Syed Husain Imran;
6:11:2:15 Work output of the two-way shape memory effect in Ti50.5Ni24.5Pd25 high-temperature shape memory alloy
DOI:10.1016/j.scriptamat.2011.08.006 JN:SCRIPTA MATERIALIA PY:2011 TC:13 AU: Atli, K. C.;Karaman, I.;Noebe, R. D.;
6:11:2:16 Effect of Y addition on the martensitic transformation and shape memory effect of Ti-Ta high-temperature shape memory alloy
DOI:10.1016/j.jallcom.2012.06.021 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:2 AU: Zheng, X. H.;Sui, J. H.;Zhang, X.;Tian, X. H.;Cai, W.;
6:11:2:17 Experimental and microstructural characterization of simultaneous creep, plasticity and phase transformation in Ti50Pd40Ni10 high-temperature shape memory alloy
DOI:10.1016/j.actamat.2009.11.006 JN:ACTA MATERIALIA PY:2010 TC:20 AU: Kumar, Parikshith K.;Lagoudas, Dimitris C.;
6:11:2:18 Effect of cold rolling ratio on the nanoscale precipitation behavior of TiNiPdCu based high temperature shape memory alloys
DOI:10.1016/j.jallcom.2014.02.067 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:0 AU: Khan, M. Imran;Kim, Hee Young;Khalid, F. Ahmad;Miyazaki, Shuichi;
6:11:2:19 Determining recoverable and irrecoverable contributions to accumulated strain in a NiTiPd high-temperature shape memory alloy during thermomechanical cycling
DOI:10.1016/j.scriptamat.2011.03.019 JN:SCRIPTA MATERIALIA PY:2011 TC:12 AU: Monroe, J. A.;Karaman, I.;Lagoudas, D. C.;Bigelow, G.;Noebe, R. D.;Padula, S., II;
6:11:2:20 Characterizations of precipitate phases in a Ti-Ni-Pd alloy
DOI:10.1016/j.scriptamat.2012.04.003 JN:SCRIPTA MATERIALIA PY:2012 TC:7 AU: Yang, F.;Kovarik, L.;Phillips, P. J.;Noebe, R. D.;Mills, M. J.;
6:11:2:21 Martensitic transformation and shape memory properties of Ti-Ta-Sn high temperature shape memory alloys
DOI:10.1016/j.msea.2011.06.021 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:12 AU: Kim, Hee Young;Fukushima, Tatsuhito;Buenconsejo, Pio John S.;Nam, Tae-hyun;Miyazaki, Shuichi;
6:11:2:22 Thermal stability and high-temperature shape memory effect of Ti-Ta-Zr alloy
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6:11:2:23 Effect of Cu addition on the high temperature shape memory properties of Ti50Ni25Pd25 alloy
DOI:10.1016/j.jallcom.2011.12.116 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:5 AU: Khan, Imran M.;Kim, Hee Young;Nam, Tae-hyun;Miyazaki, Shuichi;
6:11:2:24 Experimental investigation of simultaneous creep, plasticity and transformation of Ti50.5Pd30Ni19.5 high temperature shape memory alloy during cyclic actuation
DOI:10.1016/j.msea.2011.09.051 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:10 AU: Kumar, Parikshith K.;Desai, Uri;Monroe, James A.;Lagoudas, Dimitris C.;Karaman, Ibrahim;Bigelow, Glen;Noebe, Ronald D.;
6:11:2:25 Microstructures and shape memory characteristics of dual-phase Co-Ni-Ga high-temperature shape memory alloys
DOI:10.1016/j.actamat.2010.03.001 JN:ACTA MATERIALIA PY:2010 TC:16 AU: Li, Yan;Xin, Yan;Chai, Liang;Ma, Yunqing;Xu, Huibin;
6:11:2:26 Microstructure and shape memory effect of Ti-20Zr-10Nb alloy
DOI:10.1016/j.msea.2009.08.063 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:21 AU: Cui, Yan;Li, Yan;Luo, Kun;Xu, Huibin;
6:11:2:27 A study of low Young's modulus Ti-Nb-Zr alloys using d electrons alloy theory
DOI:10.1016/j.scriptamat.2012.03.020 JN:SCRIPTA MATERIALIA PY:2012 TC:10 AU: You, Li;Song, Xiping;
6:11:2:28 Precipitates in a near-equiatomic (Ni plus Pt)-rich TiNiPt alloy
DOI:10.1016/j.scriptamat.2013.08.002 JN:SCRIPTA MATERIALIA PY:2013 TC:0 AU: Yang, F.;Noebe, R. D.;Mills, M. J.;
6:11:2:29 Composition dependence of phase transformation behavior and shape memory effect of Ti(Pt, Ir)
DOI:10.1016/j.jallcom.2012.02.136 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:0 AU: Yamabe-Mitarai, Y.;Hara, T.;Kitashima, T.;Miura, S.;Hosoda, H.;
6:11:2:30 Martensitic transformation behaviors of Ti-rich Ti-Ni alloy fibers fabricated by melt overflow
DOI:10.1016/j.materresbull.2013.04.030 JN:MATERIALS RESEARCH BULLETIN PY:2013 TC:1 AU: Kim, Yeon-wook;Jang, Seung-kyu;
6:11:3:1 Load-biased shape-memory and superelastic properties of a precipitation strengthened high-temperature Ni50.3Ti29.7Hf20 alloy
DOI:10.1016/j.scriptamat.2010.12.028 JN:SCRIPTA MATERIALIA PY:2011 TC:42 AU: Bigelow, G. S.;Garg, A.;Padula, S. A., II;Gaydosh, D. J.;Noebe, R. D.;
6:11:3:2 Shape memory behavior of high strength NiTiHfPd polycrystalline alloys
DOI:10.1016/j.actamat.2013.04.039 JN:ACTA MATERIALIA PY:2013 TC:13 AU: Karaca, H. E.;Acar, E.;Ded, G. S.;Basaran, B.;Tobe, H.;Noebe, R. D.;Bigelow, G.;Chumlyakov, Y. I.;
6:11:3:3 Modelling of martensite slip and twinning in NiTiHf shape memory alloys
DOI:10.1080/14786435.2014.913109 JN:PHILOSOPHICAL MAGAZINE PY:2014 TC:0 AU: Wang, J.;Sehitoglu, H.;
6:11:3:4 Characterization of the shape memory properties of a Ni45.3Ti39.7Hf10Pd5 alloy
DOI:10.1016/j.jallcom.2013.06.030 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:7 AU: Acar, E.;Karaca, H. E.;Tobe, H.;Noebe, R. D.;Chumlyakov, Y. I.;
6:11:3:5 Compressive response of nickel-rich NiTiHf high-temperature shape memory single crystals along the [111] orientation
DOI:10.1016/j.scriptamat.2011.06.027 JN:SCRIPTA MATERIALIA PY:2011 TC:18 AU: Karaca, H. E.;Saghaian, S. M.;Basaran, B.;Bigelow, G. S.;Noebe, R. D.;Chumlyakov, Y. I.;
6:11:3:6 Effects of aging on [111] oriented NiTiHfPd single crystals under compression
DOI:10.1016/j.scriptamat.2012.06.028 JN:SCRIPTA MATERIALIA PY:2012 TC:15 AU: Karaca, H. E.;Acar, E.;Basaran, B.;Noebe, R. D.;Bigelow, G.;Garg, A.;Yang, F.;Mills, M. J.;Chumlyakov, Y. I.;
6:11:3:7 Effects of nanoprecipitation on the shape memory and material properties of an Ni-rich NiTiHf high temperature shape memory alloy
DOI:10.1016/j.actamat.2013.08.048 JN:ACTA MATERIALIA PY:2013 TC:16 AU: Karaca, H. E.;Saghaian, S. M.;Ded, G.;Tobe, H.;Basaran, B.;Maier, H. J.;Noebe, R. D.;Chumlyakov, Y. I.;
6:11:3:8 Structure analysis of a precipitate phase in an Ni-rich high-temperature NiTiHf shape memory alloy
DOI:10.1016/j.actamat.2013.02.023 JN:ACTA MATERIALIA PY:2013 TC:19 AU: Yang, F.;Coughlin, D. R.;Phillips, P. J.;Yang, L.;Devaraj, A.;Kovarik, L.;Noebe, R. D.;Mills, M. J.;
6:11:3:9 Characterization of the microstructure and mechanical properties of a 50.3Ni-29.7Ti-20Hf shape memory alloy
DOI:10.1016/j.scriptamat.2012.03.036 JN:SCRIPTA MATERIALIA PY:2012 TC:20 AU: Coughlin, D. R.;Phillips, P. J.;Bigelow, G. S.;Garg, A.;Noebe, R. D.;Mills, M. J.;
6:11:3:10 Superelastic response and damping capacity of ultrahigh-strength [111]-oriented NiTiHfPd single crystals
DOI:10.1016/j.scriptamat.2012.05.044 JN:SCRIPTA MATERIALIA PY:2012 TC:12 AU: Karaca, H. E.;Acar, E.;Basaran, B.;Noebe, R. D.;Chumlyakov, Y. I.;
6:11:3:11 TEM study of structural and micro structural characteristics of a precipitate phase in Ni-rich Ni-Ti-Hf and Ni-Ti-Zr shape memory alloys
DOI:10.1016/j.actamat.2013.06.057 JN:ACTA MATERIALIA PY:2013 TC:12 AU: Santamarta, R.;Arroyave, R.;Pons, J.;Evirgen, A.;Karaman, I.;Karaca, H. E.;Noebe, R. D.;
6:11:3:12 Transformation strains and temperatures of a nickel-titanium-hafnium high temperature shape memory alloy
DOI:10.1016/j.actamat.2014.04.071 JN:ACTA MATERIALIA PY:2014 TC:2 AU: Stebner, Aaron P.;Bigelow, Glen S.;Yang, Jin;Shukla, Dhwanil P.;Saghaian, Sayed M.;Rogers, Richard;Garg, Anita;Karaca, Haluk E.;Chumlyakov, Yuriy;Bhattacharya, Kaushik;Noebe, Ronald D.;
6:11:3:13 Martensite structure in Ti-Ni-Hf-Cu quaternary alloy ribbons containing (Ti,Hf)(2)Ni precipitates
DOI:10.1016/j.actamat.2010.03.015 JN:ACTA MATERIALIA PY:2010 TC:18 AU: Meng, X. L.;Cai, W.;Fu, Y. D.;Zhang, J. X.;Zhao, L. C.;
6:11:3:14 Effect of precipitation on the microstructure and the shape memory response of the Ni50.3Ti29.7Zr20 high temperature shape memory alloy
DOI:10.1016/j.scriptamat.2013.05.006 JN:SCRIPTA MATERIALIA PY:2013 TC:9 AU: Evirgen, A.;Karaman, I.;Noebe, R. D.;Santamarta, R.;Pons, J.;
6:11:3:15 Diffusionless phase transformation characteristics of Mn75.7Pt24.3
DOI:10.1016/j.jallcom.2013.11.174 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:2 AU: Karaca, H. E.;Saghaian, S. M.;Tobe, H.;Acar, E.;Basaran, B.;Nagasako, M.;Kainuma, R.;Noebe, R. D.;
6:11:3:16 Influence of aging on phase transformation and microstructure of Ni50.3Ti29.7Hf20 high temperature shape memory alloy
DOI:10.1016/j.jallcom.2014.06.109 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:1 AU: Prasher, Meenu;Sen, Debasis;
6:11:3:17 Effect of oriented gamma ' precipitates on shape memory effect and superelasticity in Co-Ni-Ga single crystals
DOI:10.1016/j.actamat.2014.01.019 JN:ACTA MATERIALIA PY:2014 TC:7 AU: Kireeva, I. V.;Picornell, C.;Pons, J.;Kretinina, I. V.;Chumlyakov, Yu. I.;Cesari, E.;
6:11:3:18 Shape memory behavior of high strength Ni54Ti46 alloys
DOI:10.1016/j.msea.2013.04.102 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:7 AU: Karaca, H. E.;Kaya, I.;Tobe, H.;Basaran, B.;Nagasako, M.;Kainuma, R.;Chumlyakov, Y.;
6:11:3:19 Role of aging time on the microstructure and shape memory properties of NiTiHfPd single crystals
DOI:10.1016/j.msea.2013.02.016 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:10 AU: Acar, E.;Karaca, H. E.;Basaran, B.;Yang, F.;Mills, M. J.;Noebe, R. D.;Chumlyakov, Y. I.;
6:11:3:20 Microstructural characterization and superelastic response of a Ni50.3Ti29.7Zr20 high-temperature shape memory alloy
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6:11:3:21 Annealing effects on mechanical properties and shape memory behaviors of silicone-coated elastomeric polycaprolactone nanofiber filaments
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6:11:3:22 Martensitic transformation and shape memory effect at very high temperatures in HfPd, and TiAu intermetallic compounds
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6:11:4:1 Atomistic characterization of pseudoelasticity and shape memory in NiTi nanopillars
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6:11:4:2 Role of atomic variability and mechanical constraints on the martensitic phase transformation of a model disordered shape memory alloy via molecular dynamics
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6:11:4:3 Atomistic study of nanotwins in NiTi shape memory alloys
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6:11:4:4 Simulation of structural phase transitions in NiTi
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6:11:4:5 Phase-field modeling of martensitic microstructure in NiTi shape memory alloys
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6:11:4:6 Structural transformations in NiTi shape memory alloy nanowires
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6:11:4:7 Size effects in NiTi from density functional theory calculations
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6:11:4:8 Ab initio study of pressure stabilized NiTi allotropes: Pressure-induced transformations and hysteresis loops
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6:11:4:9 Phase stability and transformations in NiTi from density functional theory calculations
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6:11:4:10 Phase transformation in free-standing SMA nanowires
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6:11:4:11 Patterning of martensitic nanotwins
DOI:10.1016/j.scriptamat.2012.08.014 JN:SCRIPTA MATERIALIA PY:2012 TC:4 AU: Zhong, Yuan;Zhu, Ting;
6:11:4:12 Resolving quandaries surrounding NiTi
DOI:10.1063/1.4747488 JN:APPLIED PHYSICS LETTERS PY:2012 TC:1 AU: Wang, Jifeng;Sehitoglu, Huseyin;
6:11:4:13 Simulation of the shape memory effect in a NiTi nano model system
DOI:10.1016/j.jallcom.2012.01.095 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:1 AU: Mutter, Daniel;Nielaba, Peter;
6:11:4:14 Complex martensitic nanostructure in Zr nanowires: A molecular dynamics study
DOI:10.1103/PhysRevB.81.085429 JN:PHYSICAL REVIEW B PY:2010 TC:6 AU: Thompson, Alexander;Strachan, Alejandro;
6:11:4:15 Reversible phase transformations in a shape memory alloy In-T1 nanowires observed by in situ transmission electron microscopy
DOI:10.1016/j.matlet.2011.11.049 JN:MATERIALS LETTERS PY:2012 TC:4 AU: Zheng, Hongxing;Luo, Zhiping;Fang, Dong;Phillips, Francis R.;Lagoudas, Dimitris C.;
6:11:4:16 Shape memory metamaterials with tunable thermo-mechanical response via hetero-epitaxial integration: A molecular dynamics study
DOI:10.1063/1.4794819 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:2 AU: Vishnu, Karthik Guda;Strachan, Alejandro;
6:11:4:17 On the effect of deformation twins on stability of B19 ' structure in NiTi martensite
DOI:10.1016/j.commatsci.2014.02.012 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:1 AU: Sestak, P.;Cerny, M.;Pokluda, J.;
6:11:5:1 On elastic moduli and elastic anisotropy in polycrystalline martensitic NiTi
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6:11:5:2 Effect of heat treatment temperature on nitinol wire
DOI:10.1063/1.4893595 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Cai, S.;Schaffer, J. E.;Daymond, M. R.;Yu, C.;Ren, Y.;
6:11:5:3 Role of B19 ' martensite deformation in stabilizing two-way shape memory behavior in NiTi
DOI:10.1063/1.4764313 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:16 AU: Benafan, O.;Padula, S. A., II;Noebe, R. D.;Sisneros, T. A.;Vaidyanathan, R.;
6:11:5:4 An in situ neutron diffraction study of shape setting shape memory NiTi
DOI:10.1016/j.actamat.2013.02.040 JN:ACTA MATERIALIA PY:2013 TC:10 AU: Benafan, O.;Padula, S. A., II;Noebe, R. D.;Brown, D. W.;Clausen, B.;Vaidyanathan, R.;
6:11:5:5 Thermal cycling and isothermal deformation response of polycrystalline NiTi: Simulations vs. experiment
DOI:10.1016/j.actamat.2011.04.063 JN:ACTA MATERIALIA PY:2011 TC:19 AU: Manchiraju, Sivom;Gaydosh, Darrell;Benafan, Othmane;Noebe, Ronald;Vaidyanathan, Raj;Anderson, Peter M.;
6:11:5:6 Young's modulus evolution and texture-based elastic-inelastic strain partitioning during large uniaxial deformations of monoclinic nickel-titanium
DOI:10.1016/j.actamat.2012.12.015 JN:ACTA MATERIALIA PY:2013 TC:18 AU: Stebner, A. P.;Brown, D. W.;Brinson, L. C.;
6:11:5:7 Neutron diffraction studies and multivariant simulations of shape memory alloys: Concurrent verification of texture development and mechanical response predictions
DOI:10.1016/j.actamat.2011.06.001 JN:ACTA MATERIALIA PY:2011 TC:8 AU: Gao, Xiujie;Stebner, Aaron;Brown, Donald W.;Brinson, L. Catherine;
6:11:5:8 Texture evolution during nitinol martensite detwinning and phase transformation
DOI:10.1063/1.4846495 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Cai, S.;Schaffer, J. E.;Ren, Y.;Yu, C.;
6:11:5:9 Neutron diffraction studies and multivariant simulations of shape memory alloys: Empirical texture development-mechanical response relations of martensitic nickel-titanium
DOI:10.1016/j.actamat.2011.01.023 JN:ACTA MATERIALIA PY:2011 TC:12 AU: Stebner, Aaron;Gao, Xiujie;Brown, Donald W.;Brinson, L. Catherine;
6:11:5:10 Evolution of lattice strain and phase transformation of beta III Ti alloy during room temperature cyclic tension
DOI:10.1016/j.actamat.2013.07.062 JN:ACTA MATERIALIA PY:2013 TC:6 AU: Cai, S.;Daymond, M. R.;Ren, Y.;Schaffer, J. E.;
6:11:5:11 Measurement of elastic constants of monoclinic nickel-titanium and validation of first principles calculations
DOI:10.1063/1.4808040 JN:APPLIED PHYSICS LETTERS PY:2013 TC:3 AU: Stebner, A. P.;Brown, D. W.;Brinson, L. C.;
6:11:5:12 Tool-wear analysis in cryogenic machining of NiTi shape memory alloys: A comparison of tool-wear performance with dry and MQL machining
DOI:10.1016/j.wear.2013.05.011 JN:WEAR PY:2013 TC:13 AU: Kaynak, Y.;Karaca, H. E.;Noebe, R. D.;Jawahir, I. S.;
6:11:5:13 Stress induced martensite transformation in Co-28Cr-6Mo alloy during room temperature deformation
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6:11:5:14 Temperature-dependent behavior of a polycrystalline NiTi shape memory alloy around the transformation regime
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6:11:5:15 Local and global strains and strain ratios in shape memory alloys using digital image correlation
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6:11:5:16 Crack-tip thermal and mechanical hysteresis in Shape Memory Alloys under fatigue loading
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6:11:5:17 Analytical modeling of stress-induced martensitic transformation in the crack tip region of nickel-titanium alloys
DOI:10.1016/j.actamat.2009.08.060 JN:ACTA MATERIALIA PY:2010 TC:17 AU: Maletta, Carmine;Furgiuele, Franco;
6:11:5:18 Strain-induced phase transformation in a cobalt-based superalloy during different loading modes
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6:11:5:19 The effects of machining on the microstructure and transformation behavior of NiTi Alloy
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6:11:6:1 Sudden stress-induced transformation events during nanoindentation of NiTi shape memory alloys
DOI:10.1016/j.actamat.2014.05.061 JN:ACTA MATERIALIA PY:2014 TC:1 AU: Laplanche, G.;Pfetzing-Micklich, J.;Eggeler, G.;
6:11:6:2 Orientation dependence of stress-induced phase transformation and dislocation plasticity in NiTi shape memory alloys on the micro scale
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6:11:6:3 Orientation dependence of stress-induced martensite formation during nanoindentation in NiTi shape memory alloys
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6:11:6:4 On the crystallographic anisotropy of nanoindentation in pseudoelastic NiTi
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6:11:6:5 Nanoindentation of a Pseudoelastic NiTiFe Shape Memory Alloy
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6:11:6:6 Direct microstructural evidence for the stress induced formation of martensite during nanonindentation of NiTi
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6:11:6:7 Stress induced pop-in and pop-out nanoindentation events in CuAlBe shape memory alloys
DOI:10.1016/j.msea.2013.08.052 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:3 AU: Caer, C.;Patoor, E.;Berbenni, S.;Lecomte, J-S.;
6:11:6:8 Pseudoelastic deformation and size effects during in situ transmission electron microscopy tensile testing of NiTi
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6:11:6:9 Superelastic response of [111] and [101] oriented NiTi micropillars
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6:11:6:10 Pseudoelastic deformation and size effects during in situ transmission electron microscopy tensile testing of NiTi (vol 60, pg 2770, 2012)
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6:11:7:1 On the multiplication of dislocations during martensitic transformations in NiTi shape memory alloys
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6:11:7:2 Energetics of twinning in martensitic NiTi
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6:11:7:3 Effects of thermal cycling on microstructure and properties in Nitinol
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6:11:7:4 Type II detwinning in NiTi
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6:11:7:5 Low temperature creep of hot-extruded near-stoichiometric NiTi shape memory alloy part II: Effect of thermal cycling
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6:11:7:6 Plastic deformation of NiTi shape memory alloys
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6:11:7:7 Characterization and modeling of defects generated in pseudoelastically deformed NiTi microcrystals
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6:11:7:8 Energetics of (114) twinning in B2 NiTi under coupled shear and shuffle
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6:11:7:9 Coupled shear and shuffle modes during twin growth in B2-NiTi
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6:11:7:10 Peculiarities of residual strain accumulation during thermal cycling of TiNi alloy
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6:11:7:11 Leaf-like dislocation substructures and the decrease of martensitic start temperatures: A new explanation for functional fatigue during thermally induced martensitic transformations in coarse-grained Ni-rich Ti-Ni shape memory alloys
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6:11:7:12 Higher order twin modes in martensitic NiTi-The (20(1)over-bar) case
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6:11:7:13 Deformation mechanisms in a TiNi shape memory alloy during cyclic loading
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6:11:7:14 Effect of thermal and thermo-mechanical cycling on the microstructure of Ni-rich NiTi shape memory alloys
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6:11:7:15 Fatigue crack initiation and propagation of a TiNi shape memory alloy
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6:11:8:1 Influence of Ni on martensitic phase transformations in NiTi shape memory alloys
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6:11:8:2 Thermomechanical properties of Ni-Ti shape memory wires containing nanoscale precipitates induced by stress-assisted ageing
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6:11:8:3 Manufacturing and processing of NiTi implants: A review
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6:11:8:4 Effect of grain size on aging microstructure as reflected in the transformation behavior of a low-temperature aged Ti-50.8 at.% Ni alloy
DOI:10.1016/j.scriptamat.2013.06.023 JN:SCRIPTA MATERIALIA PY:2013 TC:8 AU: Wang, Xiebin;Li, Chen;Verlinden, Bert;Van Humbeeck, Jan;
6:11:8:5 Multiple Memory Shape Memory Alloys
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6:11:8:6 Effect of SLM Parameters on Transformation Temperatures of Shape Memory Nickel Titanium Parts
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6:11:8:7 Influence of applying external stress during aging on martensitic transformation and the superelastic behavior of a Ni-rich NiTi alloy
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6:11:8:8 Thermal cycling of stress-induced martensite for high-performance shape memory effect
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6:11:8:9 Influence of aging atmosphere on the superelastic behavior of Ni-50.9-Ti shape memory thin wires
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6:11:8:10 Age-induced multi-stage transformation in a Ni-rich NiTiHf alloy
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6:11:8:11 R-phase transition and related mechanical properties controlled by low-temperature aging treatment in a Ti-50.8 at.% Ni thin wire
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6:11:8:12 Electrochemical behaviour of ZrTi alloys in artificial physiological solution simulating in vitro inflammatory conditions
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6:11:8:13 Microstructure evolution in nanocrystalline NiTi alloy produced by HPT
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6:11:8:14 Influence of the microstructural inhomogeneities on the martensite-to-austenite phase transformation temperatures in TiNiCu-based shape-memory alloys
DOI:10.1016/j.matchemphys.2013.05.010 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2013 TC:0 AU: Haenschke, Titus;Davis, Claire L.;Attallah, Moataz M.;
6:11:8:15 NiTi thin films prepared by biased target ion beam deposition co-sputtering from elemental Ni and Ti targets
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6:11:9:1 Analysis of Ti-Ni-Hf shape memory alloys by combinatorial nanocalorimetry
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6:11:9:2 Precipitation and thermal fatigue in Ni-Ti-Zr shape memory alloy thin films by combinatorial nanocalorimetry
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6:11:9:3 Scanning AC nanocalorimetry combined with in-situ x-ray diffraction
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6:11:9:4 Combining combinatorial nanocalorimetry and X-ray diffraction techniques to study the effects of composition and quench rate on Au-Cu-Si metallic glasses
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6:11:9:5 Scanning AC nanocalorimetry study of Zr/B reactive multilayers
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6:11:9:6 Combinatorial nanocalorimetry
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6:11:9:7 Nano-thermal transport array: An instrument for combinatorial measurements of heat transfer in nanoscale films
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6:11:9:8 Kinetics of solid-gas reactions characterized by scanning AC nano-calorimetry with application to Zr oxidation
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6:11:9:9 Glass transition and crystallization of amorphous Ni-Ti-Zr thin films by combinatorial nano-calorimetry
DOI:10.1016/j.scriptamat.2010.10.008 JN:SCRIPTA MATERIALIA PY:2011 TC:10 AU: McCluskey, Patrick J.;Vlassak, Joost J.;
6:11:9:10 In-situ X-ray diffraction combined with scanning AC nanocalorimetry applied to a Fe0.84Ni0.16 thin-film sample
DOI:10.1063/1.4806972 JN:APPLIED PHYSICS LETTERS PY:2013 TC:6 AU: Gregoire, John M.;Xiao, Kechao;McCluskey, Patrick J.;Dale, Darren;Cuddalorepatta, Gayatri;Vlassak, Joost J.;
6:11:9:11 Modeling and quantitative nanocalorimetric analysis to assess interdiffusion in a Ni/Al bilayer
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6:11:9:12 Solidification of Au-Cu-Si alloys investigated by a combinatorial approach
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6:11:10:1 Microstructure changes during non-conventional heat treatment of thin Ni-Ti wires by pulsed electric current studied by transmission electron microscopy
DOI:10.1016/j.actamat.2010.04.046 JN:ACTA MATERIALIA PY:2010 TC:35 AU: Delville, R.;Malard, B.;Pilch, J.;Sittner, P.;Schryvers, D.;
6:11:10:2 Grain size dependence of the elastic modulus in nanostructured NiTi
DOI:10.1016/j.scriptamat.2010.07.018 JN:SCRIPTA MATERIALIA PY:2010 TC:18 AU: Mei, Q. S.;Zhang, L.;Tsuchiya, K.;Gao, H.;Ohmura, T.;Tsuzaki, K.;
6:11:10:3 In situ investigation of the fast microstructure evolution during electropulse treatment of cold drawn NiTi wires
DOI:10.1016/j.actamat.2010.11.018 JN:ACTA MATERIALIA PY:2011 TC:19 AU: Malard, B.;Pilch, J.;Sittner, P.;Delville, R.;Curfs, C.;
6:11:10:4 Effect of short-time annealing treatment on the superelastic behavior of cold drawn Ni-rich NiTi shape memory wires
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6:11:10:5 Nanocrystallization and amorphization of NiTi shape memory alloy under severe plastic deformation based on local canning compression
DOI:10.1016/j.jnoncrysol.2013.01.051 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2013 TC:3 AU: Jiang, Shuyong;Hu, Li;Zhang, Yanqiu;Liang, Yulong;
6:11:10:6 Deformation mechanism of NiTi shape memory alloy subjected to severe plastic deformation at low temperature
DOI:10.1016/j.msea.2012.08.149 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:5 AU: Zhang, Yanqiu;Jiang, Shuyong;Hu, Li;Liang, Yulong;
6:11:10:7 Multiscale investigation of inhomogeneous plastic deformation of NiTi shape memory alloy based on local canning compression
DOI:10.1016/j.msea.2013.01.058 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: Jiang, Shuyong;Hu, Li;Zhao, Yanan;Zhang, Yanqiu;Liang, Yulong;
6:11:10:8 Graded phase structure in the surface layer of NiTi alloy processed by surface severe plastic deformation
DOI:10.1016/j.scriptamat.2011.02.008 JN:SCRIPTA MATERIALIA PY:2011 TC:8 AU: Hu, T.;Chen, L.;Wu, S. L.;Chu, C. L.;Wang, L. M.;Yeung, K. W. K.;Chu, Paul K.;
6:11:10:9 Ti-50.8 at.% Ni wire with variable mechanical properties created by spatial electrical resistance over-ageing
DOI:10.1016/j.jallcom.2012.02.131 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:3 AU: Meng, Qinglin;Yang, Hong;Liu, Yinong;Nam, Tae-hyun;Favier, Denis;
6:11:10:10 Influence of stored elastic strain energy on fatigue behaviour of NiTi shape memory alloy thermal actuator wire
DOI:10.1016/j.msea.2013.08.048 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:1 AU: Saikrishna, C. N.;Ramaiah, K. V.;Bhagyaraj, J.;Gouthama;Bhaumik, S. K.;
6:11:11:1 Fabrication and characterization of NiTi/Ti3SiC2 and NiTi/Ti2AlC composites
DOI:10.1016/j.jallcom.2014.04.224 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:1 AU: Hu, Liangfa;Kothalkar, Ankush;Proust, Gwenaelle;Karaman, Ibrahim;Radovic, Miladin;
6:11:11:2 Temperature-dependent thermal properties of a shape memory alloy/MAX phase composite: Experiments and modeling
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6:11:11:3 Lightweight NiTi shape memory alloy based composites with high damping capacity and high strength
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6:11:11:4 High damping capacity in porous NiTi alloy with bimodal pore architecture
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6:11:11:5 Enhanced mechanical properties of spark plasma sintered NiTi composites reinforced with carbon nanotubes
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6:11:11:6 Improving wear resistance of TiNi matrix composites reinforced by carbon nanotubes and in situ TiC
DOI:10.1016/j.scriptamat.2011.01.009 JN:SCRIPTA MATERIALIA PY:2011 TC:13 AU: Feng, X.;Sui, J. H.;Cai, W.;Liu, A. L.;
6:11:11:7 In situ synchrotron investigation of the deformation behavior of nanolamellar Ti5Si3/TiNi composite
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6:11:11:8 Effect of graphite addition on martensitic transformation and damping behavior of NiTi shape memory alloy
DOI:10.1016/j.matlet.2011.01.027 JN:MATERIALS LETTERS PY:2011 TC:7 AU: Chen, F.;Tong, Y. X.;Lu, X. L.;Wang, X.;Tian, B.;Li, L.;Zheng, Y. F.;Chung, C. Y.;Ma, L. W.;
6:11:11:9 Nano-sized SiC particle reinforced NiTi alloy matrix shape memory composite
DOI:10.1016/j.matlet.2013.02.113 JN:MATERIALS LETTERS PY:2013 TC:4 AU: Jiang, H. J.;Cao, S.;Ke, C. B.;Ma, X.;Zhang, X. P.;
6:11:11:10 The Reactivity of Ti2AlC and Ti3SiC2 with SiC Fibers and Powders up to Temperatures of 1550 degrees C
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6:11:11:11 Microstructure evolution of Zr2Al3C4 in Cu matrix
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6:11:11:12 Phase and morphology evolution in high-temperature Ti3SiC2-NiTi diffusion-bonded joints
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6:11:11:13 Effect of Ba deoxidation on oxygen content in NiTi alloys and non-metallic inclusions
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6:11:11:14 High shape recovery Ni-Ti SMA wire produced from electron beam melted ingot
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6:11:12:1 Effects of equal channel angular extrusion and aging treatment on R phase transformation behaviors and Ti3Ni4 precipitates of Ni-rich TiNi alloys
DOI:10.1016/j.jallcom.2011.03.062 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:13 AU: Zhang, Xiaoning;Xia, Baoyu;Song, Jie;Chen, Bin;Tian, Xiaolin;Hao, Yingmin;Xie, Chaoying;
6:11:12:2 Microstructures evolution and phase transformation behaviors of Ni-rich TiNi shape memory alloys after equal channel angular extrusion
DOI:10.1016/j.jallcom.2010.11.189 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:11 AU: Zhang, Xiaoning;Song, Jie;Huang, Chenglong;Xia, Baoyu;Chen, Bin;Sun, Xiaogang;Xie, Chaoying;
6:11:12:3 Superelastic cycling and room temperature recovery of Ti74Nb26 shape memory alloy
DOI:10.1016/j.actamat.2009.12.009 JN:ACTA MATERIALIA PY:2010 TC:18 AU: Ma, J.;Karaman, I.;Maier, H. J.;Chumlyakov, Y. I.;
6:11:12:4 Quantification of microstructure refinement in aluminium deformed by equal channel angular extrusion: Route A vs. route Be in a 90 degrees die
DOI:10.1016/j.scriptamat.2010.02.042 JN:SCRIPTA MATERIALIA PY:2010 TC:10 AU: Mishin, Oleg V.;Bowen, Jacob R.;Lathabai, Sri;
6:11:12:5 Dynamic strain aging of a commercial Al-Mg-Si-Cu alloy during equal channel angular extrusion process
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6:11:12:6 Thermal cycling stability of ultrafine-grained TiNi shape memory alloys processed by equal channel angular pressing
DOI:10.1016/j.scriptamat.2012.03.005 JN:SCRIPTA MATERIALIA PY:2012 TC:5 AU: Tong, Y. X.;Guo, B.;Chen, F.;Tian, B.;Li, L.;Zheng, Y. F.;Prokofiev, Egor A.;Gunderov, Dmitry V.;Valiev, Ruslan Z.;
6:11:12:7 Superelastic memory effect in Ti74Nb26 shape memory alloy
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6:11:12:8 Superelasticity and its stability of an ultrafine-grained Ti49.2Ni50.8 shape memory alloy processed by equal channel angular pressing
DOI:10.1016/j.msea.2013.08.049 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:3 AU: Tong, Y. X.;Chen, F.;Guo, B.;Tian, B.;Li, L.;Zheng, Y. F.;Gunderov, Dmitry V.;Valiev, Ruslan Z.;
6:11:12:9 The influence of imposed strain on the development of microstructure and transformation characteristics of Ni-Ti shape memory alloys
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6:11:13:1 Phase transformation, structural and functional fatigue properties of Ti-Ni-Hf shape memory thin films
DOI:10.1016/j.actamat.2011.01.066 JN:ACTA MATERIALIA PY:2011 TC:18 AU: Koenig, D.;Zarnetta, R.;Sayan, A.;Brunken, H.;Ludwig, A.;
6:11:13:2 A New Prototype Two-Phase (TiNi)-(beta-W) SMA System with Tailorable Thermal Hysteresis
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6:11:13:3 Thickness and grain size dependence of B2-R martensitic transformation behaviors in nanoscale TiNi films
DOI:10.1016/j.matlet.2014.05.129 JN:MATERIALS LETTERS PY:2014 TC:0 AU: Pan, Guanjun;Cao, Zhenhua;Wei, Mingzhen;Shi, Jun;Xu, Lijun;Meng, Xiangkang;
6:11:13:4 The effects of grain size on the phase transformation properties of annealed (Ti/Ni/W) shape memory alloy multilayers
DOI:10.1016/j.scriptamat.2011.02.021 JN:SCRIPTA MATERIALIA PY:2011 TC:12 AU: Buenconsejo, Pio John S.;Zarnetta, Robert;Ludwig, Alfred;
6:11:13:5 Thickness-dependence of the B2-B19 martensitic transformation in nanoscale shape memory alloy thin films: Zero-hysteresis in 75 nm thick Ti51Ni38Cu11 thin films
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6:11:13:6 Identification of optimized Ti-Ni-Cu shape memory alloy compositions for high-frequency thin film microactuator applications
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6:11:13:7 High-Throughput Fabrication of Au-Cu Nanoparticle Libraries by Combinatorial Sputtering in Ionic Liquids
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6:11:13:8 High-throughput characterization of mechanical properties of Ti-Ni-Cu shape memory thin films at elevated temperature
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6:11:13:9 On the mechanism that leads to vanishing thermal hysteresis of the B2-R phase transformation in multilayered (TiNi)/(W) shape memory alloy thin films
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6:11:14:1 Thermomechanical modelling of microstructurally graded shape memory alloys
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6:11:14:2 Functionally graded NiTi strips prepared by laser surface anneal
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6:11:14:3 Analytical modelling of functionally graded NiTi shape memory alloy plates under tensile loading and recovery of deformation upon heating
DOI:10.1016/j.actamat.2013.02.032 JN:ACTA MATERIALIA PY:2013 TC:4 AU: Shariat, B. S.;Liu, Y.;Meng, Q.;Rio, G.;
6:11:14:4 Temperature profiles in a Ti-45Ni-5Cu (at%) shape memory alloy developed by the Joule heating
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6:11:14:5 Texture development, microstructure and phase transformation characteristics of sputtered Ni-Ti Shape Memory Alloy films grown on TiN < 111 >
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6:11:14:6 Transformation behavior of explosively welded TiNi/TiNi laminate after diffusion annealing and aging
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6:11:14:7 Laser annealing of functionally graded NiTi thin plate
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6:11:14:8 Finite element computational modelling and experimental investigation of perforated NiTi plates under tension
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6:11:14:9 Compositionally graded NiTi plate prepared by diffusion annealing
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6:11:14:10 Mathematical modelling of pseudoelastic behaviour of tapered NiTi bars
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6:11:14:11 Effect of proportional control treatment on transformation behavior of Ti-50.9 at.% Ni shape memory alloys
DOI:10.1016/j.jallcom.2011.12.112 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:2 AU: Park, Su Ho;Lee, Jun Hee;Nam, Tae Hyun;Lee, Yun Jung;Inoue, Kenji;Lee, Su Woong;Kim, Jae Il;
6:11:14:12 Simultaneous probing of phase transformations in Ni-Ti thin film shape memory alloy by synchrotron radiation-based X-ray diffraction and electrical resistivity
DOI:10.1016/j.matchar.2012.11.009 JN:MATERIALS CHARACTERIZATION PY:2013 TC:1 AU: Braz Fernandes, F. M.;Mahesh, K. K.;Martins, R. M. S.;Silva, R. J. C.;Baehtz, C.;von Borany, J.;
6:11:15:1 Almost compatible microstructures in shape memory alloys
DOI:10.1016/j.actamat.2010.03.032 JN:ACTA MATERIALIA PY:2010 TC:11 AU: Balandraud, X.;Delpueyo, D.;Grediac, M.;Zanzotto, G.;
6:11:15:2 Effects of Ni concentration and aging conditions on multistage martensitic transformation in aged Ni-rich Ti-Ni alloys
DOI:10.1016/j.actamat.2014.01.028 JN:ACTA MATERIALIA PY:2014 TC:2 AU: Ravari, B. Karbakhsh;Farjami, S.;Nishida, M.;
6:11:15:3 Incompatibility and preferred morphology in the self-accommodation microstructure of -titanium shape memory alloy
DOI:10.1080/14786435.2012.725955 JN:PHILOSOPHICAL MAGAZINE PY:2013 TC:2 AU: Inamura, T.;Hosoda, H.;Miyazaki, S.;
6:11:15:4 Self-accommodation of B19 ' martensite in Ti-Ni shape memory alloys - Part I. Morphological and crystallographic studies of the variant selection rule
DOI:10.1080/14786435.2012.669858 JN:PHILOSOPHICAL MAGAZINE PY:2012 TC:9 AU: Nishida, M.;Nishiura, T.;Kawano, H.;Inamura, T.;
6:11:15:5 Self-accommodation of B19 ' martensite in Ti-Ni shape memory alloys - Part II. Characteristic interface structures between habit plane variants
DOI:10.1080/14786435.2012.669860 JN:PHILOSOPHICAL MAGAZINE PY:2012 TC:5 AU: Nishida, M.;Okunishi, E.;Nishiura, T.;Kawano, H.;Inamura, T.;Ii, S.;Hara, T.;
6:11:15:6 Self-accommodation of B19 ' martensite in Ti-Ni shape memory alloys. Part III. Analysis of habit plane variant clusters by the geometrically nonlinear theory
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6:11:15:7 Characterization of the mechanical dissipation in shape-memory alloys during stress-induced phase transformation
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6:11:15:8 Applying infrared thermography to analyse martensitic microstructures in a Cu-Al-Be shape-memory alloy subjected to a cyclic loading
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6:11:15:9 Competition between invariant habit plane and compatible junction plane in TiNb-based shape memory alloy
DOI:10.1016/j.jallcom.2012.03.003 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:0 AU: Inamura, T.;Kim, H. Y.;Hosoda, H.;Miyazaki, S.;
6:11:16:1 Quantitative three-dimensional analysis of Ni4Ti3 precipitate morphology and distribution in polycrystalline Ni-Ti
DOI:10.1016/j.actamat.2010.11.044 JN:ACTA MATERIALIA PY:2011 TC:22 AU: Cao, S.;Nishida, M.;Schryvers, D.;
6:11:16:2 Electron microscopy study of Nb-rich nanoprecipitates in Ni-Ti-Nb and their influence on the martensitic transformation
DOI:10.1016/j.scriptamat.2012.08.020 JN:SCRIPTA MATERIALIA PY:2012 TC:11 AU: Shi, H.;Pourbabak, S.;van Humbeeck, J.;Schryvers, D.;
6:11:16:3 In situ SEM studies of the transformation sequence of multistage martensitic transformations in aged Ti-50.8 at.% Ni alloys
DOI:10.1080/14786435.2013.769070 JN:PHILOSOPHICAL MAGAZINE PY:2013 TC:4 AU: Ravari, B. Karbakhsh;Nishida, M.;
6:11:16:4 Focused ion beam/scanning electron microscopy tomography and conventional transmission electron microscopy assessment of Ni4Ti3 morphology in compression-aged Ni-rich Ni-Ti single crystals
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6:11:16:5 Microstructure and precipitates in annealed Co38Ni33Al29 ferromagnetic shape memory alloy
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6:11:16:6 Recent EM investigations on nano-and micro-defect structures in SMAs
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6:11:16:7 Quantitative 3-D morphologic and distributional study of Ni4Ti3 precipitates in a Ni51Ti49 single crystal alloy
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6:11:16:8 Site occupation of Nb atoms in ternary Ni-Ti-Nb shape memory alloys
DOI:10.1016/j.actamat.2014.03.062 JN:ACTA MATERIALIA PY:2014 TC:0 AU: Shi, H.;Frenzel, J.;Martinez, G. T.;Van Rompaey, S.;Bakulin, A.;Kulkova, S.;Van Aert, S.;Schryvers, D.;
6:11:16:9 Effect of Thermal Cycling on Multistage Martensitic Transformation in Aged Ti-50.8 at% Ni Alloy
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6:11:16:10 Behaviors of Ferromagnetic Shape Memory Alloy Ni-Mn-Ga Under Incomplete Magneto-Mechanical Loading-Unloading Cycles
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6:11:17:1 Shape memory behavior and tension-compression asymmetry of a FeNiCoAlTa single-crystalline shape memory alloy
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6:11:17:2 Cyclic degradation mechanisms in aged FeNiCoAlTa shape memory single crystals
DOI:10.1016/j.actamat.2014.06.019 JN:ACTA MATERIALIA PY:2014 TC:6 AU: Krooss, P.;Somsen, C.;Niendorf, T.;Schaper, M.;Karaman, I.;Chumlyakov, Y.;Eggeler, G.;Maier, H. J.;
6:11:17:3 Effect of aging on the superelastic response of a single crystalline FeNiCoAlTa shape memory alloy
DOI:10.1016/j.scriptamat.2012.06.006 JN:SCRIPTA MATERIALIA PY:2012 TC:9 AU: Evirgen, A.;Ma, J.;Karaman, I.;Luo, Z. P.;Chumlyakov, Y. I.;
6:11:17:4 Effect of grain size on superelasticity in Fe-Mn-Al-Ni shape memory alloy wire
DOI:10.1063/1.4820429 JN:APL MATERIALS PY:2013 TC:4 AU: Omori, T.;Okano, M.;Kainuma, R.;
6:11:17:5 Thermoelastic martensitic transformation and superelasticity in Fe-Ni-Co-Al-Nb-B polycrystalline alloy
DOI:10.1016/j.scriptamat.2013.09.006 JN:SCRIPTA MATERIALIA PY:2013 TC:11 AU: Omori, T.;Abe, S.;Tanaka, Y.;Lee, D. Y.;Ishida, K.;Kainuma, R.;
6:11:17:6 The effect of nanoprecipitates on the superelastic properties of FeNiCoAlTa shape memory alloy single crystals
DOI:10.1016/j.actamat.2013.02.036 JN:ACTA MATERIALIA PY:2013 TC:9 AU: Ma, Ji;Hornbuckle, B. C.;Karaman, I.;Thompson, G. B.;Luo, Z. P.;Chumlyakov, Y. I.;
6:11:17:7 Ductility enhancement and superelasticity in Fe-Ni-Co-Al-Ti-B polycrystalline alloy
DOI:10.1016/j.jallcom.2014.07.136 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:3 AU: Lee, Doyup;Omori, Toshihiro;Kainuma, Ryosuke;
6:11:17:8 Microstructure and martensitic transformation in the Fe-Mn-Al-Ni shape memory alloy with B2-type coherent fine particles
DOI:10.1063/1.4769375 JN:APPLIED PHYSICS LETTERS PY:2012 TC:4 AU: Omori, T.;Nagasako, M.;Okano, M.;Endo, K.;Kainuma, R.;
6:11:17:9 Thermal cycling behavior of an aged FeNiCoAlTa single-crystal shape memory alloy
DOI:10.1016/j.scriptamat.2014.02.020 JN:SCRIPTA MATERIALIA PY:2014 TC:3 AU: Krooss, P.;Holzweissig, M. J.;Niendorf, T.;Somsen, C.;Schaper, M.;Chumlyakov, Y. I.;Maier, H. J.;
6:11:17:10 Microstructural and magnetic behavior of an equiatomic NiCoAlFe alloy prepared by mechanical alloying
DOI:10.1016/j.jallcom.2014.01.233 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:0 AU: Gomez-Esparza, C. D.;Baldenebro-Lopez, F. J.;Santillan-Rodriguez, C. R.;Estrada-Guel, I.;Matutes-Aquino, J. A.;Herrera-Ramirez, J. M.;Martinez-Sanchez, R.;
6:11:17:11 Effect of Internal Strain on Martensitic Transformations in NiTi Shape Memory Alloys
DOI:10.2320/matertrans.MB201012 JN:MATERIALS TRANSACTIONS PY:2011 TC:3 AU: Stroz, Danuta;Chrobak, Dariusz;
6:11:18:1:1 Time-dependent paths, fictive temperatures and residual entropy of glass
DOI:10.1080/14786435.2010.505559 JN:PHILOSOPHICAL MAGAZINE PY:2010 TC:16 AU: Johari, G. P.;Aji, D. P. B.;
6:11:18:1:2 Response to the comment on 'Time-dependent paths, fictive temperatures and residual entropy of glass'
DOI:10.1080/14786435.2011.598882 JN:PHILOSOPHICAL MAGAZINE PY:2011 TC:3 AU: Johari, G. P.;Aji, D. P. B.;
6:11:18:1:3 Comment on 'Time-dependent paths, fictive temperatures and residual entropy of glass'
DOI:10.1080/14786435.2011.598879 JN:PHILOSOPHICAL MAGAZINE PY:2011 TC:3 AU: Gupta, P. K.;Mauro, J. C.;
6:11:18:1:4 Rejoinder to the response to the comment on 'Time-dependent paths, fictive temperatures and residual entropy of glass'
DOI:10.1080/14786435.2011.598880 JN:PHILOSOPHICAL MAGAZINE PY:2011 TC:0 AU: Gupta, P. K.;Mauro, J. C.;
6:11:18:1:5 Time-dependent paths, fictive temperatures and residual entropy of glass (vol 90, pg 4377, 2010)
DOI:10.1080/14786435.2010.546053 JN:PHILOSOPHICAL MAGAZINE PY:2011 TC:3 AU: Johari, G. P.;Aji, D. P. B.;
6:11:18:2:1 Residual entropy and structural disorder in glass: A two-level model and a review of spatial and ensemble vs. temporal sampling
DOI:10.1016/j.jnoncrysol.2012.10.002 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2013 TC:4 AU: Takada, Akira;Conradt, Reinhard;Richet, Pascal;
6:11:18:2:2 Residual entropy and structural disorder in glass: Fluctuation phenomena and time-dependent features as deduced from an Ising-type structural model
DOI:10.1016/j.jnoncrysol.2013.01.027 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2013 TC:1 AU: Takada, Akira;Conradt, Reinhard;Richet, Pascal;
6:11:18:2:3 Reply to Gupta and Kob's "Comments on 'Residual entropy and structural disorder in glass: A two-level model and a review of spatial and ensemble vs. Temporal sampling' [J. Non-Cryst. Solids 360 (2013) 13]"
DOI:10.1016/j.jnoncrysol.2014.02.003 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2014 TC:0 AU: Takada, Akira;Conradt, Reinhard;Richet, Pascal;
6:11:18:2:4 Comment on "Residual entropy and structural disorder in glass: A two level model and a review of spatial and ensemble vs. temporal sampling" by A. Takada, R. Conradt, and P. Richet [J. Non-Cryst. Solids, 360, 13 (2013)]
DOI:10.1016/j.jnoncrysol.2013.12.006 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2014 TC:1 AU: Gupta, Prabhat K.;Kob, Walter;
6:11:18:2:5 On the dependence of the properties of glasses on cooling and heating rates II Prigogine-Defay ratio, fictive temperature and fictive pressure
DOI:10.1016/j.jnoncrysol.2010.12.005 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2011 TC:11 AU: Tropin, Timur V.;Schmelzer, Juern W. P.;Schick, Christoph;
6:11:18:3:1 On the dependence of the properties of glasses on cooling and heating rates I. Entropy, entropy production, and glass transition temperature
DOI:10.1016/j.jnoncrysol.2010.11.111 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2011 TC:23 AU: Tropin, Timur V.;Schmelzer, Juern W. P.;Schick, Christoph;
6:11:18:3:2 Thermodynamic properties of amorphous solids: The electrochemical approach
DOI:10.1016/j.jnoncrysol.2012.02.031 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2012 TC:3 AU: Jordanov, Nicolai;Wondraczek, Lothar;Gutzow, Ivan;
6:11:18:3:3 On the reality of the residual entropy of glasses and disordered crystals: The entropy of mixing
DOI:10.1016/j.jnoncrysol.2010.05.089 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2011 TC:8 AU: Goldstein, Martin;
6:11:18:3:4 Thermodynamic properties of vitreous electrodes in a Ni/NiP glass-crystal Galvanic cell
DOI:10.1016/j.jnoncrysol.2012.10.028 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2013 TC:0 AU: Jordanov, Nicolai;Wondraczek, Lothar;Gutzow, Ivan;
6:11:19:1 Thermal stability of dual-phase Ni58Mn25Ga17 high-temperature shape memory alloy
DOI:10.1016/j.scriptamat.2010.02.044 JN:SCRIPTA MATERIALIA PY:2010 TC:13 AU: Xin, Yan;Li, Yan;Liu, Zongde;
6:11:19:2 Structure and shape memory effect in a Ni54Mn25Ga20Gd1 alloy with a high transformation temperature
DOI:10.1016/j.jallcom.2011.04.144 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:5 AU: Zhang, Xin;Sui, Jiehe;Yu, Zhiliang;Cai, Wei;
6:11:19:3 Effect of Ni substitution for Ga on the polycrystalline Ni-Mn-Ga-Gd high-temperature shape memory alloys
DOI:10.1016/j.jallcom.2012.12.157 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:1 AU: Zhang, Xin;Sui, Jiehe;Zheng, Xiaohang;Yang, Zheyi;Tian, Xiaohua;Cai, Wei;
6:11:19:4 Microstructures and magnetostriction of two-phase Fe-66-Pd-30-Ni-4 high-temperature ferromagnetic shape memory alloys
DOI:10.1063/1.3540690 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:3 AU: Lin, Yin-Chih;Lin, Chien-Feng;Yang, Jin-Bin;Lee, Hwa-Teng;
6:11:19:5 Grain size refinement and magnetostriction of ferromagnetic shape memory Fe-Pd-Rh alloys
DOI:10.1016/j.jmmm.2009.08.046 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2010 TC:6 AU: Lin, Y. C.;Lee, H. T.;
6:11:19:6 Effects of Ni addition on the magnetostriction and microstructures of Fe70-xPd30Nix high-temperature ferromagnetic shape memory alloys
DOI:10.1063/1.3669915 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:0 AU: Lin, Yin-Chih;Lin, Chien-Feng;
6:11:19:7 Magnetostriction and magnetic structure in annealed recrystallization of strain-forged ferromagnetic shape memory Fe-Pd-Rh alloys
DOI:10.1063/1.3367979 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:1 AU: Lin, Yin-Chih;Lee, Hwa-Teng;
6:11:19:8 Thermal stability of Ni54Mn25Ga20.9Gd0.1 high-temperature shape memory alloy with large reversible strain
DOI:10.1016/j.matlet.2014.02.088 JN:MATERIALS LETTERS PY:2014 TC:3 AU: Zhang, Xin;Sui, Jiehe;Yang, Zheyi;Zheng, Xiaohang;Cai, Wei;
6:11:19:9 Shape memory alloys with high transformation temperatures
DOI:10.1016/j.materresbull.2012.04.118 JN:MATERIALS RESEARCH BULLETIN PY:2012 TC:3 AU: Van Humbeeck, Jan;
6:11:19:10 Two-way shape memory effect of polycrystalline Ni-Mn-Ga-Gd high-temperature shape memory alloys
DOI:10.1016/j.scriptamat.2013.01.022 JN:SCRIPTA MATERIALIA PY:2013 TC:3 AU: Sui, Jiehe;Zhang, Xin;Zheng, Xiaohang;Yang, Zheyi;Cai, Wei;Tian, Xiaohua;
6:11:19:11 Martensitic transformation and magnetic properties of ferromagnetic shape memory Fe66Pd30Rh4 alloys
DOI:10.1016/j.jmmm.2011.06.013 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2011 TC:0 AU: Lin, C. F.;Yang, J. B.;
6:11:20:1:1 Effect of grain size on stress induced martensitic transformations in a Cu-Al-Be polycrystalline shape-memory alloy. Pseudoelastic cycling effects and microstructural modifications
DOI:10.1016/j.msea.2014.05.018 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Sade, M.;de Castro Bubani, F.;Lovey, F. C.;Torra, V.;
6:11:20:1:2 Improvements in the mechanical properties of the 18R <-> 6R high-hysteresis martensitic transformation by nanoprecipitates in CuZnAl alloys
DOI:10.1016/j.msea.2012.02.051 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:7 AU: de Castro Bubani, Franco;Sade, Marcos;Lovey, Francisco;
6:11:20:1:3 Stress induced martensitic transformations and phases stability in Cu-Al-Be shape-memory single crystals
DOI:10.1016/j.msea.2013.06.071 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:2 AU: de Castro Bubani, F.;Sade, M.;Torra, V.;Lovey, F.;Yawny, A.;
6:11:20:1:4 Mechanical behavior under cyclic loading of the 18R-6R high-hysteresis martensitic transformation in Cu-Zn-Al alloys with nanoprecipitates
DOI:10.1016/j.msea.2013.04.037 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: de Castro Bubani, Franco;Sade, Marcos;Lovey, Francisco;
6:11:20:2:1 Pseudoelasticity of Cu-Al-Be single crystals: Unexpected mechanical behavior
DOI:10.1016/j.msea.2011.07.021 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:5 AU: Sade, M.;Yawny, A.;Lovey, F. C.;Torra, V.;
6:11:20:2:2 In situ TEM observation of stress-induced martensitic transformations and twinning processes in CuAlNi single crystals
DOI:10.1016/j.actamat.2010.05.046 JN:ACTA MATERIALIA PY:2010 TC:6 AU: Zarubova, N.;Gemperlova, J.;Gemperle, A.;Dlabacek, Z.;Sittner, P.;Novak, V.;
6:11:20:2:3 In situ synchrotron analysis of lattice rotations in individual grains during stress-induced martensitic transformations in a polycrystalline CuAlBe shape memory alloy
DOI:10.1016/j.actamat.2011.02.037 JN:ACTA MATERIALIA PY:2011 TC:6 AU: Berveiller, S.;Malard, B.;Wright, J.;Patoor, E.;Geandier, G.;
6:11:20:2:4 In situ TEM observation of crack propagation in LiTaO3 particle toughened Al2O3 ceramics
DOI:10.1016/j.ceramint.2010.10.002 JN:CERAMICS INTERNATIONAL PY:2011 TC:1 AU: Liu, Y. G.;Jia, D. C.;Zhou, Y.;Fang, M. H.;Huang, Z. H.;
6:11:20:3:1 Grain size dependence of pseudoelasticity in polycrystalline Cu-Al-Mn-based shape memory sheets
DOI:10.1016/j.actamat.2013.03.022 JN:ACTA MATERIALIA PY:2013 TC:11 AU: Sutou, Y.;Omori, T.;Kainuma, R.;Ishida, K.;
6:11:20:3:2 Two- and Three-Dimensional Grain Growth in the Cu-Al-Mn Shape Memory Alloy
DOI:10.2320/matertrans.M2013167 JN:MATERIALS TRANSACTIONS PY:2013 TC:1 AU: Kusama, Tomoe;Omori, Toshihiro;Saito, Takashi;Ohnuma, Ikuo;Ishida, Kiyohito;Kainuma, Ryosuke;
6:11:20:4:1 An optimum path to obtain beta Cu-Zn-Al by mechanical alloying
DOI:10.1016/j.jallcom.2013.04.038 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:1 AU: Sesma, F. G.;Gennari, F. C.;Andrade-Gamboa, J.;Pelegrina, J. L.;
6:11:20:4:2 The influence of microstructure on the martensitic transformation in Cu-Zn-Al melt-spun ribbons
DOI:10.1080/14786431003745401 JN:PHILOSOPHICAL MAGAZINE PY:2010 TC:2 AU: Pelegrina, J. L.;Fabietti, L. M.;Condo, A. M.;Pozo Lopez, G.;Urreta, S. E.;
6:11:20:5:1 Changes of shape memory properties in CuAlNi single crystals subjected to isothermal treatments
DOI:10.1016/j.matchar.2013.08.008 JN:MATERIALS CHARACTERIZATION PY:2013 TC:1 AU: Gastien, R.;Corbellani, C. E.;Araujo, V. E. A.;Zelaya, E.;Beiroa, J. I.;Sade, M.;Lovey, F. C.;
6:11:20:5:2 Low temperature isothermal ageing in shape memory CuAlNi single crystals
DOI:10.1016/j.jallcom.2009.10.100 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:2 AU: Gastien, Rosana;Corbellani, Cristina E.;Bozzano, Patricia B.;Sade, Marcos L.;Lovey, Francisco C.;
6:11:21:1 A Novel Stretchable Coaxial NiTi-Sheath/Cu-Core Composite with High Strength and High Conductivity
DOI:10.1002/adma.201203762 JN:ADVANCED MATERIALS PY:2013 TC:6 AU: Hao, Shijie;Cui, Lishan;Chen, Zonghai;Jiang, Daqiang;Shao, Yang;Jiang, Jiang;Du, Minshu;Wang, Yandong;Brown, Dennis. E.;Ren, Yang;
6:11:21:2 The ultrahigh mechanical energy-absorption capability evidenced in a high-strength NbTi/NiTi nanocomposite
DOI:10.1063/1.3610562 JN:APPLIED PHYSICS LETTERS PY:2011 TC:13 AU: Hao, S. J.;Cui, L. S.;Wang, Y. D.;Jiang, D. Q.;Yu, C.;Jiang, J.;Brown, D. E.;Ren, Y.;
6:11:21:3 Phase-stress partition and stress-induced martensitic transformation in NbTi/NiTi nanocomposite
DOI:10.1063/1.3629768 JN:APPLIED PHYSICS LETTERS PY:2011 TC:7 AU: Hao, S. J.;Jiang, D. Q.;Cui, L. S.;Wang, Y. D.;Shi, X. B.;Nie, Z. H.;Brown, D. E.;Ren, Y.;
6:11:21:4 Nanostructured Nb reinforced NiTi shape memory alloy composite with high strength and narrow hysteresis
DOI:10.1063/1.4809954 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Hao, Shijie;Cui, Lishan;Jiang, Daqiang;Yu, Cun;Jiang, Jiang;Shi, Xiaobin;Liu, Zhenyang;Wang, Shan;Wang, Yandong;Brown, Dennis E.;Ren, Yang;
6:11:21:5 Interface stress development in the Cu/Ag nanostructured multilayered film during the tensile deformation
DOI:10.1063/1.4903342 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Su, R.;Li, L.;Nie, Z. H.;Zhang, Q. H.;Wang, Y. D.;Zhou, X. T.;Wu, Y. D.;Hui, X. D.;Li, X. J.;Wang, M. G.;
6:11:21:6 Influence of internal stress coupling on the deformation behavior of NiTi-Nb nanowire composites
DOI:10.1016/j.scriptamat.2014.01.027 JN:SCRIPTA MATERIALIA PY:2014 TC:3 AU: Liu, Zhenyang;Cui, Lishan;Liu, Yinong;Jiang, Daqiang;Jiang, Jiang;Shi, Xiaobin;Shao, Yang;Zheng, Yanjun;
6:11:21:7 Sputter-deposited Cu/Cu(O) multilayers exhibiting enhanced strength and tunable modulus
DOI:10.1016/j.actamat.2010.07.058 JN:ACTA MATERIALIA PY:2010 TC:3 AU: Chu, J. P.;Wang, Y-C;
6:11:21:8 In situ X-ray diffraction study of deformation behavior in a Fe/NiTi composite
DOI:10.1063/1.4767993 JN:APPLIED PHYSICS LETTERS PY:2012 TC:0 AU: Hao, Shijie;Cui, Lishan;Shao, Yang;Jiang, Jiang;Jiang, Daqiang;Wang, Shan;Du, Minshu;Wang, Yandong;Brown, Dennis E.;Ren, Yang;
6:11:22:1 Loading rate dependency of maximum nanoindentation depth in nano-grained NiTi shape memory alloy
DOI:10.1016/j.matlet.2010.10.026 JN:MATERIALS LETTERS PY:2011 TC:20 AU: Amini, Abbas;He, Yongjun;Sun, Qingping;
6:11:22:2 Depth dependency of indentation hardness during solid-state phase transition of shape memory alloys
DOI:10.1063/1.3603933 JN:APPLIED PHYSICS LETTERS PY:2011 TC:11 AU: Amini, Abbas;Yan, Wenyi;Sun, Qingping;
6:11:22:3 Effect of graphene layers on the thermomechanical behaviour of a NiTi shape memory alloy during the nanoscale phase transition
DOI:10.1016/j.scriptamat.2012.11.012 JN:SCRIPTA MATERIALIA PY:2013 TC:1 AU: Amini, Abbas;Hameed, Nishar;Church, Jeffrey S.;Cheng, Chun;Asgari, Alireza;Will, Frank;
6:11:22:4 Effects of dynamic loading on nano-scale depth-recovery and damping property of single crystal CuAlNi shape memory alloy
DOI:10.1016/j.jallcom.2012.07.154 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:4 AU: Amini, Abbas;Beladi, Hossein;Hameed, Nishar;Will, Frank;
6:11:22:5 On anomalous depth-dependency of the hardness of NiTi shape memory alloys in spherical nanoindentation
DOI:10.1557/jmr.2013.184 JN:JOURNAL OF MATERIALS RESEARCH PY:2013 TC:5 AU: Yan, Wenyi;Amini, Abbas;Sun, Qingping;
6:11:22:6 Combinational rate effects on the performance of nano-grained pseudoelastic Nitinols
DOI:10.1016/j.matlet.2013.04.072 JN:MATERIALS LETTERS PY:2013 TC:4 AU: Amini, Abbas;Cheng, Chun;Asgari, Alireza;
6:11:22:7 Scaling relationships in sharp conical indentation of shape memory alloys
DOI:10.1080/14786430903213346 JN:PHILOSOPHICAL MAGAZINE PY:2010 TC:6 AU: Kang, Guozheng;Yan, Wenyi;
6:11:22:8 Low electric field, easily reversible electrical set and reset processes in a Ge15Te83Si2 glass for phase change memory applications
DOI:10.1063/1.3574659 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:1 AU: Anbarasu, M.;Asokan, S.;
6:11:23:1 Combining indentation and diffusion couple techniques for combinatorial discovery of high temperature shape memory alloys
DOI:10.1016/j.actamat.2013.06.017 JN:ACTA MATERIALIA PY:2013 TC:4 AU: Shastry, V. V.;Divya, V. D.;Azeem, M. A.;Paul, A.;Dye, D.;Ramamurty, U.;
6:11:23:2 Role of indenter angle on the plastic deformation underneath a sharp indenter and on representative strains: An experimental and numerical study
DOI:10.1016/j.actamat.2011.03.058 JN:ACTA MATERIALIA PY:2011 TC:14 AU: Prasad, K. Eswar;Chollacoop, N.;Ramamurty, U.;
6:11:23:3 Simultaneous measurement of mechanical and electrical contact resistances during nanoindentation of NiTi shape memory alloys
DOI:10.1016/j.actamat.2013.04.049 JN:ACTA MATERIALIA PY:2013 TC:7 AU: Shastry, V. V.;Ramamurty, U.;
6:11:23:4 Conductivity noise study of the insulator-metal transition and phase coexistence in epitaxial samarium nickelate thin films
DOI:10.1103/PhysRevB.90.085116 JN:PHYSICAL REVIEW B PY:2014 TC:0 AU: Sahoo, Anindita;Ha, Sieu D.;Ramanathan, Shriram;Ghosh, Arindam;
6:11:23:5 Effect of temperature on the plastic zone size and the shear band density in a bulk metallic glass
DOI:10.1016/j.msea.2011.12.040 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:5 AU: Prasad, K. Eswar;Ramamurty, U.;
6:11:23:6 Simple kinetic sensor to structural transitions
DOI:10.1103/PhysRevB.81.134105 JN:PHYSICAL REVIEW B PY:2010 TC:3 AU: Chandni, U.;Ghosh, Arindam;
6:11:23:7 Material-dependent representative plastic strain for the prediction of indentation hardness
DOI:10.1016/j.actamat.2010.08.010 JN:ACTA MATERIALIA PY:2010 TC:11 AU: Branch, Nathan A.;Subhash, Ghatu;Arakere, Nagaraj K.;Klecka, Michael A.;
6:11:23:8 Prediction of the Constitutive Equation for Uniaxial Creep of a Power-Law Material through Instrumented Microindentation Testing and Modeling
DOI:10.2320/matertrans.M2013370 JN:MATERIALS TRANSACTIONS PY:2014 TC:2 AU: Takagi, Hidenari;Dao, Ming;Fujiwara, Masami;
6:11:23:9 Set of conversion coefficients for extracting uniaxial creep data from pseudo-steady indentation creep test results
DOI:10.1016/j.msea.2014.02.060 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Takagi, Hidenari;Fujiwara, Masami;
6:11:24:1 Identification of Quaternary Shape Memory Alloys with Near-Zero Thermal Hysteresis and Unprecedented Functional Stability
DOI:10.1002/adfm.200902336 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:71 AU: Zarnetta, Robert;Takahashi, Ryota;Young, Marcus L.;Savan, Alan;Furuya, Yasubumi;Thienhaus, Sigurd;Maass, Burkhard;Rahim, Mustafa;Frenzel, Jan;Brunken, Hayo;Chu, Yong S.;Srivastava, Vijay;James, Richard D.;Takeuchi, Ichiro;Eggeler, Gunther;Ludwig, Alfred;
6:11:24:2 Microstructure and transformation behaviour of Ni75-XTiXPd25 high temperature shape memory alloys
DOI:10.1016/j.jallcom.2012.11.165 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:3 AU: Ramaiah, K. V.;Saikrishna, C. N.;Gouthama;Bhaumik, S. K.;
6:11:24:3 Microstructural dependence on middle eigenvalue in Ti-Ni-Au
DOI:10.1016/j.jallcom.2013.08.132 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:1 AU: Shi, H.;Delville, R.;Srivastava, V.;James, R. D.;Schryvers, D.;
6:11:24:4 Growth of epitaxial NiTi shape memory alloy films on GaAs(001) and evidence of martensitic transformation
DOI:10.1116/1.3556973 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B PY:2011 TC:0 AU: Buschbeck, J.;Kawasaki, J.;Buehl, T. E.;Gossard, A. C.;Palmstrom, C. J.;
6:11:25:1 Phase volume fractions and strain measurements in an ultrafine-grained NiTi shape-memory alloy during tensile loading
DOI:10.1016/j.actamat.2009.12.021 JN:ACTA MATERIALIA PY:2010 TC:45 AU: Young, M. L.;Wagner, M. F. -X.;Frenzel, J.;Schmahl, W. W.;Eggeler, G.;
6:11:25:2 A finite element study on localized deformation and functional fatigue in pseudoelastic NiTi strips
DOI:10.1016/j.msea.2009.09.047 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:7 AU: Grossmann, Christian;Schaefer, Andreas;Wagner, Martin F. -X.;
6:11:25:3 In-situ high-energy synchrotron X-ray diffraction study of micromechanical behavior of multiple phases in Ni47Ti44Nb9 shape memory alloy
DOI:10.1016/j.msea.2012.09.090 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:3 AU: Sun, G. A.;Wang, X. L.;Wang, Y. D.;Woo, W. C.;Wang, H.;Liu, X. P.;Chen, B.;Fu, Y. Q.;Sheng, L. S.;Ren, Y.;
6:11:25:4 Strain mapping of crack extension in pseudoelastic NiTi shape memory alloys during static loading
DOI:10.1016/j.actamat.2013.06.024 JN:ACTA MATERIALIA PY:2013 TC:4 AU: Young, M. L.;Gollerthan, S.;Baruj, A.;Frenzel, J.;Schmahl, W. W.;Eggeler, G.;
6:11:25:5 Localization Events and Microstructural Evolution in Ultra-Fine Grained NiTi Shape Memory Alloys during Thermo-Mechanical Loading
DOI:10.1002/adem.201000063 JN:ADVANCED ENGINEERING MATERIALS PY:2010 TC:3 AU: Schaefer, Andreas;Wagner, Martin Franz-Xaver;Luis Pelegrina, Jorge;Olbricht, Juergen;Eggeler, Gunther;
6:11:25:6 Macroscopic versus local strain rates during tensile testing of pseudoelastic NiTi
DOI:10.1016/j.scriptamat.2010.06.038 JN:SCRIPTA MATERIALIA PY:2010 TC:6 AU: Wagner, Martin F. -X.;Schaefer, Andreas;
6:11:25:7 On the nature of the yield point phenomenon
DOI:10.1016/j.actamat.2012.12.003 JN:ACTA MATERIALIA PY:2013 TC:9 AU: Schwab, Rainer;Ruff, Volker;
6:11:25:8 Characteristics of the stress-induced formation of R-phase in ultrafine-grained NiTi shape memory wire
DOI:10.1016/j.jallcom.2013.06.056 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:4 AU: Olbricht, J.;Yawny, A.;Pelegrina, J. L.;Eggeler, G.;Yardley, V. A.;
6:11:25:9 Ageing effect and rate dependency of a NiTi shape memory alloy after hydrogen charging
DOI:10.1016/j.jallcom.2013.10.214 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:0 AU: Gamaoun, Fehmi;Hassine, Tarek;
6:11:26:1 Martensite stabilization and thermal cycling stability of two-phase NiMnGa-based high-temperature shape memory alloys
DOI:10.1016/j.actamat.2012.04.029 JN:ACTA MATERIALIA PY:2012 TC:14 AU: Yang, Shuiyuan;Liu, Yong;Wang, Cuiping;Liu, Xingjun;
6:11:26:2 A look into Cu-based shape memory alloys: Present scenario and future prospects
DOI:10.1557/jmr.2014.189 JN:JOURNAL OF MATERIALS RESEARCH PY:2014 TC:0 AU: Dasgupta, Rupa;
6:11:26:3 The mechanism clarification of Ni-Mn-Fe-Ga alloys with excellent and stable functional properties
DOI:10.1016/j.jallcom.2013.01.128 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:5 AU: Yang, S. Y.;Liu, Y.;Wang, C. P.;Shi, Z.;Liu, X. J.;
6:11:26:4 Simultaneous improvement of ductility and shape memory effect of two-phase Ni53Mn22Co6Ga19 high-temperature shape memory alloy with the addition of Ta
DOI:10.1016/j.matlet.2012.01.103 JN:MATERIALS LETTERS PY:2012 TC:4 AU: Yang, Shuiyuan;Wang, Cuiping;Liu, Xingjun;
6:11:26:5 Microstructure, martensitic transformation and shape memory effect of Ni38Co12Mn41In9 alloy
DOI:10.1016/j.matlet.2013.07.007 JN:MATERIALS LETTERS PY:2013 TC:3 AU: Yang, Shuiyuan;Su, Yu;Wang, Cuiping;Zhu, Jiahua;Liu, Xingjun;
6:11:26:6 Microstructure and properties of Cu-Al-Fe high-temperature shape memory alloys
DOI:10.1016/j.mseb.2014.02.001 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2014 TC:2 AU: Yang, Shuiyuan;Su, Yu;Wang, Cuiping;Liu, Xingjun;
6:11:26:7 Microstructure and martensitic transformation behavior of Ni-Mn-Fe-Ga-B high-temperature shape memory melt-spun ribbons
DOI:10.1016/j.matlet.2012.10.114 JN:MATERIALS LETTERS PY:2013 TC:2 AU: Yang, Shuiyuan;Su, Yu;Wang, Cuiping;Hu, Yang;Liu, Xingjun;
6:11:26:8 Grain size and temperature influence on the toughness of a CuAlBe shape memory alloy
DOI:10.1016/j.msea.2010.09.034 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:2 AU: de Albuquerque, Victor Hugo C.;Melo, Tadeu Antonio de A.;Gomes, Rodinei M.;de Lima, Severino Jackson G.;Tavares, Joao Manuel R. S.;
6:11:26:9 A study on the microstructure and properties of Cu-based shape memory alloy produced by hot extrusion of mechanically alloyed powders
DOI:10.1016/j.msea.2012.07.044 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:4 AU: Pourkhorshidi, S.;Parvin, N.;Kenevisi, M. S.;Naeimi, M.;Khaniki, H. Ebrahimnia;
6:11:27:1 Effect of thermomechanical pre-treatment on short- and long-term Ni release from biomedical NiTi
DOI:10.1016/j.actbio.2014.01.003 JN:ACTA BIOMATERIALIA PY:2014 TC:3 AU: Freiberg, Katharina E.;Bremer-Streck, Sibylle;Kiehntopf, Michael;Rettenmayr, Markus;Undisz, Andreas;
6:11:27:2 The effect of heating rate on the surface chemistry of NiTi
DOI:10.1016/j.actbio.2014.07.018 JN:ACTA BIOMATERIALIA PY:2014 TC:0 AU: Undisz, Andreas;Hanke, Robert;Freiberg, Katharina E.;Hoffmann, Volker;Rettenmayr, Markus;
6:11:27:3 Stability of Ni in nitinol oxide surfaces
DOI:10.1016/j.actbio.2010.09.009 JN:ACTA BIOMATERIALIA PY:2011 TC:13 AU: Tian, He;Schryvers, Dominique;Liu, Di;Jiang, Qing;Van Humbeeck, Jan;
6:11:27:4 Density functional theory simulation of titanium migration and reaction with oxygen in the early stages of oxidation of equiatomic NiTi alloy
DOI:10.1016/j.biomaterials.2010.01.060 JN:BIOMATERIALS PY:2010 TC:21 AU: Nolan, Michael;Tofail, Syed A. M.;
6:11:27:5 Effects of short-time heat treatment and subsequent chemical surface treatment on the mechanical properties, low-cycle fatigue behavior and corrosion resistance of a Ni-Ti (50.9 at.% Ni) biomedical alloy wire used for the manufacture of stents
DOI:10.1016/j.msea.2010.10.043 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:10 AU: Vojtech, D.;Voderova, M.;Kubasek, J.;Novak, P.;Seda, P.;Michalcova, A.;Fojt, J.;Hanus, J.;Mestek, O.;
6:11:27:6 Occurrence and origin of non-martensitic acicular artifacts on NiTi
DOI:10.1016/j.actamat.2010.09.026 JN:ACTA MATERIALIA PY:2011 TC:6 AU: Undisz, A.;Reuther, K.;Reuther, H.;Rettenmayr, M.;
6:11:27:7 Electric resistance monitoring as a method for controlling shape memory alloy characteristics during shape-setting treatments in the furnace
DOI:10.1016/j.msea.2014.01.075 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Pittaccio, Simone;Garavaglia, Lorenzo;
6:11:27:8 Oxidation of pure and potassium-doped NiTi shape memory surface: A density functional theory investigation
DOI:10.1103/PhysRevB.82.245401 JN:PHYSICAL REVIEW B PY:2010 TC:2 AU: Nigussa, K. N.;Stovneng, J. A.;
6:11:27:9 Behavior and effect of Ti2Ni phase during processing of NiTi shape memory alloy wire from cast ingot
DOI:10.1016/j.jallcom.2013.07.046 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:1 AU: Bhagyaraj, J.;Ramaiah, K. V.;Saikrishna, C. N.;Bhaumik, S. K.;Gouthama;
6:11:28:1 Phase transformation behaviors of TiNi fibers embedded in an aluminum matrix
DOI:10.1016/j.jallcom.2013.12.048 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:1 AU: Hu, Jie;Zhang, Qiang;Liu, Yan;Wu, Gaohui;
6:11:28:2 Effect of deformation on the martensitic transformation of TiNi melt-spun ribbons
DOI:10.1016/j.jallcom.2013.02.017 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:3 AU: Zheng, Hongxing;Xue, Sichuang;Wang, Wu;Zhai, Qijie;Luo, Zhiping;
6:11:28:3 Structure of martensite in deformed Ti-Ni-Cu thin films
DOI:10.1016/j.actamat.2011.01.003 JN:ACTA MATERIALIA PY:2011 TC:9 AU: Meng, X. L.;Sato, M.;Ishida, A.;
6:11:28:4 Effect of Co additions on B2 phase stability of Ni-poor NiTi-based alloys
DOI:10.1016/j.jallcom.2011.05.080 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:2 AU: Sun, Xiang;Nia, Xiao-dong;Shen, Jiang;Chen, Nan-xian;
6:11:28:5 Narrow hysteresis behavior of TiNi shape memory alloy constrained by NbTi matrix during incomplete transformation
DOI:10.1016/j.msea.2011.11.052 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:1 AU: Jiang, Jiang;Cui, Lishan;Zheng, Yanjun;Jiang, Daqiang;Liu, Zhenyang;Zhao, Kun;
6:11:28:6 Phase transformation characteristics and mechanical characterization of nitinol synthesized by laser direct deposition
DOI:10.1016/j.msea.2012.09.031 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:7 AU: Halani, Pratik R.;Kaya, Irfan;Shin, Yung C.;Karaca, Haluk E.;
6:11:28:7 Effect of warm-working rate on shape memory properties in Ti-49.7 at.%Ni alloy
DOI:10.1016/j.jallcom.2012.05.132 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:1 AU: Ock, Ji Myeon;Kim, Jae Il;
6:11:29:1 Improvement of NiTi Shape Memory Actuator Performance Through Ultra-Fine Grained and Nanocrystalline Microstructures
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6:11:29:2 Suppression of Ni4Ti3 Precipitation by Grain Size Refinement in Ni-Rich NiTi Shape Memory Alloys
DOI:10.1002/adem.201000101 JN:ADVANCED ENGINEERING MATERIALS PY:2010 TC:11 AU: Prokofiev, Egor A.;Burow, Juri A.;Payton, Eric J.;Zarnetta, Robert;Frenzel, Jan;Gunderov, Dmitry V.;Valiev, Ruslan Z.;Eggeler, Gunther;
6:11:29:3 Investigation of the recovery and recrystallization processes of Ni50.9Ti49.1 shape memory wires using in situ electrical resistance measurement
DOI:10.1016/j.msea.2012.04.106 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:8 AU: Kazemi-Choobi, Kamel;Khalil-Allafi, Jafar;Abbasi-Chianeh, Vahid;
6:11:29:4 Martensitic transformations in nanostructured nitinol: Finite element modeling of grain size and distribution effects
DOI:10.1016/j.commatsci.2012.11.032 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:2 AU: Liu, H. S.;Mishnaevsky, Leon, Jr.;
6:11:29:5 The effect of post-deformation aging on superelastic properties of Ni50.9Ti thin wires attaining micro and nano-substructure
DOI:10.1016/j.jallcom.2013.02.027 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:3 AU: Abbasi-Chianeh, V.;Khalil-Allafi, J.;Kazemi-choobi, K.;
6:11:29:6 Influence of recrystallization and subsequent aging treatment on superelastic behavior and martensitic transformation of Ni50.9Ti wires
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6:11:30:1:1 Influence of chemical composition on the damping characteristics of Cu-Al-Ni shape memory alloys
DOI:10.1016/j.matchemphys.2010.09.077 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2011 TC:14 AU: Chang, S. H.;
6:11:30:1:2 Internal friction of Cu-13.5Al-4Ni shape memory alloy measured by dynamic mechanical analysis under isothermal conditions
DOI:10.1016/j.matlet.2009.10.018 JN:MATERIALS LETTERS PY:2010 TC:5 AU: Chang, Shih-Hang;
6:11:30:1:3 Low frequency damping properties of a NiMnTi shape memory alloy
DOI:10.1016/j.matlet.2010.09.073 JN:MATERIALS LETTERS PY:2011 TC:2 AU: Chang, Shih-Hang;
6:11:30:1:4 Inherent internal friction of Ti50Ni50-xCux shape memory alloys measured under isothermal conditions
DOI:10.1016/j.jallcom.2013.10.026 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:4 AU: Chang, Shih-Hang;Hsiao, Sou-Hui;
6:11:30:2:1 Influence of Silver nanoparticles addition on the phase transformation, mechanical properties and corrosion behaviour of Cu-Al-Ni shape memory alloys
DOI:10.1016/j.jallcom.2014.05.173 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:2 AU: Saud, Safaa N.;Hamzah, E.;Abubakar, T.;Bakhsheshi-Rad, H. R.;Farahany, S.;Abdolahi, A.;Taheri, M. M.;
6:11:30:2:2 Influence of the microstructure on the corrosion behaviour of a shape memory Cu-Al-Be alloy in a marine environment
DOI:10.1016/j.apsusc.2010.10.054 JN:APPLIED SURFACE SCIENCE PY:2011 TC:9 AU: Montecinos, S.;Simison, S. N.;
6:11:30:2:3 Study of the corrosion products formed on a multiphase CuAlBe alloy in a sodium chloride solution by micro-Raman and in situ AFM measurements
DOI:10.1016/j.apsusc.2011.04.018 JN:APPLIED SURFACE SCIENCE PY:2011 TC:5 AU: Montecinos, S.;Simison, S. N.;
6:11:30:3:1 Electrochemical and microstructural study of Cu-Al-Ni shape memory alloy
DOI:10.1016/j.jallcom.2011.07.107 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:14 AU: Gojic, Mirko;Vrsalovic, Ladislav;Kozuh, Stjepan;Kneissl, Albert;Anzel, Ivan;Gudic, Senka;Kosec, Borut;Kliskic, Maja;
6:11:30:3:2 Comparative study on the electrochemical performance of the Cu-30Ni and Cu-20Zn-10Ni alloys
DOI:10.1016/j.jallcom.2009.11.002 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:4 AU: Zhou, Xiao-Zhong;Deng, Chu-Ping;Su, Yu-Chang;
6:11:30:3:3 The role of Ni content on the stability of Cu-Al-Ni ternary alloy in neutral chloride solutions
DOI:10.1016/j.matchemphys.2012.03.096 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:6 AU: Nady, H.;Helal, N. H.;El-Rabiee, M. M.;Badawy, W. A.;
6:11:31:1 Thermodynamic assessment of the stabilization effect in deformed shape memory alloy martensite
DOI:10.1016/j.actamat.2011.03.021 JN:ACTA MATERIALIA PY:2011 TC:11 AU: Kato, Hiroyuki;Yasuda, Yohei;Sasaki, Kazuaki;
6:11:31:2 The effect of quaternary element on the thermodynamic parameters and structure of CuAlMn shape memory alloys
DOI:10.1007/s00339-013-7880-3 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2013 TC:4 AU: Canbay, C. Aksu;Karagoz, Z.;
6:11:31:3 Thermal and structural characterization of Cu-Al-Mn-X (Ti, Ni) shape memory alloys
DOI:10.1007/s00339-014-8383-6 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2014 TC:1 AU: Canbay, C. Aksu;Genc, Z. Karagoz;Sekerci, M.;
6:11:31:4 Densification and microstructure of cross-roll rolled Cu-15% In powder using copper can
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6:11:31:5 Microstructure and properties of Cu-Al-Ni shape memory alloy strips prepared via hot densification rolling of argon atomized powder preforms
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6:11:31:6 Clausius-Duhem inequality description of superelasticity in Ni-Ti polycrystal as a dissipative process
DOI:10.1016/j.scriptamat.2012.02.036 JN:SCRIPTA MATERIALIA PY:2012 TC:4 AU: Yasuda, Yohei;Kato, Hiroyuki;Sasaki, Kazuaki;
6:11:31:7 Sputtering growth of Ni-Ti shape memory alloy nano fibers on porous alumina membrane
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6:11:31:8 Effect of solution treatment on damping capacity and shape memory effect of a CuAlMn alloy
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6:11:31:9 Use of time history speckle pattern and pulsed photoacoustic techniques to detect the self-accommodating transformation in a Cu-Al-Ni shape memory alloy
DOI:10.1016/j.matchar.2010.02.008 JN:MATERIALS CHARACTERIZATION PY:2010 TC:4 AU: Sanchez-Arevalo, F. M.;Aldama-Reyna, W.;Lara-Rodriguez, A. G.;Garcia-Fernandez, T.;Pulos, G.;Trivi, M.;Villagran-Muniz, M.;
6:11:31:10 Application of rapid solidification powder metallurgy processing to prepare Cu-Al-Ni high temperature shape memory alloy strips with high strength and high ductility
DOI:10.1016/j.msea.2013.01.063 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:3 AU: Vajpai, S. K.;Dube, R. K.;Sangal, S.;
6:11:32:1 Influence of buffer layer on structural, electrical and mechanical properties of PZT/NiTi thin film heterostructures
DOI:10.1016/j.jallcom.2012.04.117 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:4 AU: Choudhary, Nitin;Kaur, Davinder;
6:11:32:2 Martensite transformation of epitaxial Ni-Ti films
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6:11:32:3 Mechanical behavior of TiN/CrN nano-multilayer thin film deposited by unbalanced magnetron sputter process
DOI:10.1016/j.jallcom.2010.12.057 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:9 AU: Sun, Pei-Ling;Su, Cherng-Yuh;Liou, Tai-Pin;Hsu, Cheng-Hsun;Lin, Chung-Kwei;
6:11:32:4 Surface morphology and ferroelectric properties of compositional gradient PZT thin films prepared by chemical solution deposition process
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6:11:32:5 Rhombohedral-monoclinic phase transition related to grain orientation in Zr-rich Pb(ZrxTi1-x)O-3 thin films
DOI:10.1016/j.jallcom.2010.12.084 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:2 AU: Wang, J. N.;Li, W. L.;Li, X. L.;Fei, W. D.;
6:11:32:6 Enhanced ferroelectric properties of epitaxial Pb(Zr,Ti)O-3 film with LaAlO3 buffer
DOI:10.1016/j.tsf.2011.01.409 JN:THIN SOLID FILMS PY:2011 TC:3 AU: Hao, Lanzhong;Zhu, Jun;Zeng, Huizhong;Zhang, Ying;Zhang, Wanli;Li, Yanrong;
6:11:33:1:1 Nanostructured thin ribbons of a shape memory TiNiCu alloy
DOI:10.1016/j.tsf.2011.01.118 JN:THIN SOLID FILMS PY:2011 TC:10 AU: Shelyakov, A. V.;Sitnikov, N. N.;Menushenkov, A. P.;Koledov, V. V.;Irjak, A. I.;
6:11:33:1:2 X-ray studies of nanostructured Ti2NiCu shape memory alloy
DOI:10.1016/j.jallcom.2012.12.109 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:0 AU: Ari-Gur, P.;Madiligama, A. S. B.;Watza, S. G.;Shelyakov, A.;Kuchin, D.;Koledov, V.;Gao, W.;
6:11:33:1:3 Fabrication and characterization of amorphous-crystalline TiNiCu melt-spun ribbons
DOI:10.1016/j.jallcom.2012.02.146 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:3 AU: Shelyakov, A. V.;Sitnikov, N. N.;Menushenkov, A. P.;Korneev, A. A.;Rizakhanov, R. N.;Sokolova, N. A.;
6:11:33:1:4 Amorphous-crystalline Ti2NiCu alloy rapidly quenched ribbons annealed by DSC and electric pulses
DOI:10.1016/j.jallcom.2013.03.231 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:2 AU: Belyaev, S. P.;Resnina, N. N.;Irzhak, A. V.;Istomin-Kastrovsky, V. V.;Koledov, V. V.;Kuchin, D. S.;Shavrov, V. G.;Ari-Gur, P.;Shelyakov, A. V.;Tabachkova, N. Yu.;
6:11:33:1:5 Effects of crystallographic texture directionality on the compressive stress-strain response of shape recovered polycrystalline nitinol
DOI:10.1016/j.scriptamat.2010.04.017 JN:SCRIPTA MATERIALIA PY:2010 TC:2 AU: Fonte, Matthew;Saigal, Anil;
6:11:33:2:1 The characteristics of precipitation hardening and the shape memory effect in aged Ti50.6Ni39.4Cu9.8Si0.2 shape memory ribbons
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6:11:33:2:2 Martensitic transformation and pseudoelasticity of aged Ti50.1Ni49.7Si0.2 shape memory ribbon
DOI:10.1016/j.msea.2013.11.022 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Chen, Chih-Hsuan;Wu, Shyi-Kaan;
6:11:33:2:3 Effect of precipitation on two-way shape memory effect of melt-spun Ti50Ni25Cu25 ribbon
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6:11:33:2:4 Crystallization temperature and activation energy of as-spun Ti52.0Ni38.5Cu9.5 ribbon
DOI:10.1016/j.tsf.2011.01.115 JN:THIN SOLID FILMS PY:2011 TC:2 AU: Chang, K. H.;Wu, S. K.;Chang, S. H.;
6:11:33:3:1 Precipitate-induced R-phase in martensitic transformation of as-spun and annealed Ti51Ni49 ribbons
DOI:10.1016/j.jallcom.2010.06.019 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:7 AU: Wu, Ling-Mei;Chang, Shih-Hang;Wu, Shyi-Kaan;
6:11:33:3:2 Damping characteristics of as-spun and annealed Ti51Ni49 ribbons measured by dynamic mechanical analysis
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6:11:33:3:3 Effect of alloy composition on the B2-R transformation in rapidly solidified Ti-Ni alloys
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6:11:34:1 Preparation of TiNi films by diffusion technology and the study of the formation sequence of the intermetallics in Ti-Ni systems
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6:11:34:2 Diffusion bonding of TiAl using reactive Ni/Al nanolayers and Ti and Ni foils
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6:11:34:3 Diffusion bonding of TiAl using Ni/Al multilayers
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6:11:34:4 Reaction zone formed during diffusion bonding of TiNi to Ti6Al4V using Ni/Ti nanolayers
DOI:10.1007/s10853-013-7592-2 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:5 AU: Simoes, Sonia;Viana, Filomena;Sofia Ramos, A.;Teresa Vieira, M.;Vieira, Manuel F.;
6:11:34:5 Thermal stability of nanoscale metallic multilayers
DOI:10.1016/j.tsf.2014.05.065 JN:THIN SOLID FILMS PY:2014 TC:0 AU: Ramos, A. S.;Cavaleiro, A. J.;Vieira, M. T.;Morgiel, J.;Safran, G.;
6:11:34:6 Interface kinetics of combustion-diffusion bonding of Ni3Al/Ni and TiAl/Ti under direct current field
DOI:10.1007/s10853-012-6869-1 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:1 AU: Chen, S. P.;Dong, F.;Fan, W. H.;Meng, Q. S.;Munir, Zuhair A.;
6:11:35:1 Ab initio study of point defects in NiTi-based alloys
DOI:10.1103/PhysRevB.89.014110 JN:PHYSICAL REVIEW B PY:2014 TC:1 AU: Holec, David;Friak, Martin;Dlouhy, Antonin;Neugebauer, Joerg;
6:11:35:2 V-Ni-Ti multi-phase alloy membranes for hydrogen purification
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6:11:35:3 Impact of hydrogen-assisted heat treatments on microstructure and transformation path in a Ni-rich NiTi shape memory alloy
DOI:10.1016/j.jallcom.2012.07.096 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:1 AU: Kubenova, M.;Zalesak, J.;Cermak, J.;Dlouhy, A.;
6:11:35:4 Quantitative microstructure analyses upon multistage martensitic transformation in an aged Ti-50.8 at.% Ni alloy
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6:11:35:5 The location of atomic hydrogen in NiTi alloy: A first principles study
DOI:10.1016/j.commatsci.2010.10.013 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:4 AU: Moitra, Amitava;Solanki, Kiran N.;Horstemeyer, M. F.;
6:11:35:6 Hydrogenation Properties of Vanadium-Based Alloys with Large Hydrogen Storage Capacity
DOI:10.2320/matertrans.M2010216 JN:MATERIALS TRANSACTIONS PY:2011 TC:6 AU: Tsukahara, M.;
6:11:35:7 Crystal structure and free energy of Ti2Ni3 precipitates in Ti-Ni alloys from first principles
DOI:10.1016/j.commatsci.2014.06.019 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:0 AU: Lang, P.;Wojcik, T.;Povoden-Karadeniz, E.;Cirstea, C. D.;Kozeschnik, E.;
6:11:36:1 Evaluation of kinetic equations describing the martensite-austenite phase transformation in NiTi shape memory alloys
DOI:10.1016/j.jallcom.2014.07.148 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:1 AU: Zotov, Nikolay;Marzynkevitsch, Vladimir;Mittemeijer, Eric J.;
6:11:36:2 Evaluation of the maximum transformation rate for analyzing solid-state phase transformation kinetics (vol 57, pg 6176, 2009)
DOI:10.1016/j.actamat.2009.11.023 JN:ACTA MATERIALIA PY:2010 TC:5 AU: Liu, F.;Song, S. J.;Sommer, F.;Mittemeijer, E. J.;
6:11:36:3 Isochronal crystallization kinetics of Fe40Ni40B20 amorphous alloy
DOI:10.1007/s10853-013-7354-1 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:3 AU: Ma, Yazhu;Rheingans, Bastian;Liu, Feng;Mittemeijer, Eric J.;
6:11:36:4 Crystallisation kinetics of Fe40Ni40B20 amorphous alloy
DOI:10.1016/j.jnoncrysol.2012.11.028 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2013 TC:7 AU: Rheingans, Bastian;Ma, Yazhu;Liu, Feng;Mittemeijer, Eric J.;
6:11:36:5 Avoiding error of determining the martensite finish temperature due to thermal inertia in differential scanning calorimetry: model and experiment of Ni-Ti and Cu-Al-Ni shape memory alloys
DOI:10.1007/s10853-011-5919-4 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:3 AU: Kato, Hiroyuki;Sasaki, Kazuaki;
6:11:36:6 X-ray diffraction study of the reversemartensitic transformation in NiTi shapememory thin films
DOI:10.1016/j.tsf.2013.07.033 JN:THIN SOLID FILMS PY:2013 TC:1 AU: Koker, M. K. A.;Schaab, J.;Zotov, N.;Mittemeijer, E. J.;
6:11:36:7 Kinetics of the allotropic hcp-fcc phase transformation in cobalt
DOI:10.1080/14786435.2010.525541 JN:PHILOSOPHICAL MAGAZINE PY:2011 TC:12 AU: Bauer, Rico;Jaegle, Eric A.;Baumann, Wolfgang;Mittemeijer, Eric Jan;
6:11:36:8 Supplement on "Effects of heat-flux features on the differential scanning calorimetry curve of a thermoelastic martensitic transformation"
DOI:10.1016/j.msea.2009.11.030 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:2 AU: Benke, Marton;Mertinger, Valeria;Tranta, Ferenc;Barkoczy, Peter;Daroczi, Lajos;
6:11:37:1 Electronic structure of nitinol surfaces oxidized by low-energy ion bombardment
DOI:10.1063/1.4884835 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Petravic, M.;Varasanec, M.;Peter, R.;Kavre, I.;Metikos-Hukovic, M.;Yang, Y. -W.;
6:11:37:2 Microstructure and mechanical properties of W-Ni-N coatings prepared by magnetron sputtering
DOI:10.1016/j.tsf.2014.05.023 JN:THIN SOLID FILMS PY:2014 TC:1 AU: Yang, J. F.;Jiang, Y.;Yang, R. F.;Gao, Y. X.;Wang, X. P.;Fang, Q. F.;
6:11:37:3 Oxidation of TiNi surface with hyperthermal oxygen molecular beams
DOI:10.1016/j.apsusc.2010.12.033 JN:APPLIED SURFACE SCIENCE PY:2011 TC:5 AU: Okada, Michio;Souwa, Makoto;Kasai, Toshio;Teraoka, Yuden;
6:11:37:4 Arc plasma deposition of TiSiN/Ni nanoscale multilayered coatings
DOI:10.1016/j.matchemphys.2012.12.010 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2013 TC:4 AU: Vladescu, Alina;Braic, Viorel;Braic, Mariana;Balaceanu, Mihai;
6:11:37:5 Biomaterials and design in occlusion devices for cardiac defects: A review
DOI:10.1016/j.actbio.2013.12.003 JN:ACTA BIOMATERIALIA PY:2014 TC:5 AU: Huang, Yingying;Kong, Jen Fong;Venkatraman, Subbu S.;
6:11:37:6 Electronic structure of Ti-Ni alloys: An XPS and NEXAFS study
DOI:10.1016/j.jallcom.2012.05.059 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:8 AU: Senkovskiy, B. V.;Usachov, D. Yu;Fedorov, A. V.;Vilkov, O. Yu;Shelyakov, A. V.;Adamchuk, V. K.;
6:11:37:7 Oxidation of TiNi surface with hyperthermal oxygen molecular beams (vol 257, pg 4257, 2011)
DOI:10.1016/j.apsusc.2011.03.052 JN:APPLIED SURFACE SCIENCE PY:2011 TC:0 AU: Okada, Michio;Souwa, Makoto;Kasai, Toshio;Teraoka, Yuden;
6:11:37:8 Oxidation of TiAl surface with hyperthermal oxygen molecular beams
DOI:10.1016/j.apsusc.2013.03.082 JN:APPLIED SURFACE SCIENCE PY:2013 TC:1 AU: Hashinokuchi, Michihiro;Tode, Mayumi;Yoshigoe, Akitaka;Teraoka, Yuden;Okada, Michio;
6:11:37:9 Effect of carbon content on the microstructure and properties of W-Si-C-N coatings fabricated by magnetron sputtering
DOI:10.1016/j.mseb.2012.05.021 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2012 TC:2 AU: Yang, Junfeng;Jiang, Yan;Yuan, Zhigang;Wang, Xianping;Fang, Qianfeng;
6:11:38:1 Recovery and residual stress of SMA wires and applications for concrete structures
DOI:10.1088/0964-1726/19/9/094013 JN:SMART MATERIALS & STRUCTURES PY:2010 TC:9 AU: Choi, Eunsoo;Cho, Sung-Chul;Hu, Jong Wan;Park, Taehyo;Chung, Young-Soo;
6:11:38:2 The confining effectiveness of NiTiNb and NiTi SMA wire jackets for concrete
DOI:10.1088/0964-1726/19/3/035024 JN:SMART MATERIALS & STRUCTURES PY:2010 TC:19 AU: Choi, Eunsoo;Chung, Young-Soo;Choi, Jun-Hyeok;Kim, Hong-Taek;Lee, Hacksoo;
6:11:38:3 Hysteretic behavior of NiTi and NiTiNb SMA wires under recovery or pre-stressing stress
DOI:10.1016/j.jallcom.2012.02.037 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:1 AU: Choi, Eunsoo;Hong, Hyun-Ki;Kim, Hee Sun;Chung, Young-Soo;
6:11:38:4 Bond-slip characteristics of SMA reinforcing fibers obtained by pull-out tests
DOI:10.1016/j.materresbull.2014.04.060 JN:MATERIALS RESEARCH BULLETIN PY:2014 TC:2 AU: Choi, Eunsoo;Kim, Dongjoo;Chung, Young-Soo;Nam, Tae-hyun;
6:11:38:5 Monotonic and cyclic bond behavior of confined concrete using NiTiNb SMA wires
DOI:10.1088/0964-1726/20/7/075016 JN:SMART MATERIALS & STRUCTURES PY:2011 TC:8 AU: Choi, Eunsoo;Chung, Young-Soo;Kim, Yeon-Wook;Kim, Joo-Woo;
6:11:38:6 Lateral reinforcement of welded SMA rings for reinforced concrete columns
DOI:10.1016/j.jallcom.2012.02.135 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:2 AU: Choi, Eunsoo;Park, Sun-Hee;Cho, Baik-Soon;Hui, David;
6:11:38:7 Comparing the cyclic behavior of concrete cylinders confined by shape memory alloy wire or steel jackets
DOI:10.1088/0964-1726/20/9/094008 JN:SMART MATERIALS & STRUCTURES PY:2011 TC:3 AU: Park, Joonam;Choi, Eunsoo;Park, Kyoungsoo;Kim, Hong-Taek;
6:11:39:1 Effects of the heterogeneity in the electron beam welded joint on fatigue crack growth in Ti-6Al-4V alloy
DOI:10.1016/j.msea.2011.09.014 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:10 AU: Li, Xingzhi;Hu, Shubing;Xiao, Jianzhong;Ji, Longbo;
6:11:39:2 Effects of local phase conversion on the tensile loading of pulsed Nd:YAG laser processed Nitinol
DOI:10.1016/j.msea.2010.06.025 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:22 AU: Khan, M. I.;Zhou, Y.;
6:11:39:3 Fatigue behavior of laser-welded NiTi wires in small-strain cyclic bending
DOI:10.1016/j.msea.2012.08.119 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:5 AU: Chan, C. W.;Man, H. C.;Cheng, F. T.;
6:11:39:4 Susceptibility to environmentally induced cracking of laser-welded NiTi wires in Hanks' solution at open-circuit potential
DOI:10.1016/j.msea.2012.02.087 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:6 AU: Chan, C. W.;Man, H. C.;Yue, T. M.;
6:11:39:5 The influences of precrack orientations in welded joint of Ti-6Al-4V on fatigue crack growth
DOI:10.1016/j.msea.2009.09.031 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:10 AU: Wang, Xuedong;Shi, Qingyu;Wang, Xin;Zhang, Zenglei;
6:11:39:6 A study of cyclic fatigue, damage initiation, damage propagation, and fracture of welded titanium alloy plate
DOI:10.1016/j.msea.2010.06.086 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:7 AU: Srivatsan, T. S.;Bathini, U.;Patnaik, A.;Quick, T.;
6:11:39:7 Reduction of environmentally induced cracking of laser-welded shape memory NiTi wires via post-weld heat-treatment
DOI:10.1016/j.msea.2013.09.051 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:1 AU: Chan, C. W.;Man, H. C.;
6:11:39:8 Understanding the mechanical response of built-up welded beams made from commercially pure titanium and a titanium alloy
DOI:10.1016/j.msea.2013.10.041 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Patnaik, Anil K.;Poondla, Narendra;Menzemer, Craig C.;Srivatsan, T. S.;
6:11:40:1 Anomalous softening behavior in Ti/Ni multilayers with ultra-high hardness
DOI:10.1016/j.msea.2014.09.019 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Shi, J.;Ca, Z. H.;Wei, M. Z.;Pan, G. J.;Xu, L. J.;Meng, X. K.;
6:11:40:2 High pseudoelasticity of nanoscale L2(1) phase-Ni43Ti38Al19 thin films
DOI:10.1016/j.matlet.2013.10.024 JN:MATERIALS LETTERS PY:2014 TC:4 AU: Shi, J.;Cao, Z. H.;Hu, K.;Pan, G. J.;Wei, M. Z.;Xu, L. J.;Meng, X. K.;
6:11:40:3 Investigation on mechanical properties of sputtered TiNi thin films
DOI:10.1016/j.jallcom.2010.01.085 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:8 AU: Tong, L. B.;Li, Y. H.;Meng, F. L.;Tian, H. W.;Zheng, W. T.;Wang, Y. M.;
6:11:40:4 Studies of nanomechanical properties and fatigue strength of annealed Ni-Ti shape memory alloy
DOI:10.1016/j.matlet.2011.12.025 JN:MATERIALS LETTERS PY:2012 TC:3 AU: Chen, Yu-Fen;Sung, Po-Hsien;Wu, Cheng-Da;Fang, Te-Hua;
6:11:40:5 Ni Layer Thickness Dependence of the Interface Structures for Ti/Ni/Ti Trilayer Studied by X-ray Standing Waves
DOI:10.1021/am3024614 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:4 AU: Li, Wenbin;Zhu, Jingtao;Li, Haochuan;Zhang, Zhong;Ma, Xiaoying;Yang, Xiaoyue;Wang, Hongchang;Wang, Zhanshan;
6:11:41:1 Superelastic behaviour of Ti-Nb-Al ternary shape memory alloys for biomedical applications
DOI:10.1016/j.matlet.2014.01.148 JN:MATERIALS LETTERS PY:2014 TC:4 AU: Farooq, Muhammad Umer;Khalid, Fazal Ahmad;Zaigham, Hamid;Abidi, Irfan Haider;
6:11:41:2 Morphological and structural evaluation of nanocrystalline NiTiCu shape memory alloy prepared via mechanical alloying and annealing
DOI:10.1016/j.matlet.2012.09.008 JN:MATERIALS LETTERS PY:2013 TC:4 AU: Ghadimi, Morteza;Shokuhfar, Ali;Zolriasatein, Ashkan;Rostami, Hamid Reza;
6:11:41:3 A comparative study of the cytotoxicity and corrosion resistance of nickel-titanium and titanium-niobium shape memory alloys
DOI:10.1016/j.actbio.2012.03.034 JN:ACTA BIOMATERIALIA PY:2012 TC:18 AU: McMahon, Rebecca E.;Ma, Ji;Verkhoturov, Stanislav V.;Munoz-Pinto, Dany;Karaman, Ibrahim;Rubitschek, Felix;Maier, Hans J.;Hahn, Mariah S.;
6:11:41:4 Magnetic and microstructural properties of the mechanically alloyed Fe57Co21Nb7B15 powder mixture
DOI:10.1016/j.matchemphys.2011.12.010 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:6 AU: Souilah, S.;Alleg, S.;Djebbari, C.;Bensalem, R.;Sunol, J. J.;
6:11:41:5 Effect of sterilization and water rinsing on cell adhesion to titanium surfaces
DOI:10.1016/j.apsusc.2014.05.096 JN:APPLIED SURFACE SCIENCE PY:2014 TC:0 AU: Hirano, Mitsuhiro;Kozuka, Taro;Asano, Yuta;Kakuchi, Yuko;Arai, Hirofumi;Ohtsu, Naofumi;
6:11:41:6 Corrosion behavior of ion implanted NiTi shape memory alloy thin films
DOI:10.1016/j.matlet.2011.12.075 JN:MATERIALS LETTERS PY:2012 TC:4 AU: Gorji, M. R.;Sanjabi, S.;
6:11:41:7 Synthesis and structural characterization of nanocrystalline FeAlNbB alloy prepared by mechanical alloying
DOI:10.1016/j.matlet.2013.06.026 JN:MATERIALS LETTERS PY:2013 TC:0 AU: Sekri, A.;Escoda, L.;Sunol, J. J.;Khitouni, M.;
6:11:42:1 Creep-resistant behavior of self-reinforcing liquid crystalline epoxy resins
DOI:10.1016/j.polymer.2014.03.001 JN:POLYMER PY:2014 TC:6 AU: Li, Yuzhan;Kessler, Michael R.;
6:11:42:2 Thermomagnetic Processing of Liquid-Crystalline Epoxy Resins and Their Mechanical Characterization Using Nanoindentation
DOI:10.1021/am505874t JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:2 AU: Li, Yuzhan;Rios, Orlando;Kessler, Michael R.;
6:11:42:3 Liquid crystalline epoxy resin based on biphenyl mesogen: Effect of magnetic field orientation during cure
DOI:10.1016/j.polymer.2013.08.005 JN:POLYMER PY:2013 TC:5 AU: Li, Yuzhan;Kessler, Michael R.;
6:11:42:4 Liquid crystalline epoxy resin based on biphenyl mesogen: Thermal characterization
DOI:10.1016/j.polymer.2013.03.043 JN:POLYMER PY:2013 TC:11 AU: Li, Yuzhan;Badrinarayanan, Prashanth;Kessler, Michael R.;
6:11:42:5 1,3,4-Oxadiazole epoxy resin-based liquid crystalline thermosets and their cure kinetics
DOI:10.1007/s10853-009-4085-4 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:7 AU: Balamurugan, R.;Kannan, P.;
6:11:42:6 Probing electric field response of LC thermosets via time-resolved X-ray and dielectric spectroscopy
DOI:10.1016/j.polymer.2011.03.039 JN:POLYMER PY:2011 TC:2 AU: Koerner, Hilmar;Ober, Christopher K.;Ku, Huan;
6:11:42:7 Synthesis and curing of liquid crystalline epoxy resin based on asymmetric mesogen
DOI:10.1002/app.36817 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2012 TC:1 AU: Xiao, Yong;Cao, Lu;Feng, Jinhua;Yuan, Liangjie;
6:11:43:1 Development of Mg based hydrogen absorbing alloys prepared by mechanical alloying
DOI:10.1016/j.jallcom.2013.03.265 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:0 AU: Nobuki, Tohru;Kanekawa, Shohei;Hatate, Minoru;Takenaka, Hiroyasu;Kuji, Toshiro;
6:11:43:2 Investigation into the effects of Fe additions on the equilibrium phase compositions, phase fractions and phase stabilities in the Ni-Cr-Al system
DOI:10.1016/j.actamat.2009.10.059 JN:ACTA MATERIALIA PY:2010 TC:10 AU: Ma, Kaka;Tang, Feng;Schoenung, Julie M.;
6:11:43:3 The role of spark plasma sintering on the improvement of hydrogen storage properties of Mg-based composites
DOI:10.1016/j.ijhydene.2010.01.048 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2010 TC:5 AU: Song, Xiping;Zhang, Peilong;Pei, Pei;Liu, Jian;Li, Rucheng;Chen, Guoliang;
6:11:43:4 Design of a Nickel-Based Bond-Coat Alloy for Thermal Barrier Coatings on Copper Substrates
DOI:10.3390/met4040503 JN:METALS PY:2014 TC:0 AU: Fiedler, Torben;Fedorova, Tatiana;Rosler, Joachim;Baker, Martin;
6:11:43:5 Thermal expansion of vacuum plasma sprayed coatings
DOI:10.1016/j.msea.2009.11.064 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:4 AU: Raj, S. V.;Palczer, A.;
6:11:43:6 High temperature microstructure and microhardness evolution in dense NiCrAlY bulk material fabricated by spark plasma sintering
DOI:10.1016/j.msea.2010.12.094 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:4 AU: Song, Jianrong;Ma, Kaka;Li, Ying;Zhang, Lianmeng;Schoenung, Julie M.;
6:11:43:7 Hydrogen absorption properties of Mg2Ni alloy with excess Mg synthesized by wet milling in toluene without annealing
DOI:10.1016/j.jallcom.2009.11.025 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:2 AU: Wang, Hwang-Wen;Chyou, San-Der;Wang, Shing-Hoa;Chiu, Po-Kai;Yen, Ching-Chih;Chen, Bor-Yuan;Yang, Ming-Wei;Tien, Hwa-Chong;Huang, Nan-Nong;
6:11:43:8 Thermal expansion of vacuum plasma sprayed coatings (vol 527, pg 2129, 2010)
DOI:10.1016/j.msea.2010.03.022 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:0 AU: Raj, S. V.;Palczer, A.;
6:11:44:1 The effect of particle-stimulated nucleation on texture banding in an aluminium alloy
DOI:10.1016/j.scriptamat.2010.04.028 JN:SCRIPTA MATERIALIA PY:2010 TC:10 AU: Bennett, T. A.;Petrov, R. H.;Kestens, L. A. I.;Zhuang, L. -Z.;de Smet, P.;
6:11:44:2 Effects of thermo-mechanical parameters on microstructure and mechanical properties of Ti-50 at.%Ni shape memory alloy produced by VAR method
DOI:10.1016/j.msea.2011.12.059 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:7 AU: Foroozmehr, A.;Kermanpur, A.;Ashrafizadeh, F.;Kabiri, Y.;
6:11:44:3 The effect of cold rolling and annealing on microstructure and tensile properties of the nanostructured Ni50Ti50 shape memory alloy
DOI:10.1016/j.msea.2014.03.128 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Sharifi, E. Mohammad;Karimzadeh, F.;Kermanpur, A.;
6:11:44:4 Investigating microstructural evolution during homogenization of the equiatomic NiTi shape memory alloy produced by vacuum arc remelting
DOI:10.1016/j.msea.2011.07.024 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:4 AU: Foroozmehr, A.;Kermanpur, A.;Ashrafizadeh, F.;Kabiri, Y.;
6:11:44:5 Effect of particles on texture banding in an aluminium alloy
DOI:10.1016/j.scriptamat.2009.09.032 JN:SCRIPTA MATERIALIA PY:2010 TC:8 AU: Bennett, T. A.;Petrov, R. H.;Kestens, L. A. I.;
6:11:44:6 Effect of particles on texture banding in an aluminium alloy (vol 62, pg 78, 2010)
DOI:10.1016/j.scriptamat.2010.02.012 JN:SCRIPTA MATERIALIA PY:2010 TC:0 AU: Bennett, T. A.;Petrov, R. H.;Kestens, L. A. I.;
6:11:45:1 Martensitic phase transformation of TiNi thin films fabricated by co-sputtering deposition
DOI:10.1016/j.jallcom.2013.05.092 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:7 AU: Kim, Seong-Woong;Jeon, Yeong Min;Park, Chan Hee;Kim, Jeoung Han;Kim, Dong-Ho;Yeom, Jong-Taek;
6:11:45:2 Diffusion evaluation of Cu in NiTi Bi-layer thin film interface
DOI:10.1016/j.jallcom.2014.01.068 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:6 AU: Mohri, Maryam;Nili-Ahmadabadi, Mahmoud;Flege, Stefan;
6:11:45:3 A three-dimensional multiscale model of intergranular hydrogen-assisted cracking
DOI:10.1080/14786431003752134 JN:PHILOSOPHICAL MAGAZINE PY:2010 TC:10 AU: Rimoli, J. J.;Ortiz, M.;
6:11:45:4 Fabrication, characterization and testing of thin films with novel microstructures
DOI:10.1016/j.scriptamat.2010.12.005 JN:SCRIPTA MATERIALIA PY:2011 TC:2 AU: Kim, Seong-Woong;Kumar, K. Sharvan;
6:11:45:5 Monotonic and cyclic compressive behavior of superelastic TiNi foams processed by sintering using magnesium space holder technique
DOI:10.1016/j.msea.2013.06.011 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: Nakas, G. Ipek;Dericioglu, Arcan F.;Bor, Sakir;
6:11:45:6 Effects of Nb addition on microstructure and mechanical properties of TiNiNb alloys fabricated by elemental powder sintering
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6:11:46:1 Thermomechanical treatment to achieve stable two-way shape memory strain without training in Ti-49.8 at.% Ni alloy
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6:11:46:2 R-phase influence on different two-way shape memory training methods in NiTi shape memory alloys
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6:11:46:3 Study of the "All-Round-Effect" generated by aging in traction in a Ni rich TiNi shape memory alloy
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6:11:46:4 Microstructure, mechanical and functional properties of NiTi-based shape memory ribbons
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6:11:46:5 Microstructures and shape memory characteristics of a Ti-20Ni-30Cu (at.%) alloy strip fabricated by the melt overflow process
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6:11:46:6 Effect of Cu addition on the martensitic transformation of powder metallurgy processed Ti-Ni alloys
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6:11:47:1 Toward the development of continuum single-crystal contact mechanics analyses to microindentation experiments
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6:11:47:2 A critical reassessment of elastic unloading in sharp instrumented indentation experiments and the extraction of mechanical properties
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6:11:47:3 Sharp indentation crystal plasticity finite element simulations: Assessment of crystallographic anisotropy effects on the mechanical response of thin fcc single crystalline films
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6:11:47:4 Continuum crystal plasticity analyses of the plastic flow features underneath single-crystal indentations
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6:11:47:5 The reduced modulus in the analysis of sharp instrumented indentation tests
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6:11:47:6 Influence of hardening behaviour of elastoplastic materials on the determination of elastic modulus using indentation tests
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6:11:48:1 A combinatorial study on the influence of Cu addition, film thickness and heat treatment on phase composition, texture and mechanical properties of Ti-Ni shape memory alloy thin films
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6:11:48:2 Properties and applications of Ti-Ni-Cu shape-memory-alloy thin films
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6:11:48:3 Effect of heat treatment temperature on the microstructure and actuation behavior of a Ti-Ni-Cu thin film microactuator
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6:11:48:4 Microstructure and transformation temperatures in rapid solidified Ni-Ti alloys. Part I: The effect of cooling rate
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6:11:48:5 Microstructure and transformation temperatures in rapid solidified Ni-Ti alloys. Part II: The effect of copper addition
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6:11:49:1 Experimental investigation to thermal-mechanical behavior of Ni47Ti44Nb9 SMA under pure tension and pure torsion
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6:11:49:2 Microcosmic mechanism of carbon influencing on NiTiNb9 alloy
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6:11:49:3 A study of TiNiCr ternary shape memory alloys
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6:11:49:4 Alloy Design of Ti Alloys Using Ubiquitous Alloying Elements and Characteristics of Their Levitation-Melted Alloys
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6:11:49:5 Property-Control of TiNi System Intermetallics and Their Characteristics
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6:11:49:6 Nb solution influencing on phase transformation temperature of Ni47Ti44Nb9 alloy
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6:11:50:1 Impurity levels and fatigue lives of pseudoelastic NiTi shape memory alloys
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6:11:50:2 Can human mesenchymal stem cells survive on a NiTi implant material subjected to cyclic loading?
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6:11:50:3 The effect of notches on the fatigue behavior in NiTi shape memory alloys
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6:11:50:4 Elementary Deformation and Damage Mechanisms During Fatigue of Pseudoelastic NiTi Microstents
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6:11:50:5 Effect of notches on the behavior of superelastic round-bar NiTi-specimens
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6:11:51:1 Surface structure and corrosion resistance of short-time heat-treated NiTi shape memory alloy
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6:11:51:2 The tribocorrosion behaviour of NiTi alloy
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6:11:51:3 Characterization and corrosion study of NiTi laser surface alloyed with Nb or Co
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6:11:51:4 Tribological behavior of NiTi alloy against 52100 steel and WC at elevated temperatures
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6:11:51:5 Effect of titanium nitride/titanium coatings on the stress corrosion of nickel-titanium orthodontic archwires in artificial saliva
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6:11:52:1 Molecular dynamics simulation of twinning in devitrite, Na2Ca3Si6O16
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6:11:52:2 CRYSTALLINE MATERIALS Twin behaviour and size
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6:11:52:3 Atomistic model of type-II twin boundary
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6:11:53:1 Mechanical and nanoindentation behavior of TiC-NiTi thermal spray coatings
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6:11:53:2 Effect of oxidation temperature on microstructure, mechanical behaviors and surface morphology of nanocomposite Ti-C-x-N-y thin films
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6:11:53:3 Anatase formation on titanium by two-step thermal oxidation
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6:11:53:4 Formation of Anatase on Commercially Pure Ti by Two-Step Thermal Oxidation Using N-2-CO Gas
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6:11:53:5 Microstructural characterization of HIP consolidated NiTi-nano Al2O3 composites
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6:11:54:1 Hard wear-resistant coatings with anisotropic thermal conductivity for high thermal load applications
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6:11:54:2 Thermal conductivity of hard oxynitride coatings
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6:11:54:3 Mechanism of adaptability for the nano-structured TiAlCrSiYN-based hard physical vapor deposition coatings under extreme frictional conditions
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6:11:54:4 Correlation function analysis of fiber networks: Implications for thermal conductivity
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6:11:54:5 Evolution of self-organization in nano-structured PVD coatings under extreme tribological conditions
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6:11:55:1 Use of a Ni60Ti shape memory alloy for active jet engine chevron application: I. Thermomechanical characterization
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6:11:55:3 Transformation characteristics of shape memory alloy composites
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6:11:56:1 Microstructure, phase transformation and mechanical properties of Ni-Mn-Ga-Y magnetic shape memory alloys
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6:11:56:2 Effect of Dy addition on mechanical and magnetic properties of Mn-rich Ni-Mn-Ga ferromagnetic shape memory alloys
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6:11:56:3 Studies on ferromagnetic shape memory Ni-Mn-Ga alloys with Fe and rare-earths additives
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6:11:56:4 Effects of Gd doping on Ni54Mn25Ga21 high-temperature shape memory alloy
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6:11:57:1 Spherical indentation of metallic foams
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6:11:57:2 Effect of temperature on the indentation behavior of closed-cell aluminum foam
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6:11:57:3 Spherical indentation of closed-cell aluminum foams: An empirical force-depth relation
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6:11:57:4 Temperature effects on the mechanical behavior of aluminum foam under dynamic loading
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6:11:58:1 Aging of Copper-Titanium Dilute Alloys in Hydrogen Atmosphere: Influence of Prior-Deformation on Strength and Electrical Conductivity
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6:11:58:2 Fabrication of high-strength and high-conductivity Cu-Ti alloy wire by aging in a hydrogen atmosphere
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6:11:58:3 Formation of Titanium Hydride in Dilute Cu-Ti Alloy by Aging in Hydrogen Atmosphere and Its Effects on Electrical and Mechanical Properties
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6:11:59:1 Influence of pre-strain on recovery stress of annealed NiTi thin wire during isothermal holding
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6:11:59:2 Evolution of Recovery Stress and Recovery Strain in Annealed NiTi Thin Wire during Constrained Thermal Cycling to High Temperature
DOI:10.1002/adem.201300180 JN:ADVANCED ENGINEERING MATERIALS PY:2014 TC:0 AU: Yan, Xiaojun;Van Humbeeck, Jan;
6:11:59:3 Constrained martensitic transformation in nanocrystalline TiNi/NbTi shape memory composites
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6:11:60:1 On the volume change in Co-Ni-Al during pseudoelasticity
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6:11:60:2 On the volume change in Co-Ni-Al during pseudoelasticity (vol 528, pg 2875, 2011)
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6:11:61:1 Grain refinement of a rapidly solidified Ti-30Ni-20Cu alloy by two-step annealing
DOI:10.1016/j.scriptamat.2010.07.033 JN:SCRIPTA MATERIALIA PY:2010 TC:3 AU: Kim, Min-soo;Cho, Gyu-bong;Noh, Jung-pil;Jeon, Young-min;Kim, Yeon-wook;Miyazaki, Shuichi;Nam, Tae-hyun;
6:11:61:2 Crystallization and grain refinement of Ti-30Ni-20Cu (at%) alloy ribbons prepared by melt spinning
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6:11:62:1 Structures in textured Cu-Al-Ni shape memory thin films grown by sputtering
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6:11:62:2 FCC Surface Precipitation in Cu-Zn-Al after Low Angle GA(+) Ion Irradiation
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6:12:1:1 Perspectives on Titanium Science and Technology
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6:12:1:2 Lattice modulation and superelasticity in oxygen-added beta-Ti alloys
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6:12:1:3 The effect of oxygen on alpha '' martensite and superelasticity in Ti-24Nb-4Zr-8Sn
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6:12:1:4 Nanodomain structure and its effect on abnormal thermal expansion behavior of a Ti-23Nb-2Zr-0.7Ta-1.2O alloy
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6:12:1:5 omega Transformation in cold-worked Ti-Nb-Ta-Zr-O alloys with low body-centered cubic phase stability and its correlation with their elastic properties
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6:12:1:6 The deformation of Gum Metal through in situ compression of nanopillars
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6:12:1:7 Mechanisms of deformation in gum metal TNTZ-O and TNTZ titanium alloys: A comparative study on the oxygen influence
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6:12:1:8 Anomalous transformation-induced deformation in < 1 1 0 > textured Gum Metal
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6:12:1:9 Low Young's modulus in Ti-Nb-Ta-Zr-O alloys: Cold working and oxygen effects
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6:12:1:10 Evolution of deformation mechanisms of Ti-22.4Nb-0.73Ta-2Zr-1.34O alloy during straining
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6:12:1:11 Elastic properties of Ti-24Nb-4Zr-8Sn single crystals with bcc crystal structure
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6:12:1:12 Origin of {332} twinning in metastable beta-Ti alloys
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6:12:1:13 Elastic properties of single-crystalline omega phase in titanium
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6:12:1:14 Heating-induced martensitic transformation and time-dependent shape memory behavior of Ti-Nb-O alloy
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6:12:1:15 Transmission electron microscopy studies on nanometer-sized omega phase produced in Gum Metal
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6:12:1:16 Controlling reversible martensitic transformation in titanium alloys with high strength and low elastic modulus
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6:12:1:17 Influence of alloying elements Nb, Zr, Sn, and oxygen on structural stability and elastic properties of the Ti2448 alloy
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6:12:1:18 Low-cycle fatigue properties of a titanium alloy exhibiting nonlinear elastic deformation behavior
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6:12:1:19 Temperature-induced martensitic phase transitions in gum-metal approximants: First-principles investigations for Ti3Nb
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6:12:1:20 High-energy X-ray diffuse scattering studies on deformation-induced spatially confined martensitic transformations in multifunctional Ti-24Nb-4Zr-8Sn alloy
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6:12:1:21 Effect of randomness on ferroelastic transitions: Disorder-induced hysteresis loop rounding in Ti-Nb-O martensitic alloy
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6:12:1:22 Dislocation mobility in gum metal beta-titanium alloy studied via in situ transmission electron microscopy
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6:12:1:23 Possible contribution of low shear modulus C-44 to the low Young's modulus of Ti-36Nb-5Zr alloy
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6:12:1:24 beta-Phase Instability in Binary Ti-xNb Biomaterial Single Crystals
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6:12:1:25 Ideal tensile and shear strength of a gum metal approximant: Ab initio density functional calculations
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6:12:1:26 Low Young's modulus of Ti-Nb-Ta-Zr alloys caused by softening in shear moduli c ' and c(44) near lower limit of body-centered cubic phase stability
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6:12:1:27 Effect of nitrogen addition and annealing temperature on superelastic properties of Ti-Nb-Zr-Ta alloys
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6:12:1:30 Elastic constants of single crystalline beta-Ti70Nb30
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6:12:1:31 Spreading of dislocation cores in elastically anisotropic body-centered-cubic materials: The case of gum metal
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6:12:1:32 Mechanics of superelasticity in Ti-30Nb-(8-10)Ta-5Zr alloy
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6:12:1:33 The mechanism of strength and deformation in Gum Metal
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6:12:1:34 Phonons and phase stability in Ti-V approximants to gum metal
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6:12:1:35 Oxygen-induced lattice distortion in beta-Ti3Nb and its suppression effect on beta to alpha '' transformation
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6:12:1:36 Influence of impurities on phase stability of martensites in titanium
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6:12:1:37 Formation of zigzag-shaped {112}< 111 > beta mechanical twins in Ti-24.5 Nb-0.7 Ta-2 Zr-1.4 O alloy
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6:12:1:38 Relative strength of phase stabilizers in titanium alloys
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6:12:1:39 Strengthening the alloys with elastic softening in shear modulus C '
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6:12:1:40 Role of interstitial atoms in the microstructure and non-linear elastic deformation behavior of Ti-Nb alloy
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6:12:1:41 Severe plastic deformation of Ti74Nb26 shape memory alloys
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6:12:1:42 Relation between incommensurate satellites and phonon softening in Ti-Ni-based shape memory alloys
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6:12:1:43 On dislocation involvement in Ti-Nb gum metal plasticity
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6:12:1:44 Superelastic property induced by low-temperature heating of a shape memory Ti-24Nb-0.5Si biomedical alloy
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6:12:1:45 On the athermal nature of the beta to omega transformation
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6:12:1:46 Effect of ECAE-processing on the thermo-mechanical behavior of Ti34 wt.%Nb0.14 wt.%O shape memory alloy
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6:12:1:47 Relation between negative temperature coefficient in electrical resistivity and athermal omega phase in Ti-xNb (26 <= x <= 29 at.%) alloys
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6:12:1:48 Investigations on cold deformation mechanisms of the hydrogenated Ti-6Al-4V alloys
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6:12:1:49 Effect of alpha-precipitation on the superelastic behavior of Ti-40 wt.%Nb-0.3 wt.%O alloy processed by equal channel angular extrusion
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6:12:1:50 Dislocation core radii near elastic stability limits
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6:12:1:51 Texture and microtexture variations in a near-alpha titanium forged disk of bimodal microstructure
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6:12:1:52 A mean-field interatomic potential for a multi-component beta-type titanium alloy
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6:12:1:53 The role of microstructure in the mechanical behaviour of Ti-1.6 wt.%Fe alloys containing O and N
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6:12:2:1 Microstructure evolution and mechanical properties response of a TZAV alloy during combined thermomechanical treatments
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6:12:2:2 Preparation of the ZrTiAlV alloy with ultra-high strength and good ductility
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6:12:2:3 Strengthening mechanism of two-phase titanium alloys with basketweave microstructure
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6:12:2:4 Structural evolution and mechanical properties of Zr-45Ti-5Al-3V alloy by heat treatments
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6:12:2:5 Effects of annealing treatments on microstructure and mechanical properties of the Zr-45Ti-5Al-3V alloy
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6:12:2:6 Abnormal martensitic transformation of high Zr-containing Ti alloys
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6:12:2:7 Structure and mechanical properties of Ti-6Al-4V alloy after zirconium addition
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6:12:2:8 Microstructure and mechanical properties of hot-rolled ZrTiAlV alloys
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6:12:2:9 Grain-size-dependent martensitic transformation in bulk nanocrystalline TiNi under tensile deformation
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6:12:2:10 Deformation mechanisms of a ZrTiAlV alloy with two ductile phases
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6:12:2:11 Aging effects on the microstructures and mechanical properties of the Ti-20Zr-6.5Al-4V alloy
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6:12:2:12 Enhancing the stability of beta phase in TiZr via severe plastic deformation
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6:12:2:13 Analysis of the effect of alloy elements on martensitic transformation in titanium alloy with the use of valence electron structure parameters
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6:12:2:14 Enhancement of TiZr ductility by hcp-fcc martensitic transformation after severe plastic deformation
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6:12:2:15 A hierarchical nanolamella-structured alloy with excellent combinations of tensile properties
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6:12:2:16 Effect of deformation and heat treatment on the microstructure, and mechanical properties of beta-Zr40Ti5Al4V alloy
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6:12:2:17 Processing maps for hot working of 47Zr-45Ti-5Al-3V alloy
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6:12:2:18 Effects of heat treatments on the structure and mechanical properties of Zr-30Ti alloys
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6:12:2:19 Hot deformation behavior of ZrTiAlV alloy with a coarse grain structure in the beta phase field
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6:12:2:20 A multi-component Zr alloy with comparable strength and Higher plasticity than Zr-based bulk metallic glasses
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6:12:2:21 High tensile ductility and strength in dual-morphology hierarchical nanolamellar-structured TiZr alloys
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6:12:2:22 Effect of an applied stress on the recrystallization mechanisms of a zirconium alloy
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6:12:2:23 Structure and mechanical properties of TiZr binary alloy after Al addition
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6:12:2:24 The effect of thermomechanical processing on the microstructure and mechanical properties of the nanocrystalline TiNiCo shape memory alloy
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6:12:2:25 Effect of plastic deformation on material properties and martensite structures in Ti-Nb alloys
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6:12:3:1 Strain glass in ferroelastic systems: Premartensitic tweed versus strain glass
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6:12:3:2 Strain glass in Fe-doped Ti-Ni
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6:12:3:3 Modeling Abnormal Strain States in Ferroelastic Systems: The Role of Point Defects
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6:12:3:4 Strain glass in doped Ti-50(Ni50-xDx) (D = Co, Cr, Mn) alloys: Implication for the generality of strain glass in defect-containing ferroelastic systems
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6:12:3:5 Superelasticity of slim hysteresis over a wide temperature range by nanodomains of martensite
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6:12:3:6 Phase diagram of Ti50-xNi50+x: Crossover from martensite to strain glass
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6:12:3:7 Heterogeneities and strain glass behavior: Role of nanoscale precipitates in low-temperature-aged Ti48.7Ni51.3 alloys
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6:12:3:8 Effects of disorder in ferroelastics: A spin model for strain glass
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6:12:3:9 Spontaneous strain glass to martensite transition in a Ti50Ni44.5Fe5.5 strain glass
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6:12:3:10 Phase diagram of ferroelastic systems in the presence of disorder: Analytical model and experimental verification
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6:12:3:11 Structural anelasticity, elasticity and broken ergodicity in Ni-Ti shape memory alloys
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6:12:3:16 Time-dependent ferroelectric transition in Pb(1-x)(Zr0.4Ti0.6)((1-x/4))O-3-xLa system
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6:12:3:17 Strain glassy behavior and premartensitic transition in Au7Cu5Al4 alloy
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6:12:3:18 Elinvar effect in Co-doped TiNi strain glass alloys
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6:12:3:19 Stress-induced strain glass to martensite (R) transition in a Ti50Ni44.5Fe5.5 alloy
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6:12:3:20 Stress changed damping and associated transforming behavior in a Ti48.5Ni51.5 strain glass
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6:12:3:21 Evolution of the relaxation spectrum during the strain glass transition of Ti48.5Ni51.5 alloy
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6:12:3:22 Recent progresses in the understanding of the elastic and anelastic properties of H-free, H-doped and H-contaminated NiTi based alloys
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6:12:3:23 Thermodynamics of stress-induced ferroelastic transitions: Influence of anisotropy and disorder
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6:12:3:24 The effect of point defects on ferroelastic phase transition of lanthanum-doped calcium titanate ceramics
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6:12:3:25 Unique properties associated with normal martensitic transition and strain glass transition - A simulation study
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6:12:3:26 Role of complex energy landscapes and strains in multiscale inhomogeneities in perovskite manganites
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6:12:3:27 Martensitic transformation and precursor phenomena in Au7Cu5Al4 alloys
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6:12:4:1 Shape memory properties of Ti-Nb-Mo biomedical alloys
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6:12:4:2 High-temperature mechanical and shape memory properties of TiPt-Zr and TiPt-Ru alloys
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6:12:4:3 Anomalous temperature dependence of the superelastic behavior of Ti-Nb-Mo alloys
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6:12:4:4 Ageing behavior of Ti-6Cr-3Sn beta titanium alloy
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6:12:4:5 Antiphase boundary-like stacking fault in alpha''-martensite of disordered crystal structure in beta-titanium shape memory alloy
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6:12:4:6 Effect of uniform distribution of alpha phase on mechanical, shape memory and pseudoelastic properties of Ti-6Cr-3Sn alloy
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6:12:4:7 Comparison of Bond Order, Metal d Orbital Energy Level, Mechanical and Shape Memory Properties of Ti-Cr-Sn and Ti-Ag-Sn Alloys
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6:12:4:8 Novel beta-TiTaAl alloys with excellent cold workability and a stable high-temperature shape memory effect
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6:12:4:9 Shape memory behavior in Ti-Zr alloys
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6:12:4:10 Comparative Study of Ti-xCr-3Sn Alloys for Biomedical Applications
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6:12:4:11 Age-hardening behaviour of two metastable beta-titanium alloys
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6:12:4:12 Strengthening of beta Ti-6Cr-3Sn alloy through beta grain refinement, alpha phase precipitation and resulting effects on shape memory properties
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6:12:4:13 Effect of Sn addition on stress hysteresis and superelastic properties of a Ti-15Nb-3Mo alloy
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6:12:4:14 A new look at biomedical Ti-based shape memory alloys
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6:12:4:15 Room temperature aging behavior of Ti-Nb-Mo-based superelastic alloys
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6:12:4:16 Effect of pre-strain on shape memory characteristics in a Ti-17Nb-6Zr-1.0at.%O biomedical alloy
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6:12:4:17 Non-Monotonic Aging Temperature Dependence of Superelasticity of Ti72Nb15Zr10Al3 Quaternary Alloys
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6:12:4:18 Effect of annealing temperature on shape memory characteristics in Ti-20Nb-6Zr-0.5O(at%) biomedical alloy
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6:12:4:19 Effect of alpha phase precipitation on martensitic transformation and mechanical properties of metastable beta Ti-6Cr-3Sn biomedical alloy
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6:12:4:20 In situ X-ray diffraction strain-controlled study of Ti-Nb-Zr and Ti-Nb-Ta shape memory alloys: crystal lattice and transformation features
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6:12:4:21 Effect of Al Addition on Superelastic Properties of Aged Ti-Nb-Zr-Al Quaternary Alloys
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6:12:4:22 Effect of Nb content on deformation behavior and shape memory properties of Ti-Nb alloys
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6:12:4:23 Transmission electron microscopy study of the microstructure of a Ti-Fe-Zr alloy
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6:12:4:24 Effect of room-temperature aging on shape memory characteristics of Ti-10Nb-10Zr-11Ta (at.%) alloy
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6:12:4:25 On substructure in titanium alloy martensites: comment on 'Antiphase boundary-like stacking fault in alpha ''-martensite of disordered crystal structure in beta-titanium shape memory alloy'
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6:12:4:26 Reply to 'On substructure in titanium alloy martensite'
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6:12:5:1 Development of new metallic alloys for biomedical applications
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6:12:5:2 Microstructures and mechanical properties of metastable Ti-30Zr-(Cr, Mo) alloys with changeable Young's modulus for spinal fixation applications
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6:12:5:3 Self-adjustment of Young's modulus in biomedical titanium alloys during orthopaedic operation
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6:12:5:4 The bone tissue compatibility of a new Ti-Nb-Sn alloy with a low Young's modulus
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6:12:5:5 Changeable Young's modulus with large elongation-to-failure in beta-type titanium alloys for spinal fixation applications
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6:12:5:6 Optimization of Cr content of metastable beta-type Ti-Cr alloys with changeable Young's modulus for spinal fixation applications
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6:12:5:7 Beta type Ti-Mo alloys with changeable Young's modulus for spinal fixation applications
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6:12:5:8 Deformation-induced omega phase in modified Ti-29Nb-13Ta-4.6Zr alloy by Cr addition
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6:12:5:9 Microstructure and fatigue behaviors of a biomedical Ti-Nb-Ta-Zr alloy with trace CeO2 additions
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6:12:5:10 Effect of stress-induced alpha '' martensite on Young's modulus of beta Ti-33.6Nb-4Sn alloy
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6:12:5:11 Effects of TiB on the mechanical properties of Ti-29Nb-13Ta-4.6Zr alloy for use in biomedical applications
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6:12:5:12 Effect of Deformation-Induced omega Phase on the Mechanical Properties of Metastable beta-Type Ti-V Alloys
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6:12:5:13 < 2 1 0 > Texture in two cold-drawn beta Ti alloys
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6:12:5:14 A new concept of hip joint stem and its fabrication using metastable TiNbSn alloy
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6:12:5:15 Nucleation Behaviour of beta to omega Phase Transformations in beta-Type Ti-Mo Alloys
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6:12:5:16 Effect of Oxide Particles Formed through Addition of Rare-Earth Metal on Mechanical Properties of Biomedical beta-Type Titanium Alloy
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6:12:5:17 Suppression of isothermal omega phase by dislocation tangles and grain boundaries in metastable beta-type titanium alloys
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6:12:5:18 Effect of Aging Treatment on Microstructure and Mechanical Properties of Ti27Nb2Ta3Zr beta Titanium Alloy for Implant Applications
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6:12:6:1 Experimental evidence of concurrent compositional and structural instabilities leading to omega precipitation in titanium-molybdenum alloys
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6:12:6:2 Precipitation of the alpha-phase in an ultrafine grained beta-titanium alloy processed by severe plastic deformation
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6:12:6:3 Phase separation and formation of omega phase in the beta matrix of a Ti-V-Cu alloy
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6:12:6:4 Pseudoelastic behaviour of a beta Ti-25Nb-3Zr-3Mo-2Sn alloy
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6:12:6:5 Thermal stability of an ultrafine grain beta-Ti alloy
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6:12:6:6 Thermal analysis of precipitation reactions in a Ti-25Nb-3Mo-3Zr-2Sn alloy
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6:12:6:7 Alpha phase precipitation from phase-separated beta phase in a model Ti-Mo-Al alloy studied by direct coupling of transmission electron microscopy and atom probe tomography
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6:12:6:8 {112} < 1 11 > Twinning during omega to body-centered cubic transition
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6:12:6:9 Novel Mixed-Mode Phase Transition Involving a Composition-Dependent Displacive Component
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6:12:6:10 Ordered array of omega particles in beta-Ti matrix studied by small-angle X-ray scattering
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6:12:6:11 Growth of omega inclusions in Ti alloys: An X-ray diffraction study
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6:12:6:12 Single crystal growth of TIMETAL LCB titanium alloy by a floating zone method
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6:12:6:13 Strengthening of cast Ti-25Nb-3Mo-3Zr-2Sn alloy through precipitation of alpha in two discrete crystallographic orientations
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6:12:6:14 Influence of short time anneal on recoverable strain of beta III titanium alloy
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6:12:6:15 Ab initio study on the formation of chemically ordered Zr2Al phase by coupled replacive-displacive transformation
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6:12:6:16 Confirmation of the omega-phase in electron beam welded Ti-5Al-5V-5Mo-3Cr by high-resolution scanning transmission electron microscopy: An initial investigation into its effects on embrittlement
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6:12:6:17 Alpha to omega martensitic phase transformation pathways in pure Zr
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6:12:6:18 Pseudoelastic behaviour of a beta Ti-25Nb-3Zr-3Mo-2Sn alloy (vol 527, pg 2246, 2010)
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6:12:6:19 HAADF imaging of the omega (omega) phase in a gum metal-related alloy
DOI:10.1080/14786435.2014.937839 JN:PHILOSOPHICAL MAGAZINE PY:2014 TC:1 AU: Sankaran, R. P.;Ophus, C.;Ozdol, B.;Radmilovic, V. R.;Minor, A. M.;Morris, J. W., Jr.;
6:12:7:1 Design, Processing, Microstructure, Properties, and Applications of Advanced Intermetallic TiAl Alloys
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6:12:7:2 Evolution of the omega(o) phase in a beta-stabilized multi-phase TiAl alloy and its effect on hardness
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6:12:7:3 The Contribution of High-Energy X-Rays and Neutrons to Characterization and Development of Intermetallic Titanium Aluminides
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6:12:7:4 In Situ Observation of Various Phase Transformation Paths in Nb-Rich TiAl Alloys during Quenching with Different Rates
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6:12:7:5 Cooling rate effects on the microstructure evolution in the (beta(O) zones of cast Ti-45Al-8.5Nb-(W, B, Y) alloy
DOI:10.1016/j.matchar.2014.03.018 JN:MATERIALS CHARACTERIZATION PY:2014 TC:5 AU: Song, L.;Xu, X. J.;Sun, J.;Lin, J. P.;
6:12:7:6 Phase transformation and decomposition mechanisms of the beta(0)(omega) phase in cast high Nb containing TiAl alloy
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6:12:7:7 In situ small-angle X-ray scattering study of the perovskite-type carbide precipitation behavior in a carbon-containing intermetallic TiAl alloy using synchrotron radiation
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6:12:7:8 In Situ Experiments with Synchrotron High-Energy X-Rays and Neutrons
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6:12:7:9 In Situ Synchrotron Study of B19 Phase Formation in an Intermetallic gamma-TiAl Alloy
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6:12:7:10 Hot-working behavior of an advanced intermetallic multi-phase gamma-TiAl based alloy
DOI:10.1016/j.msea.2014.07.040 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:5 AU: Schwaighofer, Emanuel;Clemens, Helmut;Lindemann, Janny;Stark, Andreas;Mayer, Svea;
6:12:7:11 Microstructures and mechanical properties of a multi-phase beta-solidifying TiAl alloy densified by spark plasma sintering
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6:12:7:12 Pore structures and thermal insulating properties of high Nb containing TiAl porous alloys
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6:12:7:13 Omega phase in as-cast high-Nb-containing TiAl alloy
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6:12:7:14 Atomic relaxation processes in an intermetallic Ti-43Al-4Nb-1Mo-0.1B alloy studied by mechanical spectroscopy
DOI:10.1016/j.actamat.2013.10.075 JN:ACTA MATERIALIA PY:2014 TC:0 AU: San Juan, J.;Simas, P.;Schmoelzer, T.;Clemens, H.;Mayer, S.;No, M. L.;
6:12:7:15 In Situ Diffraction Experiments for the Investigation of Phase Fractions and Ordering Temperatures in Ti-44 at% Al-(3-7) at% Mo Alloys
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6:12:7:16 In Situ Study of gamma-TiAl Lamellae Formation in Supersaturated alpha(2)-Ti3Al Grains
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6:12:7:17 Deformation-induced alpha(2) -> gamma phase transformation in TiAl alloys
DOI:10.1016/j.matchar.2010.06.009 JN:MATERIALS CHARACTERIZATION PY:2010 TC:8 AU: Chen, C. L.;Lu, W.;Sun, Dai;He, L. L.;Ye, H. Q.;
6:12:7:18 A study of phase transformation in a TiAlNb alloy and the effect of Cr addition
DOI:10.1016/j.msea.2009.12.046 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:5 AU: Kesler, Michael S.;Goyel, Sonalika;Rios, Orlando;Cupid, Damian M.;Seifert, Hans J.;Ebrahimi, Fereshteh;
6:12:7:19 In Situ High Energy X-Ray Diffraction for Investigating the Phase Transformation in Hot Rolled TRIP-Aided Steels
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6:12:7:20 Microstructure and Texture Evolution in an Intermetallic b-Stabilized TiAl Alloy During Forging and Subsequent Isothermal Annealing
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6:12:7:21 Effect of Nb on phase transformations and microstructure in high Nb titanium aluminides
DOI:10.1016/j.jallcom.2014.05.092 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:2 AU: Bean, Glenn E.;Kesler, Michael S.;Manuel, Michele V.;
6:12:7:22 Innovative fabrication of Ti-48Al-6Nb porous coating by cold gas spraying and reactive sintering
DOI:10.1016/j.matlet.2012.02.065 JN:MATERIALS LETTERS PY:2012 TC:4 AU: Yang, Fan;Lin, Junpin;He, Yuehui;Du, Hao;Chen, Guoliang;
6:12:8:1 Investigation of early stage deformation mechanisms in a metastable beta titanium alloy showing combined twinning-induced plasticity and transformation-induced plasticity effects
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6:12:8:2 Influence of equiatomic Zr/Nb substitution on superelastic behavior of Ti-Nb-Zr alloy
DOI:10.1016/j.msea.2012.11.045 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:12 AU: Zhang, Jinyong;Sun, Fan;Hao, Yulin;Gozdecki, Nicolas;Lebrun, Emilie;Vermaut, Philippe;Portier, Richard;Gloriant, Thierry;Laheurte, Pascal;Prima, Frederic;
6:12:8:3 Improvements in nonlinear elasticity and strength by grain refinement in a titanium alloy with high oxygen content
DOI:10.1016/j.scriptamat.2011.02.006 JN:SCRIPTA MATERIALIA PY:2011 TC:13 AU: Li, S. J.;Jia, M. T.;Prima, F.;Hao, Y. L.;Yang, R.;
6:12:8:4 On the design of new beta-metastable titanium alloys with improved work hardening rate thanks to simultaneous TRIP and TWIP effects
DOI:10.1016/j.scriptamat.2012.01.049 JN:SCRIPTA MATERIALIA PY:2012 TC:19 AU: Marteleur, Matthieu;Sun, Fan;Gloriant, Thierry;Vermaut, Philippe;Jacques, Pascal J.;Prima, Frederic;
6:12:8:5 Microstructure and mechanical behavior of a Ti-24Nb-4Zr-8Sn alloy processed by warm swaging and warm rolling
DOI:10.1016/j.actamat.2012.01.003 JN:ACTA MATERIALIA PY:2012 TC:15 AU: Hao, Y. L.;Zhang, Z. B.;Li, S. J.;Yang, R.;
6:12:8:6 Influence of a short thermal treatment on the superelastic properties of a titanium-based alloy
DOI:10.1016/j.scriptamat.2010.07.042 JN:SCRIPTA MATERIALIA PY:2010 TC:27 AU: Sun, F.;Nowak, S.;Gloriant, T.;Laheurte, P.;Eberhardt, A.;Prima, F.;
6:12:8:7 The addition of Si to the Ti-35Nb alloy and its effect on the corrosion resistance, when applied to biomedical materials
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6:12:8:8 Texture investigation of the superelastic Ti-24Nb-4Zr-8Sn alloy
DOI:10.1016/j.jallcom.2013.12.207 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:6 AU: Yang, Y.;Castany, P.;Cornen, M.;Thibon, I.;Prima, F.;Gloriant, T.;
6:12:8:9 Effect of ternary alloying elements on microstructure and superelastictity of Ti-Nb alloys
DOI:10.1016/j.msea.2012.09.012 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:12 AU: Zhang, D. C.;Mao, Y. F.;Li, Y. L.;Li, J. J.;Yuan, M.;Lin, J. G.;
6:12:8:10 Influences of recovery and recrystallization on the superelastic behavior of a beta titanium alloy made by suction casting
DOI:10.1039/c4tb00474d JN:JOURNAL OF MATERIALS CHEMISTRY B PY:2014 TC:1 AU: Zhang, D. C.;Lin, J. G.;Wen, Cuie;
6:12:8:11 Contribution of nano-sized lamellar microstructure on recoverable strain of Ti-24Nb-4Zr-7.9Sn titanium alloy
DOI:10.1016/j.msea.2011.06.052 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:9 AU: Sun, F.;Hao, Y. L.;Zhang, J. Y.;Prima, F.;
6:12:8:12 Microstructure-texture-mechanical properties relationship in multi-pass warm rolled Ti-6Al-4V Alloy
DOI:10.1016/j.msea.2013.09.087 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:5 AU: Murty, S. V. S. Narayana;Nayan, Niraj;Kumar, Pankaj;Narayanan, P. Ramesh;Sharma, S. C.;George, Koshy M.;
6:12:8:13 Enhanced work hardening by redistribution of oxygen in (alpha plus beta)-type Ti-4Cr-0.20 alloys
DOI:10.1016/j.msea.2014.03.076 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Kang, Duck-Soo;Koga, Norimitsu;Sakata, Masayuki;Nakada, Nobuo;Tsuchiyama, Toshihiro;Takaki, Setsuo;
6:12:8:14 Formation of nanostructure and mechanical properties of cold-rolled Ti-15V-3Sn-3Al-3Cr alloy
DOI:10.1016/j.msea.2010.03.034 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:6 AU: Guo Qiang;Wang Qing;Sun Dong-Li;Han Xiu-Li;Wu Gao-Hui;
6:12:9:1 Enhancement of uniform elongation in high strength Ti-Mo based alloys by combination of deformation modes
DOI:10.1016/j.msea.2011.02.071 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:15 AU: Min, X. H.;Tsuzaki, K.;Emura, S.;Tsuchiya, K.;
6:12:9:2 Transition of multi-deformation modes in Ti-10Mo alloy with oxygen addition
DOI:10.1016/j.msea.2013.10.010 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Min, X. H.;Emura, S.;Tsuchiya, K.;Nishimura, T.;Tsuzaki, K.;
6:12:9:3 Microstructure, tensile deformation mode and crevice corrosion resistance in Ti-10Mo-xFe alloys
DOI:10.1016/j.msea.2010.06.016 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:10 AU: Min, X. H.;Emura, S.;Nishimura, T.;Tsuchiya, K.;Tsuzaki, K.;
6:12:9:4 Optimization of Strength, Ductility and Corrosion Resistance in Ti-Mo Base Alloys by Controlling Mo Equivalency and Bond Order
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6:12:9:5 Effect of High-Pressure Torsion Process on Precipitation Behavior of alpha Phase in beta-Type Ti-15Mo Alloy
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6:12:9:6 Effects of alpha phase precipitation on crevice corrosion and tensile strength in Ti-15Mo alloy
DOI:10.1016/j.msea.2009.10.033 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:14 AU: Min, X. H.;Emura, S.;Nishimura, T.;Zhang, L.;Tamilselvi, S.;Tsuchiya, K.;Tsuzaki, K.;
6:12:9:7 Mechanism of twinning-induced plasticity in beta-type Ti-15Mo alloy
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6:12:9:8 Effects of Fe addition on tensile deformation mode and crevice corrosion resistance in Ti-15Mo alloy
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6:12:9:9 Heterogeneous twin formation and its effect on tensile properties in Ti-Mo based beta titanium alloys
DOI:10.1016/j.msea.2012.06.009 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:7 AU: Min, X. H.;Tsuzaki, K.;Emura, S.;Tsuchiya, K.;
6:12:9:10 Phase transformation and age hardening behavior of new Ti-9.2Mo-2Fe alloy
DOI:10.1016/j.jallcom.2012.08.065 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:5 AU: Li, Chenglin;Lee, Dong-Geun;Mi, Xujun;Ye, Wenjun;Hui, Songxiao;Lee, Yongtai;
6:12:9:11 {332}< 113 > Twinning system selection in a beta-type Ti-15Mo-5Zr polycrystalline alloy
DOI:10.1016/j.msea.2013.04.119 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:1 AU: Min, X. H.;Tsuzaki, K.;Emura, S.;Sawaguchi, T.;Ii, S.;Tsuchiya, K.;
6:12:9:12 Influence of heat treatment on microstructure and tensile property of a new high strength beta alloy Ti-2Al-9.2Mo-2Fe
DOI:10.1016/j.msea.2013.04.118 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:2 AU: Li, Cheng-Lin;Mi, Xu-Jun;Ye, Wen-Jun;Hui, Song-Xiao;Lee, Dong-Geun;Lee, Yong-Tai;
6:12:9:13 Mechanical and electrochemical characterization of Ti-12Mo-5Zr alloy for biomedical application
DOI:10.1016/j.jallcom.2011.05.090 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:10 AU: Zhao, Changli;Zhang, Xiaonong;Cao, Peng;
6:12:10:1 Development of alpha-phase morphologies during low temperature isothermal heat treatment of a Ti-5Al-5Mo-5V-3Cr alloy
DOI:10.1016/j.msea.2010.09.061 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:22 AU: Dehghan-Manshadi, Ali;Dippenaar, Rian J.;
6:12:10:2 The influence of carbon on precipitation of alpha in Ti-5Al-5Mo-5V-3Cr
DOI:10.1016/j.msea.2010.08.032 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:20 AU: Wain, N.;Hao, X. J.;Ravi, G. A.;Wu, X.;
6:12:10:3 Tensile deformation and fracture of Ti-5Al-5V-5Mo-3Cr-1.5Zr-0.5Fe alloy at room temperature
DOI:10.1016/j.msea.2013.08.055 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:2 AU: Qin, Dongyang;Lu, Yafeng;Guo, Dizi;Zheng, Li;Liu, Qian;Zhou, Lian;
6:12:10:4 Influence of ageing temperature and heating rate on the properties and microstructure of beta Ti alloy, Ti-6Cr-5Mo-5V-4Al
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6:12:10:5 Transgranular shearing introduced brittlement of Ti-5Al-5V-5Mo-3Cr alloy with full lamellar structure at room temperature
DOI:10.1016/j.msea.2013.02.029 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:3 AU: Qin, Dongyang;Lu, Yafeng;Liu, Qian;Zheng, Li;Zhou, Lian;
6:12:10:6 On preparation of bimodal Ti-5Al-5V-5Mo-3Cr-0.4Si (Ti-5553s) alloy: alpha plus beta forging and heat treatment
DOI:10.1016/j.msea.2014.04.056 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Qin, Dongyang;Lu, Yafeng;Guo, Dizi;Zheng, Li;Liu, Qian;Zhou, Lian;
6:12:10:7 Effects of Si addition on mechanical properties of Ti-5Al-5V-5Mo-3Cr alloy
DOI:10.1016/j.msea.2012.10.063 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:5 AU: Qin, Dongyang;Lu, Yafeng;Liu, Qian;Zhou, Lian;
6:12:10:8 Three-dimensional analysis of microstructures in titanium
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6:12:10:9 Cyclic deformation response and micromechanisms of Ti alloy Ti-5Al-5V-5Mo-3Cr-0.5Fe
DOI:10.1016/j.msea.2011.08.045 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:9 AU: Huang, Jun;Wang, Zhirui;Xue, Kemin;
6:12:10:10 Processing-microstructure-yield strength correlation in a near beta Ti alloy, Ti-5Al-5Mo-5V-3Cr
DOI:10.1016/j.msea.2014.04.113 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:5 AU: Kar, Sujoy Kumar;Suman, Swati;Shivaprasad, S.;Chaudhuri, Atanu;Bhattacharjee, Amit;
6:12:10:11 Linear friction welding of a near-beta titanium alloy
DOI:10.1016/j.actamat.2011.04.037 JN:ACTA MATERIALIA PY:2012 TC:12 AU: Dalgaard, E.;Wanjara, P.;Gholipour, J.;Cao, X.;Jonas, J. J.;
6:12:10:12 Influence of transformation temperature on microtexture formation associated with alpha precipitation at beta grain boundaries in a beta metastable titanium alloy
DOI:10.1016/j.actamat.2013.03.007 JN:ACTA MATERIALIA PY:2013 TC:7 AU: Salib, M.;Teixeira, J.;Germain, L.;Lamielle, E.;Gey, N.;Aeby-Gautier, E.;
6:12:10:13 Evolution of the secondary alpha phase morphologies during isothermal heat treatment in Ti-7333 alloy
DOI:10.1016/j.jallcom.2013.06.180 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:3 AU: Zhang, Xue;Kou, Hongchao;Li, Jinshan;Zhang, Fengshou;Zhou, Lian;
6:12:10:14 Experimental study and computer modelling of the beta -> alpha plus beta phase transformation in Ti15-3 alloy under isothermal conditions
DOI:10.1016/j.jallcom.2014.07.163 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:1 AU: Naveen, M.;Santhosh, R.;Geetha, M.;Rao, M. Nageswara;
6:12:10:15 Studies on single and duplex aging of metastable beta titanium alloy Ti-15V-3Cr-3Al-3Sn
DOI:10.1016/j.jallcom.2014.03.183 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:3 AU: Santhosh, R.;Geetha, M.;Saxena, V. K.;Nageswararao, M.;
6:12:10:16 Quantitative microstructural characterization of a near beta Ti alloy, Ti-5553 under different processing conditions
DOI:10.1016/j.matchar.2013.03.016 JN:MATERIALS CHARACTERIZATION PY:2013 TC:4 AU: Kar, Sujoy Kumar;Ghosh, Atasi;Fulzele, Nishant;Bhattacharjee, Amit;
6:12:10:17 X-ray photoelectron spectroscopy characterization of the omega phase in water quenched Ti-5553 alloy
DOI:10.1016/j.matchar.2012.07.019 JN:MATERIALS CHARACTERIZATION PY:2012 TC:3 AU: Qin, Dongyang;Lu, Yafeng;Zhang, Kong;Liu, Qian;Zhou, Lian;
6:12:10:18 The effect of HIPping pressure on phase transformations in Ti-5Al-5Mo-5V-3Cr
DOI:10.1016/j.msea.2014.01.013 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Cao, Lingfei;Wu, Xiaodong;Zhu, Suming;Mei, Junfa;Wu, Xinhua;Bettles, Colleen;
6:12:11:1 The strain accommodation in Ti-28Nb-12Ta-5Zr alloy during warm deformation
DOI:10.1016/j.msea.2013.10.059 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Farghadany, E.;Zarei-Hanzaki, A.;Abedi, H. R.;Dietrich, D.;Lampke, T.;
6:12:11:2 Twinning system selection in a metastable beta-titanium alloy by Schmid factor analysis
DOI:10.1016/j.scriptamat.2011.02.033 JN:SCRIPTA MATERIALIA PY:2011 TC:24 AU: Bertrand, E.;Castany, P.;Peron, I.;Gloriant, T.;
6:12:11:3 Investigation of the martensitic transformation and the damping behavior of a superelastic Ti-Ta-Nb alloy
DOI:10.1016/j.actamat.2012.09.065 JN:ACTA MATERIALIA PY:2013 TC:12 AU: Bertrand, E.;Castany, P.;Gloriant, T.;
6:12:11:4 In situ TEM study of dislocation slip in a metastable beta titanium alloy
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6:12:11:5 The coupled temperature-strain rate sensitivity of Ti-29Nb-13Ta-4.6Zr alloy
DOI:10.1016/j.msea.2014.04.052 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Farghadany, E.;Zarei-Hanzaki, A.;Abedi, H. R.;Dietrich, D.;Yadegari, M. R.;Lampke, T.;
6:12:11:6 Crystallographic orientation and stress-amplitude dependence of damping in the martensite phase in textured Ti-Nb-Al shape memory alloy
DOI:10.1016/j.actamat.2009.12.040 JN:ACTA MATERIALIA PY:2010 TC:11 AU: Inamura, T.;Yamamoto, Y.;Hosoda, H.;Kim, H. Y.;Miyazaki, S.;
6:12:11:7 Anelastic relaxation due to hydrogen in Ti-35Nb-7Zr-5Ta alloy
DOI:10.1016/j.msea.2011.01.012 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:1 AU: de Almeida, L. H.;Caram, R.;Moreno-Gobbi, A. O.;Grandini, C. R.;
6:12:11:8 Strain-rate sensitivity and fracture mode of V-5Cr-5Ti alloy
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6:12:11:9 Internal friction study of the stress relaxation behavior in Cu-Ni-P alloys
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6:12:12:1 Microstructure and magnetic susceptibility of as-cast Zr-Mo alloys
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6:12:12:2 Microstructure and mechanical properties of as-cast Zr-Nb alloys
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6:12:12:3 Screening on binary Zr-1X (X = Ti, Nb, Mo, Cu, Au, Pd, Ag, Ru, Hf and Bi) alloys with good in vitro cytocompatibility and magnetic resonance imaging compatibility
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6:12:12:4 Effects of phase constitution on magnetic susceptibility and mechanical properties of Zr-rich Zr-Mo alloys
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6:12:12:5 Effect of cold rolling on the magnetic susceptibility of Zr-14Nb alloy
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6:12:12:6 Magnetic Susceptibility of Zr-Cu Binary Alloys
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6:12:12:7 Three-dimensional quantification of susceptibility artifacts from various metals in magnetic resonance images
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6:12:12:8 Magnetic susceptibility and hardness of Au-xPt-yNb alloys for biomedical applications
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6:12:12:9 Glass formation, microstructure evolution and mechanical properties of Zr41.2Ti13.8Cu12.5Ni10Be22.5 and its surrounding alloys
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6:12:12:10 The estimation of corrosion behaviour of ZrTi binary alloys for dental applications using electrochemical techniques
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6:12:13:1 The effect of microstructure on tensile properties, deformation mechanisms and fracture models of TG6 high temperature titanium alloy
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6:12:13:2 A study on the microstructures and tensile properties of new beta high strength titanium alloy
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6:12:13:3 A hierarchical and multiphase nanolaminated alloy with an excellent combination of tensile properties
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6:12:13:4 Effect of solution temperature on microstructures and tensile properties of high strength Ti-6Cr-5Mo-5V-4Al alloy
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6:12:13:5 Effect of aging heat treatment on microstructure and tensile properties of a new beta high strength titanium alloy
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6:12:13:6 Effect of heat treatments on microstructure and property of a high strength/toughness Ti-8V-1.5Mo-2Fe-3Al alloy
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6:12:13:7 Tensile behavior at 700 degrees C in Ti-Al-Sn-Zr-Mo-Nb-W-Si alloy with a bi-modal microstructure
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6:12:13:8 The high temperature deformation behavior and microstructure of TC21 titanium alloy
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6:12:14:1 Corrosion behavior of Ti-Mo alloys cold rolled and heat treated
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6:12:14:2 Removal of metallic impurities from Ti binary alloy scraps using hydrogen plasma arc melting
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6:12:14:3 Microstructures and mechanical properties of Ti-Mo alloys cold-rolled and heat treated
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6:12:14:4 Hydrogen effect on refining of Mo metal by Ar-H-2 plasma arc melting
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6:12:14:5 Structure and mechanical properties of Ti-6Al based alloys with Mo addition
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6:12:14:6 Microstructure and beta grain growth behavior of Ti-Mo alloys solution treated
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6:12:14:7 Refining effect of hydrogen plasma arc melting on titanium sponges
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6:12:14:8 Preparation of Ultra-High Purity Cylindrical Mo Ingot by Electron Beam Drip Melting
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6:12:14:9 Surface, dynamic and structural properties of liquid Al-Ti alloys
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6:12:14:10 Preparation and Purity Evaluation of 5N-Grade Ruthenium by Electron Beam Melting
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6:12:14:11 Preparation of Low-Oxygen Mo Ingot by Optimizing Hydrogen Reduction and Subsequent Melting from MoO3
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6:12:14:12 Corrosion resistance of aged Ti-Mo-Nb alloys for biomedical applications
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6:12:15:1 Phase transformation behavior in titanium single-crystal nanopillars under [0001] orientation tension: A molecular dynamics simulation
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6:12:15:2 Stress-induced hexagonal close-packed to face-centered cubic phase transformation in commercial-purity titanium under cryogenic plane-strain compression
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6:12:15:3 Thickness-dependent fcc-hcp phase transformation in polycrystalline titanium thin films
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6:12:15:4 Microstructural evolution and formation mechanism of FCC titanium during heat treatment processing
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6:12:15:5 Metastable orthorhombic phases at ambient pressure in mechanically milled pure Ti and Ti-Mg
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6:12:15:6 Effect of nitrogen flow rate on the properties of TiN film deposited by e beam evaporation technique
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6:12:16:1 Electronic structure mechanism of martensitic phase transformation in binary titanium alloys
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6:12:16:2 Phase transformation and age-hardening of hexagonal alpha ' martensite in Ti-12 mass%V-2 mass%Al alloys studied by transmission electron microscopy
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6:12:16:3 beta phase transformation kinetics in Ti60 alloy during continuous cooling
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6:12:16:4 Nonlinear elastic deformation behaviour of Ti-30Nb-12Zr alloys
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6:12:16:5 Mechanical behaviors of Ti-V-(Al, Sn) alloys with alpha ' martensite microstructure
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6:12:16:6 Three-dimensional shapes and distribution of FePd nanoparticles observed by electron tomography using high-angle annular dark-field scanning transmission electron microscopy
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6:12:16:7 Aging Effect on Microstructure of Cold Groove-Rolled alpha '-Type Ti-12 mass %V-2 mass%Al Alloys Studied by Transmission Electron Microscopy
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6:12:16:8 Orthorhombic martensitic phase in Ti-Nb alloys: A first principles study
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6:12:16:9 The effect of alloying on the ordering processes in near-alpha titanium alloys
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6:12:17:1 Theoretical investigation of the high pressure structure, lattice dynamics, phase transition, and thermal equation of state of titanium metal
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6:12:17:2 First-principles investigations on elastic and thermodynamic properties of zirconium under pressure
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6:12:17:3 Ab initio thermodynamics of zirconium hydrides and deuterides
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6:12:17:4 First-principles thermal equation of state of tungsten carbide
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6:12:17:5 Density functional study of the phase diagram and thermodynamic properties of Zr
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6:12:18:1 Effect of sintering processing on microstructure, mechanical properties and corrosion resistance of Ti-24Nb-4Zr-7.9Sn alloy for biomedical applications
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6:12:18:2 Hot deformation behavior of Ti-6.0Al-7.0Nb biomedical alloy by using processing map
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6:12:18:3 Microstructural evolution and mechanical properties of Ti-Zr beta titanium alloy after laser surface remelting
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6:12:18:4 Fatigue behavior of ultrafine-grained Ti-24Nb-4Zr-8Sn multifunctional biomedical titanium alloy
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6:12:18:5 Experimental and theoretical study of Ti-6Al-4V to 220 GPa
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6:12:18:6 Characterization of a new beta titanium alloy, Ti-12Mo-3Nb, for biomedical applications
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6:12:18:7 Specific characteristics of mechanically and biologically compatible titanium alloy rods for use in spinal fixation applications
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6:12:19:1 Effects of cold deformation on microstructure, texture evolution and mechanical properties of Ti-Nb-Ta-Zr-Fe alloy for biomedical applications
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6:12:19:2 Age-hardening behavior, microstructural evolution and grain growth kinetics of isothermal omega phase of Ti-Nb-Ta-Zr-Fe alloy for biomedical applications
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6:12:19:3 Effects of cold-rolling deformation on texture evolution and mechanical properties of Ti-29Nb-9Ta-10Zr alloy
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6:12:19:4 Kinetics of the omega phase transformation of Ti-7333 titanium alloy during continuous heating
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6:12:19:5 Non-isothermal phase transformation kinetics of omega phase in TB-13 titanium alloys
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6:12:19:6 The characterization of shape memory effect for low elastic modulus biomedical beta-type titanium alloy
DOI:10.1016/j.matchar.2010.02.009 JN:MATERIALS CHARACTERIZATION PY:2010 TC:8 AU: Wang, Liqiang;Lu, Weijie;Qin, Jining;Zhang, Fan;Zhang, Di;
6:12:19:7 The evolution of cold-rolled deformation microstructure of {001} < 110 > grains in Ta-7.5 wt%W alloy foils
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6:12:20:1 The structure and mechanical properties of as-cast Ti-25Nb-xSn alloys for biomedical applications
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6:12:20:2 Structure and mechanical properties of as-cast Ti-5Sn-xCr alloys
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6:12:20:3 Structure and mechanical properties of as-cast Ti-5Nb-xFe alloys
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6:12:20:4 Structure and mechanical properties of as-cast Ti-5Nb-based alloy with Mo addition
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6:12:20:5 Evaluation of the machinability of Ti-Sn alloys
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6:12:20:6 Microstructure and grindability of as-cast Ti-Sn alloys
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6:12:20:7 Effects of Cr addition on grindability of cast Ti-10Zr based alloys
DOI:10.1016/j.matchemphys.2010.02.009 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2010 TC:6 AU: Ho, Wen-Fu;Wu, Shih-Ching;Wang, Hsiao-Wei;Hsu, Hsueh-Chuan;
6:12:21:1 Microstructure, mechanical and shape memory properties of Ti-55Pd-5x (x=Zr, Hf, V, Nb) alloys
DOI:10.1016/j.msea.2013.06.087 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:6 AU: Arockiakumar, R.;Takahashi, M.;Takahashi, S.;Yamabe-Mitarai, Yoko;
6:12:21:2 Phase transformation, oxidation and shape memory properties of Ti-50Au-10Zr alloy for high temperature applications
DOI:10.1016/j.jallcom.2014.01.050 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:1 AU: Wadood, A.;Hosoda, H.;Yamabe-Mitarai, Y.;
6:12:21:3 Effect of Zr on phase transformation and high-temperature shape memory effect in TiPd alloys
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6:12:21:4 Premartensitic State of Ti-Pd-Fe Shape Memory Alloys Studied by Electrical Resistivity, Magnetic Susceptibility and Specific Heat Measurements
DOI:10.2320/matertrans.M2009412 JN:MATERIALS TRANSACTIONS PY:2010 TC:7 AU: Todai, Mitsuharu;Fukuda, Takashi;Kakeshita, Tomoyuki;
6:12:21:5 Temperature dependence of diffuse satellites in Ti-(50-x)Pd-xFe (14 <= x <= 20 (at.%)) alloys
DOI:10.1016/j.jallcom.2014.07.152 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:0 AU: Todai, Mitsuharu;Fukuda, Takashi;Kakeshita, Tomoyuki;
6:12:21:6 Direction of atom displacement in incommensurate state of Ti-32Pd-18Fe shape memory alloy
DOI:10.1016/j.matlet.2013.07.018 JN:MATERIALS LETTERS PY:2013 TC:1 AU: Todai, Mitsuharu;Fukuda, Takashi;Kakeshita, Tomoyuki;
6:12:21:7 TiPt-Co and TiPt-Ru high temperature shape memory alloys
DOI:10.1016/j.msea.2014.02.029 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Wadood, Abdul;Yamabe-Mitarai, Yoko;
6:12:22:1 Giant Nonhysteretic Responses of Two-Phase Nanostructured Alloys
DOI:10.1103/PhysRevLett.106.105703 JN:PHYSICAL REVIEW LETTERS PY:2011 TC:10 AU: Rao, Wei-Feng;Wuttig, Manfred;Khachaturyan, Armen G.;
6:12:22:2 Superfunctionalities in Nanodispersive Precipitation-Hardened Alloys
DOI:10.1103/PhysRevLett.109.115704 JN:PHYSICAL REVIEW LETTERS PY:2012 TC:2 AU: Rao, Wei-Feng;Khachaturyan, Armen G.;
6:12:22:3 Phase field theory of proper displacive phase transformations: Structural anisotropy and directional flexibility, a vector model, and the transformation kinetics
DOI:10.1016/j.actamat.2011.03.072 JN:ACTA MATERIALIA PY:2011 TC:5 AU: Rao, Wei-Feng;Khachaturyan, Armen G.;
6:12:22:4 Giant quasi-elastic responses in decomposed two-phase nanodispersions: Phase field modeling
DOI:10.1016/j.actamat.2011.09.012 JN:ACTA MATERIALIA PY:2012 TC:3 AU: Rao, Wei-Feng;Khachaturyan, Armen G.;
6:12:23:1 Microstructural characterization and evolution mechanism of adiabatic shear band in a near beta-Ti alloy
DOI:10.1016/j.msea.2010.12.053 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:19 AU: Yang, Y.;Jiang, F.;Zhou, B. M.;Li, X. M.;Zheng, H. G.;Zhang, Q. M.;
6:12:23:2 The dynamic response of a beta titanium alloy to high strain rates and elevated temperatures
DOI:10.1016/j.msea.2014.04.028 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:4 AU: Zhan, Hongyi;Kent, Damon;Wang, Gui;Dargusch, Matthew S.;
6:12:23:3 Characterization and numerical modeling of high strain rate mechanical behavior of Ti-15-3 alloy for machining simulations
DOI:10.1016/j.msea.2012.04.086 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:6 AU: Hokka, M.;Leemet, T.;Shrot, A.;Baeker, M.;Kuokkala, V. -T.;
6:12:23:4 Hardness characteristic and shear band formation in metastable beta-titanium alloys
DOI:10.1016/j.matchar.2014.07.027 JN:MATERIALS CHARACTERIZATION PY:2014 TC:2 AU: Manda, Premkumar;Chakkingal, Uday;Singh, A. K.;
6:12:23:5 Constitutive modelling of the flow behaviour of a beta titanium alloy at high strain rates and elevated temperatures using the Johnson-Cook and modified Zerilli-Armstrong models
DOI:10.1016/j.msea.2014.06.030 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Zhan, Hongyi;Wang, Gui;Kent, Damon;Dargusch, Matthew;
6:12:23:6 A new approach to the determination of plastic flow stress and failure initiation strain for aluminum alloys cutting process
DOI:10.1016/j.commatsci.2014.08.029 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:0 AU: Chen, Guang;Li, Jun;He, Yinglun;Ren, Chengzu;
6:12:24:1 High temperature microstructural evolution of 304L stainless steel as function of pre-strain and strain rate
DOI:10.1016/j.msea.2010.02.007 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:18 AU: Lee, Woei-Shyan;Lin, Chi-Feng;Chen, Tao-Hsing;Yang, Meng-Chieh;
6:12:24:2 Understanding the effect of nitrogen in austenitic stainless steel on the intergranular stress corrosion crack growth rate in high temperature pure water
DOI:10.1016/j.actamat.2011.09.053 JN:ACTA MATERIALIA PY:2012 TC:5 AU: Roychowdhury, S.;Kain, V.;Neogy, S.;Srivastava, D.;Dey, G. K.;Prasad, R. C.;
6:12:24:3 Mechanical Properties and Dislocation Substructure of Inconel 690 Alloy Impacted at Cryogenic Temperatures
DOI:10.2320/matertrans.M2014165 JN:MATERIALS TRANSACTIONS PY:2014 TC:0 AU: Lee, Woei-Shyan;Hsu, Ming-Chia;
6:12:24:4 Dynamic mechanical behaviour and dislocation substructure evolution of Inconel 718 over wide temperature range
DOI:10.1016/j.msea.2011.04.079 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:10 AU: Lee, Woei-Shyan;Lin, Chi-Feng;Chen, Tao-Hsing;Chen, Hong-Wei;
6:12:24:5 Stacking fault energy measurements in solid solution strengthened Ni-Cr-Fe alloys using synchrotron radiation
DOI:10.1016/j.msea.2012.07.072 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:5 AU: Unfried-Silgado, Jimy;Wu, Leonardo;Ferreira, Fabio Furlan;Mario Garzon, Carlos;Ramirez, Antonio J.;
6:12:24:6 High temperature impact properties and dislocation substructure of Ti-6Al-7Nb biomedical alloy
DOI:10.1016/j.msea.2013.03.088 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: Lee, Woei-Shyan;Chen, Chia-Wei;
6:12:24:7 High temperature deformation behaviour of Haynes 188 alloy subjected to high strain rate loading
DOI:10.1016/j.msea.2013.11.076 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Lee, Woei-Shyan;Kao, Hao-Chien;
6:12:25:1 Origin of tweed in Au-Cu-Al alloys
DOI:10.1080/14786435.2013.839890 JN:PHILOSOPHICAL MAGAZINE PY:2014 TC:2 AU: Liu, Jiayi;Liu, Zhiquan;Jin, Xuejun;
6:12:25:2 Determination of martensite structures of the Au7Cu5Al4 and Au7Cu5.7Al3.3 shape-memory alloys
DOI:10.1016/j.actamat.2014.07.039 JN:ACTA MATERIALIA PY:2014 TC:1 AU: Elcombe, Margaret M.;Kealley, Catherine S.;Bhatia, Vijay K.;Thorogood, Gordon J.;Carter, Damien J.;Avdeev, Maxim;Cortie, Michael B.;
6:12:25:3 High temperature transformations of the Au7Cu5Al4 shape-memory alloy
DOI:10.1016/j.jallcom.2010.12.068 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:6 AU: Cortie, Michael B.;Kealley, Catherine S.;Bhatia, Vijay;Thorogood, Gordon J.;Elcombe, Margaret M.;Avdeev, Maxim;
6:12:25:4 Martensite destabilization in Au7Cu5Al4 shape-memory alloy
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6:12:25:5 L1(0) nanotwinned gold-rich Au-Cu-Pt
DOI:10.1016/j.actamat.2011.01.058 JN:ACTA MATERIALIA PY:2011 TC:2 AU: Klay, Edwina;Diologent, Frederic;Mortensen, Andreas;
6:12:25:6 Low temperature deformation of the R-phase in a NiTiFe shape memory alloy
DOI:10.1063/1.3481694 JN:APPLIED PHYSICS LETTERS PY:2010 TC:1 AU: Krishnan, V. B.;Shmalo, S. B.;Rathod, C. R.;Bourke, M. A. M.;Vaidyanathan, R.;
6:12:25:7 Effect of multi-step structural transitions in parent phase on martensitic transformation in Au7.01Cu5.15Al3.77 alloy
DOI:10.1016/j.jallcom.2012.02.007 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:0 AU: Jin Mingjiang;Liu Jiayi;Geng Yonghong;Jin Xuejun;
6:12:26:1 Effect of the addition of Ta on microstructure and properties of Ti-Nb alloys
DOI:10.1016/j.jallcom.2010.05.134 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:17 AU: Souza, S. A.;Manicardi, R. B.;Ferrandini, P. L.;Afonso, C. R. M.;Ramirez, A. J.;Caram, R.;
6:12:26:2 Microstructure and mechanical properties of Ti-35Nb-6Ta alloy after thermomechanical treatment
DOI:10.1016/j.matchar.2012.02.012 JN:MATERIALS CHARACTERIZATION PY:2012 TC:7 AU: Malek, J.;Hnilica, F.;Vesely, J.;Smola, B.;Bartakova, S.;Vanek, J.;
6:12:26:3 High resolution transmission electron microscopy study of the hardening mechanism through phase separation in a beta-Ti-35Nb-7Zr-5Ta alloy for implant applications
DOI:10.1016/j.actbio.2009.11.010 JN:ACTA BIOMATERIALIA PY:2010 TC:19 AU: Afonso, Conrado R. M.;Ferrandini, Peterson L.;Ramirez, Antonio J.;Caram, Rubens;
6:12:26:4 Effect of cooling rate on mechanism of beta -> alpha phase transformation on continuous cooling in Ti-5Ta-1.8Nb alloy
DOI:10.1016/j.jallcom.2012.10.131 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:2 AU: Behera, Madhusmita;Mythili, R.;Raju, S.;Saroja, S.;
6:12:27:1 Notched tensile fracture of Ti-4.5Al-3V-2Fe-2Mo welds at elevated temperatures
DOI:10.1016/j.matchemphys.2009.12.034 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2010 TC:10 AU: Tsay, L. W.;Hsu, C. L.;Chen, C.;
6:12:27:2 Notch brittleness of Ti-15V-3Cr-3Sn-3Al alloys
DOI:10.1016/j.msea.2012.02.068 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:4 AU: Hsu, Hsiao-Hung;Wu, Yen-Chieh;Tsay, Leu-Wen;
6:12:27:3 Relationship between Microstructure and Notch Tensile Strength in Ti-15V-3Cr-3Sn-3Al Alloy at Elevated Temperatures
DOI:10.2320/matertrans.M2012306 JN:MATERIALS TRANSACTIONS PY:2013 TC:1 AU: Huang, Rong-Tan;Chen, Wen-Han;Tsay, Leu-Wen;
6:12:27:4 The Effect of Preheating on Notched Tensile Strength and Impact Toughness of Ti-6Al-6V-2Sn Laser Welds
DOI:10.2320/matertrans.M2010281 JN:MATERIALS TRANSACTIONS PY:2011 TC:3 AU: Tsay, Leu-Wen;Jiang, Yun-Chen;Chen, Chun;
6:12:27:5 Effects of microstructures on the notch tensile fracture feature of heat-treated Ti-6Al-6V-2Sn alloy
DOI:10.1016/j.msea.2013.12.024 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Huang, Rong-Tan;Huang, Wen-Liang;Huang, Rong-Hsin;Tsay, Leu-Wen;
6:12:27:6 Notched Tensile Fracture of Ti-6Al-4V Laser Welds at Elevated Temperatures
DOI:10.2320/matertrans.M2011340 JN:MATERIALS TRANSACTIONS PY:2012 TC:2 AU: Lu, M. Y.;Tsay, L. W.;Chen, C.;
6:12:27:7 Fatigue Crack Growth Characteristics of a Ti-15V-3Cr-3Sn-3Al Alloy with Variously Aged Conditions
DOI:10.2320/matertrans.M2012349 JN:MATERIALS TRANSACTIONS PY:2013 TC:1 AU: Tsay, Leu-Wen;Chang, S. T.;Chen, Chun;
6:12:28:1 The improved superelasticity of NiTi alloy via electropulsing treatment for minutes
DOI:10.1016/j.jallcom.2013.09.040 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:4 AU: Zhu, R. F.;Liu, J. N.;Tang, G. Y.;Shi, S. Q.;Fu, M. W.;Tse, Zion Tsz Ho;
6:12:28:2 Solid, shape recovered "bulk" Nitinol: Part I-Tension-compression asymmetry
DOI:10.1016/j.msea.2011.03.060 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:7 AU: Saigal, Anil;Fonte, Matthew;
6:12:28:3 Flex bending fatigue testing of wires, foils, and ribbons
DOI:10.1016/j.msea.2014.02.015 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Lavvafi, H.;Lewandowski, J. R.;Lewandowski, J. J.;
6:12:28:4 Study on the compressive behavior of Ti-53.22 at%Ni alloy sheets after pre-compression and aging treatments
DOI:10.1016/j.jallcom.2012.07.110 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:0 AU: Zhu, Shichun;Lu, Xiaofeng;Gong, Jianming;
6:12:28:5 Microstructural effects on tension behavior of Cu-15Ni-8Sn sheet
DOI:10.1016/j.msea.2009.08.049 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:2 AU: Caris, Joshua;Li, Dingqiang;Stephens, John J., Jr.;Lewandowski, John J.;
6:12:28:6 Aging effects on hardness and dynamic compressive behavior of Ti-55Ni (at.%) alloy
DOI:10.1016/j.msea.2009.10.069 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:6 AU: Adharapurapu, Raghavendra R.;Jiang, Fengchun;Vecchio, Kenneth S.;
6:12:29:1 Superelastic behavior and microstructure of Ti19Nb9Zr1Mo (at%) alloy
DOI:10.1016/j.matlet.2013.07.083 JN:MATERIALS LETTERS PY:2013 TC:3 AU: Ma, L. W.;Cheng, H. S.;Chung, C. Y.;Yuan, B.;
6:12:29:2 Effect of heat treatment time on microstructure and mechanical properties of Ti-19Nb-9Zr (at%) shape memory alloy
DOI:10.1016/j.msea.2012.10.053 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:8 AU: Ma, L. W.;Cheng, H. S.;Chung, C. Y.;Yuan, B.;
6:12:29:3 First principles; study of low Young's modulus Ti-Nb-Zr alloy system
DOI:10.1016/j.matlet.2012.01.145 JN:MATERIALS LETTERS PY:2012 TC:8 AU: You, Li;Song, Xiping;
6:12:29:4 alpha' martensite Ti-10Nb-2Mo-4Sn alloy with ultralow elastic modulus and High strength
DOI:10.1016/j.matlet.2014.07.044 JN:MATERIALS LETTERS PY:2014 TC:2 AU: Guo, Shun;Meng, Qingkun;Cheng, Xiaonong;Zhao, Xinqing;
6:12:30:1 Effects of double aging heat treatment on the microstructure, Vickers hardness and elastic modulus of Ti-Nb alloys
DOI:10.1016/j.matchar.2011.04.015 JN:MATERIALS CHARACTERIZATION PY:2011 TC:21 AU: Lopes, E. S. N.;Cremasco, A.;Afonso, C. R. M.;Caram, R.;
6:12:30:2 Effect of strain rate on impact response and omega transformation of quenched Zr-Nb alloys
DOI:10.1016/j.matchar.2013.07.002 JN:MATERIALS CHARACTERIZATION PY:2013 TC:1 AU: Wang, Yinghao;Tang, Bin;Cui, Y-W.;Kou, Hongchao;Li, Jinshan;
6:12:30:3 Inducement of bainite and carbide transformation from retained austenite based on a high strain rate
DOI:10.1016/j.scriptamat.2009.11.015 JN:SCRIPTA MATERIALIA PY:2010 TC:2 AU: Hsu, Hsiu-Chuan;Lin, Yu-Cyuan;Wang, Shing-Hoa;Kao, Fang-Hsin;Lee, Wei-Chih;Yang, Jer-Ren;Hsu, Ping-Wei;Yen, Hung-Wei;Lee, Woei-Shyan;
6:12:30:4 Effects of Sn addition on the microstructure, mechanical properties and corrosion behavior of Ti-Nb-Sn alloys
DOI:10.1016/j.matchar.2014.08.014 JN:MATERIALS CHARACTERIZATION PY:2014 TC:3 AU: Moraes, Paulo E. L.;Contieri, Rodrigo J.;Lopes, Eder S. N.;Robin, Alain;Caram, Rubens;
6:12:30:5 Inducement of bainite and carbide transformation from retained austenite based on a high strain rate (vol 62, pg 372, 2010)
DOI:10.1016/j.scriptamat.2010.01.029 JN:SCRIPTA MATERIALIA PY:2010 TC:0 AU: Hsu, Hsiu-Chuan;Lin, Yu-Cyuan;Wang, Shing-Hoa;Kao, Fang-Hsin;Lee, Wei-Chih;Yang, Jer-Ren;Hsu, Ping-Wei;Yen, Hung-Wei;Lee, Woei-Shyan;
6:12:31:1 Microstructure from ferroelastic transitions using strain pseudospin clock models in two and three dimensions: A local mean-field analysis
DOI:10.1103/PhysRevB.82.094118 JN:PHYSICAL REVIEW B PY:2010 TC:7 AU: Vasseur, Romain;Lookman, Turab;Shenoy, Subodh R.;
6:12:31:2 Monte Carlo simulations of strain pseudospins: Athermal martensites, incubation times, and entropy barriers
DOI:10.1103/PhysRevB.84.064119 JN:PHYSICAL REVIEW B PY:2011 TC:3 AU: Shankaraiah, N.;Murthy, K. P. N.;Lookman, T.;Shenoy, S. R.;
6:12:31:3 Scaled free energies, power-law potentials, strain pseudospins, and quasiuniversality for first-order structural transitions
DOI:10.1103/PhysRevB.82.144103 JN:PHYSICAL REVIEW B PY:2010 TC:4 AU: Shenoy, S. R.;Lookman, T.;Saxena, A.;
6:12:31:4 Conversion times and energy/entropy barriers in isothermal/athermal martensites
DOI:10.1016/j.jallcom.2012.03.034 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:1 AU: Shankaraiah, N.;Murthy, K. P. N.;Lookman, T.;Shenoy, S. R.;
6:12:32:1 Anelastic relaxation associated to phase transformations and interstitial atoms in the Ti-35Nb-7Zr alloy
DOI:10.1016/j.jallcom.2014.07.159 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:2 AU: Chaves, J. M.;Florencio, O.;Silva, P. S., Jr.;Marques, P. W. B.;Schneider, S. G.;
6:12:32:2 Effects of alloying elements on the Snoek-type relaxation in Ti-Nb-X-O alloys (X = Al, Sn, Cr, and Mn)
DOI:10.1016/j.msea.2012.01.113 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:3 AU: Lu, H.;Li, C. X.;Yin, F. X.;Fang, Q. F.;Umezawa, O.;
6:12:32:3 Effect of Zr on super-elasticity and mechanical properties of Ti-24 at% Nb-(0,2,4) at% Zr alloy subjected to aging treatment
DOI:10.1016/j.msea.2011.12.103 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:14 AU: Li, Qiang;Niinomi, Mitsuo;Nakai, Masaaki;Cui, Zhenduo;Zhu, Shengli;Yang, Xianjin;
6:12:32:4 Relativistic density-functional study of the solid solubility of transition metal/gamma-uranium alloys The role of d-d orbital interactions
DOI:10.1016/j.jallcom.2010.08.153 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:1 AU: Kurihara, M.;Onoe, J.;Hirata, M.;Suzuki, C.;
6:12:32:5 Anelastic relaxation caused by interstitial atoms in beta-type sintered Ti-Nb alloys
DOI:10.1016/j.jallcom.2011.04.090 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:7 AU: Zhou, Z. C.;Xiong, J. Y.;Gu, S. Y.;Yang, D. K.;Yan, Y. J.;Du, J.;
6:12:32:6 Snoek-type damping behavior of surface oxidation-treated Ti-Mo alloys
DOI:10.1016/j.msea.2010.12.104 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:2 AU: Lu, Hui;Li, Chunxia;Yin, Fuxing;Fang, Qianfeng;Umezawa, Osamu;
6:12:33:1 Functional properties of nanocrystalline, submicrocrystalline and polygonized Ti-Ni alloys processed by cold rolling and post-deformation annealing
DOI:10.1016/j.jallcom.2010.10.142 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:14 AU: Brailovski, V.;Prokoshkin, S.;Inaekyan, K.;Demers, V.;
6:12:33:2 Formation of nanostructures in thermomechanically-treated Ti-Ni and Ti-Nb-(Zr, Ta) SMAs and their roles in martensite crystal lattice changes and mechanical behavior
DOI:10.1016/j.jallcom.2011.12.153 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:2 AU: Prokoshkin, S.;Brailovski, V.;Korotitskiy, A.;Inaekyan, K.;Dubinskiy, S.;Filonov, M.;Petrzhik, M.;
6:12:33:3 Nanostructured titanium alloys and multicomponent bioactive films: Mechanical behavior at indentation
DOI:10.1016/j.msea.2013.01.034 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:5 AU: Levashov, E. A.;Petrzhik, M. I.;Shtansky, D. V.;Kiryukhantsev-Korneev, Ph. V.;Sheveyko, A. N.;Valiev, R. Z.;Gunderov, D. V.;Prokoshkin, S. D.;Korotitskiy, A. V.;Smolin, A. Yu.;
6:12:33:4 Microstructure and functional fatigue of nanostructured Ti-50.26 at%Ni alloy after thermomechanical treatment with warm rolling and intermediate annealing
DOI:10.1016/j.msea.2012.11.013 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: Kreitcberg, A.;Brailovski, V.;Prokoshkin, S.;Facchinello, Y.;Inaekyan, K.;Dubinskiy, S.;
6:12:34:1 Effects of boron on microstructure in cast zirconium alloys
DOI:10.1557/JMR.2010.0233 JN:JOURNAL OF MATERIALS RESEARCH PY:2010 TC:10 AU: Dargusch, M. S.;Bermingham, M. J.;McDonald, S. D.;StJohn, D. H.;
6:12:34:2 The effect of boron on the refinement of microstructure in cast cobalt alloys
DOI:10.1557/jmr.2011.21 JN:JOURNAL OF MATERIALS RESEARCH PY:2011 TC:1 AU: Bermingham, Michael J.;McDonald, Stuart D.;StJohn, David H.;Dargusch, Matthew S.;
6:12:34:3 Titanium as an endogenous grain-refining nucleus
DOI:10.1080/14786430903236057 JN:PHILOSOPHICAL MAGAZINE PY:2010 TC:6 AU: Bermingham, M. J.;McDonald, S. D.;St John, D. H.;Dargusch, M. S.;
6:12:35:1 In situ X-ray diffraction study of the phase transformation in the non-stoichiometric intermetallic compound Ti3Sn
DOI:10.1016/j.jallcom.2013.07.198 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:3 AU: Ivanova, Olga;Karpets, Myroslav;Yavari, Alain R.;Georgarakis, Konstantinos;Podrezov, Yuriy;
6:12:35:2 Room temperature strain recovery into non-stoichiometric intermetallic compound Ti3Sn
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6:12:35:3 Dynamic mechanical behavior of intermetallic Ti3Sn
DOI:10.1016/j.scriptamat.2010.01.036 JN:SCRIPTA MATERIALIA PY:2010 TC:8 AU: Vdovychenko, O. V.;Bulanova, M. V.;Fartushna, Yu. V.;Shcheretsky, A. A.;
6:12:36:1 Microscopic model for the formation of nanodomains in relaxor materials
DOI:10.1103/PhysRevB.81.064114 JN:PHYSICAL REVIEW B PY:2010 TC:4 AU: Marques, Manuel I.;Arago, Carmen;
6:12:36:2 Effect of the Depolarizing Field in a Model Relaxor
DOI:10.1080/00150193.2012.673918 JN:FERROELECTRICS PY:2012 TC:0 AU: Marques, M. I.;Arago, C.;
6:12:37:1 Clamping-induced changes of domain morphology in 88%Pb(Zn1/3Nb2/3)O-3-12%PbTiO3
DOI:10.1063/1.4891312 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Chang, L. -W.;Nagarajan, V.;Okatan, M. B.;Gregg, J. M.;
6:12:37:2 High-Temperature Stability of Lead Zinc Niobate: In Situ X-Ray Diffraction
DOI:10.1111/j.1551-2916.2010.03962.x JN:JOURNAL OF THE AMERICAN CERAMIC SOCIETY PY:2010 TC:2 AU: Shanahan, James V.;Kisi, Erich H.;Forrester, Jennifer S.;Goodshaw, Heather J.;Zobec, Jennifer S.;Phelan, David;
6:12:38:1 Stability of rare earth oxides in a moist environment at elevated temperatures-Experimental and thermodynamic studies Part II: Comparison of the rare earth oxides
DOI:10.1016/j.jeurceramsoc.2010.02.012 JN:JOURNAL OF THE EUROPEAN CERAMIC SOCIETY PY:2010 TC:2 AU: Courcot, Emilie;Rebillat, Francis;Teyssandier, Francis;Louchet-Pouillerie, Caroline;
6:12:38:2 Stability of rare earth oxides in a moist environment at high temperatures-Experimental and thermodynamic studies. Part I: The way to assess thermodynamic parameters from volatilisation rates
DOI:10.1016/j.jeurceramsoc.2010.02.011 JN:JOURNAL OF THE EUROPEAN CERAMIC SOCIETY PY:2010 TC:2 AU: Courcot, Emilie;Rebillat, Francis;Teyssandier, Francis;Louchet-Pouillerie, Caroline;
6:12:39:1 Elastic Modulus Determination of Al-Cu Film Alloys Prepared by Thermal Diffusion
DOI:10.1155/2012/895131 JN:JOURNAL OF NANOMATERIALS PY:2012 TC:0 AU: Huerta, E.;Oliva, A. I.;Aviles, F.;Gonzalez-Hernandez, J.;Corona, J. E.;
6:12:39:2 AlCu alloy films prepared by the thermal diffusion technique
DOI:10.1016/j.matchar.2010.03.016 JN:MATERIALS CHARACTERIZATION PY:2010 TC:4 AU: Oliva, A. I.;Corona, J. E.;Sosa, V.;
6:13:1:1 Grain boundary energy anisotropy: a review
DOI:10.1007/s10853-011-5677-3 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:59 AU: Rohrer, Gregory S.;
6:13:1:2 Measuring and Interpreting the Structure of Grain-Boundary Networks
DOI:10.1111/j.1551-2916.2011.04384.x JN:JOURNAL OF THE AMERICAN CERAMIC SOCIETY PY:2011 TC:28 AU: Rohrerw, Gregory S.;
6:13:1:3 Comparing calculated and measured grain boundary energies in nickel
DOI:10.1016/j.actamat.2010.05.042 JN:ACTA MATERIALIA PY:2010 TC:26 AU: Rohrer, Gregory S.;Holm, Elizabeth A.;Rollett, Anthony D.;Foiles, Stephen M.;Li, Jia;Olmsted, David L.;
6:13:1:4 Improved representations of misorientation information for grain boundary science and engineering
DOI:10.1016/j.pmatsci.2012.04.002 JN:PROGRESS IN MATERIALS SCIENCE PY:2012 TC:20 AU: Patala, Srikanth;Mason, Jeremy K.;Schuh, Christopher A.;
6:13:1:5 Comparing grain boundary energies in face-centered cubic metals: Al, Au, Cu and Ni
DOI:10.1016/j.scriptamat.2010.06.040 JN:SCRIPTA MATERIALIA PY:2010 TC:24 AU: Holm, Elizabeth A.;Olmsted, David L.;Foiles, Stephen M.;
6:13:1:6 The five-parameter grain boundary character distribution of nanocrystalline tungsten
DOI:10.1016/j.scriptamat.2013.05.046 JN:SCRIPTA MATERIALIA PY:2013 TC:8 AU: Liu, Xuan;Choi, Dooho;Beladi, Hossein;Nuhfer, Noel T.;Rohrer, Gregory S.;Barmak, Katayun;
6:13:1:7 Misorientation texture development during grain growth. Part II: Theory
DOI:10.1016/j.actamat.2009.08.032 JN:ACTA MATERIALIA PY:2010 TC:20 AU: Gruber, J.;Rollett, A. D.;Rohrer, G. S.;
6:13:1:8 The relative grain boundary area and energy distributions in a ferritic steel determined from three-dimensional electron backscatter diffraction maps
DOI:10.1016/j.actamat.2012.11.017 JN:ACTA MATERIALIA PY:2013 TC:18 AU: Beladi, Hossein;Rohrer, Gregory S.;
6:13:1:9 The five parameter grain boundary character distribution of polycrystalline silicon
DOI:10.1007/s10853-014-8195-2 JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:6 AU: Ratanaphan, Sutatch;Yoon, Yohan;Rohrer, Gregory S.;
6:13:1:10 A comparison of grain boundary evolution during grain growth in fcc metals
DOI:10.1016/j.actamat.2013.02.057 JN:ACTA MATERIALIA PY:2013 TC:8 AU: Brons, J. G.;Thompson, G. B.;
6:13:1:11 An identification scheme of grain boundaries and construction of a grain boundary energy database
DOI:10.1016/j.scriptamat.2011.03.020 JN:SCRIPTA MATERIALIA PY:2011 TC:15 AU: Kim, Hyun-Kyu;Ko, Won-Seok;Lee, Hyuk-Joong;Kim, Seong Gyoon;Lee, Byeong-Joo;
6:13:1:12 The distribution of intervariant crystallographic planes in a lath martensite using five macroscopic parameters
DOI:10.1016/j.actamat.2013.10.010 JN:ACTA MATERIALIA PY:2014 TC:7 AU: Beladi, Hossein;Rohrer, Gregory S.;Rollett, Anthony D.;Tari, Vahid;Hodgson, Peter D.;
6:13:1:13 Validating computed grain boundary energies in fcc metals using the grain boundary character distribution
DOI:10.1016/j.actamat.2011.05.001 JN:ACTA MATERIALIA PY:2011 TC:12 AU: Holm, Elizabeth A.;Rohrer, Gregory S.;Foiles, Stephen M.;Rollett, Anthony D.;Miller, Herbert M.;Olmsted, David L.;
6:13:1:14 Variant selection and intervariant crystallographic planes distribution in martensite in a Ti-6Al-4V alloy
DOI:10.1016/j.actamat.2014.06.064 JN:ACTA MATERIALIA PY:2014 TC:0 AU: Beladi, Hossein;Chao, Qi;Rohrer, Gregory S.;
6:13:1:15 The five-parameter grain boundary character and energy distributions of a fully austenitic high-manganese steel using three dimensional data
DOI:10.1016/j.actamat.2014.02.038 JN:ACTA MATERIALIA PY:2014 TC:3 AU: Beladi, Hossein;Nuhfer, Noel T.;Rohrer, Gregory S.;
6:13:1:16 The Orientation Distributions of Lines, Surfaces, and Interfaces around Three-Phase Boundaries in Solid Oxide Fuel Cell Cathodes
DOI:10.1111/j.1551-2916.2011.04673.x JN:JOURNAL OF THE AMERICAN CERAMIC SOCIETY PY:2011 TC:10 AU: Dillon, Shen J.;Helmick, Lam;Miller, Herbert M.;Wilson, Lane;Gemman, Randall;Petrova, Rumyana V.;Barmak, Katayun;Rohrer, Gregory S.;Salvador, Paul A.;
6:13:1:17 Structural dependence of gold deposition by nanoplating in polycrystalline copper
DOI:10.1007/s10853-013-7939-8 JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:1 AU: Lapeire, L.;Martinez-Lombardia, E.;Verbeken, K.;De Graeve, I.;Terryn, H.;Kestens, L. A. I.;
6:13:1:18 Homology metrics for microstructure response fields in polycrystals
DOI:10.1016/j.actamat.2009.08.061 JN:ACTA MATERIALIA PY:2010 TC:17 AU: Wanner, Thomas;Fuller, Edwin R., Jr.;Saylor, David M.;
6:13:1:19 Exploring grain boundary energy landscapes with the activation-relaxation technique
DOI:10.1016/j.scriptamat.2013.02.038 JN:SCRIPTA MATERIALIA PY:2013 TC:3 AU: Alexander, Kathleen C.;Schuh, Christopher A.;
6:13:1:20 Focused ion beam and scanning electron microscopy for 3D materials characterization
DOI:10.1557/mrs.2014.55 JN:MRS BULLETIN PY:2014 TC:2 AU: Kotula, Paul G.;Rohrer, Gregory S.;Marsh, Michael P.;
6:13:1:21 Critical events, entropy, and the grain boundary character distribution
DOI:10.1103/PhysRevB.83.134117 JN:PHYSICAL REVIEW B PY:2011 TC:6 AU: Barmak, K.;Eggeling, E.;Emelianenko, M.;Epshteyn, Y.;Kinderlehrer, D.;Sharp, R.;Ta'asan, S.;
6:13:1:22 Topological characteristics of plane sections of polycrystals
DOI:10.1016/j.actamat.2010.03.028 JN:ACTA MATERIALIA PY:2010 TC:4 AU: Rohrer, Gregory S.;Miller, Herbert M.;
6:13:1:23 Investigation of grain-boundary geometry and pores morphology in dense and porous cubic zirconia polycrystals
DOI:10.1016/j.materresbull.2014.06.004 JN:MATERIALS RESEARCH BULLETIN PY:2014 TC:0 AU: Bobrowski, Piotr;Faryna, Marek;Pedzich, Zbigniew;
6:13:1:24 Grain boundary energy function for fcc metals
DOI:10.1016/j.actamat.2013.10.057 JN:ACTA MATERIALIA PY:2014 TC:7 AU: Bulatov, Vasily V.;Reed, Bryan W.;Kumar, Mukul;
6:13:1:25 Using artificial neural networks to predict grain boundary energies
DOI:10.1016/j.commatsci.2014.01.039 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:1 AU: Restrepo, Sebastian Echeverri;Giraldo, Simon Tamayo;Thijsse, Barend J.;
6:13:1:26 Measuring Relative Grain-Boundary Energies in Block-Copolymer Microstructures
DOI:10.1103/PhysRevLett.108.107801 JN:PHYSICAL REVIEW LETTERS PY:2012 TC:6 AU: Ryu, Hyung Ju;Fortner, David B.;Rohrer, Gregory S.;Bockstaller, Michael R.;
6:13:1:27 Representation of single-axis grain boundary functions
DOI:10.1016/j.actamat.2013.01.067 JN:ACTA MATERIALIA PY:2013 TC:0 AU: Patala, Srikanth;Schuh, Christopher A.;
6:13:1:28 Experimental tests of stereological estimates of grain boundary populations
DOI:10.1016/j.actamat.2012.02.005 JN:ACTA MATERIALIA PY:2012 TC:5 AU: Reed, B. W.;Adams, B. L.;Bernier, J. V.;Hefferan, C. M.;Henrie, A.;Li, S. F.;Lind, J.;Suter, R. M.;Kumar, M.;
6:13:1:29 Five-Parameter Grain Boundary Analysis by 3D EBSD of an Ultra Fine Grained CuZr Alloy Processed by Equal Channel Angular Pressing
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6:13:1:30 Grain boundary plane reorientation: model experiments on bi- and tricrystals
DOI:10.1007/s10853-012-6384-4 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:0 AU: Lejcek, Pavel;Seda, Petra;Kinoshita, Yu;Yardley, Victoria;Jaeger, Ales;Tsurekawa, Sadahiro;
6:13:1:31 Examination of the energy phase space of mixed copper grain boundaries by EBSD and the sphere-on-a-plate method
DOI:10.1016/j.actamat.2013.05.042 JN:ACTA MATERIALIA PY:2013 TC:0 AU: Ziehmer, Markus;Tschoepe, Andreas;Birringer, Rainer;Markmann, Juergen;
6:13:1:32 Abnormalities associated with grain growth in solid solution Cu(Ni) thin films
DOI:10.1016/j.tsf.2014.03.009 JN:THIN SOLID FILMS PY:2014 TC:0 AU: Brons, J. G.;Thompson, G. B.;
6:13:1:33 Grain Boundary Plane Distributions in a Hot Rolled 5A06 Aluminum Alloy
DOI:10.1002/adem.201300458 JN:ADVANCED ENGINEERING MATERIALS PY:2014 TC:2 AU: Yuan, Xiaokun;Gao, Kunyuan;Rohrer, Gregory S.;Fang, Xiaoying;
6:13:2:1 Grain boundary complexions
DOI:10.1016/j.actamat.2013.07.037 JN:ACTA MATERIALIA PY:2014 TC:47 AU: Cantwell, Patrick R.;Tang, Ming;Dillon, Shen J.;Luo, Jian;Rohrer, Gregory S.;Harmer, Martin P.;
6:13:2:2 Interfacial Kinetic Engineering: How Far Have We Come Since Kingery's Inaugural Sosman Address?
DOI:10.1111/j.1551-2916.2009.03545.x JN:JOURNAL OF THE AMERICAN CERAMIC SOCIETY PY:2010 TC:35 AU: Harmer, Martin P.;
6:13:2:3 Developing Interfacial Phase Diagrams for Applications in Activated Sintering and Beyond: Current Status and Future Directions
DOI:10.1111/j.1551-2916.2011.05059.x JN:JOURNAL OF THE AMERICAN CERAMIC SOCIETY PY:2012 TC:16 AU: Luo, Jian;
6:13:2:4 The Relative Energies of Normally and Abnormally Growing Grain Boundaries in Alumina Displaying Different Complexions
DOI:10.1111/j.1551-2916.2010.03642.x JN:JOURNAL OF THE AMERICAN CERAMIC SOCIETY PY:2010 TC:24 AU: Dillon, Shen J.;Harmer, Martin P.;Rohrer, Gregory S.;
6:13:2:5 Developing grain boundary diagrams as a materials science tool: A case study of nickel-doped molybdenum
DOI:10.1103/PhysRevB.84.014105 JN:PHYSICAL REVIEW B PY:2011 TC:12 AU: Shi, Xiaomeng;Luo, Jian;
6:13:2:6 A grain boundary phase transition in Si-Au
DOI:10.1016/j.scriptamat.2011.10.011 JN:SCRIPTA MATERIALIA PY:2012 TC:13 AU: Ma, Shuailei;Asl, Kaveh Meshinchi;Tansarawiput, Chookiat;Cantwell, Patrick R.;Qi, Minghao;Harmer, Martin P.;Luo, Jian;
6:13:2:7 Grain boundary complexion transitions in WO3- and CuO-doped TiO2 bicrystals
DOI:10.1016/j.actamat.2012.11.044 JN:ACTA MATERIALIA PY:2013 TC:5 AU: Ma, Shuailei;Cantwell, Patrick R.;Pennycook, Timothy J.;Zhou, Naixie;Oxley, Mark P.;Leonard, Donovan N.;Pennycook, Stephen J.;Luo, Jian;Harmer, Martin P.;
6:13:2:8 Influence of interface energies on solute partitioning mechanisms in doped aluminas
DOI:10.1016/j.actamat.2010.05.045 JN:ACTA MATERIALIA PY:2010 TC:14 AU: Dillon, Shen J.;Harmer, Martin P.;Rohrer, Gregory S.;
6:13:2:9 Kinetics and thermodynamics associated with Bi adsorption transitions at Cu and Ni grain boundaries
DOI:10.1063/1.4805361 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:1 AU: Tai, Kaiping;Feng, Lin;Dillon, Shen J.;
6:13:2:10 Effects of sintering aids on the densification of Mo-Si-B alloys
DOI:10.1007/s10853-012-6815-2 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:4 AU: Jung, Jae-Il;Zhou, Naixie;Luo, Jian;
6:13:2:11 Observation of an unusual case of triple-line instability
DOI:10.1016/j.scriptamat.2014.05.020 JN:SCRIPTA MATERIALIA PY:2014 TC:0 AU: Zhang, Yuanyao;Luo, Jian;
6:13:2:12 Oxygen adsorption on gamma-TiAl surfaces and the related surface phase diagrams: A density-functional theory study
DOI:10.1016/j.actamat.2012.11.047 JN:ACTA MATERIALIA PY:2013 TC:3 AU: Wang, Lu;Shang, Jia-Xiang;Wang, Fu-He;Chen, Yue;Zhang, Yue;
6:13:2:13 Decreasing the Grain Boundary Diffusivity in Binary Alloys with Increasing Temperature
DOI:10.1103/PhysRevLett.105.236102 JN:PHYSICAL REVIEW LETTERS PY:2010 TC:10 AU: Shi, Xiaomeng;Luo, Jian;
6:13:2:14 Influence of grain boundary energy on the nucleation of complexion transitions
DOI:10.1016/j.scriptamat.2014.06.016 JN:SCRIPTA MATERIALIA PY:2014 TC:1 AU: Bojarski, Stephanie A.;Harmer, Martin P.;Rohrer, Gregory S.;
6:13:2:15 Impurity effects on the intergranular liquid bismuth penetration in polycrystalline nickel
DOI:10.1016/j.actamat.2011.09.034 JN:ACTA MATERIALIA PY:2012 TC:5 AU: Asl, Kaveh Meshinchi;Luo, Jian;
6:13:2:16 Origin of the Bismuth-Induced Decohesion of Nickel and Copper Grain Boundaries
DOI:10.1103/PhysRevLett.111.055502 JN:PHYSICAL REVIEW LETTERS PY:2013 TC:4 AU: Kang, Joongoo;Glatzmaier, Greg C.;Wei, Su-Huai;
6:13:2:17 Identification of a bilayer grain boundary complexion in Bi-doped Cu
DOI:10.1016/j.scriptamat.2012.10.012 JN:SCRIPTA MATERIALIA PY:2013 TC:6 AU: Kundu, Animesh;Asl, Kaveh Meshinchi;Luo, Jian;Harmer, Martin P.;
6:13:2:18 Influence of Y and La Additions on Grain Growth and the Grain-Boundary Character Distribution of Alumina
DOI:10.1111/jace.12669 JN:JOURNAL OF THE AMERICAN CERAMIC SOCIETY PY:2014 TC:2 AU: Bojarski, Stephanie A.;Stuer, Michael;Zhao, Zhe;Bowen, Paul;Rohrer, Gregory S.;
6:13:2:19 Atomic-level modeling and computation of intergranular glassy film in high-purity Si3N4 ceramics
DOI:10.1016/j.jeurceramsoc.2011.03.027 JN:JOURNAL OF THE EUROPEAN CERAMIC SOCIETY PY:2012 TC:4 AU: Yoshiya, Masato;Tanaka, Isao;Adachi, Hirohiko;
6:13:2:20 Experimental determination of the eutectic temperature in air of the CuO-TiO2 pseudobinary system
DOI:10.1016/j.jeurceramsoc.2011.07.026 JN:JOURNAL OF THE EUROPEAN CERAMIC SOCIETY PY:2012 TC:4 AU: de la Rubia, M. A.;Reinosa, J. J.;Leret, P.;Romero, J. J.;de Frutos, J.;Fernandez, J. F.;
6:13:2:21 An examination of nickel doping effect on the mechanical strength of a tungsten grain boundary
DOI:10.1016/j.commatsci.2013.04.034 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:1 AU: Lee, Hongsuk;Tomar, Vikas;
6:13:2:22 Effects of liquid phases on densification of TiO2-doped Al2O3-ZrO2 composite ceramics
DOI:10.1016/j.ceramint.2013.08.049 JN:CERAMICS INTERNATIONAL PY:2014 TC:1 AU: Zu, Yufei;Chen, Guoqing;Fu, Xuesong;Luo, Keguang;Wang, Chunguang;Song, Shiping;Zhou, Wenlong;
6:13:3:1 Evolution equations and size distributions in nanocrystalline grain growth
DOI:10.1016/j.actamat.2011.03.048 JN:ACTA MATERIALIA PY:2011 TC:25 AU: Streitenberger, Peter;Moellner, Dana;
6:13:3:2 Triple junction controlled grain growth in two-dimensional polycrystals and thin films: Self-similar growth laws and grain size distributions
DOI:10.1016/j.actamat.2014.06.022 JN:ACTA MATERIALIA PY:2014 TC:2 AU: Streitenberger, Peter;Zoellner, Dana;
6:13:3:3 Grain growth and the puzzle of its stagnation in thin films: The curious tale of a tail and an ear
DOI:10.1016/j.pmatsci.2013.03.004 JN:PROGRESS IN MATERIALS SCIENCE PY:2013 TC:17 AU: Barmak, K.;Eggeling, E.;Kinderlehrer, D.;Sharp, R.;Ta'asan, S.;Rollett, A. D.;Coffey, K. R.;
6:13:3:4 Investigating the von Neumann-Mullins relation under triple junction dragging
DOI:10.1016/j.actamat.2014.02.039 JN:ACTA MATERIALIA PY:2014 TC:3 AU: Zoellner, Dana;Rios, Paulo Rangel;
6:13:3:5 A phase-field model for grain growth with trijunction drag
DOI:10.1016/j.actamat.2013.12.012 JN:ACTA MATERIALIA PY:2014 TC:3 AU: Johnson, A. E.;Voorhees, P. W.;
6:13:3:6 A Potts model for junction limited grain growth
DOI:10.1016/j.commatsci.2011.04.024 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:20 AU: Zoellner, Dana;
6:13:3:7 A phenomenological approach to investigate nanocrystalline grain growth
DOI:10.1016/j.commatsci.2014.05.026 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:0 AU: Zoellner, Dana;
6:13:3:8 Grain microstructure evolution in two-dimensional polycrystals under limited junction mobility
DOI:10.1016/j.scriptamat.2012.03.016 JN:SCRIPTA MATERIALIA PY:2012 TC:8 AU: Zoellner, Dana;
6:13:3:9 Effect of a finite boundary junction mobility on the growth rate of grains in two-dimensional polycrystals
DOI:10.1016/j.actamat.2011.10.022 JN:ACTA MATERIALIA PY:2012 TC:13 AU: Barrales-Mora, Luis A.;Gottstein, Guenter;Shvindlerman, Lasar S.;
6:13:3:10 On the Aboav-Weaire-law for junction limited grain growth in two dimensions
DOI:10.1016/j.commatsci.2013.07.031 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:6 AU: Zoellner, Dana;
6:13:3:11 Anomalously linear grain growth in nanocrystalline Fe
DOI:10.1016/j.scriptamat.2011.03.028 JN:SCRIPTA MATERIALIA PY:2011 TC:12 AU: Paul, Heiko;Krill, Carl E., III;
6:13:3:12 Accelerated Potts model for grain growth - Application to an IF steel
DOI:10.1016/j.commatsci.2012.10.017 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:7 AU: Ayad, A.;Wagner, F.;Rouag, N.;Rollett, A. D.;
6:13:3:13 A new point of view to determine the simulation temperature for the Potts model simulation of grain growth
DOI:10.1016/j.commatsci.2014.01.044 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:6 AU: Zoellner, D.;
6:13:3:14 Enhancement of thermal stability by microstructural refinement in nanocomposite materials
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6:13:3:15 Effect of finite boundary junction mobility on the growth rate of grains in 3D polycrystals
DOI:10.1080/14786435.2011.637986 JN:PHILOSOPHICAL MAGAZINE PY:2012 TC:5 AU: Barrales-Mora, L. A.;Gottstein, G.;Shvindlerman, L. S.;
6:13:3:16 The grain refining effect of energy competition and the amorphous phase in nanocomposite materials
DOI:10.1016/j.scriptamat.2013.07.023 JN:SCRIPTA MATERIALIA PY:2013 TC:2 AU: Guo, Jing;Liu, Zongjian;Wang, Sanwu;Shen, Yaogen;
6:13:3:17 Self-similar mesostructure evolution of the growing mollusc shell reminiscent of thermodynamically driven grain growth
DOI:10.1038/NMAT4110 JN:NATURE MATERIALS PY:2014 TC:3 AU: Bayerlein, Bernd;Zaslansky, Paul;Dauphin, Yannicke;Rack, Alexander;Fratzl, Peter;Zlotnikov, Igor;
6:13:3:18 Two-dimensional simulation of the effect of the migration of triple junctions on crystallographic texture evolution through grain coarsening
DOI:10.1016/j.commatsci.2012.05.034 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:3 AU: Ito, Kunio;
6:13:3:19 A 3D Monte Carlo study of the effect of grain boundary anisotropy and particles on the size distribution of grains after recrystallisation and grain growth
DOI:10.1016/j.commatsci.2010.01.007 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2010 TC:9 AU: Fjeldberg, Egil;Marthinsen, Knut;
6:13:3:20 von Neumann-Mullins equation in the Potts model of two-dimensional grain growth
DOI:10.1016/j.commatsci.2010.09.023 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2010 TC:5 AU: Kim, Hee-Soo;
6:13:3:21 A multiscale coupled Monte Carlo model to characterize microstructure evolution during hot rolling of Mo-TRIP steel
DOI:10.1016/j.actamat.2013.08.030 JN:ACTA MATERIALIA PY:2013 TC:2 AU: Hore, S.;Das, S. K.;Banerjee, S.;Mukherjee, S.;
6:13:4:1 Thermodynamics and kinetics of grain boundary triple junctions in metals: Recent developments
DOI:10.1016/j.scriptamat.2010.03.017 JN:SCRIPTA MATERIALIA PY:2010 TC:48 AU: Gottstein, G.;Shvindlerman, L. S.;Zhao, B.;
6:13:4:2 Measurement of grain boundary triple line energy in copper
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6:13:4:3 Triple junction effects in solids
DOI:10.1016/j.actamat.2011.02.024 JN:ACTA MATERIALIA PY:2011 TC:16 AU: Zhao, B.;Gottstein, G.;Shvindlerman, L. S.;
6:13:4:4 Triple Junction Transport and the Impact of Grain Boundary Width in Nanocrystalline Cu
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6:13:4:5 Strain mapping of a triple junction in nanocrystalline Pd
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6:13:4:6 Modelling the kinetics of a triple junction
DOI:10.1016/j.actamat.2012.05.018 JN:ACTA MATERIALIA PY:2012 TC:3 AU: Fischer, F. D.;Svoboda, J.;Hackl, K.;
6:13:4:7 Surface topography and energy of grain boundary triple junctions in copper tricrystals
DOI:10.1016/j.actamat.2011.10.034 JN:ACTA MATERIALIA PY:2012 TC:8 AU: Zhao, B.;Ziemons, A.;Shvindlerman, L. S.;Gottstein, G.;
6:13:4:8 A variational approach to grooving and wetting
DOI:10.1016/j.actamat.2012.11.035 JN:ACTA MATERIALIA PY:2013 TC:3 AU: Hackl, K.;Fischer, F. D.;Klevakina, K.;Renner, J.;Svoboda, J.;
6:13:4:9 Triple lines in materials science and engineering
DOI:10.1016/j.scriptamat.2010.02.020 JN:SCRIPTA MATERIALIA PY:2010 TC:16 AU: King, Alexander H.;
6:13:4:10 Triple junction segregation in nanocrystalline multilayers
DOI:10.1103/PhysRevB.83.121407 JN:PHYSICAL REVIEW B PY:2011 TC:11 AU: Stender, P.;Balogh, Z.;Schmitz, G.;
6:13:4:11 Triple junction and grain boundary diffusion in the Ni/Cu system
DOI:10.1016/j.scriptamat.2011.05.002 JN:SCRIPTA MATERIALIA PY:2011 TC:14 AU: Chellali, M. R.;Balogh, Z.;Zheng, L.;Schmitz, G.;
6:13:4:12 On the retardation of grain boundary motion by small particles
DOI:10.1016/j.scriptamat.2010.08.005 JN:SCRIPTA MATERIALIA PY:2010 TC:6 AU: Gottstein, G.;Shvindlerman, L. S.;
6:13:4:13 The line tension of grain boundary triple junctions in a Cu-Ni alloy
DOI:10.1016/j.matlet.2014.09.048 JN:MATERIALS LETTERS PY:2014 TC:0 AU: Zhao, B.;Shvindlerman, L. S.;Gottstein, G.;
6:13:4:14 Triple junction structure and carbide precipitation in 304L stainless steel
DOI:10.1557/jmr.2013.148 JN:JOURNAL OF MATERIALS RESEARCH PY:2013 TC:1 AU: Zhou, Yijian;Palumbo, Gino;Aust, Karl T.;Erb, Uwe;
6:13:4:15 Grain growth prediction with inclination dependence of < 1 1 0 > tilt grain boundary using multi-phase-field model with penalty for multiple junctions
DOI:10.1016/j.commatsci.2011.08.030 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:3 AU: Hirouchi, Tomoyuki;Tsuru, Tomohito;Shibutani, Yoji;
6:13:4:16 Grain growth inhibition by connected porosity in sintered niobium
DOI:10.1016/j.actamat.2013.06.027 JN:ACTA MATERIALIA PY:2013 TC:1 AU: Zilnyk, K. D.;Leite, G. S.;Sandim, H. R. Z.;Rios, P. R.;
6:13:5:1 Three-dimensional analysis of grain topology and interface curvature in a beta-titanium alloy
DOI:10.1016/j.actamat.2010.06.030 JN:ACTA MATERIALIA PY:2010 TC:58 AU: Rowenhorst, D. J.;Lewis, A. C.;Spanos, G.;
6:13:5:2 A more accurate three-dimensional grain growth algorithm
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6:13:5:3 Long-range topological correlations of real polycrystalline grains in two dimensions
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6:13:5:4 Grain growth in four dimensions: A comparison between simulation and experiment
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6:13:5:5 Grain boundary curvature and grain growth kinetics with particle pinning
DOI:10.1080/14786435.2013.805277 JN:PHILOSOPHICAL MAGAZINE PY:2013 TC:1 AU: Shahandeh, Sina;Militzer, Matthias;
6:13:5:6 Complete Topology of Cells, Grains, and Bubbles in Three-Dimensional Microstructures
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6:13:5:7 Schlegel description of grain form evolution in grain growth
DOI:10.1016/j.actamat.2013.03.013 JN:ACTA MATERIALIA PY:2013 TC:7 AU: Patterson, Burton R.;Rule, David J.;DeHoff, R. T.;Tikare, Veena;
6:13:5:8 Comparative grain topology
DOI:10.1016/j.actamat.2013.11.039 JN:ACTA MATERIALIA PY:2014 TC:1 AU: Keller, Trevor;Cutler, Barbara;Lazar, Emanuel A.;Yauney, Gregory;Lewis, Daniel J.;
6:13:5:9 3-D phase-field simulation of grain growth: Topological analysis versus mean-field approximations
DOI:10.1016/j.actamat.2012.01.037 JN:ACTA MATERIALIA PY:2012 TC:9 AU: Kamachali, Reza Darvishi;Steinbach, Ingo;
6:13:5:10 Affinities for topological arrangements in grain structures
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6:13:5:11 Topological correlations of three-dimensional grains
DOI:10.1063/1.4739443 JN:APPLIED PHYSICS LETTERS PY:2012 TC:6 AU: Wang, Hao;Liu, Guoquan;Ullah, Asad;Luan, Junhua;
6:13:5:12 Three-dimensional visualization and quantitative characterization of grains in polycrystalline iron
DOI:10.1016/j.matchar.2014.02.009 JN:MATERIALS CHARACTERIZATION PY:2014 TC:1 AU: Ullah, Asad;Liu, Guoquan;Luan, Junhua;Li, Wenwen;Rahman, Mujeeb Ur;Ali, Murad;
6:13:5:13 Topological characterization of microstructures from 3D digitized voxel data
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6:13:5:14 A more accurate two-dimensional grain growth algorithm
DOI:10.1016/j.actamat.2009.09.008 JN:ACTA MATERIALIA PY:2010 TC:4 AU: Lazar, Emanuel A.;MacPherson, Robert D.;Srolovitz, David J.;
6:13:5:15 Self-similar grain size distribution in three dimensions: A stochastic treatment
DOI:10.1016/j.actamat.2009.10.020 JN:ACTA MATERIALIA PY:2010 TC:6 AU: Pande, C. S.;McFadden, G. B.;
6:13:5:16 A three-dimensional grain boundary formulation for microstructural modeling of polycrystalline materials
DOI:10.1016/j.commatsci.2012.08.006 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:10 AU: Benedetti, I.;Aliabadi, M. H.;
6:13:5:17 A more accurate three-dimensional grain growth algorithm (Vol 59, pg 6837, 2011)
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6:13:5:18 Prediction of abnormal grain growth during high temperature treatment
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6:13:5:19 On the Zener limit of grain growth through 2D Monte Carlo simulation
DOI:10.1016/j.commatsci.2012.02.013 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:2 AU: Phaneesh, K. R.;Bhat, Anirudh;Mukherjee, Piyali;Kashyap, K. T.;
6:13:6:1 Abnormal grain growth in undoped strontium and barium titanate
DOI:10.1016/j.actamat.2009.09.007 JN:ACTA MATERIALIA PY:2010 TC:23 AU: Baeurer, M.;Shih, S. -J.;Bishop, C.;Harmer, M. P.;Cockayne, D.;Hoffmann, M. J.;
6:13:6:2 Combined experimental and numerical study on the effective grain growth dynamics in highly anisotropic systems: Application to barium titanate
DOI:10.1016/j.actamat.2013.06.007 JN:ACTA MATERIALIA PY:2013 TC:5 AU: Baeurer, Michael;Syha, Melanie;Weygand, Daniel;
6:13:6:3 Boundary structural transition and grain growth behavior in BaTiO3 with Nd2O3 doping and oxygen partial pressure change
DOI:10.1016/j.actamat.2010.11.062 JN:ACTA MATERIALIA PY:2011 TC:16 AU: An, Se-Min;Kang, Suk-Joong L.;
6:13:6:4 Mechanism of abnormal grain growth in ultrafine-grained nickel
DOI:10.1016/j.actamat.2013.06.010 JN:ACTA MATERIALIA PY:2013 TC:4 AU: Jung, Sang-Hyun;Yoon, Duk Yong;Kang, Suk-Joong L.;
6:13:6:5 Repetitive grain growth behavior with increasing temperature and grain boundary roughening in a model nickel system
DOI:10.1016/j.actamat.2014.02.016 JN:ACTA MATERIALIA PY:2014 TC:3 AU: Jung, Sang-Hyun;Kang, Suk-Joong L.;
6:13:6:6 Nonlinear driving force-velocity relationship for the migration of faceted boundaries
DOI:10.1016/j.actamat.2012.05.006 JN:ACTA MATERIALIA PY:2012 TC:10 AU: An, Se-Min;Yoon, Byung-Kwon;Chung, Sung-Yoon;Kang, Suk-Joong L.;
6:13:6:7 Linking Grain Boundaries and Grain Growth in Ceramics
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6:13:6:8 Quantifying stoichiometry-induced variations in structure and energy of a SrTiO3 symmetric sigma 13 {510}/< 100 > grain boundary
DOI:10.1080/14786435.2012.746479 JN:PHILOSOPHICAL MAGAZINE PY:2013 TC:4 AU: Yang, H.;Lee, H. S.;Sarahan, M. C.;Sato, Y.;Chi, M.;Moeck, P.;Ikuhara, Y.;Browning, N. D.;
6:13:6:9 Three-dimensional grain structure of sintered bulk strontium titanate from X-ray diffraction contrast tomography
DOI:10.1016/j.scriptamat.2011.08.005 JN:SCRIPTA MATERIALIA PY:2012 TC:14 AU: Syha, M.;Rheinheimer, W.;Baeurer, M.;Lauridsen, E. M.;Ludwig, W.;Weygand, D.;Gumbsch, P.;
6:13:6:10 Effect of step free energy on delayed abnormal grain growth in a liquid phase-sintered BaTiO3 model system
DOI:10.1016/j.jeurceramsoc.2010.12.010 JN:JOURNAL OF THE EUROPEAN CERAMIC SOCIETY PY:2011 TC:13 AU: Heo, Yoon Ho;Jeon, Sang-Chae;Fisher, John G.;Choi, Si-Young;Hur, Kang-Heon;Kang, Suk-Joong L.;
6:13:6:11 Investigation of grain boundaries for abnormal grain growth in polycrystalline SrTiO3
DOI:10.1557/JMR.2010.0046 JN:JOURNAL OF MATERIALS RESEARCH PY:2010 TC:9 AU: Shih, Shao-Ju;Lozano-Perez, Sergio;Cockayne, David J. H.;
6:13:6:12 Atomistic study of abnormal grain growth structure in BaTiO3 by transmission electron microscopy and scanning transmission electron microscopy
DOI:10.1016/j.actamat.2012.12.046 JN:ACTA MATERIALIA PY:2013 TC:3 AU: Zheng, S. J.;Ma, X. L.;Yamamoto, T.;Ikuhara, Y.;
6:13:6:13 An explanation for the formation of polyhedral abnormal grains in single-phase systems
DOI:10.1016/j.scriptamat.2014.03.018 JN:SCRIPTA MATERIALIA PY:2014 TC:1 AU: Jung, Sang-Hyun;Kang, Suk-Joong L.;
6:13:6:14 Initial transient structure and chemistry of intergranular glassy films in ferric-oxide doped strontium titanate ceramics
DOI:10.1007/s10853-011-5268-3 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:1 AU: Xing, JuanJuan;Gu, Hui;Heo, Yoon-Uk;Takeguchi, Masaki;
6:13:6:15 Normal and Abnormal Grain Growths in BaTiO3 Fibers
DOI:10.1111/jace.13034 JN:JOURNAL OF THE AMERICAN CERAMIC SOCIETY PY:2014 TC:1 AU: Chen, Zhaoxi;Peng, Fei;
6:13:6:16 Solid-state conversion of (Na1/2Bi1/2)TiO3-BaTiO3-(K1/2Na1/2)NbO3 single crystals and their piezoelectric properties
DOI:10.1063/1.4881615 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Park, Ji-Hoon;Lee, Ho-Yong;Kang, Suk-Joong L.;
6:13:6:17 Effect of TiO2 addition on grain shape and grain coarsening behavior in 95Na(1/2)Bi(1/2)TiO(3)-5BaTiO(3)
DOI:10.1016/j.jeurceramsoc.2011.04.002 JN:JOURNAL OF THE EUROPEAN CERAMIC SOCIETY PY:2011 TC:4 AU: Moon, Kyoung-Seok;Rout, Dibyaranjan;Lee, Ho-Yong;Kang, Suk-Joong L.;
6:13:6:18 Abnormal grain growth enhanced densification of liquid phase-sintered WC-Co in support of the pore filling theory
DOI:10.1007/s10853-012-6474-3 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:1 AU: Yang, Dong-Yeol;Yoon, Duk Yong;Kang, Suk-Joong L.;
6:13:7:1 Microstructure sensitive design for performance optimization
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6:13:7:2 Calibrated localization relationships for elastic response of polycrystalline aggregates
DOI:10.1016/j.actamat.2014.08.022 JN:ACTA MATERIALIA PY:2014 TC:5 AU: Yabansu, Yuksel C.;Patel, Dipen K.;Kalidindi, Surya R.;
6:13:7:3 Estimating the response of polycrystalline materials using sets of weighted statistical volume elements
DOI:10.1016/j.actamat.2012.06.026 JN:ACTA MATERIALIA PY:2012 TC:10 AU: Qidwai, Siddiq M.;Turner, David M.;Niezgoda, Stephen R.;Lewis, Alexis C.;Geltmacher, Andrew B.;Rowenhorst, David J.;Kalidindi, Surya R.;
6:13:7:4 Linking phase-field and finite-element modeling for process structure property relations of a Ni-base superalloy
DOI:10.1016/j.actamat.2012.06.058 JN:ACTA MATERIALIA PY:2012 TC:9 AU: Fromm, Bradley S.;Chang, Kunok;McDowell, David L.;Chen, Long-Qing;Garmestani, Hamid;
6:13:7:5 Optimized structure based representative volume element sets reflecting the ensemble-averaged 2-point statistics
DOI:10.1016/j.actamat.2010.04.041 JN:ACTA MATERIALIA PY:2010 TC:21 AU: Niezgoda, Stephen R.;Turner, David M.;Fullwood, David T.;Kalidindi, Surya R.;
6:13:7:6 Dependence of mechanical properties on crystal orientation of semi-crystalline polyethylene structures
DOI:10.1016/j.polymer.2014.03.045 JN:POLYMER PY:2014 TC:5 AU: Dong, Xin;McDowell, David L.;Kalidindi, Surya R.;Jacob, Karl I.;
6:13:7:7 Understanding and visualizing microstructure and microstructure variance as a stochastic process
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6:13:7:8 Correlation between crystallographic orientation and mechanical response in a three-dimensional beta-Ti microstructure
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6:13:7:9 A new framework for computationally efficient structure-structure evolution linkages to facilitate high-fidelity scale bridging in multi-scale materials models
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6:13:7:10 Clustering metrics for two-phase composites
DOI:10.1016/j.commatsci.2011.03.003 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:6 AU: Wilding, Samuel E.;Fullwood, David T.;
6:13:7:11 Correlating structure topological metrics with bulk composite properties via neural network analysis
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6:13:7:12 Analytical estimation of distance-disorientation function of the material microstructure
DOI:10.1080/14786435.2013.807027 JN:PHILOSOPHICAL MAGAZINE PY:2013 TC:0 AU: Staraselski, Yauheni;Brahme, Abhijit;Inal, Kaan;Mishra, Raja K.;
6:13:7:13 Multi-scale modeling of elastic response of three-dimensional voxel-based microstructure datasets using novel DFT-based knowledge systems
DOI:10.1016/j.actamat.2010.01.007 JN:ACTA MATERIALIA PY:2010 TC:13 AU: Landi, Giacomo;Niezgoda, Stephen R.;Kalidindi, Surya R.;
6:13:7:14 Formulation and calibration of higher-order elastic localization relationships using the MKS approach
DOI:10.1016/j.actamat.2011.04.005 JN:ACTA MATERIALIA PY:2011 TC:10 AU: Fast, Tony;Kalidindi, Surya R.;
6:13:7:15 Extracting single-crystal elastic constants from polycrystalline samples using spherical nanoindentation and orientation measurements
DOI:10.1016/j.actamat.2014.07.021 JN:ACTA MATERIALIA PY:2014 TC:2 AU: Patel, Dipen K.;Al-Harbi, Hamad F.;Kalidindi, Surya R.;
6:13:7:16 Automatic differentiation of micromechanics incremental schemes for coupled fields composite materials: Effective properties and their sensitivities
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6:13:7:17 Model for coarsening of intergranular precipitates in multicomponent systems
DOI:10.1016/j.scriptamat.2010.01.045 JN:SCRIPTA MATERIALIA PY:2010 TC:2 AU: Svoboda, J.;Fischer, F. D.;
6:13:7:18 Representation of Hashin-Shtrikman bounds of cubic crystal aggregates in terms of texture coefficients with application in materials design
DOI:10.1016/j.actamat.2013.11.003 JN:ACTA MATERIALIA PY:2014 TC:2 AU: Boehlke, Thomas;Lobos, Mauricio;
6:13:7:19 Critical evaluation of the indentation data analyses methods for the extraction of isotropic uniaxial mechanical properties using finite element models
DOI:10.1016/j.actamat.2012.03.034 JN:ACTA MATERIALIA PY:2012 TC:6 AU: Donohue, Brendan R.;Ambrus, Adrian;Kalidindi, Surya R.;
6:13:8:1 A density functional study of vacancy formation in grain boundaries of undoped alpha-alumina
DOI:10.1016/j.actamat.2014.01.059 JN:ACTA MATERIALIA PY:2014 TC:4 AU: Ogawa, Takafumi;Kuwabara, Akihide;Fisher, Craig A. J.;Moriwake, Hiroki;Matsunaga, Katsuyuki;Tsuruta, Kenji;Kitaoka, Satoshi;
6:13:8:2 Density functional calculation of activation energies for lattice and grain boundary diffusion in alumina
DOI:10.1103/PhysRevB.87.214105 JN:PHYSICAL REVIEW B PY:2013 TC:2 AU: Lei, Yinkai;Gong, Yu;Duan, Zhiyao;Wang, Guofeng;
6:13:8:3 The effect of lutetium dopant on oxygen permeability of alumina polycrystals under oxygen potential gradients at ultra-high temperatures
DOI:10.1016/j.actamat.2009.10.062 JN:ACTA MATERIALIA PY:2010 TC:14 AU: Matsudaira, Tsuneaki;Wada, Masashi;Saitoh, Tomohiro;Kitaoka, Satoshi;
6:13:8:4 Oxygen permeability in cation-doped polycrystalline alumina under oxygen potential gradients at high temperatures
DOI:10.1016/j.actamat.2011.05.018 JN:ACTA MATERIALIA PY:2011 TC:11 AU: Matsudaira, Tsuneaki;Wada, Masashi;Saitoh, Tomohiro;Kitaoka, Satoshi;
6:13:8:5 Control of Oxygen Permeability in Alumina under Oxygen Potential Gradients at High Temperature by Dopant Configurations
DOI:10.1111/jace.12935 JN:JOURNAL OF THE AMERICAN CERAMIC SOCIETY PY:2014 TC:0 AU: Kitaoka, Satoshi;Matsudaira, Tsuneaki;Wada, Masashi;Saito, Tomohiro;Tanaka, Makoto;Kagawa, Yutaka;
6:13:8:6 Alumina Scale Formation: A New Perspective
DOI:10.1111/j.1551-2916.2011.04573.x JN:JOURNAL OF THE AMERICAN CERAMIC SOCIETY PY:2011 TC:14 AU: Heuer, Arthur H.;Hovis, David B.;Smialek, James L.;Gleeson, Brian;
6:13:8:7 Effect of Dopants on the Distribution of Aluminum and Oxygen Fluxes in Polycrystalline Alumina Under Oxygen Potential Gradients at High Temperatures
DOI:10.1111/jace.12420 JN:JOURNAL OF THE AMERICAN CERAMIC SOCIETY PY:2013 TC:4 AU: Matsudaira, Tsuneaki;Wada, Masashi;Kitaoka, Satoshi;
6:13:8:8 Mass transfer through a single grain boundary in alumina bicrystals under oxygen potential gradients
DOI:10.1007/s10853-010-5017-z JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:6 AU: Matsudaira, Tsuneaki;Kitaoka, Satoshi;Shibata, Naoya;Nakagawa, Tsubasa;Ikuhara, Yuichi;
6:13:8:9 On the growth of Al2O3 scales
DOI:10.1016/j.actamat.2013.07.024 JN:ACTA MATERIALIA PY:2013 TC:11 AU: Heuer, A. H.;Nakagawa, T.;Azar, M. Z.;Hovis, P. B.;Smialek, J. L.;Gleeson, B.;Hine, N. D. M.;Guhl, H.;Lee, H. -S.;Tangney, P.;Foulkes, W. M. C.;Finnis, M. W.;
6:13:8:10 Diffusion of Al, O, Pt, Hf, and Y atoms on alpha-Al2O3(0001): implications for the role of alloying elements in thermal barrier coatings
DOI:10.1039/c0jm02212h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:7 AU: Milas, Ivan;Hinnemann, Berit;Carter, Emily A.;
6:13:8:11 Grain boundary character dependence of oxygen grain boundary diffusion in alpha-Al2O3 bicrystals
DOI:10.1016/j.scriptamat.2011.06.024 JN:SCRIPTA MATERIALIA PY:2011 TC:5 AU: Nakagawa, Tsubasa;Nishimura, Hitoshi;Sakaguchi, Isao;Shibata, Naoya;Matsunaga, Katsuyuki;Yamamoto, Takahisa;Ikuhara, Yuichi;
6:13:8:12 Effect of Surface Concentration of Lu on Oxygen Permeation of Polycrystalline Alumina at High Temperatures
DOI:10.1111/jace.12316 JN:JOURNAL OF THE AMERICAN CERAMIC SOCIETY PY:2013 TC:1 AU: Wada, Masashi;Matsudaira, Tsuneaki;Kato, Takeharu;Kitaoka, Satoshi;
6:13:8:13 Atomistic Modeling of Effect of Mg on Oxygen Vacancy Diffusion in alpha-Alumina
DOI:10.1111/jace.13008 JN:JOURNAL OF THE AMERICAN CERAMIC SOCIETY PY:2014 TC:0 AU: Tewari, Abhishek;Aschauer, Ulrich;Bowen, Paul;
6:13:8:14 Formation energy of oxygen vacancies in ZnO determined by investigating thermal behavior of Al and In impurities
DOI:10.1063/1.4901211 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Komatsuda, S.;Sato, W.;Ohkubo, Y.;
6:13:8:15 Twins and their boundaries during homoepitaxy on Ir(111)
DOI:10.1103/PhysRevB.83.064103 JN:PHYSICAL REVIEW B PY:2011 TC:2 AU: Bleikamp, Sebastian;Coraux, Johann;Robach, Odile;Renaud, Gilles;Michely, Thomas;
6:13:8:16 Grain boundaries between bismuth nanocrystals
DOI:10.1016/j.actamat.2011.09.041 JN:ACTA MATERIALIA PY:2012 TC:3 AU: Kowalczyk, P. J.;Belic, D.;Mahapatra, O.;Brown, S. A.;
6:13:8:17 Oxygen grain-boundary transport in polycrystalline alumina using wedge-geometry bilayer samples: Effect of Y-doping
DOI:10.1016/j.actamat.2009.12.030 JN:ACTA MATERIALIA PY:2010 TC:3 AU: Cheng, H.;Caram, H. S.;Schiesser, W. E.;Rickman, J. M.;Chan, H. M.;Harmer, M. P.;
6:13:8:18 Atomic-resolution observation of Hf-doped alumina grain boundaries
DOI:10.1016/j.scriptamat.2013.01.015 JN:SCRIPTA MATERIALIA PY:2013 TC:5 AU: Yu, Zhiyang;Wu, Qian;Rickman, Jeffrey M.;Chan, Helen M.;Harmer, Martin P.;
6:13:9:1 3-D growth of a short fatigue crack within a polycrystalline microstructure studied using combined diffraction and phase-contrast X-ray tomography
DOI:10.1016/j.actamat.2010.09.063 JN:ACTA MATERIALIA PY:2011 TC:46 AU: Herbig, Michael;King, Andrew;Reischig, Peter;Proudhon, Henry;Lauridsen, Erik M.;Marrow, James;Buffiere, Jean-Yves;Ludwig, Wolfgang;
6:13:9:2 A 3-D view on the mechanisms of short fatigue cracks interacting with grain boundaries
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6:13:9:3 Prediction of recrystallization in investment cast single-crystal superalloys
DOI:10.1016/j.actamat.2012.09.013 JN:ACTA MATERIALIA PY:2013 TC:12 AU: Panwisawas, Chinnapat;Mathur, Harshal;Gebelin, Jean-Christophe;Putman, Duncan;Rae, Catherine M. F.;Reed, Roger C.;
6:13:9:4 Three-dimensional in situ observations of short fatigue crack growth in magnesium
DOI:10.1016/j.actamat.2011.07.034 JN:ACTA MATERIALIA PY:2011 TC:19 AU: King, A.;Ludwig, W.;Herbig, M.;Buffiere, J. -Y.;Khan, A. A.;Stevens, N.;Marrow, T. J.;
6:13:9:5 Three-dimensional characterization of microstructurally small fatigue-crack evolution using quantitative fractography combined with post-mortem X-ray tomography and high-energy X-ray diffraction microscopy
DOI:10.1016/j.actamat.2014.05.021 JN:ACTA MATERIALIA PY:2014 TC:1 AU: Spear, Ashley D.;Li, Shiu Fai;Lind, Jonathan F.;Suter, Robert M.;Ingraffea, Anthony R.;
6:13:9:6 Polychromatic diffraction contrast tomography
DOI:10.1016/j.matchar.2014.07.026 JN:MATERIALS CHARACTERIZATION PY:2014 TC:2 AU: King, A.;Reischig, P.;Adrien, J.;Peetermans, S.;Ludwig, W.;
6:13:9:7 3-D observations of short fatigue crack interaction with lamellar and duplex microstructures in a two-phase titanium alloy
DOI:10.1016/j.actamat.2010.11.015 JN:ACTA MATERIALIA PY:2011 TC:12 AU: Birosca, S.;Buffiere, J. Y.;Karadge, M.;Preuss, M.;
6:13:9:8 A study of the effects of particle 3-dimensional geometry and micro-texture on fatigue crack initiation behaviors in an Al-Cu alloy using focused ion beam and electron backscatter diffraction
DOI:10.1016/j.msea.2012.11.098 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:3 AU: Wen, Wei;Ngan, Alfonso H. W.;Zhang, Yuanbin;Xu, Bin;Zhai, Tongguang;
6:13:9:9 Three-dimensional effects of microstructures on short fatigue crack growth in an Al-Li 8090 alloy
DOI:10.1080/14786435.2011.587467 JN:PHILOSOPHICAL MAGAZINE PY:2011 TC:5 AU: Wen, Wei;Zhai, Tongguang;
6:13:9:10 Crystal plasticity finite-element analysis versus experimental results of pyramidal indentation into (001) fcc single crystal
DOI:10.1016/j.actamat.2010.11.042 JN:ACTA MATERIALIA PY:2011 TC:13 AU: Eidel, Bernhard;
6:13:9:11 A numerical description of short fatigue cracks interacting with grain boundaries
DOI:10.1016/j.actamat.2012.01.013 JN:ACTA MATERIALIA PY:2012 TC:8 AU: Schaef, W.;Marx, M.;
6:13:9:12 Effect of eutectics on plastic deformation and subsequent recrystallization in the single crystal nickel base superalloy CMSX-4
DOI:10.1016/j.msea.2011.11.015 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:7 AU: Wang, L.;Pyczak, F.;Zhang, J.;Lou, L. H.;Singer, R. F.;
6:13:9:13 Study on dominant mechanism of high-cycle fatigue life in 6061-T6 aluminum alloy through microanalyses of microstructurally small cracks
DOI:10.1016/j.actamat.2012.01.023 JN:ACTA MATERIALIA PY:2012 TC:10 AU: Takahashi, Yoshimasa;Shikama, Takahiro;Yoshihara, Shinji;Aiura, Tadashi;Noguchi, Hiroshi;
6:13:9:14 Crystal plasticity finite element simulation of crack growth in single crystals
DOI:10.1016/j.commatsci.2014.03.061 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:0 AU: Li, J.;Proudhon, H.;Roos, A.;Chiaruttini, V.;Forest, S.;
6:13:9:15 Orientational dependence of recrystallization in an Ni-base single-crystal superalloy
DOI:10.1016/j.scriptamat.2011.11.037 JN:SCRIPTA MATERIALIA PY:2012 TC:13 AU: Xie, G.;Wang, L.;Zhang, J.;Lou, L. H.;
6:13:9:16 Fatigue limit investigation of 6061-T6 aluminum alloy in giga-cycle regime
DOI:10.1016/j.msea.2014.07.039 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Takahashi, Yoshimasa;Yoshitake, Hiroaki;Nakamichi, Ryota;Wada, Takuya;Takuma, Masanori;Shikama, Takahiro;Noguchi, Hiroshi;
6:13:9:17 Simultaneous neutron transmission and diffraction contrast tomography as a non-destructive 3D method for bulk single crystal quality investigations
DOI:10.1063/1.4823741 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:4 AU: Peetermans, S.;Lehmann, E. H.;
6:13:10:1 First-principles study of an interfacial phase diagram in the V-doped WC-Co system
DOI:10.1103/PhysRevB.86.035403 JN:PHYSICAL REVIEW B PY:2012 TC:3 AU: Johansson, S. A. E.;Wahnstrom, G.;
6:13:10:2 Interface structure in a WC-Co alloy co-doped with VC and Cr3C2
DOI:10.1007/s10853-011-6156-6 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:8 AU: Lay, S.;Loubradou, M.;Johansson, S. A. E.;Wahnstrom, G.;
6:13:10:3 Grain and phase boundary segregation in WC-Co with small V, Cr or Mn additions
DOI:10.1016/j.actamat.2010.03.038 JN:ACTA MATERIALIA PY:2010 TC:26 AU: Weidow, Jonathan;Andren, Hans-Olof;
6:13:10:4 The equilibrium morphology of WC particles - A combined ab initio and experimental study
DOI:10.1016/j.actamat.2011.03.018 JN:ACTA MATERIALIA PY:2011 TC:14 AU: Zhong, Yang;Zhu, Hong;Shaw, Leon L.;Ramprasad, R.;
6:13:10:5 Three-dimensional morphology of (W,V)C-x in VC-doped WC-Co hard metals
DOI:10.1016/j.scriptamat.2013.06.002 JN:SCRIPTA MATERIALIA PY:2013 TC:2 AU: Sugiyama, I.;Mizumukai, Y.;Taniuchi, T.;Okada, K.;Shirase, F.;Tanase, T.;Ikuhara, Y.;Yamamoto, T.;
6:13:10:6 A modeling investigation for pseudo-ternary (Ti,Mo,W)(CN) solid-solution: Thermodynamic and elastic properties
DOI:10.1016/j.commatsci.2013.10.026 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:0 AU: Gao, Zhe;Kang, Shinhoo;
6:13:10:7 Microstructure and mechanical properties of WC-40vol%Al2O3 composites hot pressed with MgO and CeO2 additives
DOI:10.1016/j.ceramint.2012.08.043 JN:CERAMICS INTERNATIONAL PY:2013 TC:2 AU: Qu, Haixia;Zhu, Shigen;Di, Ping;Ouyang, Chenxin;Li, Qian;
6:13:10:8 A computational study of thin cubic carbide films in WC/Co interfaces
DOI:10.1016/j.actamat.2010.09.021 JN:ACTA MATERIALIA PY:2011 TC:11 AU: Johansson, S. A. E.;Wahnstrom, G.;
6:13:10:9 Transition Metal Solubilities in WC in Cemented Carbide Materials
DOI:10.1111/j.1551-2916.2010.04122.x JN:JOURNAL OF THE AMERICAN CERAMIC SOCIETY PY:2011 TC:14 AU: Weidow, Jonathan;Johansson, Sven;Andren, Hans-Olof;Wahnstrom, Goran;
6:13:10:10 Blunt corners of WC grains induced by lowering carbon content in WC-12mass%Co cemented carbides
DOI:10.1007/s10853-010-5076-1 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:7 AU: Sugiyama, I.;Goto, M.;Taniuchi, T.;Shirase, F.;Tanase, T.;Okada, K.;Ikuhara, Y.;Yamamoto, T.;
6:13:10:11 Growth mechanisms of WC in WC-5.75 wt% Co
DOI:10.1016/j.ceramint.2011.06.016 JN:CERAMICS INTERNATIONAL PY:2011 TC:4 AU: Zhong, Yang;Shaw, Leon L.;
6:13:10:12 Atom probe study of grain boundary segregation in technically pure molybdenum
DOI:10.1016/j.matchar.2013.11.001 JN:MATERIALS CHARACTERIZATION PY:2014 TC:3 AU: Babinsky, K.;Weidow, J.;Knabl, W.;Lorich, A.;Leitner, H.;Primig, S.;
6:13:11:1 Grain boundary engineering: historical perspective and future prospects
DOI:10.1007/s10853-011-5393-z JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:45 AU: Watanabe, Tadao;
6:13:11:2 Grain boundary engineering for control of sulfur segregation-induced embrittlement in ultrafine-grained nickel
DOI:10.1016/j.scriptamat.2009.11.022 JN:SCRIPTA MATERIALIA PY:2010 TC:30 AU: Kobayashi, S.;Tsurekawa, S.;Watanabe, T.;Palumbo, G.;
6:13:11:3 Grain boundary engineering based on fractal analysis for control of segregation-induced intergranular brittle fracture in polycrystalline nickel
DOI:10.1016/j.actamat.2012.07.065 JN:ACTA MATERIALIA PY:2012 TC:11 AU: Kobayashi, S.;Maruyama, T.;Tsurekawa, S.;Watanabe, T.;
6:13:11:4 Effect of grain boundary microstructure on fatigue crack propagation in austenitic stainless steel
DOI:10.1007/s10853-010-5238-1 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:6 AU: Kobayashi, Shigeaki;Nakamura, Manabu;Tsurekawa, Sadahiro;Watanabe, Tadao;
6:13:11:5 Influence of grain boundary misorientation on hydrogen embrittlement in bi-crystal nickel
DOI:10.1016/j.ijhydene.2014.07.020 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2014 TC:6 AU: Jothi, Sathiskumar;Croft, T. N.;Brown, S. G. R.;
6:13:11:6 Grain boundary character distribution and texture evolution during surface energy-driven grain growth in nanocrystalline gold thin films
DOI:10.1080/14786435.2012.756991 JN:PHILOSOPHICAL MAGAZINE PY:2013 TC:1 AU: Kobayashi, Shigeaki;Takagi, Hiroki;Watanabe, Tadao;
6:13:11:7 In situ observations of crack propagation and role of grain boundary microstructure in nickel embrittled by sulfur
DOI:10.1007/s10853-014-8056-z JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:1 AU: Kobayashi, Shigeaki;Maruyama, Tatsuya;Saito, Sakae;Tsurekawa, Sadahiro;Watanabe, Tadao;
6:13:12:1 Study of rapid grain boundary migration in a nanocrystalline Ni thin film
DOI:10.1016/j.msea.2010.10.109 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:14 AU: Kacher, Josh;Robertson, I. M.;Nowell, Matt;Knapp, J.;Hattar, Khalid;
6:13:12:2 Thermal stability of Ni/NiO multilayers
DOI:10.1016/j.msea.2013.01.033 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:5 AU: Kacher, Josh;Elizaga, Patricia;House, Stephen D.;Hattar, Khalid;Nowell, Matt;Robertson, I. M.;
6:13:12:3 The role of copper twin boundaries in cryogenic indentation-induced grain growth
DOI:10.1016/j.msea.2013.11.005 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Brons, J. G.;Hardwick, J. A.;Padilla, H. A., II;Hattar, K.;Thompson, G. B.;Boyce, B. L.;
6:13:12:4 Competitive Abnormal Grain Growth between Allotropic Phases in Nanocrystalline Nickel
DOI:10.1002/adma.200904245 JN:ADVANCED MATERIALS PY:2010 TC:10 AU: Brewer, L. N.;Follstaedt, D. M.;Hattar, K.;Knapp, J. A.;Rodriguez, M. A.;Robertson, I. M.;
6:13:12:5 Molecular dynamics simulations of rate-dependent grain growth during the surface indentation of nanocrystalline nickel
DOI:10.1016/j.msea.2012.08.045 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:10 AU: Tucker, Garritt J.;Foiles, Stephen M.;
6:13:12:6 Evidence of metastable hcp phase grains in as-deposited nanocrystalline nickel films
DOI:10.1016/j.scriptamat.2012.04.014 JN:SCRIPTA MATERIALIA PY:2012 TC:7 AU: Rajasekhar, S.;Ganesh, K. J.;Hattar, K.;Knapp, J. A.;Ferreira, P. J.;
6:13:12:7 Microstructure and phase transformation on milled and unmilled Ti induced by water quenching
DOI:10.1016/j.matlet.2014.06.063 JN:MATERIALS LETTERS PY:2014 TC:2 AU: Bolokang, A. S.;Phasha, M. J.;Motaung, D. E.;Cummings, F. R.;Muller, T. F. G.;Arendse, C. J.;
6:13:12:8 Microstructure stability and evolution in CVD carbonyl Ni materials upon annealing - Grain growth and detwinning process
DOI:10.1016/j.msea.2012.08.003 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:2 AU: Chen, Chichi;Liu, Jing;Wang, Zhirui;
6:13:12:9 Cryogenic indentation-induced grain growth in nanotwinned copper
DOI:10.1016/j.scriptamat.2012.12.026 JN:SCRIPTA MATERIALIA PY:2013 TC:5 AU: Brons, J. G.;Padilla, H. A., II;Thompson, G. B.;Boyce, B. L.;
6:13:13:1 A quantitative and thermodynamically consistent phase-field interpolation function for multi-phase systems
DOI:10.1016/j.actamat.2010.10.038 JN:ACTA MATERIALIA PY:2011 TC:24 AU: Moelans, Nele;
6:13:13:2 Bounding box framework for efficient phase field simulation of grain growth in anisotropic systems
DOI:10.1016/j.commatsci.2011.02.033 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:4 AU: Vanherpe, Liesbeth;Moelans, Nele;Blanpain, Bart;Vandewalle, Stefan;
6:13:13:3 Three-dimensional phase-field simulation of microstructural evolution in three-phase materials with different diffusivities
DOI:10.1007/s10853-014-8411-0 JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:0 AU: Ravash, Hamed;Vleugels, Jef;Moelans, Nele;
6:13:13:4 Three-dimensional simulations of micro structural evolution in polycrystalline dual-phase materials with constant volume fractions
DOI:10.1016/j.actamat.2012.10.032 JN:ACTA MATERIALIA PY:2013 TC:3 AU: Poulsen, S. O.;Voorhees, P. W.;Lauridsen, E. M.;
6:13:13:5 Effect of grain boundary energy anisotropy on highly textured grain structures studied by phase-field simulations
DOI:10.1016/j.actamat.2013.10.058 JN:ACTA MATERIALIA PY:2014 TC:2 AU: Chang, Kunok;Moelans, Nele;
6:13:13:6 Coarsening kinetics of topologically highly correlated grain boundary networks
DOI:10.1063/1.4740070 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:2 AU: Tang, Ming;Reed, Bryan W.;Kumar, Mukul;
6:13:13:7 On the rotation invariance of multi-order parameter models for grain growth
DOI:10.1016/j.scriptamat.2010.02.009 JN:SCRIPTA MATERIALIA PY:2010 TC:4 AU: Heulens, J.;Moelans, N.;
6:13:13:8 The uncorrelated triple junction distribution function: Towards grain boundary network design
DOI:10.1016/j.actamat.2013.01.025 JN:ACTA MATERIALIA PY:2013 TC:7 AU: Johnson, Oliver K.;Schuh, Christopher A.;
6:13:13:9 Grain growth in thin films with a fibre texture studied by phase-field simulations and mean field modelling
DOI:10.1080/14786430902998129 JN:PHILOSOPHICAL MAGAZINE PY:2010 TC:5 AU: Moelans, N.;Spaepen, F.;Wollants, P.;
6:13:13:10 Modelling of phase diagrams and thermodynamic properties using Calphad method - Development of thermodynamic databases
DOI:10.1016/j.commatsci.2012.02.003 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:10 AU: Kroupa, Ales;
6:13:13:11 Thermodynamic reassessment of Au-Cu-Sn ternary system
DOI:10.1016/j.jallcom.2013.11.041 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:1 AU: Dong, H. Q.;Vuorinen, V.;Tao, X. M.;Laurila, T.;Paulasto-Krockel, M.;
6:13:14:1 Annealing behaviour of a nanostructured Cu-45 at.%Ni alloy
DOI:10.1007/s10853-013-7231-y JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:18 AU: Tian, H.;Suo, H. L.;Mishin, O. V.;Zhang, Y. B.;Jensen, D. Juul;Grivel, J. -C.;
6:13:14:2 Comparative characterization of Cu-Ni substrates for coated conductors
DOI:10.1016/j.jallcom.2014.02.114 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:3 AU: Tian, H.;Suo, H. L.;Wulff, A. C.;Grivel, J. -C.;Mishin, O. V.;Jensen, D. Juul;
6:13:14:3 Characterization of a strongly textured non-ferromagnetic Cu-33 at%Ni substrate coated with a CeO2 buffer layer
DOI:10.1016/j.matlet.2013.06.071 JN:MATERIALS LETTERS PY:2013 TC:4 AU: Tian, H.;Suo, H. L.;Zhao, Y.;Mishin, O. V.;Grivel, J. -C.;
6:13:14:4 Recovery and recrystallization in commercial purity aluminum cold rolled to an ultrahigh strain
DOI:10.1016/j.actamat.2013.05.024 JN:ACTA MATERIALIA PY:2013 TC:18 AU: Mishin, O. V.;Godfrey, A.;Jensen, D. Juul;Hansen, N.;
6:13:14:5 Evolution of microstructure, texture and topography during additional annealing of cube-textured Ni-5at.%W substrate for coated conductors
DOI:10.1016/j.jallcom.2012.06.033 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:8 AU: Wulff, A. C.;Mishin, O. V.;Grivel, J. -C.;
6:13:14:6 Microstructure, texture and magnetic properties of Ni-Cu-W substrates for coated conductors
DOI:10.1016/j.matlet.2012.11.007 JN:MATERIALS LETTERS PY:2013 TC:6 AU: Wulff, A. C.;Mishin, O. V.;Andersen, N. H.;Zhao, Y.;Grivel, J-C;
6:13:14:7 Development and characterization of cube-textured Ni-Cu-Co substrates for YBCO-coated conductors
DOI:10.1016/j.actamat.2009.10.006 JN:ACTA MATERIALIA PY:2010 TC:16 AU: Vannozzi, A.;Thalmaier, Gy;Armenio, A. Angrisani;Augieri, A.;Galluzzi, V.;Mancini, A.;Rufoloni, A.;Petrisor, T.;Celentano, G.;
6:13:14:8 Synthesis and characterization of CeO2 thin film with well-ordered step edges
DOI:10.1016/j.matlet.2014.03.157 JN:MATERIALS LETTERS PY:2014 TC:2 AU: Zhang, Guoqing;Guo, Yili;Lu, Lijiang;Zhang, Zhaoxia;Wang, Lina;Zhou, Lan;Shao, Jianzhong;
6:13:14:9 Paramagnetic substrates for thin film superconductors: Ni-W and Ni-W-Cr
DOI:10.1016/j.scriptamat.2009.12.030 JN:SCRIPTA MATERIALIA PY:2010 TC:11 AU: Gaitzsch, Uwe;Eickemeyer, Joerg;Rodig, Christian;Freudenberger, Jens;Holzapfel, Bernhard;Schultz, Ludwig;
6:13:15:1 Characterization and comparison of grain boundary character distributions in cemented carbides with different binder phases
DOI:10.1016/j.commatsci.2014.06.022 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:0 AU: Yuan, Xiaokun;Wei, Chongbin;Zhang, Dongtao;Zhu, Jie;Gao, Xuexu;
6:13:15:2 Hardness of hexagonal tungsten carbide crystals as a function of orientation
DOI:10.1016/j.actamat.2012.07.056 JN:ACTA MATERIALIA PY:2012 TC:13 AU: Roebuck, B.;Klose, P.;Mingard, K. P.;
6:13:15:3 Grain boundary character distributions of sigma2 boundaries in WC-Co composites with different cobalt volume fractions
DOI:10.1016/j.ceramint.2013.07.091 JN:CERAMICS INTERNATIONAL PY:2014 TC:2 AU: Yuan, Xiaokun;
6:13:15:4 Some aspects of the structure of cobalt and nickel binder phases in hardmetals
DOI:10.1016/j.actamat.2010.12.004 JN:ACTA MATERIALIA PY:2011 TC:9 AU: Mingard, K. P.;Roebuck, B.;Marshall, J.;Sweetman, G.;
6:13:15:5 Effect of heat-treatment of in-situ synthesized composite powder on properties of sintered cemented carbides
DOI:10.1016/j.msea.2012.12.091 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:2 AU: Wei, C. B.;Song, X. Y.;Fu, J.;Liu, X. M.;Gao, Y.;Wang, H. B.;Zhao, S. X.;
6:13:15:6 Equilibrium and stability of triple junctions in anisotropic systems
DOI:10.1016/j.actamat.2011.09.043 JN:ACTA MATERIALIA PY:2012 TC:4 AU: Marks, R. A.;Glaeser, A. M.;
6:13:15:7 Grain boundary character distributions of coincidence site lattice boundaries in WC-Co composites with different WC grain sizes
DOI:10.1016/j.jallcom.2013.07.090 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:4 AU: Yuan, Xiaokun;
6:13:15:8 Effect of densification mechanism on the Sigma 2 grain boundary plane distribution in WC-Co composites
DOI:10.1016/j.matlet2012.10.074 JN:MATERIALS LETTERS PY:2013 TC:5 AU: Yuan, Xiaokun;Song, Xiaoyan;Chien, Harry;Li, Jia;Rohrer, Gregory S.;
6:13:15:9 Binder phase grain size in WC-Co-based cemented carbides
DOI:10.1016/j.scriptamat.2010.08.025 JN:SCRIPTA MATERIALIA PY:2010 TC:9 AU: Weidow, Jonathan;Andren, Hans-Olof;
6:13:15:10 Indentation fatigue of WC grains in WC-Co composite
DOI:10.1016/j.jeurceramsoc.2014.02.022 JN:JOURNAL OF THE EUROPEAN CERAMIC SOCIETY PY:2014 TC:1 AU: Bl'anda, Marek;Duszova, Annamaria;Csanadi, Tamas;Hvizdos, Pavol;Lofaj, Frantisek;Dusza, Jan;
6:13:15:11 Effects of phase fraction on phase morphology and triple junction configuration in anisotropic systems
DOI:10.1016/j.actamat.2011.12.046 JN:ACTA MATERIALIA PY:2012 TC:1 AU: Marks, Robert A.;Glaeser, Andreas M.;
6:13:16:1 Challenges in Ceramic Science: A Report from the Workshop on Emerging Research Areas in Ceramic Science
DOI:10.1111/jace.12033 JN:JOURNAL OF THE AMERICAN CERAMIC SOCIETY PY:2012 TC:18 AU: Rohrer, Gregory S.;Affatigato, Mario;Backhaus, Monika;Bordia, Rajendra K.;Chan, Helen M.;Curtarolo, Stefano;Demkov, Alex;Eckstein, James N.;Faber, Katherine T.;Garay, Javier E.;Gogotsi, Yury;Huang, Liping;Jones, Linda E.;Kalinin, Sergei V.;Lad, Robert J.;Levi, Carlos G.;Levy, Jeremy;Maria, Jon-Paul;Mattos, Louis, Jr.;Navrotsky, Alexandra;Orlovskaya, Nina;Pantano, Carlo;Stebbins, Jonathan F.;Sudarshan, T. S.;Tani, Toshihiko;Weil, K. Scott;
6:13:16:2 Synthesis and structural characterization of dense polycrystalline Mg9Sn5, a metastable Mg-Sn phase
DOI:10.1016/j.jallcom.2014.07.122 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:0 AU: Fong, A. Y.;Xu, H.;Page, K.;Dirmyer, M. R.;Kodera, Y.;Obrey, S. J.;Garay, J. E.;
6:13:17:1 Mechanical Properties of Nanocrystalline and Ultrafine-Grained Nickel with Bimodal Microstructure
DOI:10.1002/adem.201300570 JN:ADVANCED ENGINEERING MATERIALS PY:2014 TC:0 AU: Qian, Tao;Karaman, Ibrahim;Marx, Michael;
6:13:17:2 Texture evolution in nanocrystalline iron films deposited using biased magnetron sputtering
DOI:10.1063/1.4904077 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Vetterick, G.;Baldwin, J. K.;Misra, A.;Taheri, M. L.;
6:13:17:3 Abnormal grain growth in Ni-5at.%W
DOI:10.1080/14786435.2012.707341 JN:PHILOSOPHICAL MAGAZINE PY:2012 TC:3 AU: Witte, M.;Belde, M.;Mora, L. Barrales;de Boer, N.;Gilges, S.;Kloewer, J.;Gottstein, G.;
6:13:17:4 Effects of processing on texture, internal stresses and mechanical properties during the pulsed electrodeposition of nanocrystalline and ultrafine-grained nickel
DOI:10.1016/j.actamat.2013.03.008 JN:ACTA MATERIALIA PY:2013 TC:6 AU: Schueler, Kerstin;Philippi, Bastian;Weinmann, Martin;Marx, Vera M.;Vehoff, Horst;
6:13:17:5 Influence of Bath Composition on Tensile Ductility in Electrodeposited Bulk Nanocrystalline Nickel
DOI:10.2320/matertrans.M2010279 JN:MATERIALS TRANSACTIONS PY:2011 TC:3 AU: Matsui, Isao;Takigawa, Yorinobu;Uesugi, Tokuteru;Higashi, Kenji;
6:13:17:6 Observation of (sub)grain clusters in the as-deposited and in situ annealed nanocrystalline nickel using automated crystal orientation mapping
DOI:10.1016/j.scriptamat.2012.07.003 JN:SCRIPTA MATERIALIA PY:2012 TC:2 AU: Cizek, P.;Sankaran, A.;Rauch, E. F.;Barnett, M. R.;
6:13:17:7 The Project SupraMetall: Towards Commercial Fabrication of High-Temperature Superconducting Tapes
DOI:10.1002/adem.201300415 JN:ADVANCED ENGINEERING MATERIALS PY:2014 TC:0 AU: Witte, Marco;Gottstein, Guenter;de Boer, Nicole;Gilges, Stefan;Kloewer, Jutta;Baecker, Michael;Brunkahl, Oliver;Wojtyniak, Brygida;Mader, Werner;Svete, Matthias;Huehne, Sven-Martin;Lepper, Sabine;Boehm, Regina;Schebera, Manuela;
6:13:18:1 On the effect of grain boundary segregation on creep and creep rupture
DOI:10.1016/j.actamat.2012.02.004 JN:ACTA MATERIALIA PY:2012 TC:8 AU: Otto, F.;Viswanathan, G. B.;Payton, E. J.;Frenzel, J.;Eggeler, G.;
6:13:18:2 Experimental measurement of the kinetics of gamma prime dissolution during supersolvus heat treatment of powder metallurgical Ni-based disk superalloys
DOI:10.1007/s10853-012-6684-8 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:1 AU: Payton, E. J.;Wynn, T. A.;Mills, M. J.;
6:13:18:3 The effectiveness of coincidence site lattice criteria in predicting creep cavitation resistance
DOI:10.1007/s10853-011-6124-1 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:5 AU: Otto, F.;Payton, E. J.;Frenzel, J.;Eggeler, G.;
6:13:18:4 Semi-automated characterization of the gamma ' phase in Ni-based superalloys via high-resolution backscatter imaging
DOI:10.1016/j.msea.2009.12.037 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:11 AU: Payton, E. J.;Phillips, P. J.;Mills, M. J.;
6:13:18:5 Investigation on hot workability characteristics of Inconel 625 superalloy using processing maps
DOI:10.1007/s10853-012-6488-x JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:6 AU: Guo, Shengli;Li, Defu;Guo, Qingmiao;Wu, Zhigang;Peng, Haijian;Hu, Jie;
6:13:18:6 Stereology of backscatter electron images of etched surfaces for characterization of particle size distributions and volume fractions: Estimation of imaging bias via Monte Carlo simulations
DOI:10.1016/j.matchar.2011.04.003 JN:MATERIALS CHARACTERIZATION PY:2011 TC:2 AU: Payton, E. J.;Mills, M. J.;
6:13:18:7 Forming behavior and workability of 6061/B4CP composite during hot deformation
DOI:10.1016/j.compscitech.2011.02.009 JN:COMPOSITES SCIENCE AND TECHNOLOGY PY:2011 TC:9 AU: Li, Huizhong;Wang, Haijun;Zeng, Min;Liang, Xiaopeng;Liu, Hongting;
6:13:19:1 Linking recovery and recrystallization through triple junction motion in aluminum cold rolled to a large strain
DOI:10.1016/j.actamat.2013.07.040 JN:ACTA MATERIALIA PY:2013 TC:6 AU: Yu, Tianbo;Hansen, Niels;Huang, Xiaoxu;
6:13:19:2 Grain growth characteristics and its effect on deformation behavior in nanocrystalline Ni
DOI:10.1016/j.msea.2012.01.102 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:11 AU: Sharma, Garima;Varshney, Jalaj;Bidaye, A. C.;Chakravartty, J. K.;
6:13:19:3 Orientation-dependent recovery in strongly deformed Al-0.1% Mn crystals
DOI:10.1080/14786435.2011.600733 JN:PHILOSOPHICAL MAGAZINE PY:2011 TC:5 AU: Albou, Adeline;Borbely, Andras;Maurice, Claire;Driver, Julian H.;
6:13:19:4 Recovery mechanisms in nanostructured aluminium
DOI:10.1080/14786435.2012.704418 JN:PHILOSOPHICAL MAGAZINE PY:2012 TC:8 AU: Yu, Tianbo;Hansen, Niels;Huang, Xiaoxu;
6:13:19:5 In situ measurements of growth rates and grain-averaged activation energies of individual grains during recrystallization of 50% cold-rolled aluminium
DOI:10.1016/j.scriptamat.2011.01.046 JN:SCRIPTA MATERIALIA PY:2011 TC:15 AU: Poulsen, S. O.;Lauridsen, E. M.;Lyckegaard, A.;Oddershede, J.;Gundlach, C.;Curfs, C.;Jensen, D. Juul;
6:13:19:6 Investigations on plastic flow and creep behaviour in nano and ultrafine grain Ni by nanoindentation
DOI:10.1016/j.matlet.2014.04.186 JN:MATERIALS LETTERS PY:2014 TC:0 AU: Chatterjee, Arnomitra;Srivastava, Meenu;Sharma, Garima;Chakravartty, J. K.;
6:13:19:7 High temperature mechanical behavior of nanocrystalline Ni
DOI:10.1016/j.msea.2013.03.068 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:2 AU: Sharma, Garima;Chatterjee, Arnomitra;Paul, B.;Varshney, J.;Chakravartty, J. K.;
6:13:19:8 Enhancing grain refinement in polycrystalline materials using surface mechanical attrition treatment at cryogenic temperatures
DOI:10.1016/j.scriptamat.2013.05.036 JN:SCRIPTA MATERIALIA PY:2013 TC:6 AU: Darling, K. A.;Tschopp, M. A.;Roberts, A. J.;Ligda, J. P.;Kecskes, L. J.;
6:13:19:9 Preface to the viewpoint set: Triple lines
DOI:10.1016/j.scriptamat.2010.03.018 JN:SCRIPTA MATERIALIA PY:2010 TC:2 AU: Chaix, Jean-Marc;Mortensen, Andreas;Passerone, Alberto;
6:13:19:10 The role of the triple line in solid-state microstructural evolutions: Interplay with interfaces and consequences on instabilities and pattern selection
DOI:10.1016/j.scriptamat.2010.03.002 JN:SCRIPTA MATERIALIA PY:2010 TC:1 AU: Brechet, Yves J. M.;
6:13:20:1 Crystallography of Interfaces and Grain Size Distributions in Sr-Doped LaMnO3
DOI:10.1111/jace.12984 JN:JOURNAL OF THE AMERICAN CERAMIC SOCIETY PY:2014 TC:2 AU: Liu, Qinyuan;Bhattacharya, Sudip;Helmick, Lam;Donegan, Sean P.;Rollett, Anthony D.;Rohrer, Gregory S.;Salvador, Paul A.;
6:13:20:2 Comparison of grain size distributions in a Ni-based superalloy in three and two dimensions using the Saltykov method
DOI:10.1016/j.scriptamat.2012.01.001 JN:SCRIPTA MATERIALIA PY:2012 TC:7 AU: Tucker, Joseph C.;Chan, Lisa H.;Rohrer, Gregory S.;Groeber, Michael A.;Rollett, Anthony D.;
6:13:20:3 Carbide grain growth in cemented carbides
DOI:10.1016/j.actamat.2010.11.056 JN:ACTA MATERIALIA PY:2011 TC:14 AU: Mannesson, Karin;Jeppsson, Johan;Borgenstam, Annika;Agren, John;
6:13:20:4 On the three-dimensional structure of WC grains in cemented carbides
DOI:10.1016/j.actamat.2013.05.008 JN:ACTA MATERIALIA PY:2013 TC:5 AU: Borgh, Ida;Hedstrom, Peter;Odqvist, Joakim;Borgenstam, Annika;Agren, John;Gholinia, Ali;Winiarski, Bartlomiej;Withers, Philip J.;Thompson, George E.;Mingard, Ken;Gee, Mark G.;
6:13:20:5 Inverse Saltykov analysis for particle-size distributions and their time evolution
DOI:10.1016/j.actamat.2010.09.046 JN:ACTA MATERIALIA PY:2011 TC:6 AU: Jeppsson, Johan;Mannesson, Karin;Borgenstam, Annika;Agren, John;
6:13:20:6 Extreme value analysis of tail departure from log-normality in experimental and simulated grain size distributions
DOI:10.1016/j.actamat.2013.06.001 JN:ACTA MATERIALIA PY:2013 TC:4 AU: Donegan, S. P.;Tucker, J. C.;Rollett, A. D.;Barmak, K.;Groeber, M.;
6:13:20:7 Microstructure degradation of LSM-YSZ cathode in SOFCs operated at various conditions
DOI:10.1016/j.ssi.2011.10.020 JN:SOLID STATE IONICS PY:2012 TC:12 AU: Liu, Y. L.;Thyden, K.;Chen, M.;Hagen, A.;
6:13:21:1 A continuous and one-to-one coloring scheme for misorientations
DOI:10.1016/j.actamat.2010.09.058 JN:ACTA MATERIALIA PY:2011 TC:7 AU: Patala, Srikanth;Schuh, Christopher A.;
6:13:21:2 Symmetries in the representation of grain boundary-plane distributions
DOI:10.1080/14786435.2012.722700 JN:PHILOSOPHICAL MAGAZINE PY:2013 TC:4 AU: Patala, Srikanth;Schuh, Christopher A.;
6:13:21:3 Boundary plane distribution for Sigma 13 grain boundaries in magnesium
DOI:10.1016/j.matlet.2014.08.152 JN:MATERIALS LETTERS PY:2014 TC:0 AU: Ostapovets, Andriy;Molnar, Peter;Lejcek, Pavel;
6:13:21:4 Twist, tilt, and symmetric grain boundaries in hexagonal materials
DOI:10.1007/s10853-013-7958-5 JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:4 AU: Glowinski, Krzysztof;Morawiec, Adam;
6:13:21:5 The topology of homophase misorientation spaces
DOI:10.1080/14786435.2010.541169 JN:PHILOSOPHICAL MAGAZINE PY:2011 TC:1 AU: Patala, S.;Schuh, C. A.;
6:13:21:6 On "macroscopic" characterization of mixed grain boundaries
DOI:10.1016/j.actamat.2013.06.019 JN:ACTA MATERIALIA PY:2013 TC:4 AU: Morawiec, A.;Glowinski, K.;
6:13:22:1 An experimental statistical analysis of stress projection factors in BCC tantalum
DOI:10.1016/j.msea.2013.05.085 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:7 AU: Carroll, J. D.;Clark, B. G.;Buchheit, T. E.;Boyce, B. L.;Weinberger, C. R.;
6:13:22:2 A methodology to study crystal plasticity inside a compression test sample based on image correlation and EBSD
DOI:10.1016/j.matchar.2011.05.009 JN:MATERIALS CHARACTERIZATION PY:2011 TC:6 AU: Rehrl, C.;Kleber, S.;Antretter, T.;Pippan, R.;
6:13:22:3 Study on grain boundary character and strain distribution of intergranular cracking in the CGHAZ of T23 steel
DOI:10.1016/j.matchar.2013.08.004 JN:MATERIALS CHARACTERIZATION PY:2013 TC:2 AU: Jin, Y. J.;Lu, H.;Yu, C.;Xu, J. J.;
6:13:22:4 Crystal orientation changes: A comparison between a crystal plasticity finite element study and experimental results
DOI:10.1016/j.actamat.2011.12.052 JN:ACTA MATERIALIA PY:2012 TC:9 AU: Rehrl, Christian;Voelker, Bernhard;Kleber, Siegfried;Antretter, Thomas;Pippan, Reinhard;
6:13:22:5 Mesoscale strain measurement in deformed crystals: A comparison of X-ray microdiffraction with electron backscatter diffraction
DOI:10.1080/14786430903397297 JN:PHILOSOPHICAL MAGAZINE PY:2010 TC:13 AU: Field, D. P.;Magid, K. R.;Mastorakos, I. N.;Florando, J. N.;Lassila, D. H.;Morris, J. W., Jr.;
6:13:23:1 Crystal plasticity modeling of cyclic deformation for a polycrystalline nickel-based superalloy at high temperature
DOI:10.1016/j.msea.2010.02.045 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:14 AU: Lin, B.;Zhao, L. G.;Tong, J.;Christ, H. -J.;
6:13:23:2 Effect of annealing twins on crack initiation under high cycle fatigue conditions
DOI:10.1007/s10853-012-7021-y JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:7 AU: Castelluccio, Gustavo M.;McDowell, David L.;
6:13:23:3 Mesoscale modeling of microstructurally small fatigue cracks in metallic polycrystals
DOI:10.1016/j.msea.2014.01.015 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Castelluccio, Gustavo M.;McDowell, David L.;
6:13:23:4 Effects of cyclic stress and temperature on oxidation damage of a nickel-based superalloy
DOI:10.1016/j.msea.2011.04.029 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:12 AU: Karabela, A.;Zhao, L. G.;Tong, J.;Simms, N. J.;Nicholls, J. R.;Hardy, M. C.;
6:13:23:5 Oxygen diffusion and crack growth for a nickel-based superalloy under fatigue-oxidation conditions
DOI:10.1016/j.msea.2012.12.088 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:3 AU: Karabela, A.;Zhao, L. G.;Lin, B.;Tong, J.;Hardy, M. C.;
6:13:24:1 A calibrated Monte Carlo approach to quantify the impacts of misorientation and different driving forces on texture development
DOI:10.1016/j.actamat.2011.10.057 JN:ACTA MATERIALIA PY:2012 TC:6 AU: Zhang, Liangzhe;Rollett, Anthony D.;Bartel, Timothy;Wu, Di;Lusk, Mark T.;
6:13:24:2 Recrystallization behavior of a co-cast AA3xxx-AA6xxx aluminum alloy laminate - Effect of annealing conditions and cold reduction levels
DOI:10.1016/j.matchar.2014.05.010 JN:MATERIALS CHARACTERIZATION PY:2014 TC:1 AU: Liao, Li Hua;Jin, Haiou;Gallerneault, Mark;Esmaeili, Shahrzad;
6:13:24:3 Independence of grain boundary mobility and driving force for square-lattice Monte Carlo models
DOI:10.1016/j.commatsci.2010.03.034 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2010 TC:6 AU: Zhang, Liangzhe;Bartel, Timothy;Lusk, Mark T.;
6:13:24:4 The effect of solutes on grain boundary mobility during recrystallization and grain growth in some single-phase aluminium alloys
DOI:10.1016/j.matchemphys.2011.11.018 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:10 AU: Huang, Y.;Humphreys, F. J.;
6:13:24:5 Parallelized hybrid Monte Carlo simulation of stress-induced texture evolution
DOI:10.1016/j.commatsci.2010.02.002 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2010 TC:6 AU: Zhang, Liangzhe;Bartel, Timothy;Lusk, Mark T.;
6:13:24:6 Changes in Microstructures during Annealing after Cold-Rolling at 30% and 50% Reduction on Al-Mg-Si Alloy
DOI:10.2320/matertrans.L-MZ201122 JN:MATERIALS TRANSACTIONS PY:2011 TC:9 AU: Yamamoto, Atsushi;Tsukamoto, Masaaki;Okai, Daisuke;
6:13:25:1 Pinning effect of spheroid second-phase particles on grain growth studied by three-dimensional phase-field simulations
DOI:10.1016/j.commatsci.2010.05.020 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2010 TC:22 AU: Vanherpe, Liesbeth;Moelans, Nele;Blanpain, Bart;Vandewalle, Stefan;
6:13:25:2 Mean-field statistical simulation of grain coarsening in the presence of stable and unstable pinning particles
DOI:10.1016/j.actamat.2011.04.004 JN:ACTA MATERIALIA PY:2011 TC:8 AU: Wang, G.;Xu, D. S.;Payton, E. J.;Ma, N.;Yang, R.;Mills, M. J.;Wang, Y.;
6:13:25:3 Grain growth behaviour during near-gamma ' solvus thermal exposures in a polycrystalline nickel-base superalloy
DOI:10.1016/j.actamat.2013.02.028 JN:ACTA MATERIALIA PY:2013 TC:7 AU: Collins, D. M.;Conduit, B. D.;Stone, H. J.;Hardy, M. C.;Conduit, G. J.;Mitchell, R. J.;
6:13:25:4 Effect of initial grain size on grain coarsening in the presence of an unstable population of pinning particles
DOI:10.1016/j.actamat.2012.11.009 JN:ACTA MATERIALIA PY:2013 TC:2 AU: Payton, E. J.;Wang, G.;Mills, M. J.;Wang, Y.;
6:13:25:5 Pinning force from multiple second-phase particles in grain growth
DOI:10.1016/j.commatsci.2014.06.030 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:0 AU: Wang, Nan;Wen, Youhai;Chen, Long-Qing;
6:13:26:1 Multi-scale crystal plasticity finite element model approach to modeling nickel-based superalloys
DOI:10.1016/j.actamat.2013.07.038 JN:ACTA MATERIALIA PY:2013 TC:7 AU: Keshavarz, Shahriyar;Ghosh, Somnath;
6:13:26:2 Modelling of the influence of alloy composition on flow stress in high-strength nickel-based superalloys
DOI:10.1016/j.actamat.2014.04.075 JN:ACTA MATERIALIA PY:2014 TC:0 AU: Crudden, D. J.;Mottura, A.;Warnken, N.;Raeisinia, B.;Reed, R. C.;
6:13:26:3 Microstructural extremes and the transition from fatigue crack initiation to small crack growth in a polycrystalline nickel-base superalloy
DOI:10.1016/j.actamat.2012.01.049 JN:ACTA MATERIALIA PY:2012 TC:17 AU: Miao, Jiashi;Pollock, Tresa M.;Jones, J. Wayne;
6:13:26:4 Lattice misfit during ageing of a polycrystalline nickel-base superalloy
DOI:10.1016/j.actamat.2013.09.018 JN:ACTA MATERIALIA PY:2013 TC:9 AU: Collins, D. M.;Yan, L.;Marquis, E. A.;Connor, L. D.;Ciardiello, J. J.;Evans, A. D.;Stone, H. J.;
6:13:26:5 Microstructure and creep behavior of DMS4-type nickel based superalloy single crystals with orientations near < 0 0 1 > and < 0 1 1 >
DOI:10.1016/j.msea.2010.09.083 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:14 AU: Chatterjee, D.;Hazari, N.;Das, N.;Mitra, R.;
6:13:27:1 Formation mechanism of coarse columnar gamma grains in as-cast hyperperitectic carbon steels
DOI:10.1016/j.actamat.2011.02.007 JN:ACTA MATERIALIA PY:2011 TC:5 AU: Tsuchiya, S.;Ohno, M.;Matsuura, K.;Isobe, K.;
6:13:27:2 Transition of solidification mode and the as-cast gamma grain structure in hyperperitectic carbon steels
DOI:10.1016/j.actamat.2012.01.056 JN:ACTA MATERIALIA PY:2012 TC:1 AU: Tsuchiya, Shingo;Ohno, Munekazu;Matsuura, Kiyotaka;
6:13:27:3 Formation conditions of coarse columnar austenite grain structure in peritectic carbon steels by the discontinuous grain growth mechanism
DOI:10.1016/j.actamat.2011.05.045 JN:ACTA MATERIALIA PY:2011 TC:5 AU: Ohno, Munekazu;Tsuchiya, Shingo;Matsuura, Kiyotaka;
6:13:27:4 A critical condition for the formation of a coarse columnar gamma grain structure in a peritectic solidified carbon steel
DOI:10.1016/j.actamat.2013.08.039 JN:ACTA MATERIALIA PY:2013 TC:0 AU: Ohno, Munekazu;Maruyama, Masato;Matsuura, Kiyotaka;
6:13:28:1 Serrated flow and work hardening characteristics of Al-5356 alloy
DOI:10.1016/j.jallcom.2010.04.119 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:5 AU: Saad, G.;Fayek, S. A.;Fawzy, A.;Soliman, H. N.;Nassr, E.;
6:13:28:2 Recrystallization behavior of a supersaturated Al-Mn alloy
DOI:10.1016/j.matlet.2010.05.046 JN:MATERIALS LETTERS PY:2010 TC:11 AU: Liu, W. C.;Radhakrishnan, B.;
6:13:28:3 Effect of heating rate on the microstructure, texture and tensile properties of continuous cast AA 5083 aluminum alloy
DOI:10.1016/j.msea.2014.05.002 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Xia, S. L.;Ma, M.;Zhang, J. X.;Wang, W. X.;Liu, W. C.;
6:13:28:4 Deformation characteristics of Al-4043 alloy
DOI:10.1016/j.msea.2009.09.018 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:7 AU: Saad, G.;Fayek, S. A.;Fawzy, A.;Soliman, H. N.;Mohammed, Gh.;
6:13:28:5 Work hardening characteristics of gamma-ray irradiated Al-5356 alloy
DOI:10.1016/j.msea.2014.03.137 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Saad, G.;Fayek, S. A.;Fawzy, A.;Soliman, H. N.;Nassr, E.;
6:13:29:1 Sensitisation behaviour of grain boundary engineered austenitic stainless steel
DOI:10.1016/j.msea.2010.03.058 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:29 AU: Jones, Richard;Randle, Valerie;
6:13:29:2 One-step and iterative thermo-mechanical treatments to enhance I 3 pound (n) boundaries in a Ti-modified austenitic stainless steel
DOI:10.1007/s10853-010-4982-6 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:3 AU: Mandal, Sumantra;Bhaduri, A. K.;Sarma, V. Subramanya;
6:13:29:3 Effect of heat input on the microstructure, residual stresses and corrosion resistance of 304L austenitic stainless steel weldments
DOI:10.1016/j.matchar.2014.03.013 JN:MATERIALS CHARACTERIZATION PY:2014 TC:6 AU: Unnikrishnan, Rahul;Idury, K. S. N. Satish;Ismail, T. P.;Bhadauria, Alok;Shekhawat, S. K.;Khatirkar, Rajesh K.;Sapate, Sanjay G.;
6:13:29:4 Radiation-induced segregation in austenitic stainless steel type 304: Effect of high fraction of twin boundaries
DOI:10.1016/j.msea.2011.06.066 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:5 AU: Ahmedabadi, Parag;Kain, V.;Arora, K.;Samajdar, I.;Sharma, S. C.;Ravindra, S.;Bhagwat, P.;
6:13:30:1 Effects of Ti, Zr, and Hf on the phase stability of Mo_ss + Mo3Si + Mo5SiB2 alloys at 1600 degrees C
DOI:10.1016/j.actamat.2009.09.032 JN:ACTA MATERIALIA PY:2010 TC:12 AU: Yang, Ying;Bei, H.;Chen, Shuanglin;George, E. P.;Tiley, Jaimie;Chang, Y. Austin;
6:13:30:2 Re effects on phase stability and mechanical properties of Mo-SS+Mo3Si+Mo5SiB2 alloys
DOI:10.1016/j.jallcom.2012.12.047 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:2 AU: Yang, Y.;Bei, H.;Tiley, J.;George, E. P.;
6:13:30:3 Formation, stability and crystal structure of the sigma phase in Mo-Re-Si alloys
DOI:10.1016/j.actamat.2010.07.020 JN:ACTA MATERIALIA PY:2010 TC:3 AU: Bei, H.;Yang, Y.;Viswanathan, G. B.;Rawn, C. J.;George, E. P.;Tiley, J.;Chang, Y. A.;
6:13:30:4 High-temperature oxidation behaviour of a single-phase (Mo,Ti)(5)Si-3 (Mo-Si-Ti) alloy
DOI:10.1016/j.scriptamat.2011.10.042 JN:SCRIPTA MATERIALIA PY:2012 TC:6 AU: Burk, Steffen;Gorr, Bronislava;Christ, Hans-Juergen;Schliephake, Daniel;Heilmaier, Martin;Hochmuth, Christian;Glatzel, Uwe;
6:13:31:1 A statistical sampling approach for measurement of fracture toughness parameters in a 4330 steel by 3-D femtosecond laser-based tomography
DOI:10.1016/j.actamat.2013.06.023 JN:ACTA MATERIALIA PY:2013 TC:3 AU: Echlin, McLean P.;Pollock, Tresa M.;
6:13:31:2 Mapping of femtosecond laser-induced collateral damage by electron backscatter diffraction
DOI:10.1063/1.3653839 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:7 AU: Kumar, Anish;Pollock, Tresa M.;
6:13:31:3 Three-dimensional characterization of the permeability of W-Cu composites using a new "TriBeam" technique
DOI:10.1016/j.actamat.2013.10.043 JN:ACTA MATERIALIA PY:2014 TC:5 AU: Echlin, McLean P.;Mottura, Alessandro;Wang, Michael;Mignone, Paul J.;Riley, Daniel P.;Franks, George V.;Pollock, Tresa M.;
6:13:31:4 A New Femtosecond Laser-Based Tomography Technique for Multiphase Materials
DOI:10.1002/adma.201003600 JN:ADVANCED MATERIALS PY:2011 TC:7 AU: Echlin, McLean P.;Husseini, Naji S.;Nees, John A.;Pollock, Tresa M.;
6:13:32:1 Phase-field theory of grain growth in the presence of mobile second-phase particles
DOI:10.1016/j.actamat.2009.09.001 JN:ACTA MATERIALIA PY:2010 TC:9 AU: Vedantam, Srikanth;Mallick, Ashis;
6:13:32:2 On grain growth in the presence of mobile particles
DOI:10.1016/j.actamat.2010.02.006 JN:ACTA MATERIALIA PY:2010 TC:5 AU: Novikov, V. Yu.;
6:13:32:3 Effect of second phase mobile particles on polycrystalline grain growth: A phase-field approach
DOI:10.1016/j.commatsci.2012.08.022 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:6 AU: Mallick, Ashis;
6:13:32:4 Phase-field theory of grain growth in the presence of mobile second-phase particles (vol 58, pg 272, 2010)
DOI:10.1016/j.actamat.2009.12.008 JN:ACTA MATERIALIA PY:2010 TC:0 AU: Vedantam, Srikanth;Mallick, Ashis;
6:13:32:5 Characteristics of Japanese sword produced from tatara steel
DOI:10.1016/j.jallcom.2012.05.039 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:0 AU: Matsumoto, Chihiro;Das, Ananda Kumar;Ohba, Takuya;Morito, Shigekazu;Hayashi, Taisuke;Takami, Go;
6:13:33:1 Selective impurity segregation at a near-I 5 pound grain boundary in MgO
DOI:10.1007/s10853-014-8016-7 JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:1 AU: Saito, Mitsuhiro;Wang, Zhongchang;Ikuhara, Yuichi;
6:13:33:2 Structures of a Sigma=9, [110]/{221} symmetrical tilt grain boundary in SrTiO3
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6:13:33:3 Local atomic structure of a near-sigma 5 tilt grain boundary in MgO
DOI:10.1007/s10853-013-7340-7 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:3 AU: Saito, Mitsuhiro;Wang, Zhongchang;Tsukimoto, Susumu;Ikuhara, Yuichi;
6:13:33:4 Preface to the special issue on intergranular and interphase boundaries in materials
DOI:10.1007/s10853-011-5453-4 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:2 AU: Ikuhara, Yuichi;Kohyama, Masanori;
6:13:34:1 Impact of grain size on grain growth in nanomaterials
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6:13:34:2 Grain growth suppression in nanocrystalline materials
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6:13:34:3 Origin of microstructure instability in nanocrystalline materials
DOI:10.1016/j.matlet.2013.11.046 JN:MATERIALS LETTERS PY:2014 TC:2 AU: Novikov, Vladimir Yu;
6:13:35:1 Mechanisms of short crack propagation in austenitic-ferritic duplex steel
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6:13:35:2 Initiation and propagation of short cracks in austenitic-ferritic duplex steel
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6:13:35:3 Influence of crack length and grain boundaries on the propagation rate of short cracks in austenitic stainless steel
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6:13:36:1 Approximating the Metastable Defect Concentration in Supersaturated Materials: A Case Study of the SrTiO3/TiO2 System
DOI:10.1111/j.1551-2916.2011.04975.x JN:JOURNAL OF THE AMERICAN CERAMIC SOCIETY PY:2012 TC:0 AU: Sun, Li;Mao, Shimin;Dillon, Shen J.;
6:13:36:2 Structural Evolution of TiO2 Precipitates in Ti-DopedSapphire (alpha-Al2O3)
DOI:10.1111/j.1551-2916.2010.04217.x JN:JOURNAL OF THE AMERICAN CERAMIC SOCIETY PY:2011 TC:3 AU: He, J.;Lagerlof, K. P. D.;Heuer, A. H.;
6:14:1:1 Solute partitioning and site preference in gamma/gamma ' cobalt-base alloys
DOI:10.1016/j.scriptamat.2012.08.006 JN:SCRIPTA MATERIALIA PY:2012 TC:14 AU: Meher, S.;Yan, H. -Y.;Nag, S.;Dye, D.;Banerjee, R.;
6:14:1:2 Creep and directional coarsening in single crystals of new gamma-gamma ' cobalt-base alloys
DOI:10.1016/j.scriptamat.2012.01.008 JN:SCRIPTA MATERIALIA PY:2012 TC:27 AU: Titus, Michael S.;Suzuki, Akane;Pollock, Tresa M.;
6:14:1:3 Alloying and the micromechanics of Co-Al-W-X quaternary alloys
DOI:10.1016/j.msea.2014.05.044 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Yan, Hui-Yu;Coakley, James;Vorontsov, Vassili A.;Jones, Nicholas G.;Stone, Howard J.;Dye, David;
6:14:1:4 Microstructure and creep strength of different gamma/gamma '-strengthened Co-base superalloy variants
DOI:10.1016/j.scriptamat.2010.08.036 JN:SCRIPTA MATERIALIA PY:2010 TC:50 AU: Bauer, A.;Neumeier, S.;Pyczak, F.;Goeken, M.;
6:14:1:5 Atom-probe tomographic study of gamma/gamma ' interfaces and compositions in an aged Co-Al-W superalloy
DOI:10.1016/j.scriptamat.2012.11.035 JN:SCRIPTA MATERIALIA PY:2013 TC:9 AU: Bocchini, Peter J.;Lass, Eric A.;Moon, Kil-Won;Williams, Maureen E.;Campbell, Carelyn E.;Kattner, Ursula R.;Dunand, David C.;Seidman, David N.;
6:14:1:6 First-principles investigation of electronic, mechanical and thermodynamic properties of L1(2) ordered Co-3(M, W) (M = Al, Ge, Ga) phases
DOI:10.1016/j.actamat.2013.05.032 JN:ACTA MATERIALIA PY:2013 TC:4 AU: Xu, W. W.;Han, J. J.;Wang, Y.;Wang, C. P.;Liu, X. J.;Liu, Z. -K.;
6:14:1:7 Effects of quaternary alloying elements on the gamma ' solvus temperature of Co-Al-W based alloys with fcc/L1(2) two-phase microstructures
DOI:10.1016/j.jallcom.2010.08.050 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:31 AU: Ooshima, Masahiro;Tanaka, Katsushi;Okamoto, Norihiko L.;Kishida, Kyosuke;Inui, Haruyuki;
6:14:1:8 Plastic deformation mechanisms in a crept L1(2) hardened Co-base superalloy
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6:14:1:9 Elemental partitioning and mechanical properties of Ti- and Ta-containing Co-Al-W-base superalloys studied by atom probe tomography and nanoindentation
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6:14:1:10 Creep deformation-induced antiphase boundaries in L1(2)-containing single-crystal cobalt-base superalloys
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6:14:1:11 Creep properties of different gamma '-strengthened Co-base superalloys
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6:14:1:12 Coarsening kinetics of gamma ' precipitates in cobalt-base alloys
DOI:10.1016/j.actamat.2013.03.052 JN:ACTA MATERIALIA PY:2013 TC:7 AU: Meher, S.;Nag, S.;Tiley, J.;Goel, A.;Banerjee, R.;
6:14:1:13 Plastic deformation of polycrystals of Co-3(Al, W) with the L1(2) structure
DOI:10.1080/14786435.2011.586158 JN:PHILOSOPHICAL MAGAZINE PY:2011 TC:11 AU: Okamoto, Norihiko L.;Oohashi, Takashi;Adachi, Hiroki;Kishida, Kyosuke;Inui, Haruyuki;Veyssiere, Patrick;
6:14:1:14 Improved high temperature gamma ' stability of Co-Al-W-base alloys containing Ti and Ta
DOI:10.1016/j.matlet.2013.09.023 JN:MATERIALS LETTERS PY:2013 TC:9 AU: Xue, F.;Zhou, H. J.;Ding, X. F.;Wang, M. L.;Feng, Q.;
6:14:1:15 First-principle investigation of 3d transition metal elements in gamma '-Co-3(Al, W)
DOI:10.1063/1.3319650 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:8 AU: Chen, Min;Wang, Chong-Yu;
6:14:1:16 Thermodynamic assessment of Co-Al-W system and solidification of Co-enriched ternary alloys
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6:14:1:17 Creep deformation of single crystals of new Co-Al-W-based alloys with fcc/L1(2) two-phase microstructures
DOI:10.1080/14786435.2012.700416 JN:PHILOSOPHICAL MAGAZINE PY:2012 TC:9 AU: Tanaka, Katsushi;Ooshima, Masahiro;Tsuno, Nobuyasu;Sato, Akihiro;Inui, Haruyuki;
6:14:1:18 Lattice strain evolution in a high volume fraction polycrystal nickel superalloy
DOI:10.1016/j.scriptamat.2012.05.015 JN:SCRIPTA MATERIALIA PY:2012 TC:3 AU: Coakley, James;Dye, David;
6:14:1:19 The importance of sign and magnitude of gamma/gamma ' lattice misfit in superalloys-with special reference to the new gamma '-hardened cobalt-base superalloys
DOI:10.1016/j.actamat.2014.08.005 JN:ACTA MATERIALIA PY:2014 TC:3 AU: Mughrabi, Hael;
6:14:1:20 Lattice strain evolution during creep in single-crystal superalloys
DOI:10.1016/j.actamat.2012.01.039 JN:ACTA MATERIALIA PY:2012 TC:4 AU: Coakley, James;Reed, Roger C.;Warwick, Jonnathan L. W.;Rahman, Khandaker M.;Dye, David;
6:14:1:21 New observations of a nanoscaled pseudomorphic bcc Co phase in bulk Co-Al-(W,Ta) superalloys
DOI:10.1016/j.actamat.2014.01.056 JN:ACTA MATERIALIA PY:2014 TC:3 AU: Samimi, P.;Liu, Y.;Ghamarian, I.;Song, J.;Collins, P. C.;
6:14:1:22 Plastic deformation of single crystals of Pt3Al with the L12 structure
DOI:10.1080/14786435.2012.705037 JN:PHILOSOPHICAL MAGAZINE PY:2013 TC:4 AU: Okamoto, Norihiko L.;Hasegawa, Yoshihiko;Hashimoto, Wataro;Inui, Haruyuki;
6:14:1:23 Plastic deformation of single crystals of Pt3Al with the L1(2) structure having a far Al-rich off-stoichiometric composition of Pt-29at.%Al
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6:14:1:24 Effect of Mo additions on microstructure and tensile behavior of a Co-Al-W-Ta-B alloy at room temperature
DOI:10.1016/j.scriptamat.2012.06.013 JN:SCRIPTA MATERIALIA PY:2012 TC:6 AU: Feng, G.;Li, H.;Li, S. S.;Sha, J. B.;
6:14:2:1 Effects of tantalum on the partitioning of tungsten between the gamma- and gamma '-phases in nickel-based superalloys: Linking experimental and computational approaches
DOI:10.1016/j.actamat.2010.07.004 JN:ACTA MATERIALIA PY:2010 TC:21 AU: Amouyal, Yaron;Mao, Zugang;Seidman, David N.;
6:14:2:2 Atom probe tomography analysis of the distribution of rhenium in nickel alloys
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6:14:2:3 Effect of Re content on the gamma/gamma ' interface: A Monte Carlo simulation
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6:14:2:4 Diffusion of Co, Ru and Re in Ni-based superalloys: A first-principles study
DOI:10.1016/j.jallcom.2013.11.024 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:5 AU: Zhang, Xingming;Deng, Huiqiu;Xiao, Shifang;Zhang, Zhi;Tang, Jianfeng;Deng, Lei;Hu, Wangyu;
6:14:2:5 Effect of Re in gamma phase, gamma ' phase and gamma/gamma ' interface of Ni-based single-crystal superalloys
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6:14:2:6 On the possibility of rhenium clustering in nickel-based superalloys
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6:14:2:7 Alloying element additions to Ni3Al: Site preferences and effects on elastic properties from first-principles calculations
DOI:10.1016/j.commatsci.2011.09.016 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:22 AU: Wu, Qiong;Li, Shusuo;
6:14:2:8 The correlation between Re and P and their synergetic effect on the rupture strength of the gamma-Ni/gamma '-Ni3Al interface
DOI:10.1016/j.commatsci.2012.06.030 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:5 AU: Peng, L.;Peng, P.;Liu, Y. G.;He, S.;Wei, H.;Jin, T.;Hu, Z. Q.;
6:14:2:9 Distribution of rhenium in a single crystal nickel-based superalloy
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6:14:2:10 The alloying element dependence of the local lattice deformation and the elastic properties of Ni3Al: A molecular dynamics simulation
DOI:10.1063/1.4870235 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:5 AU: Yang, Xiyuan;Hu, Wangyu;
6:14:2:11 An interplay of sulfur and phosphorus at the gamma-Ni/gamma '-Ni3Al interface
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6:14:2:12 First-principles calculation of self-diffusion coefficients in Ni3Al
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6:14:2:13 First-principles study of self- and solute diffusion mechanisms in gamma '-Ni3Al
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6:14:2:14 Coupling between Re segregation and gamma/gamma ' interfacial dislocations during high-temperature, low-stress creep of a nickel-based single-crystal superalloy
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6:14:2:15 Effect of Re on low-cycle fatigue behaviors of Ni-based single-crystal superalloys at 900 degrees C
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6:14:2:16 First-principles understanding of environmental embrittlement of the Ni/Ni3Al interface
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6:14:2:17 In situ investigation on the precipitation of topologically close-packed phase in Ni-base single crystal superalloy
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6:14:2:18 Combined atom probe tomography and first-principles calculations for studying atomistic interactions between tungsten and tantalum in nickel-based alloys
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6:14:2:19 Calculation of alloying effect of Ruthenium in Ni-based single-crystal superalloys
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6:14:2:20 The influence of phosphorus on the microstructure and stress-rupture properties in a low thermal expansion superalloy
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6:14:3:1 A Novel Strategy for the Design of Advanced Engineering Alloys-Strengthening Turbine Disk Superalloys via Twinning Structures
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6:14:3:2 Influence of Co content on stacking fault energy in Ni-Co base disk superalloys
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6:14:3:3 A new method to strengthen turbine disc superalloys at service temperatures
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6:14:3:4 Stacking fault effects on dynamic strain aging in a Ni-Co-based superalloy
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6:14:3:5 Deformation twinning with zero macroscopic strain in a coarse-grained Ni-Co-based superalloy
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6:14:3:6 Dynamic strain aging in a new Ni-Co base superalloy
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6:14:3:7 Two mechanisms for the normal and inverse behaviors of the critical strain for the Portevin-Le Chatelier effect
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6:14:3:8 Optimum microstructure combination for maximizing tensile strength in a polycrystalline superalloy with a two-phase structure
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6:14:3:9 Mechanical properties and fracture modes of an advanced Ni-Co-base disk superalloy at elevated temperatures
DOI:10.1016/j.matchar.2012.02.021 JN:MATERIALS CHARACTERIZATION PY:2012 TC:4 AU: Zhong, Zhihong;Gu, Yuefeng;Yuan, Yong;Yokokawa, Tadaharu;Harada, Hiroshi;
6:14:3:10 Enhanced mechanical properties in a new Ni-Co base superalloy by controlling microstructures
DOI:10.1016/j.msea.2011.03.085 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:9 AU: Cui, C. Y.;Gu, Y. F.;Yuan, Y.;Osada, T.;Harada, H.;
6:14:3:11 Enhanced strength at intermediate temperatures in a Ni-base disk superalloy with high Co addition
DOI:10.1016/j.msea.2012.07.032 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:2 AU: Yuan, Y.;Gu, Y. F.;Zhong, Z. H.;Yokokawa, T.;Harada, H.;
6:14:3:12 Deformation mechanisms in a new disc superalloy at low and intermediate temperatures
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6:14:3:13 Creep mechanisms of U720Li disc superalloy at intermediate temperature
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6:14:3:14 On the low cycle fatigue behavior of a Ni-base superalloy containing high Co and Ti contents
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6:14:3:15 Fatigue crack growth behavior of a newly developed Ni-Co-base superalloy TMW-2 at elevated temperatures
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6:14:3:16 Fatigue crack growth characteristics of a new Ni-Co-base superalloy TMW-4M3: effects of temperature and load ratio
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6:14:3:17 Effects of heat treatments on the serrated flow in a Ni-Co-Cr-base superalloy
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6:14:3:18 Strain rate and temperature effects on the critical strain for Portevin-Le Chatelier effect
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6:14:3:19 Low-cycle fatigue behavior and deformation substructure of Ti-2Al-2.5Zr alloy at 298 and 673K
DOI:10.1016/j.msea.2010.02.033 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:5 AU: Wang, H.;Sun, Q. Y.;Xiao, L.;Sun, J.;Ge, P.;
6:14:3:20 Thermal analyses and simulations of the type A and type B Portevin-Le Chatelier effects in an Al-Mg alloy
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6:14:3:21 Influence of deformation level on microstructure and creep behavior of GH4169 alloy
DOI:10.1016/j.msea.2012.04.065 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:5 AU: Tian Sugui;Li Zhenrong;Zhao Zhonggang;Chen Liqing;Sun Wenru;Liu Xianghua;
6:14:4:1 Effect of climb on dislocation mechanisms and creep rates in gamma '-strengthened Ni base superalloy single crystals: A discrete dislocation dynamics study
DOI:10.1016/j.actamat.2013.03.003 JN:ACTA MATERIALIA PY:2013 TC:8 AU: Haghighat, S. M. Hafez;Eggeler, G.;Raabe, D.;
6:14:4:2 Dislocation interactions and low-angle grain boundary strengthening
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6:14:4:3 Simulation of dislocation penetration through a general low-angle grain boundary
DOI:10.1016/j.actamat.2012.05.002 JN:ACTA MATERIALIA PY:2012 TC:12 AU: Liu, B.;Eisenlohr, P.;Roters, F.;Raabe, D.;
6:14:4:4 A model for the creep deformation behaviour of nickel-based single crystal superalloys
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6:14:4:5 High-temperature and low-stress creep anisotropy of single-crystal superalloys
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6:14:4:6 Interfacial dislocation motion and interactions in single-crystal superalloys
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6:14:4:7 Orientation dependence of plastic deformation in nickel-based single crystal superalloys: Discrete-continuous model simulations
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6:14:4:8 Systematic row and zone axis STEM defect image simulations
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6:14:4:9 Effect of pre-compressive treatment on creep behavior of a (011)-oriented single-crystal Ni-based superalloy
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6:14:4:10 Can slow-diffusing solute atoms reduce vacancy diffusion in advanced high-temperature alloys?
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6:14:4:11 Influence of element Re on deformation mechanism within gamma ' phase of single crystal nickel-based superalloys during creep at elevated temperatures
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6:14:4:12 Low cycle fatigue of a Ni-based superalloy: Non-planar deformation
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6:14:4:13 Fine-scale structure of dislocations and debris in deformed Ni-based superalloy R104
DOI:10.1080/14786435.2012.709949 JN:PHILOSOPHICAL MAGAZINE PY:2013 TC:2 AU: Phillips, P. J.;Mills, M. J.;
6:14:4:14 An examination of the use of the Modified Jogged-Screw model for predicting creep behavior in Zircaloy-4
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6:14:4:15 Creep property and microstructure evolution of a nickel-base single crystal superalloy in [011] orientation
DOI:10.1016/j.matchar.2013.09.019 JN:MATERIALS CHARACTERIZATION PY:2013 TC:7 AU: Han, G. M.;Yu, J. J.;Hu, Z. Q.;Sun, X. F.;
6:14:5:1 A1-L1(2) interfacial free energies from data on coarsening in five binary Ni alloys, informed by thermodynamic phase diagram assessments
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6:14:5:2 Kinetic pathways for phase separation: An atomic-scale study in Ni-Al-Cr alloys
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6:14:5:3 On the interfacial energy of coherent interfaces
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6:14:5:4 On the nanometer scale phase separation of a low-supersaturation Ni-Al-Cr alloy
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6:14:5:5 Gradient energy, interfacial energy and interface width
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6:14:5:6 Trans-interface-diffusion-controlled coarsening of gamma ' precipitates in ternary Ni-Al-Cr alloys
DOI:10.1016/j.actamat.2013.09.021 JN:ACTA MATERIALIA PY:2013 TC:1 AU: Ardell, Alan J.;
6:14:5:7 Thermodynamic modeling of the germanium-nickel system
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6:14:5:8 Coarsening of Ni-Ge solid-solution precipitates in "inverse" Ni3Ge alloys
DOI:10.1016/j.msea.2012.04.023 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:3 AU: Ardell, Alan J.;Ma, Yong;
6:14:5:9 Ab initio calculation of anisotropic interfacial excess free energies
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6:14:5:10 Quantitative predictions of the trans-interface diffusion-controlled theory of particle coarsening
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6:14:5:11 Trans-interface-diffusion-controlled coarsening in ternary alloys
DOI:10.1016/j.actamat.2013.09.014 JN:ACTA MATERIALIA PY:2013 TC:1 AU: Ardell, Alan J.;
6:14:5:12 Effects of temperature and ferromagnetism on the gamma-Ni/gamma'-Ni3Al interfacial free energy from first principles calculations
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6:14:5:13 Temporal evolution of the gamma(fcc)/gamma '(L1(2)) interfacial width in binary Ni-Al alloys
DOI:10.1016/j.scriptamat.2013.09.016 JN:SCRIPTA MATERIALIA PY:2014 TC:2 AU: Plotnikov, Elizaveta Y.;Mao, Zugang;Noebe, Ronald D.;Seidman, David N.;
6:14:5:14 First-principles study of interfacial boundaries in Ni-Ni3Al
DOI:10.1016/j.actamat.2014.04.056 JN:ACTA MATERIALIA PY:2014 TC:2 AU: Woodward, C.;van de Walle, A.;Asta, M.;Trinkle, D. R.;
6:14:5:15 Study of phase decomposition and coarsening of gamma ' precipitates in Ni-12 at.% Ti alloy
DOI:10.1016/j.matchar.2013.05.017 JN:MATERIALS CHARACTERIZATION PY:2013 TC:1 AU: Garay-Reyes, C. G.;Hernandez-Santiago, F.;Cayetano-Castro, N.;Lopez-Hirata, V. M.;Garcia-Rocha, J.;Hernandez-Rivera, J. L.;Dorantes-Rosales, H. J.;Cruz-Rivera, J. J.;
6:14:5:16 Effects of ruthenium on phase separation in a model NiAlCrRu superalloy
DOI:10.1080/14786435.2013.765989 JN:PHILOSOPHICAL MAGAZINE PY:2013 TC:0 AU: Zhou, Yang;Isheim, Dieter;Hsieh, Gillian;Noebe, Ronald D.;Seidman, David N.;
6:14:5:17 The effects of elastic interactions on precipitate microstructural evolution in elastically inhomogeneous nickel-base alloys
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6:14:5:18 Simulation of precipitate evolution in Fe-25 Co-15 Mo with Si addition based on computational thermodynamics
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6:14:6:1 Strengthening behavior of Nb in the modified Nimonic 80A
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6:14:6:2 Strengthening mechanisms of carbon in modified nickel-based superalloy Nimonic 80A
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6:14:6:3 Evolution of microstructure and mechanical properties of Ti modified superalloy Nimonic 80A
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6:14:6:4 Microstructure and creep behavior of FGH95 nickel-base superalloy
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6:14:6:5 Creep and creep modelling of a multimodal nickel-base superalloy
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6:14:6:6 Relationship between Ti/Al ratio and stress-rupture properties in nickel-based superalloy
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6:14:6:7 Work hardening and aging contribution on the mechanical properties of X-750 nickel-based superalloy
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6:14:6:8 Coarsening of a multimodal nickel-base superalloy
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6:14:6:9 Evaluation of gamma prime volume fractions and lattice misfits in a nickel base superalloy using the external standard X-ray diffraction method
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6:14:6:10 Influence of heat treatment regimes on microstructure and creep properties of FGH95 nickel base superalloy
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6:14:6:11 Strengthening behavior of Al and Ti elements at room temperature and high temperature in modified Nimonic 80A
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6:14:6:12 gamma precipitation in the primary gamma ' of a new Ni-Co-base disc superalloy
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6:14:6:13 Creep behaviors and role of dislocation network in a powder metallurgy Ni-based superalloy during medium-temperature
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6:14:6:14 Factors contributing to the strength of a polycrystalline nickel-cobalt base superalloy
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6:14:6:15 Growth of creep life of type-347H austenitic stainless steel by micro-alloying elements
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6:14:6:16 The influence of Al:Nb ratio on the microstructure and mechanical response of quaternary Ni-Cr-Al-Nb alloys
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6:14:7:1 Microstructure evolution of directionally solidified DZ125 superalloy with melt superheating treatment
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6:14:7:2 Influence of withdrawal rate on the microstructure of Ni-base single-crystal superalloys containing Re and Ru
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6:14:7:3 Influence of crystal orientation on cellular growth of a nickel-base single crystal superalloy
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6:14:7:4 Oxidation behavior of a single-crystal Ni-base superalloy between 900 and 1000 degrees C in air
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6:14:7:5 Orientation evolution of single-crystal superalloys under different solidification interface
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6:14:7:6 Simulation of grain selection during single crystal casting of a Ni-base superalloy
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6:14:7:7 Microstructure and orientation variation during cell/dendrite transition in directional solidification of a single crystal nickel-base superalloy
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6:14:7:8 Designing homogenization-solution heat treatments for single crystal superalloys
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6:14:7:9 Effect of local cooling rates on the microstructures of single crystal CMSX-6 superalloy: A comparative assessment of the Bridgman and the downward directional solidification processes
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6:14:7:10 Effect of solidification parameters on the microstructures of superalloy CMSX-6 formed during the downward directional solidification process
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6:14:7:11 Solution heat-treatment of Nb-modified MAR-M247 superalloy
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6:14:7:12 The Effect of Surface Machining on the High-Temperature Oxidation of a Single Crystal Ni-Based Superalloy
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6:14:8:1 Elemental partitioning of platinum group metal containing Ni-base superalloys using electron microprobe analysis and atom probe tomography
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6:14:8:2 Evolution of microstructures at a wide range of solidification cooling rate in a Ni-based superalloy
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6:14:8:3 Microstructure and hardness evolution in MAR-M247 Ni-based superalloy processed by controlled cooling and double heat treatment
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6:14:8:4 Optimal precipitate shapes in nickel-base gamma-gamma ' alloys
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6:14:8:5 Effect of withdrawal rate on microstructure and lattice misfit of a Ni3Al based single crystal superalloy
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6:14:8:6 The effect of post-weld heat treatment temperature on the microstructure of Inconel 625 deposited metal
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6:14:8:7 On the nature of gamma ' phase cutting and its effect on high temperature and low stress creep anisotropy of Ni-base single crystal superalloys
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6:14:8:8 Microstructural evolution in damaged IN738LC alloy during various steps of rejuvenation heat treatments
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6:14:8:9 Microstructure of an experimental Ni base superalloy under various casting conditions
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6:14:8:10 Characterization of the Microstructure Evolution and Microsegregation in a Ni-Based Superalloy under Super-High Thermal Gradient Directional Solidification
DOI:10.2320/matertrans.M2012173 JN:MATERIALS TRANSACTIONS PY:2012 TC:1 AU: Zhang, Yongjun;Li, Jianguo;
6:14:8:11 Fracture behavior of Alloy 625 with different precipitate microstructures
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6:14:9:1 M23C6 precipitation behavior and grain boundary serration in Ni-based Alloy 690
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6:14:9:2 The effect of M23C6 carbides on the formation of grain boundary serrations in a wrought Ni-based superalloy
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6:14:9:3 Microstructural evolution of a Ni-based superalloy (617B) at 700 degrees C studied by electron microscopy and atom probe tomography
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6:14:9:4 Correlation between grain boundary misorientation and M23C6 precipitation behaviors in a wrought Ni-based superalloy
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6:14:9:5 Effect of the cooling rate on microstructure and hardness of MAR-M247 Ni-based superalloy
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6:14:9:6 Influence of chromium content on microstructure and grain boundary serration formation in a ternary Ni-xCr-0.1C model alloy
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6:14:9:7 The growth mechanism of grain boundary carbide in Alloy 690
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6:14:9:8 Significant decrease in interfacial energy of grain boundary through serrated grain boundary transition
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6:14:9:9 Formation of M23C6-type precipitates and chromium-depleted zones in austenite stainless steel
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6:14:9:10 Correlation between the continuous casting parameters and secondary dendrite arm spacing in the mold region
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6:14:9:11 C-Cr segregation at grain boundary before the carbide nucleation in Alloy 690
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6:14:9:12 Influence of a weak static magnetic field on the primary dendrite arm spacing of a directionally solidified Ni-based superalloy
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6:14:9:13 Enhanced grain refinement and mechanical properties in a severely plastic deformed Ni-30Cr alloy
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6:14:9:14 Tensile deformation behavior of a nickel based superalloy at different temperatures
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6:14:10:1 Microstructure formation in gamma-gamma ' Co-Al-W-Ti alloys during directional solidification
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6:14:10:2 Microstructural control of TiAl-Nb alloys by directional solidification
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6:14:10:3 Microstructure development during directional solidification of Ti-45Al-8Nb alloy
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6:14:10:4 Microstructure evolution of directionally solidified Ti-45Al-8.5Nb-(W, B, Y) alloys
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6:14:10:5 Microstructure, microsegregation pattern and the formation of B2 phase in directionally solidified Ti-46Al-8Nb alloy
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6:14:10:6 High temperature deformation behaviors of polysynthetically twinned (PST) Ti-47Al-2Cr-2Nb alloy
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6:14:10:7 Microstructure evolution of directionally solidified Ti-46Al-0.5W-0.5Si alloy
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6:14:10:8 Lamellar orientation control in a Ti-46Al-5Nb alloy by directional solidification
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6:14:10:9 Lamellar orientations and growth directions of beta dendrites in directionally solidified Ti-47Al-2Cr-2Nb alloy
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6:14:10:10 The influence of Ta on the solidification microstructure and segregation behavior of gamma(Ni)/gamma '(Ni3Al)-delta(Ni3Nb) eutectic Ni-base superalloys
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6:14:11:1 The effect of Re and Ru on gamma/gamma ' microstructure, gamma-solid solution strengthening and creep strength in nickel-base superalloys
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6:14:11:2 Atomistic simulation for the gamma '-phase volume fraction dependence of the interfacial behavior of Ni- base superalloy
DOI:10.1016/j.apsusc.2012.10.065 JN:APPLIED SURFACE SCIENCE PY:2013 TC:4 AU: Yang, Xiyuan;Hu, Wangyu;Zhang, Xingming;
6:14:11:3 Reasons for the enhanced phase stability of Ru-containing nickel-based superalloys
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6:14:11:4 Numerical modelling of precipitation of topologically close-packed phases in nickel-base superalloys
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6:14:11:5 Investigation of the final stages of solidification and eutectic phase formation in Re and Ru containing nickel-base superalloys
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6:14:11:6 Solidification characteristics and segregation behavior of Ni-based superalloy K418 for auto turbocharger turbine
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6:14:11:7 The Three-Dimensional Morphology of Topologically Close Packed Phases in a High Rhenium Containing Nickel Based Superalloy
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6:14:12:1 Precipitation behavior of mu phase and creep rupture in single crystal superalloy CMSX-4
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6:14:12:2 Effect of Re on the precipitation behavior of mu phase in several single crystal superalloys
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6:14:12:3 Synergistic effect of rhenium and ruthenium in nickel-based single-crystal superalloys
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6:14:12:4 On the role of mu phase during high temperature creep of a second generation directionally solidified superalloy
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6:14:12:5 Numerical simulation of gamma/gamma ' microstructural evolutions induced by TCP-phase in the MC2 nickel base single crystal superalloy
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6:14:12:6 Topologically close-packed phase promotion in a Ru-containing single crystal superalloy
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6:14:12:7 Influence of TCP phase and its morphology on creep properties of single crystal nickel-based superalloys
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6:14:12:8 Constitutive modeling of the creep behavior of single crystal superalloys under non-isothermal conditions inducing phase transformations
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6:14:12:9 Improvement of stress-rupture property by Cr addition in Ni-based single crystal superalloys
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6:14:12:10 Effect of stress on mu phase formation in single crystal superalloys
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6:14:13:1 The influence of carbon addition on carbide characteristics and mechanical properties of CM-681LC superalloy using fine-grain process
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6:14:13:2 The effects of carbon content on the microstructure and elevated temperature tensile strength of a nickel-base superalloy
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6:14:13:3 Effects of Zr addition on the microstructure and mechanical behavior of a fine-grained nickel-based superalloy at elevated temperatures
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6:14:13:4 Observation of bubble-involving spontaneous gas dissolution in superheated Al alloy melt
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6:14:13:5 Primary alpha phase and its effect on the impact ductility of a high Cr content cast Ni-base superalloy
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6:14:13:6 Effects of heat treatments on the microstructure of IN792 alloy
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6:14:13:7 The interdendritic-melt solidification control (IMSC) and its effects on the porosity and phase change of a Ni-based superalloy
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6:14:13:8 Influence of Rhenium on the Mechanical Behavior and Fracture Mechanism of a Fine-Grain Superalloy at Elevated Temperatures
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6:14:13:9 Effects of different C contents on the microstructure, tensile properties and stress-rupture properties of IN792 alloy
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6:14:13:10 Influence of microstructure and its evolution on the mechanical behavior of modified MAR-M247 fine-grain superalloys at 871 degrees C
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6:14:13:11 Effects of alloy elements on microstructure and creep properties of fine-grained nickel-based superalloys at moderate temperatures
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6:14:13:12 Abnormal macrosegregation induced by formed porosity during solidification of an Al-Sn alloy
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6:14:14:1 Measurement of the effective gamma/gamma ' lattice mismatch during high temperature creep of Ni-based single crystal superalloy
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6:14:14:2 Effect of fine gamma ' precipitation on non-isothermal creep and creep-fatigue behaviour of nickel base superalloy MC2
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6:14:14:3 On the influence of the dendritic structure on the creep behavior of a Re-containing superalloy at high temperature/low stress
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6:14:14:4 Topography of semicoherent gamma/gamma '-interfaces in superalloys: Investigation of the formation mechanism
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6:14:14:5 Creep behavior under isothermal and non-isothermal conditions of AM3 single crystal superalloy for different solutioning cooling rates
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6:14:14:6 Dislocation motion in the early stages of high-temperature low-stress creep in a single-crystal superalloy with a small lattice misfit
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6:14:14:7 High-temperature creep of single-crystal nickel-based superalloy: microstructural changes and effects of thermal cycling
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6:14:14:8 Evolution of interfacial dislocation network during anisothermal high-temperature creep of a nickel-based superalloy
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6:14:14:9 Phase-specific high temperature creep behaviour of a pre-rafted Ni-based superalloy studied by X-ray synchrotron diffraction
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6:14:14:10 On the role of the internal stress during non-isothermal creep life of a first generation nickel based single crystal superalloy
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6:14:15:1 Grain-boundary precipitation in Allvac 718Plus
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6:14:15:2 Grain boundary microstructure and fatigue crack growth in Allvac 718Plus superalloy
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6:14:15:3 Intergranular crack tip oxidation in a Ni-base superalloy
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6:14:15:4 High-temperature crack growth in a Ni-base superalloy during sustained load
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6:14:15:5 Thermodynamic stability and electronic structure of eta-Ni6Nb(Al,Ti) from first principles
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6:14:15:6 A mechanism for stress-aided grain boundary oxidation ahead of cracks
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6:14:15:7 Oxidation ahead of a crack tip in an advanced Ni-based superalloy
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6:14:15:8 Influence of overloads on dwell time fatigue crack growth in Inconel 718
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6:14:15:9 On the precipitation of delta phase in ALLVAC((R)) 718Plus
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6:14:15:10 Grain boundary depletion and migration during selective oxidation of Cr in a Ni-5Cr binary alloy exposed to high-temperature hydrogenated water
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6:14:15:11 Hold-time effect on the thermo-mechanical fatigue crack growth behaviour of Inconel 718
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6:14:16:1 Investigations on the growing, cracking and spalling of oxides scales of powder metallurgy Rene95 nickel-based superalloy
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6:14:16:2 Oxidation behavior and mechanism of powder metallurgy Rene95 nickel based superalloy between 800 and 1000 degrees C
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6:14:16:3 Effects of aluminum diffusion on the adhesive behavior of the Ni(111)/Cr2O3(0001) interface: First principle study
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6:14:16:4 The tensile properties and fracture of the Ni/Cr2O3 interface: First principles simulation
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6:14:16:5 High-temperature oxidation performance of a new alumina-forming Ni-Fe-Cr-Al alloy in flowing air
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6:14:16:6 Experimental study on the correlation between intermediate temperature embrittlement and equi-cohesive temperature
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6:14:16:7 Cyclic oxidation kinetics and oxide scale morphologies developed on alloy 617
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6:14:16:8 Kinetic modeling of high temperature oxidation of Ni-base alloys
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6:14:17:1 Multiscale simulations on the coarsening of Cu-rich precipitates in alpha-Fe using kinetic Monte Carlo, molecular dynamics and phase-field simulations
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6:14:17:2 Peptide-zinc oxide interaction: Finite element simulation using cohesive zone models based on molecular dynamics simulation
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6:14:17:3 Deviations from cooperative growth mode during eutectoid transformation: Insights from a phase-field approach
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6:14:17:4 Theoretical and numerical study of lamellar eutectoid growth influenced by volume diffusion
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6:14:17:5 A ternary phase-field model incorporating commercial CALPHAD software and its application to precipitation in superalloys
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6:14:17:6 Molecular Dynamics virtual testing of thermally aged Fe-Cu microstructures obtained from multiscale simulations
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6:14:17:7 Microstructural changes by heat treatment for single crystal superalloy exposed at high temperature
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6:14:17:8 Fabrication and characterization of biocompatible nacre-like structures from alpha-zirconium hydrogen phosphate hydrate and chitosan
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6:14:17:9 Atomistic multiscale simulations on the anisotropic tensile behaviour of copper-alloyed alpha-iron at different states of thermal ageing
DOI:10.1080/14786435.2011.630690 JN:PHILOSOPHICAL MAGAZINE PY:2012 TC:4 AU: Molnar, David;Binkele, Peter;Hocker, Stephen;Schmauder, Siegfried;
6:14:17:10 Precipitate growth with composition-dependent diffusivity: Comparison between theory and phase field simulations
DOI:10.1016/j.scriptamat.2009.09.030 JN:SCRIPTA MATERIALIA PY:2010 TC:5 AU: Mukherjee, R.;Abinandanan, T. A.;Gururajan, M. P.;
6:14:17:11 METALLIC ALLOYS All particles are equal
DOI:10.1038/nmat3094 JN:NATURE MATERIALS PY:2011 TC:3 AU: Hoyt, Jeffrey J.;
6:14:18:1 Modelling and analysis of the oxidation influence on creep behaviour of thin-walled structures of the single-crystal nickel-base superalloy Rene N5 at 980 degrees C
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6:14:18:2 Effect of specimen thickness on the creep response of a Ni-based single-crystal superalloy
DOI:10.1016/j.actamat.2012.06.043 JN:ACTA MATERIALIA PY:2012 TC:8 AU: Srivastava, A.;Gopagoni, S.;Needleman, A.;Seetharaman, V.;Staroselsky, A.;Banerjee, R.;
6:14:18:3 Thickness influence on creep properties for Ni-based superalloy M247LC SX
DOI:10.1016/j.msea.2012.04.067 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:11 AU: Brunner, Martin;Bensch, Matthias;Voelkl, Rainer;Affeldt, Ernst;Glatzel, Uwe;
6:14:18:4 Phenomenological modeling of the effect of specimen thickness on the creep response of Ni-based superalloy single crystals
DOI:10.1016/j.actamat.2013.07.028 JN:ACTA MATERIALIA PY:2013 TC:0 AU: Srivastava, A.;Needleman, A.;
6:14:18:5 Influence of oxidation on near-surface gamma ' fraction and resulting creep behaviour of single crystal Ni-base superalloy M247LC SX
DOI:10.1016/j.msea.2013.04.032 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:2 AU: Bensch, M.;Konrad, C. H.;Fleischmann, E.;Rae, C. M. F.;Glatzel, U.;
6:14:18:6 Evidence of High-Temperature Strain Heterogeneities in a Nickel-Based Single-Crystal Superalloy
DOI:10.1002/adem.201300016 JN:ADVANCED ENGINEERING MATERIALS PY:2014 TC:0 AU: Texier, Damien;Monceau, Daniel;Mainguy, Ronan;Andrieu, Eric;
6:14:18:7 Creep properties beyond 1100 degrees C and microstructure of Co-Re-Cr alloys
DOI:10.1016/j.msea.2010.09.035 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:12 AU: Brunner, Martin;Huettner, Rainer;Boelitz, Marie-Christin;Voelkl, Rainer;Mukherji, Debashis;Roesler, Joachim;Depka, Timo;Somsen, Christoph;Eggeler, Gunther;Glatzel, Uwe;
6:14:18:8 Thermodynamic calculations in the development of high-temperature Co-Re-based alloys
DOI:10.1016/j.jallcom.2013.07.055 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:0 AU: Gorr, Bronislava;Christ, Hans-Juergen;Mukherji, Debashis;Roesler, Joachim;
6:14:18:9 Influence of primary and secondary orientations on creep rupture behavior of aluminized single crystal Ni-based superalloy
DOI:10.1016/j.msea.2014.02.079 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Kakehi, K.;Latief, F. H.;Sato, T.;
6:14:19:1:1 Coherent Ni-2(Cr, Mo) precipitates in Ni-21Cr-17Mo superalloy
DOI:10.1016/j.jallcom.2013.01.098 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:6 AU: Li, X. M.;Bai, J. W.;Liu, P. P.;Zhu, Y. M.;Xie, X. S.;Zhan, Q.;
6:14:19:1:2 Mechanism of creep deformation of Alloy 230 based on microstructural analyses
DOI:10.1016/j.msea.2010.08.069 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:8 AU: Chatterjee, Sudin;Roy, Ajit K.;
6:14:19:1:3 Crack-growth behavior of alloy 230 under creep-fatigue conditions
DOI:10.1016/j.msea.2010.04.005 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:9 AU: Roy, A. K.;Chatterjee, S.;Hasan, M. H.;Pal, J.;Ma, L.;
6:14:19:1:4 Influence of Mo addition on the solvus temperature of Ni-2(Cr,Mo) phase in Ni-2(CF,MO) alloys
DOI:10.1016/j.jallcom.2009.10.204 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:9 AU: Pai, H. C.;Sundararaman, M.;Maji, B. C.;Biswas, A.;Krishnan, M.;
6:14:19:1:5 Precipitation of nanosized DO22 superlattice with high thermal stability in an Ni-Cr-W superalloy
DOI:10.1016/j.scriptamat.2013.12.013 JN:SCRIPTA MATERIALIA PY:2014 TC:0 AU: Chen, Yang;Hu, Rui;Kou, Hongchao;Zhang, Tiebang;Li, Jinshan;
6:14:19:1:6 A comparison of the microstructure and creep behavior of cold rolled HAYNES (R) 230 alloy (TM) and HAYNES (R) 282 alloy (TM)
DOI:10.1016/j.msea.2011.03.019 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:6 AU: Boehlert, C. J.;Longanbach, S. C.;
6:14:19:2:1 Microstructure stability and mechanical properties of an age-hardenable Ni-Mo-Cr alloy subjected to long-term exposure to elevated temperature
DOI:10.1016/j.matchar.2010.04.008 JN:MATERIALS CHARACTERIZATION PY:2010 TC:10 AU: Dymek, S.;Wrobel, M.;Stepniowska, E.;Dollar, M.;
6:14:19:2:2 Influence of thermal exposure on the precipitates and mechanical properties of a newly developed Ni-21Cr-17Mo alloy
DOI:10.1016/j.msea.2012.09.108 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:5 AU: Zeng, Yanping;Kou, Lizhong;Xie, Xishan;
6:14:19:2:3 Early precipitation of Ni-2(Cr,Mo) phase
DOI:10.1016/j.msea.2014.07.055 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Bai, J. W.;Yu, R.;Zhu, Y. M.;Liu, P. P.;Wang, Y. B.;Xie, X. S.;He, Z. B.;Zhan, Q.;
6:14:19:2:4 Optimization of solid-state diffusion bonding of Hastelloy C-22 for micro heat exchanger applications by coupling of experiments and simulations
DOI:10.1016/j.msea.2012.01.056 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:5 AU: Basuki, Widodo Widjaja;Kraft, Oliver;Aktaa, Jarir;
6:14:19:3:1 Experimental determination of the nucleation rate of melt in a solid solution
DOI:10.1016/j.actamat.2014.02.032 JN:ACTA MATERIALIA PY:2014 TC:1 AU: Lippmann, Stephanie;Fink, Marcel;Rettenmayr, Markus;
6:14:19:3:2 Solvus Composition Paths in Multicomponent Alloys-Experimental Approach and Correlation with Calphad Calculations for the Example Al-Mg-Si
DOI:10.1002/adem.201100265 JN:ADVANCED ENGINEERING MATERIALS PY:2012 TC:3 AU: Engelhardt, H.;Hallstedt, B.;Druee, M.;Loeffler, A.;Schick, M.;Rettenmayr, M.;
6:14:19:3:3 Transient growth of solid nuclei in the liquid - A numerical study on early stages of solidification
DOI:10.1016/j.jcrysgro.2013.07.016 JN:JOURNAL OF CRYSTAL GROWTH PY:2013 TC:1 AU: Fink, Marcel;Rettenmayr, Markus;
6:14:20:1 Interactions between Ni-44Ti-5Al-2Nb-Mo alloy and oxide ceramics during directional solidification process
DOI:10.1007/s10853-012-6577-x JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:2 AU: Zhang, H. R.;Tang, X. X.;Zhou, L.;Gao, M.;Zhou, C. G.;Zhang, H.;
6:14:20:2 TiAl-Nb melt interaction with pyrolytic boron nitride crucibles
DOI:10.1016/j.matchemphys.2009.09.021 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2010 TC:13 AU: Kartavykh, A. V.;Tcherdyntsev, V. V.;Zollinger, J.;
6:14:20:3 Comparison of directional solidification of gamma-TiAl alloys in conventional Al2O3 and novel Y2O3-coated Al2O3 crucibles
DOI:10.1016/j.jeurceramsoc.2012.11.006 JN:JOURNAL OF THE EUROPEAN CERAMIC SOCIETY PY:2013 TC:3 AU: Zhang, Huarui;Tang, Xiaoxia;Zhou, Chungen;Zhang, Hu;Zhang, Shaowei;
6:14:20:4 Influence of directional solidification variables on the microstructure and crystal orientation of AM3 under high thermal gradient
DOI:10.1007/s10853-010-4696-9 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:15 AU: Zhao, Xinbao;Liu, Lin;Yu, Zhuhuan;Zhang, Weiguo;Zhang, Jun;Fu, Hengzhi;
6:14:20:5 Effect of melting pressure and superheating on chemical composition and contamination of yttria-coated ceramic crucible induction melted titanium alloys
DOI:10.1007/s10853-011-5405-z JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:8 AU: Gomes, F.;Puga, H.;Barbosa, Joaquim;Silva Ribeiro, C.;
6:14:20:6 Microstructure evolution of directionally solidified Ni-43Ti-7Al alloy during heat treatment
DOI:10.1007/s10853-012-6993-y JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:1 AU: Zhou, Lei;Zheng, Lijing;Guo, Yihui;Zhang, Huarui;Zhang, Hu;
6:14:20:7 Purification in the interaction between yttria mould and Nb-silicide-based alloy during directional solidification: A novel effect of yttrium
DOI:10.1016/j.scriptamat.2012.04.025 JN:SCRIPTA MATERIALIA PY:2012 TC:7 AU: Ma, Limin;Tang, Xiaoxia;Wang, Bin;Jia, Lina;Yuan, Sainan;Zhang, Hu;
6:14:20:8 The study of the influence of binder systems in an Y2O3-ZrO2 facecoat material on the investment casting slurries and shells properties
DOI:10.1016/j.jeurceramsoc.2014.03.005 JN:JOURNAL OF THE EUROPEAN CERAMIC SOCIETY PY:2014 TC:1 AU: Cheng, X.;Yuan, C.;Blackburn, S.;Withey, P. A.;
6:14:20:9 The influence of mould pre-heat temperature and casting size on the interaction between a Ti-46Al-8Nb-1B alloy and the mould comprising an Al2O3 face coat
DOI:10.1016/j.matchemphys.2014.03.026 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:0 AU: Cheng, X.;Yuan, C.;Shevchenko, D.;Withey, P.;
6:14:20:10 Microstructure and composition of cast Ti-47Al-2Cr-2Nb alloys produced by yttria crucibles
DOI:10.1016/j.msea.2012.01.099 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:10 AU: Cui, R. J.;Tang, X. X.;Gao, M.;Zhang, H.;Gong, S. K.;
6:14:20:11 The influence of polymer content and sintering temperature on yttria face-coat moulds for TiAl casting
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6:14:21:1 Analysis of laser beam weldability of Inconel 738 superalloy
DOI:10.1016/j.matchar.2010.02.016 JN:MATERIALS CHARACTERIZATION PY:2010 TC:22 AU: Egbewande, A. T.;Buckson, R. A.;Ojo, O. A.;
6:14:21:2 Understanding the solidification and microstructure evolution during CSC-MIG welding of Fe-Cr-B-based alloy
DOI:10.1016/j.matchar.2013.09.017 JN:MATERIALS CHARACTERIZATION PY:2013 TC:4 AU: Sorour, A. A.;Chromik, R. R.;Gauvin, R.;Jung, I. -H.;Brochu, M.;
6:14:21:3 Cr-rich nanosize precipitates in a standard heat-treated Inconel 738 superalloy
DOI:10.1080/14786430903270643 JN:PHILOSOPHICAL MAGAZINE PY:2010 TC:8 AU: Zhang, Huai-Ruo;Ojo, O. A.;
6:14:21:4 On the development of a new pre-weld thermal treatment procedure for preventing heat-affected zone (HAZ) liquation cracking in nickel-base IN 738 superalloy
DOI:10.1080/14786435.2014.956838 JN:PHILOSOPHICAL MAGAZINE PY:2014 TC:0 AU: Ola, O. T.;Ojo, O. A.;Chaturvedi, M. C.;
6:14:21:5 Microstructural analysis of laser weld fusion zone in Haynes 282 superalloy
DOI:10.1016/j.matchar.2011.12.009 JN:MATERIALS CHARACTERIZATION PY:2012 TC:8 AU: Osoba, L. O.;Ding, R. G.;Ojo, O. A.;
6:14:21:6 Microstructural evolutions in dissimilar welds between AISI 310 austenitic stainless steel and Inconel 657
DOI:10.1007/s10853-010-4227-8 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:8 AU: Naffakh, H.;Shamanian, M.;Ashrafizadeh, F.;
6:14:21:7 Microstructural, mechanical and weldability assessments of the dissimilar welds between gamma '- and gamma ''-strengthened nickel-base superalloys
DOI:10.1016/j.matchar.2013.04.018 JN:MATERIALS CHARACTERIZATION PY:2013 TC:2 AU: Moosavy, Homam Naffakh;Aboutalebi, Mohammad-Reza;Seyedein, Seyed Hossein;Mapelli, Carlo;
6:14:21:8 Crystallographic account of nano-scaled intergrowth of M2B-type borides in nickel-based superalloys
DOI:10.1016/j.actamat.2014.01.002 JN:ACTA MATERIALIA PY:2014 TC:2 AU: Hu, X. B.;Zhu, Y. L.;Ma, X. L.;
6:14:21:9 Microstructural response to heat affected zone cracking of prewelding heat-treated Inconel 939 superalloy
DOI:10.1016/j.matchar.2011.09.006 JN:MATERIALS CHARACTERIZATION PY:2011 TC:6 AU: Gonzalez, M. A.;Martinez, D. I.;Perez, A.;Guajardo, H.;Garza, A.;
6:14:21:10 Microstructural evolution during transient liquid phase bonding of Inconel 738LC using AMS 4777 filler alloy
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6:14:21:11 Effects of (Cr,Fe)(2)B borides on hardness in powder-injection-molded product fabricated with Fe-based alloy powders
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6:14:21:12 Modeling the TDFD dissolution of Al-Fe-Mn-Si particles in an Al-4.5Zn-1Mg alloy
DOI:10.1080/14786431003662580 JN:PHILOSOPHICAL MAGAZINE PY:2010 TC:2 AU: Eivani, A. R.;Ahmed, H.;Zhou, J.;Duszczyk, J.;
6:14:22:1 Hot deformation behavior of Co-base ODS alloys
DOI:10.1016/j.jallcom.2011.08.097 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:12 AU: Zhang, Lin;Qu, Xuanhui;He, Xinbo;Din, Rafi-ud;Qin, Mingli;Zhu, Hongmin;
6:14:22:2 Microstructural Development and Coarsening Behavior of gamma ' Precipitates in Co-Ni-Al-W-Base ODS Alloys
DOI:10.2320/matertrans.M2012093 JN:MATERIALS TRANSACTIONS PY:2012 TC:1 AU: Zhang, Lin;Qu, Xuanhui;Qin, Mingli;Rafi-ud-din;He, Xinbo;Liu, Ye;Li, Dan;
6:14:22:3 Microstructure and mechanical properties of gamma ' strengthened Co-Ni-Al-W-base ODS alloys
DOI:10.1016/j.matchemphys.2012.06.055 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:0 AU: Zhang, Lin;Qu, Xuanhui;Qin, Mingli;Rafi-ud-Din;He, Xinbo;Liu, Ye;
6:14:22:4 Phase transformations in the B2 phase of Co-rich Co-Al binary alloys
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6:14:22:5 Refinement of Oxide Particles by Addition of Hf in Ni-0.5 mass%Al-1 mass%Y2O3 Alloys
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6:14:22:6 Oxide Particle Refinement in 4.5 mass%Al Ni-Based ODS Superalloys
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6:14:22:7 Effect of heat treatment on the hardness and microstructure in Co-3Al-1.5Y(2)O(3)-1.2Hf ODS alloy
DOI:10.1016/j.msea.2014.02.009 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Sasaki, Taisuke;Takezawa, Kazuhiro;Ukai, Shigeharu;Oono, Naoko;Hayashi, Shigenari;
6:14:22:8 Microstructural changes upon annealing in ODS-strengthened ultrafine grained ferritic steel
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6:14:23:1 Effect of ruthenium on high-temperature creep rupture life of a single crystal nickel-based superalloy
DOI:10.1016/j.msea.2011.07.075 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:13 AU: Tan, X. P.;Liu, J. L.;Jin, T.;Hu, Z. Q.;Hong, H. U.;Choi, B. G.;Kim, I. S.;Jo, C. Y.;
6:14:23:2 Effect of Ru additions on very high temperature creep properties of a single crystal Ni-based superalloy
DOI:10.1016/j.msea.2013.05.028 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:11 AU: Tan, X. P.;Liu, J. L.;Jin, T.;Hu, Z. Q.;Hong, H. U.;Choi, B. G.;Kim, I. S.;Jo, C. Y.;Mangelinck, D.;
6:14:23:3 Anomalous aging behavior of a Ni-Mo-Cr-Re alloy
DOI:10.1016/j.msea.2012.07.057 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:1 AU: Mao, Pingli;Xin, Yan;Han, Ke;
6:14:23:4 Temperature dependence of element partitioning in rhenium and ruthenium bearing nickel-base superalloys
DOI:10.1016/j.msea.2010.08.091 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:10 AU: Pyczak, F.;Neumeier, S.;Goeken, M.;
6:14:23:5 Influence of rhenium and ruthenium on the local mechanical properties of the gamma and gamma ' phases in nickel-base superalloys
DOI:10.1080/14786435.2011.607139 JN:PHILOSOPHICAL MAGAZINE PY:2011 TC:4 AU: Neumeier, S.;Pyczaky, F.;Goeken, M.;
6:14:23:6 Effect of ruthenium on compressive creep of Ni-based single-crystal superalloy
DOI:10.1016/j.scriptamat.2010.06.048 JN:SCRIPTA MATERIALIA PY:2010 TC:10 AU: Shimabayashi, Shunsuke;Kakehi, Koji;
6:14:23:7 Reversible formation of stacking faults in a nickel-based single crystal TMS-82 superalloy
DOI:10.1557/jmr.2013.351 JN:JOURNAL OF MATERIALS RESEARCH PY:2013 TC:0 AU: Lv, Xianzi;Zhang, Jianxin;Harada, Hiroshi;
6:14:24:1 Deformation and damage mechanisms in IN792 during thermomechanical fatigue
DOI:10.1016/j.msea.2011.02.063 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:12 AU: Kanesund, Jan;Moverare, Johan J.;Johansson, Sten;
6:14:24:2 The effects of crack orientation on the twin formation from the crack tip in gamma '-Ni3Al
DOI:10.1016/j.msea.2013.05.048 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:7 AU: Xie, Hongxian;Yu, Tao;Yin, Fuxing;Tang, Chengchun;
6:14:24:3 Damage mechanisms of a high-Cr single crystal superalloy during thermomechanical fatigue
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6:14:24:4 Significant thinning of deformation twins and its effect on thermomechanical fatigue fracture in nickel base single crystal superalloys
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6:14:24:5 The effect of random grain distributions on fatigue crack initiation in a notched coarse grained superalloy specimen
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6:14:24:6 Systematic methodology for high temperature LCF life prediction of smooth and notched Ni-based superalloy with and without dwells
DOI:10.1016/j.commatsci.2014.03.023 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:0 AU: Huang, Jia;Yang, Xiaoguang;Shi, Duoqi;Yu, Huichen;Dong, Chengli;Hu, Xiaoan;
6:14:24:7 Atomistic simulation of microtwinning at the crack tip in L1(2) Ni3Al
DOI:10.1080/14786435.2011.652690 JN:PHILOSOPHICAL MAGAZINE PY:2012 TC:5 AU: Xie, Hong-Xian;Bo, Liu;Yu, Tao;
6:14:24:8 Deformation twinning and twinning-related fracture in nickel-base single-crystal superalloys during thermomechanical fatigue cycling
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6:14:24:9 The Critical Resolved Shear Stress for Twinning in a Modern Single Crystal Ni-Based Superalloy TMS-82
DOI:10.1002/adem.201300136 JN:ADVANCED ENGINEERING MATERIALS PY:2013 TC:2 AU: Sun, Fei;Zhang, Jianxin;Harada, Hiroshi;
6:14:24:10 Analysis of creep-fatigue life prediction models for nickel-based super alloys
DOI:10.1016/j.commatsci.2011.07.034 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:2 AU: Zhang, Guobin;Yuan, Huang;Li, Fuqing;
6:14:25:1 Precipitation phases in the nickel-based superalloy DZ 125 with YSZ/CoCrAlY thermal barrier coating
DOI:10.1016/j.jallcom.2011.05.102 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:12 AU: Liang, Tianquan;Guo, Hongbo;Peng, Hui;Gong, Shengkai;
6:14:25:2 Cyclic oxidation and diffusion barrier behaviors of oxides dispersed NiCoCrAlY coatings
DOI:10.1016/j.jallcom.2010.04.183 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:15 AU: Peng, Hui;Guo, Hongbo;He, Jian;Gong, Shengkai;
6:14:25:3 Effects of the constitution of CrON diffusion barrier on the oxidation resistance and interfacial fracture of duplex coating system
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6:14:25:4 Microstructural characteristics and degradation mechanism of the NiCrAlY/CrN/DSM11 system during thermal exposure at 1100 degrees C
DOI:10.1016/j.jallcom.2010.06.168 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:12 AU: Li, Weizhou;Li, Yueqiao;Sun, Chao;Hu, Zhiliu;Liang, Tianquan;Lai, Wuquan;
6:14:25:5 Interdiffusion within the beta-phase region of the Ni-Co-Cr-Al quaternary system
DOI:10.1016/j.jallcom.2009.12.146 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:4 AU: Wei, H.;Zhang, H. Y.;Sun, X. F.;Dargusch, M. S.;Yao, X.;
6:14:25:6 Effects of the constitution of CrON diffusion barrier on the oxidation resistance and interfacial fracture of duplex coating system (vol 518, pg 86, 2012)
DOI:10.1016/j.jallcom.2012.04.095 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:0 AU: Li, W. Z.;Yi, D. Q.;Li, Y. Q.;Liu, H. Q.;Sun, C.;
6:14:26:1 High-resolution electron microscopy of dislocation ribbons in a CMSX-4 superalloy single crystal
DOI:10.1016/j.actamat.2012.05.014 JN:ACTA MATERIALIA PY:2012 TC:15 AU: Vorontsov, V. A.;Kovarik, L.;Mills, M. J.;Rae, C. M. F.;
6:14:26:2 Shearing of gamma ' precipitates by a < 1 1 2 > dislocation ribbons in Ni-base superalloys: A phase field approach
DOI:10.1016/j.actamat.2010.03.041 JN:ACTA MATERIALIA PY:2010 TC:15 AU: Vorontsov, V. A.;Shen, C.;Wang, Y.;Dye, D.;Rae, C. M. F.;
6:14:26:3 Creep deformation of a sixth generation Ni-base single crystal superalloy at 800 degrees C
DOI:10.1016/j.msea.2014.04.069 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Yuan, Y.;Kawagishi, K.;Koizumi, Y.;Kobayashi, T.;Yokokawa, T.;Harada, H.;
6:14:26:4 Shearing of gamma ' precipitates in Ni-base superalloys: a phase field study incorporating the effective gamma-surface
DOI:10.1080/14786435.2011.630691 JN:PHILOSOPHICAL MAGAZINE PY:2012 TC:2 AU: Vorontsov, V. A.;Voskoboinikov, R. E.;Rae, C. M. F.;
6:14:26:5 Monotonic tension and creep behavior of single crystal CMSX-486 under combustion environment
DOI:10.1016/j.msea.2013.01.023 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:1 AU: Sabelkin, V.;Joshi, G.;Mall, S.;Porter, W. J.;John, R.;
6:14:26:6 Orientation dependence of creep properties and deformation mechanism in DD6 single crystal superalloy at 760 degrees C and 785 MPa
DOI:10.1016/j.msea.2012.08.135 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:7 AU: Yu, J.;Li, J. R.;Zhao, J. Q.;Han, M.;Shi, Z. X.;Liu, S. Z.;Yuan, H. L.;
6:14:27:1 Analytical description of phase coarsening at high volume fractions
DOI:10.1016/j.actamat.2013.04.042 JN:ACTA MATERIALIA PY:2013 TC:6 AU: Streitenberger, Peter;
6:14:27:2 Generalization of the Lifshitz-Slyozov-Wagner coarsening theory to non-dilute multi-component systems
DOI:10.1016/j.actamat.2014.05.042 JN:ACTA MATERIALIA PY:2014 TC:2 AU: Svoboda, J.;Fischer, F. D.;
6:14:27:3 Experimental, computational and theoretical studies of delta ' phase coarsening in Al-Li alloys
DOI:10.1016/j.actamat.2012.07.021 JN:ACTA MATERIALIA PY:2012 TC:6 AU: Pletcher, B. A.;Wang, K. G.;Glicksman, M. E.;
6:14:27:4 Phase-field simulation of phase coarsening at ultrahigh volume fractions
DOI:10.1063/1.3340517 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:11 AU: Wang, K. G.;Ding, X.;Chang, Kunok;Chen, L. Q.;
6:14:27:5 Particle tracking during Ostwald ripening using time-resolved laboratory X-ray microtomography
DOI:10.1016/j.matchar.2014.01.022 JN:MATERIALS CHARACTERIZATION PY:2014 TC:4 AU: Werz, T.;Baumann, M.;Wolfram, U.;Krill, C. E., III;
6:14:27:6 Ostwald ripening in multicomponent alloys
DOI:10.1016/j.actamat.2013.03.049 JN:ACTA MATERIALIA PY:2013 TC:5 AU: Philippe, T.;Voorhees, P. W.;
6:14:28:1 Dislocation decorrelation and relationship to deformation microtwins during creep of a gamma ' precipitate strengthened Ni-based superalloy
DOI:10.1016/j.actamat.2011.07.069 JN:ACTA MATERIALIA PY:2011 TC:25 AU: Unocic, R. R.;Zhou, N.;Kovarik, L.;Shen, C.;Wang, Y.;Mills, M. J.;
6:14:28:2 Influence of solution temperature on microstructure and creep property of a directional solidified nickel-based superalloy at intermediate temperatures
DOI:10.1016/j.msea.2014.07.103 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Tian Sugui;Tian Ning;Yu Huichen;Meng Xianlin;Li Ying;
6:14:28:3 Influence of thermo-mechanical treatment on the precipitation strengthening behavior of Inconel 740, a Ni-based superalloy
DOI:10.1557/jmr.2011.70 JN:JOURNAL OF MATERIALS RESEARCH PY:2011 TC:4 AU: Oh, Jun-Hak;Yoo, Byung-Gil;Choi, In-Chul;Santella, Michael L.;Jang, Jae-il;
6:14:28:4 Creep behavior of a 4.5%-Re single crystal nickel-based superalloy at intermediate temperatures
DOI:10.1016/j.msea.2012.02.054 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:6 AU: Tian, Sugui;Zeng, Zheng;Liang Fushun;Zhang, Chao;Liu, Chen;
6:14:28:5 Microstructural evolution and compressive deformation of a new Ni-Fe base superalloy after long term thermal exposure at 700 degrees C
DOI:10.1016/j.msea.2014.09.095 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Yuan, Y.;Zhong, Z. H.;Yu, Z. S.;Yin, H. F.;Dang, Y. Y.;Zhao, X. B.;Yang, Z.;Lu, J. T.;Yan, J. B.;Gu, Y.;
6:14:28:6 Microstructure evolution and mechanical properties of Inconel 740H during aging at 750 degrees C
DOI:10.1016/j.msea.2013.09.076 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Chong Yan;Liu Zhengdong;Godfrey, Andy;Liu Wei;Weng Yuqing;
6:14:28:7 High-temperature deformation mechanisms in a polycrystalline nickel-base superalloy studied by neutron diffraction and electron microscopy
DOI:10.1016/j.actamat.2014.04.028 JN:ACTA MATERIALIA PY:2014 TC:2 AU: Francis, E. M.;Grant, B. M. B.;da Fonseca, J. Quinta;Phillips, P. J.;Mills, M. J.;Daymond, M. R.;Preuss, M.;
6:14:28:8 Characterization of localized deformation near grain boundaries of superalloy Rene-104 at elevated temperature
DOI:10.1016/j.msea.2014.03.048 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Carter, Jennifer L. W.;Kuper, Michael W.;Uchic, Michael D.;Mills, Michael J.;
6:14:29:1 High temperature wear resistance of laser cladding NiCrBSi and NiCrBSi/WC-Ni composite coatings
DOI:10.1016/j.wear.2011.01.003 JN:WEAR PY:2011 TC:31 AU: Guo, Chun;Zhou, Jiansong;Chen, Jianmin;Zhao, Jierong;Yu, Youjun;Zhou, Huidi;
6:14:29:2 Effect of catalytic esterification on the friction and wear performance of bio-oil
DOI:10.1016/j.wear.2013.12.029 JN:WEAR PY:2014 TC:3 AU: Xu, Yufu;Zheng, Xiaojing;Hu, Xianguo;Dearn, Karl D.;Xu, Hongming;
6:14:29:3 Laser cladding assisted by induction heating of Ni-WC composite enhanced by nano-WC and La2O3
DOI:10.1016/j.ceramint.2014.06.097 JN:CERAMICS INTERNATIONAL PY:2014 TC:9 AU: Farahmand, Parisa;Liu, Shuang;Zhang, Zhe;Kovacevic, Radovan;
6:14:29:4 A reliability model for friction and wear experimental data
DOI:10.1016/j.wear.2010.03.023 JN:WEAR PY:2010 TC:9 AU: Ramalho, A.;
6:14:29:5 Influence of nanostructured ZrO2 additions on the wear resistance of Ni-based alloy coatings deposited by APS process
DOI:10.1016/j.wear.2013.04.012 JN:WEAR PY:2013 TC:4 AU: Fernandes, F.;Ramalho, A.;Loureiro, A.;Guilemany, J. M.;Torrell, M.;Cavaleiro, A.;
6:14:29:6 Tensile properties and fracture behavior of laser cladded WC/Ni composite coatings with different contents of WC particle studied by in-situ tensile testing
DOI:10.1016/j.msea.2012.10.028 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:9 AU: Xu, Jin-Sha;Zhang, Xian-Cheng;Xuan, Fu-Zhen;Tian, Fu-Qiang;Wang, Zheng-Dong;Tu, Shan-Tung;
6:14:29:7 Role of abrasive material on micro-abrasion wear tests
DOI:10.1016/j.wear.2010.11.050 JN:WEAR PY:2011 TC:3 AU: Silva, F. J. G.;Casais, R. B.;Martinho, R. P.;Baptista, A. P. M.;
6:14:29:8 Mapping the micro-abrasion resistance of a Ni-based coating deposited by PTA on gray cast iron
DOI:10.1016/j.wear.2012.05.018 JN:WEAR PY:2012 TC:1 AU: Fernandes, F.;Ramalho, A.;Loureiro, A.;Cavaleiro, A.;
6:14:29:9 Laser induction hybrid rapid cladding of WC particles reinforced NiCrBSi composite coatings
DOI:10.1016/j.apsusc.2010.02.078 JN:APPLIED SURFACE SCIENCE PY:2010 TC:15 AU: Zhou, Shengfeng;Dai, Xiaoqin;
6:14:29:10 Influences of ceramic mating balls on the tribological properties of Cr/a-C coatings with low chromium content in water lubrication
DOI:10.1016/j.wear.2013.03.044 JN:WEAR PY:2013 TC:4 AU: Wang, Qianzhi;Zhou, Fei;Ding, Xiangdong;Zhou, Zhifeng;Zhang, Wenjun;Li, Lawrence Kwok-Yan;Lee, Shuit-Tong;
6:14:30:1 Precipitation behavior of grain boundary M23C6 and its effect on tensile properties of Ni-Cr-W based superalloy
DOI:10.1016/j.msea.2012.03.092 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:12 AU: Hu, Rui;Bai, Guanghai;Li, Jinshan;Zhang, Jingqing;Zhang, Tiebang;Fu, Hengzhi;
6:14:30:2 Effect of temperature on tensile behavior of Ni-Cr-W based superalloy
DOI:10.1016/j.msea.2010.11.053 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:20 AU: Bai, Guanghai;Li, Jinshan;Hu, Rui;Tang, Zengwu;Xue, Xiangyi;Fu, Hengzhi;
6:14:30:3 Effect of thermal exposure on the stability of carbides in Ni-Cr-W based superalloy
DOI:10.1016/j.msea.2010.11.088 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:17 AU: Bai, Guanghai;Li, Jinshan;Hu, Rui;Zhang, Tiebang;Kou, Hongchao;Fu, Hengzhi;
6:14:30:4 On dual-slope linear cyclic hardening of Hastelloy X
DOI:10.1016/j.msea.2010.02.062 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:4 AU: Reddy, G. V. Prasad;Harini, P.;Sandhya, R.;Rao, K. Bhanu Sankara;Paretkar, R. K.;
6:14:30:5 Effect of temperature and strain rate on serrated flow behaviour of Hastelloy X
DOI:10.1016/j.msea.2011.12.011 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:7 AU: Sakthivel, T.;Laha, K.;Nandagopal, M.;Chandravathi, K. S.;Parameswaran, P.;Selvi, S. Panneer;Mathew, M. D.;Mannan, Sarwan K.;
6:14:30:6 Tensile behaviors and deformation mechanisms of a nickel-base single crystal superalloy at different temperatures
DOI:10.1016/j.msea.2014.01.001 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:7 AU: Wang, X. G.;Liu, J. L.;Jin, T.;Sun, X. F.;
6:14:31:1 Microstructures' effects on high temperature fatigue failure behavior of typical superalloys
DOI:10.1016/j.msea.2013.08.065 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:2 AU: Zhang, L. N.;Wang, P.;Dong, J. X.;Zhang, M. C.;
6:14:31:2 Effect of long-term aging on the fatigue crack growth rate of a nickel-based superalloy
DOI:10.1016/j.msea.2010.11.044 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:4 AU: Wang, Shuai;Wang, Lei;Liu, Yang;Xu, Guohua;Zhang, Beijiang;Zhao, Guangpu;
6:14:31:3 A new prediction model of steady state stress based on the influence of the chemical composition for nickel-base superalloys
DOI:10.1016/j.msea.2010.03.075 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:11 AU: Bi, Zhongnan;Zhang, Maicang;Dong, Jianxin;Luo, Kunjie;Wang, Jue;
6:14:31:4 Some features of anisothermal solid-state transformations in alloy 718
DOI:10.1016/j.matchar.2010.02.011 JN:MATERIALS CHARACTERIZATION PY:2010 TC:8 AU: Niang, Aliou;Viguier, Bernard;Lacaze, Jacques;
6:14:31:5 Effect of service exposure on fatigue crack propagation of Inconel 718 turbine disc material at elevated temperatures
DOI:10.1016/j.matchar.2014.06.022 JN:MATERIALS CHARACTERIZATION PY:2014 TC:0 AU: Jeong, Dae-Ho;Choi, Myung-Je;Goto, Masahiro;Lee, Hong-Chul;Kim, Sangshik;
6:14:31:6 Influence of continuum precipitates on intergranular fatigue crack growth of a P/M nickel-based superalloy
DOI:10.1016/j.msea.2012.09.088 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:3 AU: Maciejewski, Kimberly;Ghonem, Hamouda;
6:14:31:7 On the anomalous temperature dependency of fatigue crack growth of SS 316(N) weld
DOI:10.1016/j.msea.2010.04.075 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:5 AU: Babu, M. Nani;Dutt, B. Shashank;Venugopal, S.;Sasikala, G.;Bhaduri, A. K.;Jayakumar, T.;Raj, Baldev;
6:14:31:8 Dislocation/precipitate interactions in IN100 at 650 degrees C
DOI:10.1016/j.msea.2013.06.004 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:1 AU: Maciejewski, Kimberly;Jouiad, Mustapha;Ghonem, Hamouda;
6:14:31:9 Hot working characteristics of nickel-base superalloy 740H during compression
DOI:10.1016/j.msea.2012.12.077 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:8 AU: Wang, Jue;Dong, Jianxin;Zhang, Maicang;Xie, Xishan;
6:14:32:1 Atomistic modeling of the interaction between matrix dislocation and interfacial misfit dislocation networks in Ni-based single crystal superalloy
DOI:10.1016/j.commatsci.2012.10.037 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:12 AU: Zhu, Yaxin;Li, Zhenhuan;Huang, Minsheng;
6:14:32:2 Anisotropic stress rupture properties of the nickel-base single crystal superalloy SRR99
DOI:10.1016/j.msea.2010.05.051 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:12 AU: Han, G. M.;Yu, J. J.;Sun, Y. L.;Sun, X. F.;Hu, Z. Q.;
6:14:32:3 Influence of stress state on the evolution of misfit dislocation networks in a Ni-based single crystal superalloy
DOI:10.1080/14786435.2011.648227 JN:PHILOSOPHICAL MAGAZINE PY:2012 TC:1 AU: Wu, Wen-Ping;Guo, Ya-Fang;Wang, Yue-Sheng;
6:14:32:4 Microscopic phase-field study for mechanisms of directional coarsening and the transformation of rafting types in Ni-Al-V ternary alloys
DOI:10.1016/j.commatsci.2012.05.046 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:2 AU: Yang, Kun;Zhang, Mingyi;Chen, Zheng;Fan, Xiaoli;
6:14:32:5 Multi-scale modeling of dislocation boundaries: Understanding interaction and effect of rotation angle
DOI:10.1016/j.commatsci.2014.08.006 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:0 AU: Khan, Shafique M. A.;
6:14:32:6 The effect of microstructure on the creep behavior of a low rhenium-containing single crystal nickel-based superalloy
DOI:10.1016/j.msea.2014.03.074 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Sun, Nairong;Zhang, Lanting;Li, Zhigang;Shan, Aidang;
6:14:32:7 Modeling dislocation cutting the precipitate in nickel-based single crystal superalloy via the discrete dislocation dynamics with SISF dissociation scheme
DOI:10.1016/j.commatsci.2013.02.026 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:3 AU: Yang, Hui;Li, Zhenhuan;Huang, Minsheng;
6:14:32:8 Anisotropy of high cycle fatigue behavior of a Ni-base single crystal superalloy
DOI:10.1016/j.msea.2013.01.001 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:0 AU: Yu, Jinjiang;Sun, Yuelai;Sun, Xiaofeng;Jin, Tao;Hu, Zhuangqi;
6:14:32:9 Molecular dynamics simulation of the structural evolution of misfit dislocation networks at gamma/gamma ' phase interfaces in Ni-based superalloys
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6:14:33:1 Experimental investigation on both low cycle fatigue and fracture behavior of DZ125 base metal and the brazed joint at elevated temperature
DOI:10.1016/j.msea.2011.05.085 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:10 AU: Yang, Xiaoguang;Dong, Chengli;Shi, Duoqi;Zhang, Lei;
6:14:33:2 On the evaluation of residual stress and mechanical properties of FeCrBSi coatings by nanoindentation
DOI:10.1016/j.msea.2011.12.078 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:1 AU: Zhu, Li-na;Xu, Bin-shi;Wang, Hai-dou;Wang, Cheng-biao;
6:14:33:3 Nanoindentation and XRD investigations of single crystalline Ni-Ge brazed nickel-base superalloys PWA 1483 and Rene N5
DOI:10.1016/j.msea.2010.09.065 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:10 AU: Neumeier, S.;Dinkel, M.;Pyczak, F.;Goeken, M.;
6:14:33:4 Experimental investigations on creep rupture strength and failure mechanism of vacuum brazed joints of a DS superalloy at elevated temperature
DOI:10.1016/j.msea.2012.02.099 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:7 AU: Shi, Duoqi;Dong, Chengli;Yang, Xiaoguang;Zhang, Lei;Hou, Jinbao;Liu, Ying;
6:14:33:5 Intermediate temperature embrittlement in high-purity Ni and binary Ni(Bi) alloy
DOI:10.1016/j.scriptamat.2011.05.024 JN:SCRIPTA MATERIALIA PY:2011 TC:13 AU: Zheng, Lei;Chellali, Reda;Schlesiger, Ralf;Baither, Dietmar;Schmitz, Guido;
6:14:33:6 Experimental investigation on low cycle fatigue and creep-fatigue interaction of DZ125 in different dwell time at elevated temperatures
DOI:10.1016/j.msea.2010.08.089 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:7 AU: Shi Duoqi;Liu Jinlong;Yang Xiaoguang;Qi Hongyu;Wang Jingke;
6:14:33:7 Determination of hardness of plasma-sprayed FeCrBSi coating on steel substrate by nanoindentation
DOI:10.1016/j.msea.2010.09.028 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:5 AU: Zhu, Li-Na;Xu, Bin-Shi;Wang, Hai-Dou;Wang, Cheng-Biao;
6:14:33:8 Ti-6Al-4V welded joints via electron beam welding: Microstructure, fatigue properties, and fracture behavior
DOI:10.1016/j.msea.2013.12.089 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Yang, Xiaoguang;Li, Shaolin;Qi, Hongyu;
6:14:33:9 Non-equilibrium grain-boundary segregation of Bi in binary Ni(Bi) alloy
DOI:10.1016/j.scriptamat.2013.02.002 JN:SCRIPTA MATERIALIA PY:2013 TC:3 AU: Zheng, L.;Chellali, M. R.;Schlesiger, R.;Meng, Y.;Baither, D.;Schmitz, G.;
6:14:34:1 Modelling of High Temperature Oxidation of Alumina-Forming Single-Crystal Nickel-Base Superalloys
DOI:10.1016/j.actamat.2012.06.036 JN:ACTA MATERIALIA PY:2012 TC:9 AU: Bensch, M.;Sato, A.;Warnken, N.;Affeldt, E.;Reed, R. C.;Glatzel, U.;
6:14:34:2 Correlative atom-probe tomography and transmission electron microscope study of a chemical transition in a spinel on an oxidized nickel-based superalloy
DOI:10.1016/j.scriptamat.2013.02.025 JN:SCRIPTA MATERIALIA PY:2013 TC:3 AU: Baik, Sung-Il;Yin, Xin;Seidman, David N.;
6:14:34:3 Oxidation of nickel-based single-crystal superalloys for industrial gas turbine applications
DOI:10.1016/j.actamat.2010.09.027 JN:ACTA MATERIALIA PY:2011 TC:33 AU: Sato, A.;Chiu, Y-L;Reed, R. C.;
6:14:34:4 Developing an advanced Si-bearing DS Ni-base superalloy
DOI:10.1016/j.jallcom.2013.09.193 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:2 AU: Yeh, A. C.;Yang, K. C.;Yeh, J. W.;Kuo, C. M.;
6:14:34:5 Effect of Mo concentration on creep properties of a single crystal nickel-base superalloy
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6:14:34:6 Comparison of oxidation resistance of NiCoCrAlTaY-coated and -uncoated Mar-M247 superalloys in the air at 1150 degrees C
DOI:10.1007/s10853-011-6041-3 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:4 AU: Mei, Hui;Liu, Yanan;Cheng, Laifei;
6:14:34:7 Effects of Rhenium on Microstructure and Phase Stability of MAR-M247 Ni-Base Fine-Grain Superalloy
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6:14:34:8 Prediction of initial oxidation behavior of Ni-base single crystal superalloys by regression analysis
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6:14:35:1 Microstructure and creep behaviors of a high Nb-TiAl intermetallic compound based alloy
DOI:10.1016/j.msea.2014.06.117 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:4 AU: Tian, Sugui;Wang, Qi;Yu, Huichen;Sun, Haofang;Li, Qiuyang;
6:14:35:2 Microstructure-sensitive creep models for nickel-base superalloy single crystals
DOI:10.1016/j.msea.2013.04.072 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: MacKay, R. A.;Gabb, T. P.;Nathal, M. V.;
6:14:35:3 Influence and analysis of defects on creep behaviors of a single crystal nickel-based superalloy
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6:14:35:4 Influence of composition on microstructural parameters of single crystal nickel-base superalloys
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6:14:35:5 Mechanical characterization of mechanically alloyed ultrafine-grained Ti5Si3+40 vol% gamma-TiAl composites
DOI:10.1016/j.msea.2013.04.092 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:3 AU: Suryanarayana, C.;Behn, Rainer;Klassen, Thomas;Bormann, Ruediger;
6:14:35:6 Damage and fracture mechanism of a nickel-based single crystal superalloy during creep at moderate temperature
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6:14:35:7 Influence of heat treatment on microstructure and creep properties of hot continuous rolled Ti-6Al-4V alloy
DOI:10.1016/j.msea.2012.08.116 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:1 AU: Xiao Li;Tian Sugui;Bao Xianyu;Chen Liqing;
6:14:36:1 Atom probe tomography of secondary gamma ' precipitation in a single crystal Ni-based superalloy after isothermal aging at 1100 degrees C
DOI:10.1016/j.jallcom.2014.05.132 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:1 AU: Tan, X. P.;Mangelinck, D.;Perrin-Pellegrino, C.;Rougier, L.;Gandin, Ch. -A.;Jacot, A.;Ponsen, D.;Jaquet, V.;
6:14:36:2 Influence of cooling rate on the development of multiple generations of gamma ' precipitates in a commercial nickel base superalloy
DOI:10.1016/j.matchar.2011.06.002 JN:MATERIALS CHARACTERIZATION PY:2011 TC:15 AU: Singh, A. R. P.;Nag, S.;Hwang, J. Y.;Viswanathan, G. B.;Tiley, J.;Srinivasan, R.;Fraser, H. L.;Banerjee, R.;
6:14:36:3 Mechanisms related to different generations of gamma ' precipitation during continuous cooling of a nickel base superalloy
DOI:10.1016/j.actamat.2012.09.058 JN:ACTA MATERIALIA PY:2013 TC:11 AU: Singh, A. R. P.;Nag, S.;Chattopadhyay, S.;Ren, Y.;Tiley, J.;Viswanathan, G. B.;Fraser, H. L.;Banerjee, R.;
6:14:36:4 Precipitation of ordered phases in metallic solid solutions: A synergistic clustering and ordering process
DOI:10.1016/j.scriptamat.2011.06.002 JN:SCRIPTA MATERIALIA PY:2011 TC:7 AU: Viswanathan, G. B.;Banerjee, R.;Singh, A.;Nag, S.;Tiley, J.;Fraser, H. L.;
6:14:36:5 Influence of composition on monomodal versus multimodal gamma ' precipitation in Ni-Al-Cr alloys
DOI:10.1007/s10853-012-6802-7 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:4 AU: Rojhirunsakool, T.;Meher, S.;Hwang, J. Y.;Nag, S.;Tiley, J.;Banerjee, R.;
6:14:37:1 Investigations of inhomogeneous mechanical properties and plastic deformations in HIPed P/M nickel-base superalloy FGH96 by using micro-indentation methods
DOI:10.1016/j.msea.2012.06.081 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:0 AU: Zhang, Mingjie;Li, Fuguo;Wang, Lei;Wang, Shuyun;
6:14:37:2 High temperature creep and low cycle fatigue of a nickel-base superalloy
DOI:10.1016/j.msea.2010.01.001 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:13 AU: Yu Jinjiang;Sun Xiaofeng;Jin Tao;Zhao Nairen;Guan Hengrong;Hu Zhuangqi;
6:14:37:3 From micro- to nano-scale molding of metals: Size effect during molding of single crystal Al with rectangular strip punches
DOI:10.1016/j.actamat.2010.10.044 JN:ACTA MATERIALIA PY:2011 TC:7 AU: Chen, Ke;Meng, W. J.;Mei, Fanghua;Hiller, J.;Miller, D. J.;
6:14:37:4 Scaling the response of microscale compression molding of elemental Cu in the presence of dynamic recrystallization
DOI:10.1016/j.actamat.2009.12.050 JN:ACTA MATERIALIA PY:2010 TC:4 AU: Mei, Fanghua;Chen, Ke;Jiang, J.;Meng, W. J.;
6:14:37:5 Size dependence of the plane-strain response of single-crystal Al to indentation by diamond wedges
DOI:10.1016/j.actamat.2012.05.021 JN:ACTA MATERIALIA PY:2012 TC:2 AU: Chen, Ke;Meng, W. J.;Sinclair, G. B.;
6:14:37:6 Microstructure evolution of Al-12Si-CuNiMg alloy under high temperature low cycle fatigue
DOI:10.1016/j.msea.2013.03.027 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:7 AU: Liu, Jinxiang;Zhang, Qing;Zuo, Zhengxing;Xiong, Yi;Ren, Fengzhang;Volinsky, Alex A.;
6:14:38:1 Portevin-Le Chatelier (PLC) instabilities and slant fracture in C-Mn steel round tensile specimens
DOI:10.1016/j.scriptamat.2010.11.005 JN:SCRIPTA MATERIALIA PY:2011 TC:11 AU: Wang, Huaidong;Berdin, Clotilde;Maziere, Matthieu;Forest, Samuel;Prioul, Claude;Parrot, Aurore;Le-Delliou, Patrick;
6:14:38:2 Investigations on the Portevin-Le Chatelier critical strain in an aluminum alloy
DOI:10.1016/j.commatsci.2011.05.039 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:12 AU: Maziere, M.;Dierke, H.;
6:14:38:3 Investigation and modeling of the anomalous yield point phenomenon in pure tantalum
DOI:10.1016/j.msea.2014.07.028 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Colas, D.;Finot, E.;Flouriot, S.;Forest, S.;Maziere, M.;Paris, T.;
6:14:38:4 Identification of a strain-aging model accounting for Luders behavior in a C-Mn steel
DOI:10.1080/14786435.2012.699687 JN:PHILOSOPHICAL MAGAZINE PY:2012 TC:4 AU: Marais, A.;Maziere, M.;Forest, S.;Parrot, A.;Le Delliou, P.;
6:14:38:5 Experimental and numerical study of dynamic strain ageing and its relation to ductile fracture of a C-Mn steel
DOI:10.1016/j.msea.2012.03.069 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:5 AU: Wang, H. D.;Berdin, C.;Maziere, M.;Forest, S.;Prioul, C.;Parrot, A.;Le-Delliou, P.;
6:14:38:6 Effect of dynamic strain aging on isotropic hardening in low cycle fatigue for carbon manganese steel
DOI:10.1016/j.msea.2013.09.058 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Huang, Zhi Yong;Chaboche, Jean-Louis;Wang, Qing Yuan;Wagner, Daniele;Bathias, Claude;
6:14:39:1 Microstructure evolution of a [011] orientation single crystal nickel-base superalloy during tensile creep
DOI:10.1007/s00339-011-6302-7 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2011 TC:6 AU: Tian, Sugui;Su, Yong;Yu, Lili;Yu, Huichen;Zhang, Shu;Qian, Benjiang;
6:14:39:2 Influence of element Re on lattice misfits and stress rupture properties of single crystal nickel-based superalloys
DOI:10.1016/j.msea.2010.03.107 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:10 AU: Tian Sugui;Wang Minggang;Yu Huichen;Yu Xingfu;Li Tang;Qian Benjiang;
6:14:39:3 Microstructure evolution and FEM analysis of a [011] oriented single crystal nickel-based superalloy during compressive creep
DOI:10.1016/j.jallcom.2013.01.132 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:0 AU: Tian, S. G.;Guo, Z. G.;Yu, H. C.;Xue, C.;Zhang, S.;Su, Y.;Meng, F. L.;
6:14:39:4 Microstructure evolution and creep behavior of a [111] oriented single crystal nickel-based superalloy during tensile creep
DOI:10.1016/j.msea.2012.12.015 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:7 AU: Yu, Huichen;Su, Yong;Tian, Ning;Tian, Sugui;Li, Ying;Yu, Xingfu;Yu, Lili;
6:14:39:5 Microstructure evolution and analysis of a single crystal nickel-based superalloy during compressive creep
DOI:10.1016/j.msea.2011.03.035 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:4 AU: Tian Sugui;Zhang Shu;Liang Fushun;Li Anan;Li Jingjing;
6:14:40:1 The evolution of interfacial morphology during coarsening: A comparison between 4D experiments and phase-field simulations
DOI:10.1016/j.scriptamat.2010.10.040 JN:SCRIPTA MATERIALIA PY:2011 TC:11 AU: Aagesen, L. K.;Fife, J. L.;Lauridsen, E. M.;Voorhees, P. W.;
6:14:40:2 Channel size distribution of complex three-dimensional microstructures calculated from the topological characterization of isodistance structures
DOI:10.1016/j.actamat.2011.12.042 JN:ACTA MATERIALIA PY:2012 TC:2 AU: Chan, V. W. L.;Thornton, K.;
6:14:40:3 Application of the level-set method to the analysis of an evolving microstructure
DOI:10.1016/j.commatsci.2013.12.022 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:1 AU: Park, C. -L.;Voorhees, P. W.;Thornton, K.;
6:14:40:4 Morphology and topology in coarsening of domains via non-conserved and conserved dynamics
DOI:10.1080/14786430903260701 JN:PHILOSOPHICAL MAGAZINE PY:2010 TC:6 AU: Kwon, Yongwoo;Thornton, K.;Voorhees, P. W.;
6:14:41:1 Disordered long-range internal stresses in deformed copper and the mechanisms underlying plastic deformation
DOI:10.1016/j.actamat.2011.05.056 JN:ACTA MATERIALIA PY:2011 TC:18 AU: Levine, Lyle E.;Geantil, Peter;Larson, Bennett C.;Tischler, Jonathan Z.;Kassner, Michael E.;Liu, Wenjun;Stoudt, Mark R.;Tavazza, Francesca;
6:14:41:2 Synchrotron-based measurement of the impact of thermal cycling on the evolution of stresses in Cu through-silicon vias
DOI:10.1063/1.4885461 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:3 AU: Okoro, Chukwudi;Levine, Lyle E.;Xu, Ruqing;Hummler, Klaus;Obeng, Yaw;
6:14:41:3 Removal of plastic instabilities by reversal of the applied stress
DOI:10.1080/14786435.2012.702232 JN:PHILOSOPHICAL MAGAZINE PY:2013 TC:1 AU: Saada, Georges;Kruml, Tomas;
6:14:41:4 Applying x-ray microscopy and finite element modeling to identify the mechanism of stress-assisted void growth in through-silicon vias
DOI:10.1063/1.3629988 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:16 AU: Kong, L. W.;Lloyd, J. R.;Yeap, K. B.;Zschech, E.;Rudack, A.;Liehr, M.;Diebold, A.;
6:14:42:1 Tensile impact behavior and deformation mechanism of duplex TiAl intermetallics at elevated temperatures
DOI:10.1007/s10853-010-4730-y JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:6 AU: Zan, Xiang;He, Yuehui;Wang, Yang;Lu, Zhengxin;Xia, Yuanming;
6:14:42:2 Effect of Nb and Nb2O5 additives on mechano-thermal processing of TiAl/Al2O3 nano-composite
DOI:10.1007/s10853-011-5495-7 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:1 AU: Alamolhoda, S.;Heshmati-Manesh, S.;Ataie, A.;Sheibani, S.;
6:14:42:3 Improvement of high-temperature oxidation resistance of titanium-based alloy by sol-gel method
DOI:10.1007/s10853-009-4138-8 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:7 AU: Zhang, X. J.;Gao, Y. H.;Ren, B. Y.;Tsubaki, N.;
6:14:42:4 Ultra-thin titanium nanolayers for plasmon-assisted enhancement of bioluminescence of chloroplast in biological light emitting devices
DOI:10.1063/1.4818263 JN:APPLIED PHYSICS LETTERS PY:2013 TC:4 AU: Su, Yen Hsun;Hsu, Chia-Yun;Chang, Chung-Chien;Tu, Sheng-Lung;Shen, Yun-Hwei;
6:14:43:1 Effect of surface recrystallization on the creep rupture properties of a nickel-base single crystal superalloy
DOI:10.1016/j.msea.2010.04.071 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:12 AU: Meng, Jie;Jin, Tao;Sun, Xiaofeng;Hu, Zhuangqi;
6:14:43:2 Intermediate temperature creep of directionally solidified Ni-based superalloy containing local recrystallization
DOI:10.1016/j.msea.2010.12.088 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:2 AU: Xie, G.;Wang, L.;Zhang, J.;Lou, L. H.;
6:14:43:3 Effects of carburization on recrystallization behavior of a single crystal superalloy
DOI:10.1016/j.matchar.2010.04.007 JN:MATERIALS CHARACTERIZATION PY:2010 TC:11 AU: Xiong, J. C.;Li, J. R.;Liu, S. Z.;Zhao, J. Q.;Han, M.;
6:14:43:4 Effect of cyclic oxidation on the tensile behavior of directionally solidified CM-247LC Ni-based superalloy at 870 degrees C
DOI:10.1016/j.msea.2010.06.046 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:9 AU: Alam, Md Zafir;Chatterjee, D.;Venkataraman, B.;Varma, Vijay K.;Das, Dipak K.;
6:14:43:5 Influence of recrystallization on high-temperature stress rupture property and fracture behavior of single crystal superalloy
DOI:10.1016/j.msea.2012.04.109 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:7 AU: Zhang, Bing;Lu, Xin;Liu, Delin;Tao, Chunhu;
6:14:43:6 Effect of prior cyclic oxidation on the creep behavior of directionally solidified (DS) CM-247LC alloy
DOI:10.1016/j.msea.2011.10.016 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:2 AU: Alam, Md Zafir;Satyanarayana, D. V. V.;Chatterjee, D.;Sarkar, R.;Das, D. K.;
6:14:44:1 Reinvestigation of the tensile strength and fracture property of Ni(111)/alpha-Al(2)O(3) (0001) interfaces by first-principle calculations
DOI:10.1016/j.commatsci.2011.01.001 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:5 AU: Guo, Xiancong;Shang, Fulin;
6:14:44:2 Mixed-mode mechanical responses of Ni(111)/alpha-Al2O3(0001) interface by first-principle calculations
DOI:10.1557/jmr.2013.294 JN:JOURNAL OF MATERIALS RESEARCH PY:2013 TC:0 AU: Guo, Xiancong;Bao, Zeying;Shang, Fulin;
6:14:44:3 Influence of superimposed normal stress on shear strength of perfect bcc crystals
DOI:10.1016/j.commatsci.2009.11.022 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2010 TC:5 AU: Cerny, Miroslav;Sestak, Petr;Pokluda, Jaroslav;
6:14:44:4 Shear strength and sliding behavior of Ni/Al2O3 interfaces: A first-principle study
DOI:10.1557/jmr.2012.85 JN:JOURNAL OF MATERIALS RESEARCH PY:2012 TC:1 AU: Guo, Xiancong;Shang, Fulin;
6:14:45:1 The liquation cracking behavior of IN738LC superalloy during low power Nd:YAG pulsed laser welding
DOI:10.1016/j.matchar.2012.02.019 JN:MATERIALS CHARACTERIZATION PY:2012 TC:10 AU: Montazeri, M.;Ghaini, F. M.;
6:14:45:2 A study of the mechanism of laser welding defects in low thermal expansion superalloy GH909
DOI:10.1016/j.matchar.2013.01.008 JN:MATERIALS CHARACTERIZATION PY:2013 TC:1 AU: Yan, Fei;Wang, Chunming;Wang, Yajun;Hu, Xiyuan;Wang, Tianjiao;Li, Jianmin;Li, Guozhu;
6:14:45:3 The effect of aging heat treatment on microstructure and mechanical properties of laser welded joints of alloy GH909
DOI:10.1016/j.msea.2014.01.033 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Yan, Fei;Li, Ruoyang;Li, Jianmin;Wang, Yajun;Wang, Chunming;Hu, Xiyuan;
6:14:45:4 On the mechanism of porosity formation during welding of titanium alloys
DOI:10.1016/j.actamat.2012.02.035 JN:ACTA MATERIALIA PY:2012 TC:8 AU: Huang, Jianglin L.;Warnken, Nils;Gebelin, Jean-Christophe;Strangwood, Martin;Reed, Roger C.;
6:14:46:1 Quantitative analysis of fine nano-sized precipitates in low-carbon steels by small angle neutron scattering
DOI:10.1007/s00339-010-5630-3 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2010 TC:8 AU: Seong, Beak Seok;Shin, Eunjoo;Choi, Shi-Hoon;Choi, Yong;Han, Young Soo;Lee, Kye Hong;Tomota, Yo;
6:14:46:2 Nanostructure characterization of Co-Pd-Si-O soft magnetic nanogranular film using small-angle X-ray and neutron scattering
DOI:10.1016/j.jmmm.2013.01.024 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2013 TC:1 AU: Oba, Yojiro;Ohnuma, Masato;Ohnuma, Shigehiro;Furusaka, Michihiro;Koppoju, Suresh;Takeda, Shin;
6:14:46:3 Effect of cold drawing ratio on gamma ' precipitation in Inconel X-750
DOI:10.1016/j.matchar.2014.07.016 JN:MATERIALS CHARACTERIZATION PY:2014 TC:1 AU: Ha, Jeong Won;Seong, Baek Seok;Jeong, Hi Won;Yoo, Young Soo;Choi, Yoon Suk;Kang, Namhyun;
6:14:47:1 Anomalous deformation behavior and twin formation of Ni-base superalloys at the intermediate temperatures
DOI:10.1016/j.msea.2011.05.083 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:7 AU: Kim, I. S.;Choi, B. G.;Hong, H. U.;Yoo, Y. S.;Jo, C. Y.;
6:14:47:2 Tensile property and deformation behavior of a directionally solidified Ni-base superalloy
DOI:10.1016/j.msea.2010.01.051 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:16 AU: Chu, Zhaokuang;Yu, Jinjiang;Sun, Xiaofeng;Guan, Hengrong;Hu, Zhuangqi;
6:14:47:3 Influence of thermal exposure on the microstructural evolution and mechanical properties of a wrought Ni-base superalloy
DOI:10.1016/j.msea.2013.11.031 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:9 AU: Kim, I. S.;Choi, B. G.;Hong, H. U.;Do, J.;Jo, C. Y.;
6:14:48:1 Status of p-on-n Arsenic-Implanted HgCdTe Technologies
DOI:10.1007/s11664-011-1692-z JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:12 AU: Mollard, L.;Destefanis, G.;Bourgeois, G.;Ferron, A.;Baier, N.;Gravrand, O.;Barnes, J. P.;Papon, A. M.;Milesi, F.;Kerlain, A.;Rubaldo, L.;
6:14:48:2 Characterization of the Microstructure of HgCdTe with p-Type Doping
DOI:10.1007/s11664-014-3147-9 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:0 AU: Lobre, C.;Jouneau, P. -H.;Mollard, L.;Ballet, P.;
6:14:48:3 p-on-n HgCdTe Infrared Focal-Plane Arrays: From Short-Wave to Very-Long-Wave Infrared
DOI:10.1007/s11664-013-2809-3 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:1 AU: Mollard, L.;Bourgeois, G.;Lobre, C.;Gout, S.;Viollet-Bosson, S.;Baier, N.;Destefanis, G.;Gravrand, O.;Barnes, J. P.;Milesi, F.;Kerlain, A.;Rubaldo, L.;Manissadjian, A.;
6:14:49:1 From the interface energy to the solubility limit of aluminium in nickel from first-principles and Kinetic Monte Carlo calculations
DOI:10.1016/j.mseb.2011.02.023 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2011 TC:3 AU: Hin, Celine;Lepinoux, Joel;Neaton, Jeffrey B.;Dresselhaus, Mildred;
6:14:49:2 Precipitate growth in concentrated binary alloys: a comparison between kinetic Monte Carlo simulations, cluster dynamics and the classical theory
DOI:10.1080/14786435.2013.805275 JN:PHILOSOPHICAL MAGAZINE PY:2013 TC:0 AU: Lepinoux, J.;Sigli, C.;
6:14:49:3 Comparing kinetic Monte Carlo simulations with cluster dynamics: What can we learn about precipitation? Application to AlZr alloys
DOI:10.1080/14786435.2010.484403 JN:PHILOSOPHICAL MAGAZINE PY:2010 TC:4 AU: Lepinoux, J.;
6:14:50:1 First-principles study on the site preference of Dy in B2 NiAl
DOI:10.1016/j.jallcom.2009.11.077 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:6 AU: Wu, Hongli;Guo, Hongbo;Gong, Shengkai;
6:14:50:2 Magnetism-induced ductility in NiAl intermetallic alloys with Fe additions: Theory and experiment
DOI:10.1016/j.jallcom.2011.12.101 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:1 AU: Huang, J.;Sun, J.;Xing, H.;Wen, Y. F.;
6:14:50:3 Effect of Cu additions over the lattice parameter and hardness of the NiAl intermetallic compound
DOI:10.1016/j.jallcom.2009.09.034 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:2 AU: Colin, J.;Serna, S.;Campillo, B.;Rodriguez, R. A.;Juarez-Islas, J.;
6:14:51:1 Effect of Surface Treatment and Crystal Orientation on Microstructural Changes in Aluminized Ni-Based Single-Crystal Superalloy
DOI:10.2320/matertrans.M2010439 JN:MATERIALS TRANSACTIONS PY:2011 TC:7 AU: Kasai, Kazuki;Murakami, Hideyuki;Kuroda, Seiji;Imai, Hachiro;
6:14:51:2 On the mechanism of secondary reaction zone formation in a coated nickel-based single-crystal superalloy containing ruthenium
DOI:10.1016/j.scriptamat.2013.03.015 JN:SCRIPTA MATERIALIA PY:2013 TC:7 AU: Hong, H. U.;Yoon, J. G.;Choi, B. G.;Kim, I. S.;Jo, C. Y.;
6:14:51:3 Effect of Thermal History on Microstructural Changes in Aluminized Nickel-Based Single-Crystal Superalloy
DOI:10.2320/matertrans.M2013205 JN:MATERIALS TRANSACTIONS PY:2013 TC:0 AU: Kasai, Kazuki;Murakami, Hideyuki;Noda, Kazuhiko;
6:14:52:1 Quantitative measurement of gamma prime precipitates in two industrial nickel-based superalloys using extraction and high resolution SEM imaging
DOI:10.1016/j.jallcom.2013.03.057 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:3 AU: Bellot, C.;Lamesle, P.;
6:14:52:2 The effects of Co and Ti additions on microstructures and compressive strength of Udimet710
DOI:10.1016/j.msea.2011.07.019 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:7 AU: Xu, Ling;Cui, Chuanyong;Sun, Xiaofeng;
6:15:1:1 Grain size and grain-boundary effects on diffusion and trapping of hydrogen in pure nickel
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6:15:1:2 Hydrogen trapping in martensitic steel investigated using electrochemical permeation and thermal desorption spectroscopy
DOI:10.1016/j.scriptamat.2011.07.042 JN:SCRIPTA MATERIALIA PY:2011 TC:19 AU: Frappart, S.;Oudriss, A.;Feaugas, X.;Creus, J.;Bouhattate, J.;Thebault, F.;Delattre, L.;Marchebois, H.;
6:15:1:3 Hydrogen solubility, diffusivity and trapping in tempered Fe-C-Cr martensitic steel under various mechanical stress states
DOI:10.1016/j.msea.2011.11.084 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:16 AU: Frappart, S.;Feaugas, X.;Creus, J.;Thebault, F.;Delattre, L.;Marchebois, H.;
6:15:1:4 Theory for hydrogen desorption in ferritic steel
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6:15:1:5 Computational analysis of geometrical factors affecting experimental data extracted from hydrogen permeation tests: II - Consequences of trapping and an oxide layer
DOI:10.1016/j.ijhydene.2012.06.043 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2012 TC:9 AU: Legrand, E.;Bouhattate, J.;Feaugas, X.;Garmestani, H.;
6:15:1:6 Computational analysis of geometrical factors affecting experimental data extracted from hydrogen permeation tests: III - Comparison with experimental results from the literature
DOI:10.1016/j.ijhydene.2013.10.099 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2014 TC:4 AU: Legrand, E.;Oudriss, A.;Frappart, S.;Creus, J.;Feaugas, X.;Bouhattate, J.;
6:15:1:7 Generalized model of desorption kinetics: Characterization of hydrogen trapping in a homogeneous membrane
DOI:10.1016/j.ijhydene.2014.03.191 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2014 TC:2 AU: Legrand, E.;Feaugas, X.;Bouhattate, J.;
6:15:1:8 Displacement field induced by a vacancy in nickel and some implications for the solubility of hydrogen
DOI:10.1080/14786435.2014.975769 JN:PHILOSOPHICAL MAGAZINE PY:2014 TC:0 AU: Metsue, Arnaud;Oudriss, Abdelali;Feaugas, Xavier;
6:15:1:9 The diffusion and trapping of hydrogen along the grain boundaries in polycrystalline nickel
DOI:10.1016/j.scriptamat.2011.09.036 JN:SCRIPTA MATERIALIA PY:2012 TC:20 AU: Oudriss, A.;Creus, J.;Bouhattate, J.;Savall, C.;Peraudeau, B.;Feaugas, X.;
6:15:1:10 Computational analysis of geometrical factors affecting experimental data extracted from hydrogen permeation tests: I - Consequences of trapping
DOI:10.1016/j.ijhydene.2011.06.143 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2011 TC:8 AU: Bouhattate, J.;Legrand, E.;Feaugas, X.;
6:15:1:11 Numerical analysis of the influence of scale effects and microstructure on hydrogen diffusion in polycrystalline aggregates
DOI:10.1016/j.commatsci.2013.01.018 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:5 AU: Legrand, E.;Bouhattate, J.;Feaugas, X.;Touzain, S.;Garmestani, H.;Khaleel, M.;Li, D. S.;
6:15:1:12 Comments on "Computational analysis of geometrical factors affecting experimental data extracted from hydrogen permeation tests: I - Consequences of trapping" [Int J Hydrogen Energy 36 (2011) 12644-12652] and " ... II - Consequences of trapping and an oxide layer" [Int J Hydrogen Energy 37 (2012) 13574-13582], "Corrigenda ... " to both [Int J Hydrogen Energy 39 (2014) 2430], and on " ... III - Comparison with experimental results from the literature" [Int J Hydrogen Energy 39 (2014) 1145-1155] with "Generalized model of desorption kinetics: Characterization of hydrogen trapping in a homogeneous membrane" [Int J Hydrogen Energy 39 (2014) 8374-8384] Discussion
DOI:10.1016/j.ijhydene.2014.09.032 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2014 TC:1 AU: Kharin, Viktor;
6:15:1:13 Characterization of electrodeposited nickel coatings from sulphamate electrolyte without additive
DOI:10.1016/j.matchar.2010.11.011 JN:MATERIALS CHARACTERIZATION PY:2011 TC:14 AU: Godon, A.;Creus, J.;Feaugas, X.;Conforto, E.;Pichon, L.;Armand, C.;Savall, C.;
6:15:1:14 Intergranular stress corrosion crack propagation in hot-rolled AZ31 Mg alloy sheet
DOI:10.1016/j.msea.2014.02.077 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Casajus, Paula;Winzer, Nicholas;
6:15:1:15 Consequence of the diffusive hydrogen contents on tensile properties of martensitic steel during the desorption at room temperature
DOI:10.1016/j.msea.2014.01.039 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Oudriss, A.;Fleurentin, A.;Courlit, G.;Conforto, E.;Berziou, C.;Rebere, C.;Cohendoz, S.;Sobrino, J. M.;Creus, J.;Feaugas, X.;
6:15:1:16 Effects of grain orientation on the Hall-Petch relationship in electrodeposited nickel with nanocrystalline grains
DOI:10.1016/j.scriptamat.2009.11.038 JN:SCRIPTA MATERIALIA PY:2010 TC:20 AU: Godon, A.;Creus, J.;Cohendoz, S.;Conforto, E.;Feaugas, X.;Girault, P.;Savall, C.;
6:15:1:17 The influence of hydrostatic stress states on the hydrogen solubility in martensitic steels
DOI:10.1016/j.scriptamat.2014.04.006 JN:SCRIPTA MATERIALIA PY:2014 TC:1 AU: Guedes, D.;Oudriss, A.;Frappart, S.;Courlit, G.;Cohendoz, S.;Girault, P.;Creus, J.;Bouhattate, J.;Metsue, A.;Thebault, F.;Delattre, L.;Koschel, D.;Feaugas, X.;
6:15:1:18 Modelling for hydrogen diffusion in metals with traps revisited
DOI:10.1016/j.actamat.2011.11.025 JN:ACTA MATERIALIA PY:2012 TC:17 AU: Svoboda, J.;Fischer, F. D.;
6:15:1:19 Hydrogen behavior in ultrafine-grained palladium processed by high-pressure torsion
DOI:10.1016/j.ijhydene.2013.08.098 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2013 TC:1 AU: Iwaoka, Hideaki;Horita, Zenji;
6:15:1:20 Response to comments on "Computational analysis of geometrical factors affecting experimental data extracted from hydrogen permeation test: I - Consequences of trapping" [Int J Hydrogen Energy 36 (2011) 12644-12652] and "II - Consequences of trapping and an oxide layer" [Int J Hydrogen Energy 37 (2012) 13574-13582], "Corrigenda" to both [Int J Hydrogen Energy 39 (2014) 24301, and on "III - Comparison with experimental results from the literature" [Int J Hydrogen Energy 39 (2014) 1145-1155] with "Generalized model of desorption kinetics: Characterization of hydrogen trapping in a homogeneous membrane" [Int J Hydrogen Energy 39 (2014) 8374-8384] Discussion
DOI:10.1016/j.ijhydene.2014.09.139 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2014 TC:0 AU: Legrand, E.;Bouhattate, J.;Oudriss, A.;Frappart, S.;Creus, J.;Feaugas, X.;Garmestani, H.;
6:15:1:21 Elastic strain around needle-shaped particles embedded in Al matrix
DOI:10.1016/j.actamat.2010.06.053 JN:ACTA MATERIALIA PY:2010 TC:5 AU: Douin, J.;Donnadieu, P.;Houdellier, F.;
6:15:1:22 Computational analysis of geometrical factors affecting experimental data extracted from hydrogen permeation test: I - Consequences of trapping (vol 36, pg 12644, 2011)
DOI:10.1016/j.ijhydene.2013.11.081 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2014 TC:1 AU: Legrand, E.;Feaugas, X.;Bouhattate, J.;
6:15:1:23 Stress corrosion cracking behavior of magnesium alloys EV31A and AZ91E
DOI:10.1016/j.msea.2013.06.085 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:3 AU: Padekar, Bharat S.;Raja, V. S.;Raman, R. K. Singh;Lyon, P.;
6:15:2:1 Influence of machining-induced martensite on hydrogen-assisted fracture of AISI type 304 austenitic stainless steel
DOI:10.1016/j.ijhydene.2011.05.133 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2011 TC:24 AU: Martin, M.;Weber, S.;Izawa, C.;Wagner, S.;Pundt, A.;Theisen, W.;
6:15:2:2 Hydrogen environment embrittlement of stable austenitic steels
DOI:10.1016/j.ijhydene.2012.08.071 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2012 TC:22 AU: Michler, Thorsten;San Marchi, Chris;Naumann, Joerg;Weber, Sebastian;Martin, Mauro;
6:15:2:3 On the physical differences between tensile testing of type 304 and 316 austenitic stainless steels with internal hydrogen and in external hydrogen
DOI:10.1016/j.ijhydene.2010.06.018 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2010 TC:7 AU: Marchi, C. San;Michler, T.;Nibur, K. A.;Somerday, B. P.;
6:15:2:4 Development of a stable high-aluminum austenitic stainless steel for hydrogen applications
DOI:10.1016/j.ijhydene.2013.02.127 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2013 TC:8 AU: Martin, M.;Weber, S.;Theisen, W.;Michler, T.;Naumann, J.;
6:15:2:5 Effect of alloying elements on hydrogen environment embrittlement of AISI type 304 austenitic stainless steel
DOI:10.1016/j.ijhydene.2011.09.013 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2011 TC:12 AU: Martin, M.;Weber, S.;Theisen, W.;Michler, T.;Naumann, J.;
6:15:2:6 Analysis of martensitic transformation in 304 type stainless steels tensile tested in high pressure hydrogen atmosphere by means of XRD and magnetic induction
DOI:10.1016/j.ijhydene.2011.11.080 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2012 TC:8 AU: Michler, Thorsten;Berreth, Karl;Naumann, Joerg;Sattler, Erich;
6:15:2:7 Impact of heat treatment on the mechanical properties of AISI 304L austenitic stainless steel in high-pressure hydrogen gas
DOI:10.1007/s10853-012-6526-8 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:5 AU: Weber, Sebastian;Martin, Mauro;Theisen, Werner;
6:15:2:8 Hydrogen embrittlement of Cr-Mn-N-austenitic stainless steels
DOI:10.1016/j.ijhydene.2009.10.050 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2010 TC:18 AU: Michler, Thorsten;Naumann, Joerg;
6:15:2:9 Influence of low temperature prestrain on hydrogen gas embrittlement of metastable austenitic stainless steels
DOI:10.1016/j.ijhydene.2013.01.011 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2013 TC:7 AU: Zhang, Lin;Li, Zhiyuan;Zheng, Jinyang;Zhao, Yongzhi;Xu, Ping;Liu, Xianxin;Zhou, Chilou;Li, Xiao;
6:15:2:10 A thermodynamic approach for the development of austenitic steels with a high resistance to hydrogen gas embrittlement
DOI:10.1016/j.ijhydene.2013.08.133 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2013 TC:0 AU: Martin, M.;Weber, S.;Theisen, W.;
6:15:2:11 Hydrogen embrittlement of catholically hydrogen-precharged 304L austenitic stainless steel: Effect of plastic pre-strain
DOI:10.1016/j.ijhydene.2014.04.122 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2014 TC:2 AU: Wang, Yanfei;Wang, Xiaowei;Gong, Jianming;Shen, Limin;Dong, Weinan;
6:15:2:12 Lean-alloyed austenitic stainless steel with high resistance against hydrogen environment embrittlement
DOI:10.1016/j.msea.2011.06.049 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:4 AU: Weber, S.;Martin, M.;Theisen, W.;
6:15:2:13 Hydrogen environment embrittlement of solution treated Fe-Cr-Ni super alloys
DOI:10.1016/j.msea.2014.03.134 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Michler, Thorsten;Naumann, Jorg;Balogh, Michael P.;
6:15:2:14 Hydrogen-induced transformation superplasticity in zirconium
DOI:10.1016/j.ijhydene.2010.03.088 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2010 TC:6 AU: Hong, Eunji;Dunand, David C.;Choe, Heeman;
6:15:2:15 S-N fatigue properties of a stable high-aluminum austenitic stainless steel for hydrogen applications
DOI:10.1016/j.ijhydene.2013.05.145 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2013 TC:0 AU: Michler, Thorsten;Naumann, Joerg;Weber, Sebastian;Martin, Mauro;Pargeter, Richard;
6:15:2:16 Influence of gaseous hydrogen on the tensile properties of Fe-36Ni INVAR alloy
DOI:10.1016/j.ijhydene.2014.05.133 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2014 TC:0 AU: Michler, Thorsten;
6:15:2:17 Highly sensitive secondary ion mass spectrometric analysis of time variation of hydrogen spatial distribution in austenitic stainless steel at room temperature in vacuum
DOI:10.1016/j.ijhydene.2013.10.116 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2014 TC:0 AU: Awane, Tohru;Fukushima, Yoshihiro;Matsuo, Takashi;Murakami, Yukitaka;Miwa, Shiro;
6:15:2:18 SIMS study on the surface chemistry of stainless steel AISI 304 cylindrical tensile test samples showing hydrogen embrittlement
DOI:10.1016/j.jallcom.2010.12.143 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:5 AU: Izawa, C.;Wagner, S.;Martin, M.;Weber, S.;Bourgeon, A.;Pargeter, R.;Michler, T.;Pundt, A.;
6:15:2:19 SIMS analysis on austenitic stainless steel: The influence of type of oxide surface layer on hydrogen embrittlement
DOI:10.1016/j.jallcom.2013.02.153 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:2 AU: Izawa, C.;Wagner, S.;Martin, M.;Weber, S.;Pargeter, R.;Michler, T.;Uchida, H. H.;Pundt, A.;
6:15:2:20 Effects of Hydrogen Diffusion on the Mechanical Properties of Austenite 316L Steel at Ambient Temperature
DOI:10.2320/matertrans.M2010273 JN:MATERIALS TRANSACTIONS PY:2011 TC:4 AU: Kim, Yunsung;Kim, Youngsuk;Kim, Daewhan;Kim, Sungsoo;Nam, Wonjong;Choe, Heeman;
6:15:2:21 Influence of copper as an alloying element on hydrogen environment embrittlement of austenitic stainless steel
DOI:10.1016/j.ijhydene.2012.06.058 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2012 TC:2 AU: Michler, Thorsten;Naumann, Joerg;Sattler, Erich;
6:15:2:22 Hydrogen compatibility of austenitic stainless steel tubing and orbital tube welds
DOI:10.1016/j.ijhydene.2014.03.229 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2014 TC:0 AU: Hughes, Lauren A.;Somerday, Brian P.;Balch, Dorian K.;Marchi, Chris San;
6:15:2:23 Effects of hydrogen on tensile properties and fracture surface morphologies of Type 316L stainless steel
DOI:10.1016/j.ijhydene.2013.12.099 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2014 TC:3 AU: Matsuo, Takashi;Yamabe, Junichiro;Matsuoka, Saburo;
6:15:2:24 Role of strain-induced martensite on microstructural evolution during annealing of metastable austenitic stainless steel
DOI:10.1007/s10853-009-4020-8 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:3 AU: Kumar, B. Ravi;Das, S. K.;Mahato, B.;Ghosh, R. N.;
6:15:3:1 Hydrogen embrittlement of ferritic steels: Observations on deformation microstructure, nanoscale dimples and failure by nanovoiding
DOI:10.1016/j.actamat.2012.06.014 JN:ACTA MATERIALIA PY:2012 TC:20 AU: Neeraj, T.;Srinivasan, R.;Li, Ju;
6:15:3:2 Interpreting hydrogen-induced fracture surfaces in terms of deformation processes: A new approach
DOI:10.1016/j.actamat.2011.03.002 JN:ACTA MATERIALIA PY:2011 TC:33 AU: Martin, M. L.;Robertson, I. M.;Sofronis, P.;
6:15:3:3 On the formation and nature of quasi-cleavage fracture surfaces in hydrogen embrittled steels
DOI:10.1016/j.actamat.2010.11.024 JN:ACTA MATERIALIA PY:2011 TC:33 AU: Martin, May L.;Fenske, Jamey A.;Liu, Grace S.;Sofronis, Petros;Robertson, Ian M.;
6:15:3:4 Hydrogen-induced intergranular failure in nickel revisited
DOI:10.1016/j.actamat.2012.01.040 JN:ACTA MATERIALIA PY:2012 TC:25 AU: Martin, M. L.;Somerday, B. P.;Ritchie, R. O.;Sofronis, P.;Robertson, I. M.;
6:15:3:5 Hydrogen trapping sites and hydrogen-induced cracking in high strength quenching & partitioning (Q&P) treated steel
DOI:10.1016/j.ijhydene.2014.06.079 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2014 TC:4 AU: Zhu, Xu;Li, Wei;Zhao, Hon Gshan;Wang, Li;Jin, Xuejun;
6:15:3:6 The role of hydrogen in hydrogen embrittlement fracture of lath martensitic steel
DOI:10.1016/j.actamat.2012.06.040 JN:ACTA MATERIALIA PY:2012 TC:21 AU: Nagao, Akihide;Smith, Cynthia D.;Dadfarnia, Mohsen;Sofronis, Petros;Robertson, Ian M.;
6:15:3:7 Effects of cryogenic and tempered treatment on the hydrogen embrittlement susceptibility of TRIP-780 steels
DOI:10.1016/j.ijhydene.2013.05.113 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2013 TC:5 AU: Zhu, Xu;Li, Wei;Zhao, Hongshan;Jin, Xuejun;
6:15:3:8 The evolved microstructure ahead of an arrested fatigue crack in Haynes 230
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6:15:3:9 Dependence of hydrogen-induced lattice defects and hydrogen embrittlement of cold-drawn pearlitic steels on hydrogen trap state, temperature, strain rate and hydrogen content
DOI:10.1016/j.actamat.2014.07.008 JN:ACTA MATERIALIA PY:2014 TC:1 AU: Doshida, Tomoki;Takai, Kenichi;
6:15:3:10 The effect of nanosized (Ti,Mo)C precipitates on hydrogen embrittlement of tempered lath martensitic steel
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6:15:3:11 Hydrogen embrittlement of austenitic stainless steels revealed by deformation microstructures and strain-induced creation of vacancies
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6:15:3:12 Interpreting hydrogen-induced fracture surfaces in terms of deformation processes: A new approach
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6:15:3:13 Hydrogen-enhanced lattice defect formation and hydrogen embrittlement of cyclically prestressed tempered martensitic steel
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6:15:3:14 Effect of deformation on hydrogen trapping and effusion in TRIP-assisted steel
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6:15:3:15 A micromechanical image-based model for the featureless zone of a Fe-Ni dissimilar weld
DOI:10.1080/14786435.2014.886023 JN:PHILOSOPHICAL MAGAZINE PY:2014 TC:1 AU: Barrera, O.;Tarleton, E.;Cocks, A. C. F.;
6:15:3:16 Computational modelling of hydrogen embrittlement in welded structures
DOI:10.1080/14786435.2013.785638 JN:PHILOSOPHICAL MAGAZINE PY:2013 TC:2 AU: Barrera, O.;Cocks, A. C. F.;
6:15:3:17 Mechanical properties and fracture behavior of hydrogen charged AHSS/UHSS grades at high- and low strain rate tests
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6:15:3:18 Elucidating the variables affecting accelerated fatigue crack growth of steels in hydrogen gas with low oxygen concentrations
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6:15:3:19 Microscopic characterization of hydrogen-induced quasi-brittle fatigue fracture in low-strength carbon steel
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6:15:4:1 First-principles studies of hydrogen behavior interacting with oxygen-enriched nanostructured particles in the ODS steels
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6:15:4:2 Configuration and binding energy of multiple hydrogen atoms trapped in monovacancy in bcc transition metals
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6:15:4:3 Unified mechanism for hydrogen trapping at metal vacancies
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6:15:4:4 Hydrogen-induced interactions in vanadium from first-principles calculations
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6:15:4:5 Dissolving, trapping and detrapping mechanisms of hydrogen in bcc and fcc transition metals
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6:15:4:6 Stress release and defect occurrence in V-1_Fe-x(x) films upon hydrogen loading: H-induced superabundant vacancies, movement and creation of dislocations
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6:15:4:7 Self-consistent embedding quantum mechanics/molecular mechanics method with applications to metals
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6:15:4:8 Quantum mechanical modeling of hydrogen assisted cracking in aluminum
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6:15:4:9 Activation volume and density of mobile dislocations in hydrogen-charged iron
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6:15:4:10 Trapping of multiple hydrogen atoms in a tungsten monovacancy from first principles
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6:15:4:11 Strain field of interstitial hydrogen atom in body-centered cubic iron and its effect on hydrogen-dislocation interaction
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6:15:4:12 Hydrogen-induced superabundant vacancy formation in bcc Fe: Monte Carlo simulation
DOI:10.1016/j.actamat.2013.12.041 JN:ACTA MATERIALIA PY:2014 TC:2 AU: Sugimoto, Hidehiko;Fukai, Yuh;
6:15:4:13 Rational design of Nb-based alloys for hydrogen separation: A first principles study
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6:15:4:14 Hydrogen solution in tetrahedral or octahedral interstitial sites in Al
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6:15:4:15 Improvement of hydrogen uptake in iron and vanadium matrices by doping with 3d atomic impurities
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6:15:4:16 Retention of Hydrogen Isotopes in Neutron Irradiated Tungsten
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6:15:5:1 A nanoscale mechanism of hydrogen embrittlement in metals
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6:15:5:2 First-principles study on the interaction of H interstitials with grain boundaries in alpha- and gamma-Fe
DOI:10.1103/PhysRevB.84.144121 JN:PHYSICAL REVIEW B PY:2011 TC:15 AU: Du, Yaojun A.;Ismer, Lars;Rogal, Jutta;Hickel, Tilmann;Neugebauer, Joerg;Drautz, Ralf;
6:15:5:3 Hydrogen-enhanced local plasticity at dilute bulk H concentrations: The role of H-H interactions and the formation of local hydrides
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6:15:5:4 Atomic-scale investigation of point defects and hydrogen-solute atmospheres on the edge dislocation mobility in alpha iron
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6:15:5:5 Atomistic modelling of hydrogen segregation to the Sigma 9{221}[110] symmetric tilt grain boundary in Al
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6:15:5:6 Hydrogen-enhanced vacancy embrittlement of grain boundaries in iron
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6:15:5:7 Atomistic simulations of the interactions of hydrogen with dislocations in fcc metals
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6:15:5:8 Diffusion of hydrogen within idealized grains of bcc Fe: A kinetic Monte Carlo study
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6:15:5:9 Atomistic Study of Hydrogen Effect on Dislocation Nucleation at Crack Tip
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6:15:5:10 Effect of rare-earth ions doped in BaCeO3 on chemical stability, mechanical properties, and conductivity properties
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6:15:5:11 Dislocation emission from a crack under mixed mode loading studied by molecular statics
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6:15:6:1 Hydrogen diffusion and hydrogen influenced critical stress intensity in an API X70 pipeline steel welded joint - Experiments and FE simulations
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6:15:6:2 Hydrogen embrittlement susceptibility of a high strength steel X80
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6:15:6:3 3D modeling of the hydrogen distribution in X80 pipeline steel welded joints
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6:15:6:4 Hydrogen effect on fracture toughness of pipeline steel welds, with in situ hydrogen charging
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6:15:6:5 Effects of pressure and purity on the hydrogen embrittlement of steels
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6:15:6:6 Recommendations on X80 steel for the design of hydrogen gas transmission pipelines
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6:15:6:7 An effective finite element model for the prediction of hydrogen induced cracking in steel pipelines
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6:15:6:8 Quantifying the hydrogen embrittlement of pipeline steels for safety considerations
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6:15:6:9 Evaluation of electrochemical hydrogen absorption in welded pipe with steel API X52
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6:15:6:10 3D cohesive modelling of hydrogen embrittlement in the heat affected zone of an X70 pipeline steel
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6:15:6:11 Hydrogen effect on a low carbon ferritic-bainitic pipeline steel
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6:15:6:12 Hydrogen embrittlement of super duplex stainless steel in acid solution
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6:15:6:13 A quantitative description on fracture toughness of steels in hydrogen gas
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6:15:6:14 Hydrogen embrittlement susceptibility of a weld simulated X70 heat affected zone under H-2 pressure
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6:15:6:15 3D cohesive modelling of hydrogen embrittlement in the heat affected zone of an X70 pipeline steel - Part II
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6:15:6:16 Hydrogen distribution and hydrogen cracking susceptibility of a martensitic-austenitic steel welding wire
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6:15:6:17 Welding heat input effect on the hydrogen permeation in the X80 steel welded joints
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6:15:7:1 Evaluation of hydrogen induced cracking behavior of API X70 pipeline steel at different heat treatments
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6:15:7:2 Effect of microstructure and inclusions on hydrogen induced cracking susceptibility and hydrogen trapping efficiency of X120 pipeline steel
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6:15:7:3 2D modelling of the effect of grain size on hydrogen diffusion in X70 steel
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6:15:7:4 Effect of manganese content and microstructure on the susceptibility of X70 pipeline steel to hydrogen cracking
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6:15:7:5 Effect of microstructure and composition on hydrogen permeation in X70 pipeline steels
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6:15:7:6 Hydrogen induced cracking susceptibility in different layers of a hot rolled X70 pipeline steel
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6:15:7:7 Hydrogen-induced cracking susceptibility and hydrogen trapping efficiency of different microstructure X80 pipeline steel
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6:15:7:8 Effect of bainitic microstructure on the susceptibility of pipeline steels to hydrogen induced cracking
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6:15:7:9 Effect of non-metallic inclusions on hydrogen-induced cracking of API5L X100 steel
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6:15:7:10 Effect of microstructure on hydrogen diffusion and trapping in a modified 9%Cr-1%Mo steel
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6:15:7:11 Microstructure, mechanical properties and hydrogen induced cracking susceptibility of X80 pipeline steel with reduced Mn content
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6:15:7:12 Measurement of lattice and apparent diffusion coefficient of hydrogen in X65 and F22 pipeline steels
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6:15:7:13 Determination of apparent diffusivity of hydrogen in 9Cr-1MoVNbN steel using hot extraction-PEMHS technique
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6:15:7:14 Hydrogen diffusion into three metallurgical microstructures of a C-Mn X65 and low alloy F22 sour service steel pipelines
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6:15:7:15 A critical review of mathematical models used to determine the density of hydrogen trapping sites in steels and alloys
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6:15:7:16 Experimental determination of parameters of multichannel hydrogen diffusion in solid probe
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6:15:7:17 Finite element analysis of the grain size effect on diffusion in polycrystalline materials
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6:15:7:18 Sulfide stress cracking resistance of the welded WDL690D HSLA steel in H2S environment
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6:15:7:19 Effect of H2S partial pressure on the tensile properties of A350LF2 steel in the absence and presence of pre-immersion
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6:15:8:1:1 Alloying effects of Ru and W on hydrogen diffusivity during hydrogen permeation through Nb-based hydrogen permeable membranes
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6:15:8:1:2 Relationship between hydrogen permeation and microstructure in Nb-TiNi two-phase alloys
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6:15:8:1:3 A comparison of the performance and stability of Pd/BCC metal composite membranes for hydrogen purification
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6:15:8:1:4 Hydrogen solubility and permeability of Nb-W-Mo alloy membrane
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6:15:8:1:5 Microstructural analysis of thermal degradation of palladium-coated niobium membrane
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6:15:8:1:6 Design of Nb-W-Mo alloy membrane for hydrogen separation and purification
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6:15:8:1:7 Dense Carbide/Metal Composite Membranes for Hydrogen Separations Without Platinum Group Metals
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6:15:8:2:1 V-W alloy membranes for hydrogen purification
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6:15:8:2:2 Hydrogen transport properties of several vanadium-based binary alloys
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6:15:8:2:3 Origin of hydrogen embrittlement in vanadium-based hydrogen separation membranes
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6:15:8:2:4 Suppression of the critical temperature in binary vanadium hydrides
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6:15:8:2:5 Vanadium alloy membranes for high hydrogen permeability and suppressed hydrogen embrittlement
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6:15:8:2:6 Consistent description of hydrogen permeability through metal membrane based on hydrogen chemical potential
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6:15:8:2:7 Hydrogen solubility and permeability of V-W-Mo alloy membrane for hydrogen separation and purification
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6:15:8:3:1 Design of sustainable V-based hydrogen separation membranes based on grain boundary segregation
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6:15:8:3:2 High-performance boron-doped vanadium-aluminum alloy membranes for hydrogen separation
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6:15:8:3:3 The effect of temperature and pressure on the hydrogen permeation through Pd-coated Ti26Ni21V53 alloy membrane under different atmospheres
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6:15:8:3:4 Hydrogen permeation properties of Pd-coated V89.8Cr10Y0.2 alloy membrane using WGS reaction gases
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6:15:8:4:1 Improvement of high temperature stability of Pd coating on Ta by HfN intermediate layer
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6:15:8:4:2 Hydrogen permeation through the Pd-Nb-Pd composite membrane: Surface effects and thermal degradation
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6:15:8:4:3 Substitutional V-Pd alloys for the membranes permeable to hydrogen: Hydrogen solubility at 150-400 degrees C
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6:15:9:1 Binding of HenV clusters to alpha-Fe grain boundaries
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6:15:9:2 Binding energetics of substitutional and interstitial helium and di-helium defects with grain boundary structure in alpha-Fe
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6:15:9:3 Energetic landscape and diffusion of He in alpha-Fe grain boundaries from first principles
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6:15:9:4 Energetic driving force for preferential binding of self-interstitial atoms to Fe grain boundaries over vacancies
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6:15:9:5 Structure of nanoscale gas bubbles in metals
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6:15:9:6 Effect of Cr precipitates and He bubbles on the strength of < 1 1 0 > tilt grain boundaries in BCC Fe: An atomistic study
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6:15:9:7 Phase-field modeling of temperature gradient driven pore migration coupling with thermal conduction
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6:15:9:8 Implementation of a new Fe-He three-body interatomic potential for molecular dynamics simulations
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6:15:9:9 Atomistic studies of helium defect properties in bcc iron: Comparison of He-Fe potentials
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6:15:9:10 Phase-field simulation of void migration in a temperature gradient
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6:15:9:11 Dimensionality of interstitial He migration in < 1 1 0 > tilt grain boundaries in alpha-Fe
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6:15:9:12 Aluminum and vacancies in alpha-iron: Dissolution, diffusion, and clustering
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6:15:9:13 Atomistic simulations of void migration under thermal gradient in UO2
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6:15:9:14 Asymptotic and uncertainty analyses of a phase field model for void formation under irradiation
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6:15:10:1 Interplay between hydrogen and vacancies in alpha-Fe
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6:15:10:2 First-principles energetics of hydrogen traps in alpha-Fe: Point defects
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6:15:10:3 Hydrogen embrittlement of a carbon segregated Sigma 5(310)[001] symmetrical tilt grain boundary in alpha-Fe
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6:15:10:4 Ab initio study of the modification of elastic properties of alpha-iron by hydrostatic strain and by hydrogen interstitials
DOI:10.1016/j.actamat.2011.03.041 JN:ACTA MATERIALIA PY:2011 TC:10 AU: Psiachos, D.;Hammerschmidt, T.;Drautz, R.;
6:15:10:5 Ab initio study of the interaction of H with substitutional solute atoms in alpha-Fe: Trends across the transition-metal series
DOI:10.1016/j.commatsci.2012.06.020 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:3 AU: Psiachos, D.;Hammerschmidt, T.;Drautz, R.;
6:15:10:6 Binding of multiple H atoms to solute atoms in bcc Fe using first principles
DOI:10.1016/j.actamat.2011.05.058 JN:ACTA MATERIALIA PY:2011 TC:8 AU: Counts, W.;Wolverton, C.;Gibala, R.;
6:15:10:7 Ab initio molecular dynamics simulation of hydrogen diffusion in alpha-iron
DOI:10.1103/PhysRevB.81.132102 JN:PHYSICAL REVIEW B PY:2010 TC:10 AU: Sanchez, J.;Fullea, J.;Andrade, M. C.;de Andres, P. L.;
6:15:10:8 Interatomic potentials for hydrogen in alpha-iron based on density functional theory (vol 79, 174101, 2009)
DOI:10.1103/PhysRevB.81.099902 JN:PHYSICAL REVIEW B PY:2010 TC:4 AU: Ramasubramaniam, Ashwin;Itakura, Mitsuhiro;Carter, Emily A.;
6:15:11:1 Hydrogen in tungsten: Absorption, diffusion, vacancy trapping, and decohesion
DOI:10.1557/JMR.2010.0036 JN:JOURNAL OF MATERIALS RESEARCH PY:2010 TC:44 AU: Johnson, Donald F.;Carter, Emily A.;
6:15:11:2 Adsorption and penetration of hydrogen in W: A first principles study
DOI:10.1016/j.commatsci.2011.02.036 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:7 AU: Moitra, Amitava;Solanki, Kiran;
6:15:11:3 First-principles investigation on diffusion and permeation behaviors of hydrogen isotopes in molybdenum
DOI:10.1016/j.commatsci.2011.11.002 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:3 AU: Liu, Yue-Lin;Jin, Shuo;Sun, Lu;Duan, C.;
6:15:11:4 Diffusion of hydrogen in bcc tungsten studied with first principle calculations
DOI:10.1063/1.3386515 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:37 AU: Heinola, K.;Ahlgren, T.;
6:15:11:5 Hydrogen interaction with point defects in tungsten
DOI:10.1103/PhysRevB.82.094102 JN:PHYSICAL REVIEW B PY:2010 TC:34 AU: Heinola, K.;Ahlgren, T.;Nordlund, K.;Keinonen, J.;
6:15:11:6 Bond-order potential for point and extended defect simulations in tungsten
DOI:10.1063/1.3298466 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:29 AU: Ahlgren, T.;Heinola, K.;Juslin, N.;Kuronen, A.;
6:15:11:7 Characterization of tungsten films and their hydrogen permeability
DOI:10.1116/1.4898061 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY A PY:2014 TC:1 AU: Nemanic, Vincenc;Kovac, Janez;Lungu, Cristian;Porosnicu, Corneliu;Zajec, Bojan;
6:15:11:8 First-principles study of H on the reconstructed W(100) surface
DOI:10.1103/PhysRevB.81.073409 JN:PHYSICAL REVIEW B PY:2010 TC:15 AU: Heinola, K.;Ahlgren, T.;
6:15:11:9 Hydrogen storage in Al and Ti dispersed on graphene with boron substitution: First-principles calculations
DOI:10.1016/j.commatsci.2010.02.016 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2010 TC:12 AU: Park, Hong-Lae;Chung, Yong-Chae;
6:15:11:10 Channeling of low-energy ions on hydrogen-covered single-crystal surfaces
DOI:10.1103/PhysRevB.85.115422 JN:PHYSICAL REVIEW B PY:2012 TC:1 AU: Kolasinski, Robert D.;Bartelt, Norman C.;Whaley, Josh A.;Felter, Thomas E.;
6:15:11:11 Temperature dependence of D atom adsorption on polycrystalline tungsten
DOI:10.1016/j.apsusc.2013.05.157 JN:APPLIED SURFACE SCIENCE PY:2013 TC:2 AU: Markelj, Sabina;Ogorodnikova, Olga V.;Pelicon, Primoz;Schwarz-Selinger, Thomas;Cadez, Iztok;
6:15:11:12 Modelling of monovacancy diffusion in W over wide temperature range
DOI:10.1063/1.4869497 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:2 AU: Bukonte, L.;Ahlgren, T.;Heinola, K.;
6:15:11:13 Strongly Reduced Penetration of Atomic Deuterium in Radiation-Damaged Tungsten
DOI:10.1103/PhysRevLett.111.225001 JN:PHYSICAL REVIEW LETTERS PY:2013 TC:1 AU: 't Hoen, M. H. J.;Mayer, M.;Kleyn, A. W.;van Emmichoven, P. A. Zeijlmans;
6:15:11:14 Hydrogen hardening effect in heavily deformed single crystal alpha-Fe
DOI:10.1016/j.commatsci.2011.06.036 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:3 AU: Xie, Wenbo;Liu, Xiaoyang;Chen, Weixing;Zhang, Hao;
6:15:11:15 Investigating behaviors of H in a W single crystal by first-principles: From solubility to interaction with vacancy
DOI:10.1016/j.jallcom.2011.03.117 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:13 AU: Liu, Yue-Lin;Zhou, Hong-Bo;Zhang, Ying;
6:15:11:16 Transport of hydrogen in metals with occupancy dependent trap energies
DOI:10.1063/1.4896580 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:2 AU: Schmid, K.;von Toussaint, U.;Schwarz-Selinger, T.;
6:15:12:1 Hydrogen-induced cracking and service safety evaluation for precipitation strengthened austenitic stainless steel as hydrogen storage tank
DOI:10.1016/j.ijhydene.2014.08.143 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2014 TC:1 AU: Yan, Yingjie;Yan, Yu;He, Yang;Li, Jinxu;Su, Yanjing;Qiao, Lijie;
6:15:12:2 Hydrogen-induced cracking behavior of twin boundary in gamma ' phase strengthened Fe-Ni based austenitic alloys
DOI:10.1016/j.msea.2012.10.069 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:8 AU: Chen, Shenghu;Zhao, Mingjiu;Rong, Lijian;
6:15:12:3 Mechanism of hydrogen embrittlement in a gamma-prime phase strengthened Fe-Ni based austenitic alloy
DOI:10.1016/j.msea.2012.06.036 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:10 AU: Guo, Zifeng;Zhao, Mingjiu;Li, Caifu;Chen, Shenghu;Rong, Lijian;
6:15:12:4 Effect of boron on the microstructure, mechanical properties and hydrogen performance in a modified A286
DOI:10.1016/j.msea.2010.05.070 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:14 AU: Zhao, M. J.;Guo, Z. F.;Liang, H.;Rong, L. J.;
6:15:12:5 Effect of grain size on the hydrogen embrittlement sensitivity of a precipitation strengthened Fe-Ni based alloy
DOI:10.1016/j.msea.2013.11.062 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Chen, Shenghu;Zhao, Mingjiu;Rong, Lijian;
6:15:12:6 Hydrogen diffusion and trapping in a precipitation-hardened nickel-copper-aluminum alloy Monel K-500 (UNS N05500)
DOI:10.1016/j.actamat.2013.02.007 JN:ACTA MATERIALIA PY:2013 TC:8 AU: Ai, Jia-He;Ha, Hung M.;Gangloff, Richard P.;Scully, John R.;
6:15:12:7 Effect of grain size on mechanical electrochemical and hydrogen embrittlement behaviour of a micro-alloy steel
DOI:10.1016/j.msea.2012.09.011 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:1 AU: Ghosh, K. S.;Mondal, D. K.;
6:15:12:8 Effect of Ti content on the microstructure and mechanical properties of electron beam welds in Fe-Ni based alloys
DOI:10.1016/j.msea.2013.02.001 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:6 AU: Chen, Shenghu;Zhao, Mingjiu;Rong, Lijian;
6:15:12:9 Influence of hydrogen content on the tensile properties and fracture of austenitic stainless steel welds
DOI:10.1016/j.ijhydene.2012.11.016 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2013 TC:6 AU: Younes, C. M.;Steele, A. M.;Nicholson, J. A.;Barnett, C. J.;
6:15:12:10 Effect of boron addition on hydrogen embrittlement sensitivity in Fe-Ni based alloys
DOI:10.1016/j.msea.2010.06.073 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:11 AU: Guo, Zifeng;Liang, Hao;Zhao, Mingjiu;Rong, Lijian;
6:15:12:11 Microstructure effect on hydrogen-induced cracking in TM210 maraging steel
DOI:10.1016/j.msea.2013.07.097 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: Wang, Gang;Yan, Yu;Li, Jinxu;Huang, Jingyu;Qiao, Lijie;Volinsky, Alex A.;
6:15:12:12 Applicability of the Kissinger's formula and comparison with the McNabb-Foster model in simulation of thermal desorption spectrum
DOI:10.1016/j.commatsci.2011.07.009 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:7 AU: Wei, Fu-Gao;Enomoto, Masato;Tsuzaki, Kaneaki;
6:15:12:13 Effect of prior deformation on internal friction in a Fe-Ni based austenitic alloy
DOI:10.1016/j.matlet.2013.02.002 JN:MATERIALS LETTERS PY:2013 TC:0 AU: Li, Zhongwen;Hu, Xiaofeng;Zhao, Mingjiu;Rong, Lijian;
6:15:13:1 The effect of pre-strain on hydrogen embrittlement in 310S stainless steel
DOI:10.1016/j.jallcom.2014.02.038 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:6 AU: Ji, Hyunju;Park, Il-Jeong;Lee, Sang-Min;Lee, Young-Kook;
6:15:13:2 The Effect of Pre-Strain on the Resistance to Hydrogen Embrittlement in 316L Austenitic Stainless Steel
DOI:10.2320/matertrans.M2014036 JN:MATERIALS TRANSACTIONS PY:2014 TC:3 AU: Park, Il-Jeong;Jung, Jae-Gil;Jo, Seo Yeon;Lee, Sang-Min;Lee, Young-Kook;
6:15:13:3 Effect of strain-induced martensite on hydrogen embrittlement of austenitic stainless steels investigated by combined tension and hydrogen release methods
DOI:10.1016/j.ijhydene.2013.01.198 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2013 TC:8 AU: Zhang, Lin;Li, Zhiyuan;Zheng, Jinyang;Zhao, Yongzhi;Xu, Ping;Zhou, Chilou;Li, Xiao;
6:15:13:4 Highly improved with hydrogen storage capacity and fast kinetics in Mg-based nanocomposites by CNTs
DOI:10.1016/j.jallcom.2013.02.062 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:8 AU: Chen, Bin-Hao;Kuo, Chia-Hung;Ku, Jie-Ren;Yan, Pei-Shan;Huang, Chun-Ju;Jeng, Ming-Shan;Tsau, Fang-Hei;
6:15:13:5 Effect of pre-strain on hydrogen embrittlement of high strength steels
DOI:10.1016/j.msea.2014.07.085 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Li, Xinfeng;Wang, Yanfei;Zhang, Peng;Li, Bo;Song, Xiaolong;Chen, Jing;
6:15:13:6 Effect of nano-carbide formation on hydrogen-delayed fracture for quenching and tempering steels during high-frequency induction heat treatment
DOI:10.1016/j.msea.2012.02.008 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:5 AU: Kang, Hee Jae;Yoo, Jae Seok;Park, Ji Tae;Ahn, Soon Tae;Kang, Namhyun;Cho, Kyung-Mox;
6:15:13:7 Hydrogen effects on tensile property of pure iron with deformed surface
DOI:10.1016/j.msea.2012.09.075 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:5 AU: Wang, Shuai;Ohnuki, Somei;Hashimoto, Naoyuki;Chiba, Keisuke;
6:15:13:8 Kinetics of carbide formation for quenching and tempering steels during high-frequency induction heat treatment
DOI:10.1016/j.matchemphys.2011.04.026 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2011 TC:6 AU: Lee, Jin Beom;Kang, Namhyun;Park, Ji Tae;Ahn, Soon-Tae;Park, Yeong-Do;Choi, Il-Dong;Kim, Kwang-Ryul;Cho, Kyung-Mox;
6:15:14:1 First-principles study of the thermodynamics of hydrogen-vacancy interaction in fcc iron
DOI:10.1103/PhysRevB.82.224104 JN:PHYSICAL REVIEW B PY:2010 TC:24 AU: Nazarov, R.;Hickel, T.;Neugebauer, J.;
6:15:14:2 Ab initio study of H-vacancy interactions in fcc metals: Implications for the formation of superabundant vacancies
DOI:10.1103/PhysRevB.89.144108 JN:PHYSICAL REVIEW B PY:2014 TC:1 AU: Nazarov, R.;Hickel, T.;Neugebauer, J.;
6:15:14:3 Vacancy formation energies in fcc metals: Influence of exchange-correlation functionals and correction schemes
DOI:10.1103/PhysRevB.85.144118 JN:PHYSICAL REVIEW B PY:2012 TC:13 AU: Nazarov, R.;Hickel, T.;Neugebauer, J.;
6:15:14:4 Vacancy formation enthalpy of filled d-band noble metals by hybrid functionals
DOI:10.1103/PhysRevB.90.144105 JN:PHYSICAL REVIEW B PY:2014 TC:0 AU: Xing, Weiwei;Liu, Peitao;Cheng, Xiyue;Niu, Haiyang;Ma, Hui;Li, Dianzhong;Li, Yiyi;Chen, Xing-Qiu;
6:15:14:5 Ab initio study of the solubility and kinetics of hydrogen in austenitic high Mn steels
DOI:10.1103/PhysRevB.81.094111 JN:PHYSICAL REVIEW B PY:2010 TC:5 AU: Ismer, L.;Hickel, T.;Neugebauer, J.;
6:15:14:6 Solution enthalpy of hydrogen in fourth row elements: Systematic trends derived from first principles
DOI:10.1103/PhysRevB.85.155144 JN:PHYSICAL REVIEW B PY:2012 TC:3 AU: Aydin, U.;Ismer, L.;Hickel, T.;Neugebauer, J.;
6:15:14:7 Segregation of hydrogen to defects in nickel using first-principles calculations: The case of self-interstitials and cavities
DOI:10.1016/j.jallcom.2014.05.094 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:1 AU: Connetable, Damien;Wang, Yu;Tanguy, Doeme;
6:15:14:8 Nonlocal First-Principles Calculations in Cu-Au and Other Intermetallic Alloys
DOI:10.1103/PhysRevLett.112.075502 JN:PHYSICAL REVIEW LETTERS PY:2014 TC:1 AU: Zhang, Yongsheng;Kresse, Georg;Wolverton, C.;
6:15:15:1 Hydrogen permeation barrier - Recognition of defective barrier film from transient permeation rate
DOI:10.1016/j.ijhydene.2011.03.068 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2011 TC:14 AU: Zajec, Bojan;
6:15:15:2 Hydrogen embrittlement susceptibility of tempered 9%Cr-1% Mo steel
DOI:10.1016/j.ijhydene.2011.08.096 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2011 TC:13 AU: Marchetti, L.;Herms, E.;Laghoutaris, P.;Chene, J.;
6:15:15:3 Influence of silicon on hot-dip aluminizing process and subsequent oxidation for preparing hydrogen/tritium permeation barrier
DOI:10.1016/j.ijhydene.2009.04.033 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2010 TC:21 AU: Han, Shilei;Li, Hualing;Wang, Shumao;Jiang, Lijun;Liu, Xiaopeng;
6:15:15:4 Microstructure change and deuterium permeation behavior of the yttrium oxide coating prepared by MOCVD
DOI:10.1016/j.ijhydene.2014.10.009 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2014 TC:2 AU: Wu, Yunyi;He, Di;Li, Shuai;Liu, Xiaopeng;Wang, Shumao;Jiang, Lijun;
6:15:15:5 Stability of Y2O3 hydrogen isotope permeation barriers in hydrogen at high temperatures
DOI:10.1016/j.ijhydene.2013.01.110 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2013 TC:4 AU: Li, Qun;Liu, Jun;Lv, Wei-Ling;Mo, Li-Bin;Duan, Da-Wei;Gu, Hong-Wei;Ding, Fa-Zhu;Tang, Tao;Luo, De-Li;Cao, Jiang-Li;
6:15:15:6 Dynamics of hydrogen permeation across metallic membranes
DOI:10.1016/j.ijhydene.2012.11.021 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2013 TC:1 AU: Decaux, C.;Ngameni, R.;Ranjbari, A.;Grigoriev, S. A.;Millet, P.;
6:15:15:7 Determination of effective recombination coefficient by thermodesorption method
DOI:10.1016/j.ijhydene.2014.07.117 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2014 TC:0 AU: Zaika, Yu. V.;Kostikova, E. K.;
6:15:15:8 Time and frequency domain analysis of hydrogen permeation across PdCu metallic membranes for hydrogen purification
DOI:10.1016/j.ijhydene.2009.08.100 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2010 TC:10 AU: Decaux, C.;Ngameni, R.;Solas, D.;Grigoriev, S.;Millet, P.;
6:15:15:9 Influence of microstructure on the hydrogen permeation of alumina coatings
DOI:10.1016/j.ijhydene.2013.05.065 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2013 TC:2 AU: He, Di;Li, Shuai;Liu, Xiaopeng;Zhang, Chao;Yu, Qinghe;Lei, Yang;Wang, Shumao;Jiang, Lijun;
6:15:15:10 Hydrogen permeation through silicon nitride films
DOI:10.1016/j.jallcom.2012.05.110 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:2 AU: Nemanic, Vincenc;McGuiness, Paul J.;Daneu, Nina;Zajec, Bojan;Siketic, Zdravko;Waldhauser, Wolfgang;
6:15:15:11 One-dimensional simulation of hydrogen isotopes diffusion in composite materials by FVM
DOI:10.1016/j.ijhydene.2011.02.040 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2011 TC:1 AU: Song Jiangfeng;Huang Zhiyong;Li Lianxia;Chen Chang'an;Luo Deli;
6:15:15:12 Parametric identification of hydrogen permeability model by delay times and conjugate equations
DOI:10.1016/j.ijhydene.2010.07.099 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2011 TC:1 AU: Zaika, Yu. V.;Bormatova, Elena P.;
6:15:15:13 Sensitivity enhancement in hydrogen permeation measurements
DOI:10.1116/1.3442804 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY A PY:2010 TC:4 AU: Nemanic, Vincenc;Zajec, Bojan;Zumer, Marko;
6:15:15:14 Influence of hydrogen on the mechanical properties of some medium-strength Ni-Cr-Mo steels
DOI:10.1016/j.msea.2014.08.056 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:5 AU: Liu, Qian;Irwanto, Bartolomeus;Atrens, Andrej;
6:15:16:1 Combined thermal desorption spectroscopy, differential scanning calorimetry, scanning electron microscopy and X-ray diffraction study of hydrogen trapping in cold deformed TRIP steel
DOI:10.1016/j.actamat.2012.01.026 JN:ACTA MATERIALIA PY:2012 TC:20 AU: Escobar, D. Perez;Depover, T.;Duprez, L.;Verbeken, K.;Verhaege, M.;
6:15:16:2 Fatigue crack propagation under gaseous hydrogen in a precipitation-hardened martensitic stainless steel
DOI:10.1016/j.ijhydene.2011.04.094 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2011 TC:9 AU: Sun, Z.;Benoit, G.;Moriconi, C.;Hamon, F.;Halm, D.;Hamon, F.;Henaff, G.;
6:15:16:3 Analyses of hydrogen distribution around fatigue crack on type 304 stainless steel using secondary ion mass spectrometry
DOI:10.1016/j.ijhydene.2011.03.111 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2011 TC:9 AU: Saintier, N.;Awane, T.;Olive, J. M.;Matsuoka, S.;Murakami, Y.;
6:15:16:4 Effect of hydrogen charging on the mechanical properties of advanced high strength steels
DOI:10.1016/j.ijhydene.2013.12.190 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2014 TC:5 AU: Depover, T.;Escobar, D. Perez;Wallaert, E.;Zermout, Z.;Verbeken, K.;
6:15:16:5 Visualization of deuterium flux and grain boundary diffusion in duplex stainless steel and Fe-30 % Ni alloy, using secondary ion mass spectrometry equipped with a Ga focused ion beam
DOI:10.1007/s10853-013-7956-7 JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:0 AU: Tanaka, Tomohito;Kawakami, Kazuto;Hayashi, Shun-ichi;
6:15:16:6 Fatigue crack growth acceleration caused by irreversible hydrogen desorption in high-strength steel and its mechanical condition
DOI:10.1016/j.msea.2011.07.003 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:5 AU: Nakatani, M.;Fujihara, H.;Sakihara, M.;Minoshima, K.;
6:15:16:7 Investigations into the delayed fracture susceptibility of 34CrNiMo6 steel, and the opportunities for its application in ultra-high-strength bolts and fasteners
DOI:10.1016/j.msea.2013.10.019 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:4 AU: Kuduzovic, A.;Poletti, M. C.;Sommitsch, C.;Domankova, M.;Mitsche, S.;Kienreich, R.;
6:15:16:8 Evaluation of hydrogen trapping in high strength steels by thermal desorption spectroscopy
DOI:10.1016/j.msea.2012.04.078 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:10 AU: Escobar, D. Perez;Verbeken, K.;Duprez, L.;Verhaege, M.;
6:15:16:9 Hydrogen enhanced fatigue crack growth in an HSLA steel
DOI:10.1016/j.msea.2013.08.079 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:0 AU: Roy, Arijit;Manna, I.;Tarafder, S.;Sivaprasad, S.;Paswan, S.;Chattoraj, I.;
6:15:16:10 Hydrogen interactions with overload in modifying fatigue crack growth rate recovery in an HSLA steel
DOI:10.1016/j.msea.2013.04.098 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:0 AU: Roy, Arijit;Manna, I.;Tarafder, S.;Chattoraj, I.;
6:15:16:11 Hydrogen influence on the tensile properties of mono and multi-layer polymers for gas distribution
DOI:10.1016/j.ijhydene.2010.04.155 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2010 TC:6 AU: Castagnet, Sylvie;Grandidier, Jean-Claude;Comyn, Mathieu;Benoit, Guillaume;
6:15:17:1 Effect of electrotransport treatment on susceptibility of high-strength low alloy steel to hydrogen embrittlement
DOI:10.1016/j.ijhydene.2013.07.040 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2013 TC:3 AU: Park, Jin Seok;Nam, Tae Heum;Kim, Jong Sung;Kim, Jung Gu;
6:15:17:2 Graphene coating as a protective barrier against hydrogen embrittlement
DOI:10.1016/j.ijhydene.2014.05.132 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2014 TC:1 AU: Nam, Tae-Heum;Lee, Jung-Hun;Choi, Seok-Ryul;Yoo, Ji-Beom;Kim, Jung-Gu;
6:15:17:3 Hydrogen entry and absorption in ZrO2 coated iron studied by electrochemical permeation and desorption techniques
DOI:10.1016/j.ijhydene.2011.09.128 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2012 TC:8 AU: Voloshchuk, I.;Zakroczymski, T.;
6:15:17:4 Effects of Grain Size on Hydrogen Environment Embrittlement of High Strength Low Alloy Steel in 45 MPa Gaseous Hydrogen
DOI:10.2320/matertrans.M2009241 JN:MATERIALS TRANSACTIONS PY:2010 TC:11 AU: Takasawa, Koichi;Wada, Yoru;Ishigaki, Ryoji;Kayano, Rinzo;
6:15:17:5 Electrochemical hydrogen discharge of high-strength low alloy steel for high-pressure gaseous hydrogen storage tank: Effect of discharging temperature
DOI:10.1016/j.ijhydene.2012.10.100 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2013 TC:4 AU: Nam, Tae Heum;Kim, Jung Gu;Choi, Yoon Seok;
6:15:17:6 Effect of post-weld heat treatment on hydrogen-assisted cracking behavior of high-strength process pipe steel in a sour environment
DOI:10.1016/j.scriptamat.2012.08.021 JN:SCRIPTA MATERIALIA PY:2012 TC:5 AU: Kim, Sung Jin;Jung, Hwan Gyo;Kim, Kyoo Young;
6:15:17:7 Low-cycle fatigue behaviors of two heats of SA508 Gr.1a low alloy steel in 310 degrees C air and deoxygenated water-Effects of dynamic strain aging and microstructures
DOI:10.1016/j.msea.2013.05.049 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:3 AU: Jang, Hun;Kim, Jeong-Hyeon;Jang, Changheui;Lee, Jae Gon;Kim, Tae Soon;
6:15:17:8 Low cycle fatigue behavior of alloy 690 in simulated PWR water-Effects of dynamic strain aging and hydrogen
DOI:10.1016/j.msea.2014.05.069 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Hong, Jong-Dae;Lee, Junho;Jang, Changheui;Kim, Tae Soon;
6:15:18:1 Microstructural aspects upon hydrogen environment embrittlement of various bcc steels
DOI:10.1016/j.ijhydene.2009.10.092 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2010 TC:32 AU: Michler, Thorsten;Naumann, Joerg;
6:15:18:2 Hydrogenation method based on electrodeposited layers controlling the hydrogen desorption rate
DOI:10.1016/j.ijhydene.2014.08.019 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2014 TC:0 AU: Gaspard, V.;Delafosse, D.;
6:15:18:3 Hydrogen environment embrittlement of an ODS RAF steel - Role of irreversible hydrogen trap sites
DOI:10.1016/j.ijhydene.2010.06.071 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2010 TC:10 AU: Michler, Thorsten;Balogh, Michael P.;
6:15:18:4 Hydrogen trapping in high strength martensitic steel after austenitized at different temperatures
DOI:10.1016/j.ijhydene.2013.08.121 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2013 TC:1 AU: Liu, Yan;Wang, Maoqiu;Liu, Guoquan;
6:15:18:5 Effects of grain size and dislocation density on the susceptibility to high-pressure hydrogen environment embrittlement of high-strength low-alloy steels
DOI:10.1016/j.ijhydene.2011.10.099 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2012 TC:5 AU: Takasawa, Koichi;Ikeda, Ryo;Ishikawa, Noboru;Ishigaki, Ryoji;
6:15:18:6 Effect of microstructure on hydrogen embrittlement of various stainless steels
DOI:10.1016/j.msea.2013.07.004 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:5 AU: Lai, C. L.;Tsay, L. W.;Chen, C.;
6:15:18:7 Effect of hydrogen on plastic strain localization in single crystals of austenitic stainless steel
DOI:10.1016/j.scriptamat.2009.10.005 JN:SCRIPTA MATERIALIA PY:2010 TC:13 AU: Yagodzinskyy, Y.;Saukkonen, T.;Kilpelainen, S.;Tuomisto, F.;Hanninen, H.;
6:15:18:8 The role of induced alpha '-martensite on the hydrogen-assisted fatigue crack growth of austenitic stainless steels
DOI:10.1016/j.ijhydene.2014.04.144 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2014 TC:4 AU: Chen, T. C.;Chen, S. T.;Tsay, L. W.;
6:15:18:9 Determination of hydrogen diffusion and permeation coefficients in pure copper at near room temperature by means of tritium tracer techniques
DOI:10.1016/j.jallcom.2013.03.293 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:1 AU: Horinouchi, H.;Shinohara, M.;Otsuka, T.;Hashizume, K.;Tanabe, T.;
6:15:19:1 Dependence of the abnormal protective property on the corrosion product film formed on H2S-adjacent API-X52 pipeline steel
DOI:10.1016/j.ijhydene.2014.04.077 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2014 TC:3 AU: Zheng, Shuqi;Zhou, Chengshuang;Chen, Xingyang;Zhang, Lin;Zheng, Jinyang;Zhao, Yongzhi;
6:15:19:2 Fabrications and evaluations of hydrogen permeation on Al2O3/CeO2/graphene (ACG) composites membrane by Hot Press Sintering (HPS)
DOI:10.1016/j.ijhydene.2012.08.080 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2013 TC:3 AU: Lee, Na-Ri;Lee, Soo-Sun;Kim, Kyoeng-Il;Kim, Whan-Gi;Ju, Hyunchul;Kim, Dong Min;Hong, Tae-Whan;
6:15:19:3 Evaluations of hydrogen permeation on TiN-5 wt.%Ni membrane by spark plasma sintering
DOI:10.1016/j.ijhydene.2010.04.069 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2010 TC:5 AU: Kim, Kyeong-Il;Hong, Tae-Whan;
6:15:19:4 Low-temperature formation of alpha-alumina from various polyhydroxoaluminum-hydroxy acid composite gels
DOI:10.1016/j.ceramint.2010.08.035 JN:CERAMICS INTERNATIONAL PY:2011 TC:7 AU: Yamaguchi, Tomohiro;Mukouyama, Naoyuki;Fujita, Takayuki;Taruta, Seiichi;Kitajima, Kunio;
6:15:19:5 Hydrogen permeation on Al2O3-based nickel/cobalt composite membranes
DOI:10.1016/j.ijhydene.2010.04.076 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2010 TC:8 AU: Park, Jihee;Hong, Tae-Whan;Jung, Miewon;
6:15:19:6 Hydrogen permeation of TiN-graphene membrane by hot press sintering (HPS) process
DOI:10.1016/j.ssi.2012.06.003 JN:SOLID STATE IONICS PY:2012 TC:2 AU: Kim, K-I.;Hong, T-W.;
6:15:19:7 Investigation on hydrogen induced cracking behaviors of Ni-base alloy
DOI:10.1016/j.ijhydene.2011.01.123 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2011 TC:3 AU: Yao, Yuan;Pang, Xiaolu;Gao, Kewei;
6:15:19:8 Low-temperature mechanochemical-thermal synthesis of alpha-Al2O3 nanocrystals
DOI:10.1016/j.materresbull.2011.06.022 JN:MATERIALS RESEARCH BULLETIN PY:2011 TC:3 AU: Billik, P.;Caplovicova, M.;Turanyi, T.;Caplovic, L.;Horvath, B.;
6:15:19:9 Evaluation of hydrogen permeation on Al2O3-PZT composite membrane
DOI:10.1016/j.ssi.2012.03.022 JN:SOLID STATE IONICS PY:2012 TC:0 AU: Kim, Kyeong-Ii;Ju, Hyun-Chul;Kim, Dong-Min;Kim, Whan-Gi;Hong, Tae-Whan;
6:15:19:10 Microstructure and deuterium permeation resistance of the oxide scale prepared by initial oxidation method on vacuum solar receiver
DOI:10.1016/j.ssi.2012.11.004 JN:SOLID STATE IONICS PY:2013 TC:4 AU: Yu, Qinghe;Hao, Lei;Li, Shuai;He, Di;Liu, Xiaopeng;Jiang, Lijun;Wang, Shumao;
6:15:20:1 Recent Advances in the Study of Structural Materials Compatibility with Hydrogen
DOI:10.1002/adma.200904354 JN:ADVANCED MATERIALS PY:2010 TC:25 AU: Dadfarnia, M.;Novak, P.;Ahn, D. C.;Liu, J. B.;Sofronis, P.;Johnson, D. D.;Robertson, I. M.;
6:15:20:2 Performance of hydrogen trapping and phase transformation in hydrogenated duplex stainless steels
DOI:10.1016/j.msea.2010.04.016 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:16 AU: Dabah, E.;Lisitsyn, V.;Eliezer, D.;
6:15:20:3 Neutron radiography study of hydrogen desorption in technical iron
DOI:10.1007/s10853-011-5450-7 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:5 AU: Beyer, K.;Kannengiesser, T.;Griesche, A.;Schillinger, B.;
6:15:20:4 Three-dimensional imaging of hydrogen blister in iron with neutron tomography
DOI:10.1016/j.actamat.2014.06.034 JN:ACTA MATERIALIA PY:2014 TC:2 AU: Griesche, Axel;Dabah, Eitan;Kannengiesser, Thomas;Kardjilov, Nikolay;Hilger, Andre;Manke, Ingo;
6:15:20:5 The advantage of using in-situ methods for studying hydrogen mass transport: Neutron radiography vs. carrier gas hot extraction
DOI:10.1016/j.ijhydene.2013.08.145 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2013 TC:5 AU: Griesche, Axel;Solorzano, Eusebio;Beyer, Katrin;Kannengiesser, Thomas;
6:15:20:6 Ab initio study of the cubic-to-hexagonal phase transition promoted by interstitial hydrogen in iron
DOI:10.1103/PhysRevB.84.094101 JN:PHYSICAL REVIEW B PY:2011 TC:2 AU: Castedo, A.;Sanchez, J.;Fullea, J.;Andrade, M. C.;de Andres, P. L.;
6:15:20:7 Hydrogen absorption of different welded duplex steels
DOI:10.1016/j.ijhydene.2010.01.148 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2010 TC:10 AU: Brauser, S.;Kannengiesser, Th;
6:15:20:8 In situ synchrotron X-ray radiation analysis of hydrogen behavior in stainless steel subjected to continuous heating
DOI:10.1007/s10853-012-6489-9 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:0 AU: Dabah, E.;Kannengiesser, Th.;Eliezer, D.;Boellinghaus, Th.;
6:15:20:9 In situ analysis of hydrogen behaviour in stainless steels by high energy synchrotron radiation
DOI:10.1016/j.msea.2010.10.090 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:2 AU: Dabah, E.;Kannengiesser, Th;Eliezer, D.;Boellinghaus, Th;
6:15:20:10 Influence of hydrogen on microstructure and dynamic strength of lean duplex stainless steel
DOI:10.1007/s10853-014-8075-9 JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:1 AU: Silverstein, Ravit;Eliezer, Dan;Glam, Benny;Moreno, Daniel;Eliezer, Shalom;
6:15:21:1 Effect of high-pressure torsion on hydrogen trapping in Fe-0.01 mass% C and type 310S austenitic stainless steel
DOI:10.1016/j.actamat.2009.09.043 JN:ACTA MATERIALIA PY:2010 TC:23 AU: Mine, Yoji;Horita, Zenji;Murakami, Yukitaka;
6:15:21:2 Hydrogen Effects on Ultrafine-Grained Steels Processed by High-Pressure Torsion
DOI:10.2320/matertrans.M2011384 JN:MATERIALS TRANSACTIONS PY:2012 TC:6 AU: Mine, Yoji;Horita, Zenji;
6:15:21:3 Formation of superabundant vacancies in nano-Pd-H generated by high-pressure torsion
DOI:10.1016/j.scriptamat.2009.09.025 JN:SCRIPTA MATERIALIA PY:2010 TC:11 AU: Krystian, M.;Setman, D.;Mingler, B.;Krexner, G.;Zehetbauer, M. J.;
6:15:21:4 Grain-boundary diffusion and precipitate trapping of hydrogen in ultrafine-grained austenitic stainless steels processed by high-pressure torsion
DOI:10.1016/j.msea.2011.07.031 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:9 AU: Mine, Yoji;Tachibana, Kazutaka;Horita, Zenji;
6:15:21:5 Hydrogen trapping on lattice defects produced by high-pressure torsion in Fe-0.01 mass% C alloy
DOI:10.1016/j.scriptamat.2010.05.027 JN:SCRIPTA MATERIALIA PY:2010 TC:6 AU: Mine, Yoji;Tsumagari, Takayuki;Horita, Zenji;
6:15:22:1 Dislocation structure evolution and its effects on cyclic deformation response of AISI 316L stainless steel
DOI:10.1016/j.msea.2011.01.015 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:27 AU: Pham, M. S.;Solenthaler, C.;Janssens, K. G. F.;Holdsworth, S. R.;
6:15:22:2 Tensile behavior of hydrogen-charged 316L stainless steel at elevated temperatures
DOI:10.1016/j.msea.2013.12.011 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Choi, Myounggeun;Hou, Jixin;Mathis, Kristian;Kim, Youngsuk;Kim, Dae Whan;Kim, Sungsoo;Kwon, Hoon;Choe, Heeman;
6:15:22:3 Microscopic analysis of the influence of ratcheting on the evolution of dislocation structures observed in AISI 316L stainless steel during low cycle fatigue
DOI:10.1016/j.msea.2013.08.041 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:3 AU: Facheris, G.;Pham, M. -S.;Janssens, K. G. F.;Holdsworth, S. R.;
6:15:22:4 Dynamic strain ageing of AISI 316L during cyclic loading at 300 degrees C: Mechanism, evolution, and its effects
DOI:10.1016/j.msea.2012.06.067 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:11 AU: Pham, M. S.;Holdsworth, S. R.;
6:15:22:5 Study of dynamic strain aging in dual phase steel
DOI:10.1016/j.msea.2012.02.050 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:11 AU: Queiroz, R. R. U.;Cunha, F. G. G.;Gonzalez, B. M.;
6:15:22:6 Tensile deformation and fracture behavior of CuZn5 brass alloy at high temperature
DOI:10.1016/j.msea.2013.11.051 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Sharififar, M.;Mousavi, S. A. A. Akbari;
6:15:22:7 Disappearance and reappearance of serrated plastic flow under cyclic loading: A study of dislocation substructures
DOI:10.1016/j.msea.2014.02.064 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Rao, G. Sudhakar;Chakravartty, J. K.;Saibaba, N.;Mahobia, G. S.;Chattopadhyay, Kausik;Srinivas, N. C. Santhi;Singh, Vakil;
6:15:22:8 An internal variable dependent constitutive cyclic plastic material description including ratcheting calibrated for AISI 316L
DOI:10.1016/j.commatsci.2014.02.026 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:1 AU: Facheris, G.;Janssens, K. G. F.;
6:15:23:1 The first direct observation of hydrogen trapping sites in TiC precipitation-hardening steel through atom probe tomography
DOI:10.1016/j.scriptamat.2010.03.012 JN:SCRIPTA MATERIALIA PY:2010 TC:34 AU: Takahashi, Jun;Kawakami, Kazuto;Kobayashi, Yukiko;Tarui, Toshimi;
6:15:23:2 Atom probe tomography observation of hydrogen in high-Mn steel and silver charged via an electrolytic route
DOI:10.1016/j.ijhydene.2014.05.169 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2014 TC:2 AU: Haley, D.;Merzlikin, S. V.;Choi, P.;Raabe, D.;
6:15:23:3 Direct observation of hydrogen-trapping sites in vanadium carbide precipitation steel by atom probe tomography
DOI:10.1016/j.scriptamat.2012.04.022 JN:SCRIPTA MATERIALIA PY:2012 TC:9 AU: Takahashi, Jun;Kawakami, Kazuto;Tarui, Toshimi;
6:15:23:4 Analysis of deuterium in V-Fe5at.% film by atom probe tomography (APT)
DOI:10.1016/j.jallcom.2010.11.122 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:4 AU: Gemma, R.;Al-Kassab, T.;Kirchheim, R.;Pundt, A.;
6:15:23:5 Visualization of deuterium dead layer by atom probe tomography
DOI:10.1016/j.scriptamat.2012.08.025 JN:SCRIPTA MATERIALIA PY:2012 TC:3 AU: Gemma, Ryota;Al-Kassab, Talaat;Kirchheim, Reiner;Pundt, Astrid;
6:15:24:1 Hydrogen-related phenomena due to decreases in lattice defect energies-Molecular dynamics simulations using the embedded atom method potential with pseudo-hydrogen effects
DOI:10.1016/j.commatsci.2014.05.029 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:0 AU: Matsumoto, Ryosuke;Seki, Shoichi;Taketomi, Shinya;Miyazaki, Noriyuki;
6:15:24:2 Mobile effect of hydrogen on intergranular decohesion of iron: first-principles calculations
DOI:10.1080/14786435.2011.645077 JN:PHILOSOPHICAL MAGAZINE PY:2012 TC:10 AU: Yamaguchi, Masatake;Kameda, Jun;Ebihara, Ken-Ichi;Itakura, Mitsuhiro;Kaburaki, Hideo;
6:15:24:3 Atomistic study of the competitive relationship between edge dislocation motion and hydrogen diffusion in alpha iron
DOI:10.1557/jmr.2011.106 JN:JOURNAL OF MATERIALS RESEARCH PY:2011 TC:7 AU: Taketomi, Shinya;Matsumoto, Ryosuke;Miyazaki, Noriyuki;
6:15:24:4 Mechanisms of hydrogen-enhanced localized plasticity: An atomistic study using alpha-Fe as a model system
DOI:10.1016/j.actamat.2014.01.008 JN:ACTA MATERIALIA PY:2014 TC:7 AU: Song, J.;Curtin, W. A.;
6:15:24:5 Hydrogen concentration estimation in metals at finite temperature using first-principles calculations and vibrational analysis
DOI:10.1016/j.commatsci.2014.04.051 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:2 AU: Matsumoto, Ryosuke;Sera, Masaya;Miyazaki, Noriyuki;
6:15:24:6 Mobile effect of hydrogen on intergranular decohesion of iron: first-principles calculations (vol 92, pg 1349, 2012)
DOI:10.1080/14786435.2012.702862 JN:PHILOSOPHICAL MAGAZINE PY:2012 TC:1 AU: Yamaguchi, M.;
6:15:24:7 Multiscale thermodynamic analysis on fracture toughness loss induced by solute segregation in steel
DOI:10.1080/14786435.2014.906757 JN:PHILOSOPHICAL MAGAZINE PY:2014 TC:1 AU: Yamaguchi, Masatake;Kameda, Jun;
6:15:25:1 Hydrogen effect on cyclic plasticity and crack growth in coarse-grained iron
DOI:10.1016/j.msea.2011.07.036 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:5 AU: Mine, Yoji;Olive, Jean-Marc;Nagata, Koichi;Mitsutani, Tetsuro;
6:15:25:2 Simulation of hydrogen diffusion affected by stress-strain heterogeneity in polycrystalline stainless steel
DOI:10.1016/j.ijhydene.2013.11.065 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2014 TC:2 AU: Ilin, Dmitrii N.;Saintier, Nicolas;Olive, Jean-Marc;Abgrall, Remi;Aubert, Isabelle;
6:15:25:3 The effect of internal hydrogen on surface slip localisation on polycrystalline AISI 316L stainless steel
DOI:10.1016/j.msea.2010.05.062 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:12 AU: Aubert, Isabelle;Olive, Jean-Marc;Saintier, Nicolas;
6:15:25:4 Fatigue crack growth behaviour in austenitic stainless steels subjected to superficial and entire hydrogenation
DOI:10.1016/j.msea.2012.03.101 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:2 AU: Mine, Yoji;Orita, Akihiro;Murakami, Kenichi;Olive, Jean-Marc;
6:15:25:5 Crystal plasticity computation and atomic force microscopy analysis of the internal hydrogen-induced slip localization on polycrystalline stainless steel
DOI:10.1016/j.scriptamat.2012.01.019 JN:SCRIPTA MATERIALIA PY:2012 TC:4 AU: Aubert, Isabelle;Saintier, Nicolas;Olive, Jean-Marc;
6:15:25:6 Crystallographic study of fatigue crack growth in Fe-Si alloy single crystals
DOI:10.1016/j.msea.2011.11.067 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:0 AU: Mine, Yoji;Takashima, Kazuki;
6:15:26:1 Diffusion and transformation kinetics of small helium clusters in bulk tungsten
DOI:10.1103/PhysRevB.90.014102 JN:PHYSICAL REVIEW B PY:2014 TC:0 AU: Perez, Danny;Vogel, Thomas;Uberuaga, Blas P.;
6:15:26:2 Interaction of He with Cu, V, and Ta in bcc Fe: A first-principles study
DOI:10.1063/1.3602156 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:5 AU: Yan, J. X.;Tian, Z. X.;Xiao, W.;Geng, W. T.;
6:15:26:3 Helium bubble bursting in tungsten
DOI:10.1063/1.4860315 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:13 AU: Sefta, Faiza;Juslin, Niklas;Wirth, Brian D.;
6:15:26:4 Interactions of mobile helium clusters with surfaces and grain boundaries of plasma-exposed tungsten
DOI:10.1063/1.4874675 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:4 AU: Hu, Lin;Hammond, Karl D.;Wirth, Brian D.;Maroudas, Dimitrios;
6:15:26:5 Strong hydrogen trapping at helium in tungsten: Density functional theory calculations
DOI:10.1103/PhysRevB.81.134112 JN:PHYSICAL REVIEW B PY:2010 TC:23 AU: Jiang, B.;Wan, F. R.;Geng, W. T.;
6:15:26:6 Crystal orientation effects on helium ion depth distributions and adatom formation processes in plasma-facing tungsten
DOI:10.1063/1.4897419 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:2 AU: Hammond, Karl D.;Wirth, Brian D.;
6:15:26:7 Modeling of the self trapping of helium and the trap mutation in tungsten using DFT and empirical potentials based on DFT
DOI:10.1557/jmr.2014.258 JN:JOURNAL OF MATERIALS RESEARCH PY:2014 TC:0 AU: Boisse, J.;De Backer, A.;Domain, C.;Becquart, C. S.;
6:15:26:8 Energetics and diffusional properties of He in BCC Mo: An empirical potential for molecular dynamics simulations
DOI:10.1016/j.commatsci.2011.06.005 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:3 AU: Zhang, Yongfeng;Millett, Paul C.;Tonks, Michael;
6:15:27:1 Slow diffusion of hydrogen at a screw dislocation core in alpha-iron
DOI:10.1103/PhysRevB.84.024116 JN:PHYSICAL REVIEW B PY:2011 TC:7 AU: Kimizuka, Hajime;Ogata, Shigenobu;
6:15:27:2 Effect of temperature on fast hydrogen diffusion in iron: A path-integral quantum dynamics approach
DOI:10.1103/PhysRevB.83.094110 JN:PHYSICAL REVIEW B PY:2011 TC:10 AU: Kimizuka, Hajime;Mori, Hideki;Ogata, Shigenobu;
6:15:27:3 Grain boundary migration of substitutional and interstitial atoms in alpha-iron
DOI:10.1016/j.actamat.2014.01.049 JN:ACTA MATERIALIA PY:2014 TC:1 AU: Teus, S. M.;Mazanko, V. F.;Olive, J. -M.;Gavriljuk, V. G.;
6:15:27:4 Fully quantum mechanical calculation of the diffusivity of hydrogen in iron using the tight-binding approximation and path integral theory
DOI:10.1103/PhysRevB.88.054107 JN:PHYSICAL REVIEW B PY:2013 TC:1 AU: Katzarov, Ivaylo H.;Pashov, Dimitar L.;Paxton, Anthony T.;
6:15:27:5 Multi-replica molecular dynamics modeling
DOI:10.1016/j.commatsci.2011.10.013 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:1 AU: Ishii, Akio;Kimizuka, Hajime;Ogata, Shigenobu;
6:15:28:1 Suppression of hydrogen-assisted fatigue crack growth in austenitic stainless steel by cavitation peening
DOI:10.1016/j.ijhydene.2011.12.035 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2012 TC:10 AU: Takakuwa, O.;Soyama, H.;
6:15:28:2 Hydrogen diffusion analyses of a cracked steel pipe under internal pressure
DOI:10.1016/j.ijhydene.2010.10.046 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2011 TC:10 AU: Takayama, K.;Matsumoto, R.;Taketomi, S.;Miyazaki, N.;
6:15:28:3 Hydrogen interaction with multiple traps: Can it be used to mitigate embrittlement?
DOI:10.1016/j.ijhydene.2011.05.027 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2011 TC:8 AU: Dadfarnia, M.;Sofronis, P.;Neeraj, T.;
6:15:28:4 A coupled elastoplastic-transient hydrogen diffusion analysis to simulate the onset of necking in tension by using the finite element method
DOI:10.1016/j.ijhydene.2009.11.024 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2010 TC:6 AU: Miresmaeili, R.;Ogino, M.;Nakagawa, T.;Kanayama, H.;
6:15:29:1 Characterization of hydrogen-induced crack initiation in metastable austenitic stainless steels during deformation
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6:15:29:2 Atomistic mechanism of hydrogen trapping in bcc Fe-Y solid solution: A first principles study
DOI:10.1016/j.actamat.2010.06.011 JN:ACTA MATERIALIA PY:2010 TC:6 AU: Desai, S. K.;Neeraj, T.;Gordon, P. A.;
6:15:29:3 Dependence of hydrogen embrittlement on hydrogen in the surface layer in type 304 stainless steel
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6:15:29:4 Anomalous plastic deformation and martensitic transformation in metastable austenitic steels at low strain rate characterized by in-situ hydrogen and argon releases and scanning probe microscopy
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6:15:29:5 Effects of grain boundary and boundary inclination on hydrogen diffusion in alpha-iron
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6:15:29:6 Deformation-induced hydrogen desorption from the surface oxide layer of 6061 aluminum alloy
DOI:10.1016/j.jallcom.2014.08.127 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:0 AU: Zhou, Chengshuang;Chen, Xingyang;Zhang, Lin;Li, Xiao;
6:15:30:1 Effect of secondary cracks on hydrogen embrittlement of bainitic steels
DOI:10.1016/j.msea.2012.03.089 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:3 AU: Zheng, Chunlei;Lv, Bo;Zhang, Fucheng;Yan, Zhigang;Dan, Rui;Qian, Lihe;
6:15:30:2 Effect of hydrogen on dislocation structures around a mixed-mode fatigue crack tip in a single-crystalline iron silicon alloy
DOI:10.1016/j.scriptamat.2010.12.032 JN:SCRIPTA MATERIALIA PY:2011 TC:3 AU: Takahashi, Yoshimasa;Sakamoto, Junji;Tanaka, Masaki;Higashida, Kenji;Noguchi, Hiroshi;
6:15:30:3 An intrinsic effect of hydrogen on cyclic slip deformation around a {110} fatigue crack in Fe-3.2 wt.% Si alloy
DOI:10.1016/j.actamat.2009.11.040 JN:ACTA MATERIALIA PY:2010 TC:7 AU: Takahashi, Y.;Tanaka, M.;Higashida, K.;Yamaguchi, K.;Noguchi, H.;
6:15:30:4 Hydrogen embrittlement of microalloyed rail steels
DOI:10.1016/j.msea.2010.02.013 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:9 AU: Moon, A. P.;Balasubramaniam, R.;Panda, B.;
6:15:30:5 In-Situ TEM Study of Hydrogen-Induced Cracking in Carbide-Free Bainitic Steel
DOI:10.2320/matertrans.M2012263 JN:MATERIALS TRANSACTIONS PY:2013 TC:0 AU: Wang, Yanhui;Chen, Cheng;Zheng, Chunlei;Zhang, Fucheng;Zhang, Jingwu;
6:15:30:6 Hydrogen embrittlement of 4340 steel due to condensation during vaporized hydrogen peroxide treatment
DOI:10.1016/j.msea.2011.01.100 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:2 AU: Sk, Mobbassar Hassan;Overfelt, Ruel A.;Haney, R. Lance;Fergus, Jeffrey W.;
6:15:30:7 Characterization of dislocation structures around a mixed-mode fatigue crack tip in a single-crystalline iron-silicon alloy
DOI:10.1016/j.scriptamat.2010.09.033 JN:SCRIPTA MATERIALIA PY:2011 TC:1 AU: Takahashi, Yoshimasa;Sakamoto, Junji;Tanaka, Masaki;Higashida, Kenji;Noguchi, Hiroshi;
6:15:31:1 Cr interactions with He and vacancies in dilute Fe-Cr alloys from first principles
DOI:10.1103/PhysRevB.84.014203 JN:PHYSICAL REVIEW B PY:2011 TC:9 AU: Martinez, Enrique;Fu, Chu-Chun;
6:15:31:2 Statistical model of defects in Al-H system
DOI:10.1103/PhysRevB.81.024105 JN:PHYSICAL REVIEW B PY:2010 TC:16 AU: Ji, Min;Wang, Cai-zhuang;Ho, Kai-ming;Adhikari, Saikat;Hebert, Kurt R.;
6:15:31:3 Hydrogen effect on shearing and cleavage of Al: A first-principles study
DOI:10.1103/PhysRevB.84.104103 JN:PHYSICAL REVIEW B PY:2011 TC:3 AU: Apostol, F.;Mishin, Y.;
6:15:31:4 Angular-dependent interatomic potential for the aluminum-hydrogen system
DOI:10.1103/PhysRevB.82.144115 JN:PHYSICAL REVIEW B PY:2010 TC:1 AU: Apostol, F.;Mishin, Y.;
6:15:31:5 Thermodynamics, structure, and charge state of hydrogen-vacancy complexes in delta-plutonium
DOI:10.1103/PhysRevB.89.214114 JN:PHYSICAL REVIEW B PY:2014 TC:0 AU: Taylor, Christopher D.;Francis, Michael F.;Schwartz, Daniel S.;
6:15:32:1 Monovacancy in copper: Trapping efficiency for hydrogen and oxygen impurities
DOI:10.1016/j.commatsci.2013.11.065 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:2 AU: Korzhavyi, P. A.;Sandstrom, R.;
6:15:32:2 Effects of hydrogen and impurities on void nucleation in copper: simulation point of view
DOI:10.1080/14786435.2014.962642 JN:PHILOSOPHICAL MAGAZINE PY:2014 TC:1 AU: Ganchenkova, M. G.;Yagodzinskyy, Y. N.;Borodin, V. A.;Hanninen, H.;
6:15:32:3 Hydrogen-enhanced creep and cracking of oxygen-free phosphorus-doped copper
DOI:10.1016/j.scriptamat.2012.08.018 JN:SCRIPTA MATERIALIA PY:2012 TC:3 AU: Yagodzinskyy, Y.;Malitckii, E.;Saukkonen, T.;Hanninen, H.;
6:15:32:4 Hydrogen depth profile in phosphorus-doped, oxygen-free copper after cathodic charging
DOI:10.1007/s10853-012-6592-y JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:4 AU: Martinsson, Asa;Sandstrom, Rolf;
6:15:33:1 Grain size dependence of the martensitic transformation in a nano-grained Fe-Ni polycrystal - A molecular dynamics study
DOI:10.1016/j.jallcom.2012.08.006 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:3 AU: Ni, C.;Ding, H.;Jin, X. J.;
6:15:33:2 Magnetic phase diagram of the Fe-Ni system
DOI:10.1016/j.actamat.2010.09.055 JN:ACTA MATERIALIA PY:2011 TC:15 AU: Xiong, W.;Zhang, H.;Vitos, L.;Selleby, M.;
6:15:34:1 Tritium absorption/desorption in ITER-like tungsten
DOI:10.1016/j.ijhydene.2014.05.023 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2014 TC:5 AU: El-Kharbachi, A.;Chene, J.;Garcia-Argote, S.;Marchetti, L.;Martin, F.;Miserque, F.;Vrel, D.;Redolfi, M.;Malard, V.;Grisolia, C.;Rousseau, B.;
6:15:34:2 Synthesis and hydrogen plasma interaction of model mixed materials for fusion
DOI:10.1016/j.ijhydene.2014.08.021 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2014 TC:1 AU: Ouaras, K.;Dine, S.;Vrel, D.;Bonnin, X.;Redolfi, M.;Lombardi, G.;Hassouni, K.;
6:15:35:1 Atomic mechanism and prediction of hydrogen embrittlement in iron
DOI:10.1038/NMAT3479 JN:NATURE MATERIALS PY:2013 TC:29 AU: Song, Jun;Curtin, W. A.;
6:15:35:2 Hydrogen-enhanced local plasticity at dilute bulk H concentrations: The role of H-H interactions and the formation of local hydrides (vol 59, pg 2969, 2011)
DOI:10.1016/j.actamat.2011.05.031 JN:ACTA MATERIALIA PY:2011 TC:1 AU: von Pezold, Johann;Lymperakis, Liverios;Neugebauer, Joerg;
6:15:36:1 Effect of liquid metal embrittlement on low cycle fatigue properties and fatigue crack propagation behavior of a modified 9Cr-1Mo ferritic-martensitic steel in an oxygen-controlled lead-bismuth eutectic environment at 350 degrees C
DOI:10.1016/j.msea.2014.09.003 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Gong, Xing;Marmy, Pierre;Qin, Ling;Verlinden, Bert;Wevers, Martine;Seefeldt, Marc;
6:15:36:2 Liquid metal embrittlement of the T91 steel in lead bismuth eutectic: The role of loading rate and of the oxygen content in the liquid metal
DOI:10.1016/j.msea.2014.04.082 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Ye, Changqing;Vogt, Jean-Bernard;Serre, Ingrid Proriol;
6:16:1:1 Conversion of MX nitrides to Z-phase in a martensitic 12% Cr steel
DOI:10.1016/j.actamat.2009.09.045 JN:ACTA MATERIALIA PY:2010 TC:43 AU: Cipolla, Leonardo;Danielsen, Hilmar K.;Venditti, Dario;Di Nunzio, Paolo Emilio;Hald, John;Somers, Marcel A. J.;
6:16:1:2 9%Cr heat resistant steels: Alloy design, microstructure evolution and creep response at 650 degrees C
DOI:10.1016/j.msea.2011.03.037 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:31 AU: Rojas, D.;Garcia, J.;Prat, O.;Sauthoff, G.;Kaysser-Pyzalla, A. R.;
6:16:1:3 Investigations on the growth kinetics of Laves phase precipitates in 12% Cr creep-resistant steels: Experimental and DICTRA calculations
DOI:10.1016/j.actamat.2010.07.033 JN:ACTA MATERIALIA PY:2010 TC:18 AU: Prat, O.;Garcia, J.;Rojas, D.;Carrasco, C.;Inden, G.;
6:16:1:4 Design and characterization of microstructure evolution during creep of 12% Cr heat resistant steels
DOI:10.1016/j.msea.2010.02.056 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:26 AU: Rojas, D.;Garcia, J.;Prat, O.;Carrasco, C.;Sauthoff, G.;Kaysser-Pyzalla, A. R.;
6:16:1:5 Investigations on coarsening of MX and M23C6 precipitates in 12% Cr creep resistant steels assisted by computational thermodynamics
DOI:10.1016/j.msea.2010.05.084 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:22 AU: Prat, O.;Garcia, J.;Rojas, D.;Carrasco, C.;Kaysser-Pyzalla, A. R.;
6:16:1:6 The design of a compositionally robust martensitic creep-resistant steel with an optimized combination of precipitation hardening and solid-solution strengthening for high-temperature use
DOI:10.1016/j.actamat.2014.06.007 JN:ACTA MATERIALIA PY:2014 TC:3 AU: Lu, Qi;Xu, Wei;van der Zwaag, Sybrand;
6:16:1:7 Effect of processing parameters on the evolution of dislocation density and sub-grain size of a 12%Cr heat resistant steel during creep at 650 degrees C
DOI:10.1016/j.msea.2010.10.028 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:17 AU: Rojas, D.;Garcia, J.;Prat, O.;Agudo, L.;Carrasco, C.;Sauthoff, G.;Kaysser-Pyzalla, A. R.;
6:16:1:8 Structural changes of tempered martensitic 9%Cr-2%W-3%Co steel during creep at 650 degrees C
DOI:10.1016/j.msea.2011.12.020 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:15 AU: Dudova, N.;Plotnikova, A.;Molodov, D.;Belyakov, A.;Kaibyshev, R.;
6:16:1:9 Laves phase evolution in a modified P911 heat resistant steel during creep at 923K
DOI:10.1016/j.msea.2011.10.064 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:12 AU: Kipelova, A.;Belyakov, A.;Kaibyshev, R.;
6:16:1:10 A few observations on Laves phase precipitation in relation to its effects on creep rupture strength of ferritic steels based on Fe-9Cr (wt%) alloys at 650 degrees C
DOI:10.1016/j.msea.2014.09.059 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Zhu, S.;Yang, M.;Song, X. L.;Zhang, Z.;Wang, L. B.;Tang, S.;Xiang, Z. D.;
6:16:1:11 Characterisation of Laves phase precipitation and its correlation to creep rupture strength of ferritic steels
DOI:10.1016/j.matchar.2014.10.004 JN:MATERIALS CHARACTERIZATION PY:2014 TC:0 AU: Zhu, S.;Yang, M.;Song, X. L.;Tang, S.;Xiang, Z. D.;
6:16:1:12 Laves-phase precipitates in a low-carbon 9% Cr martensitic steel during aging and creep at 923 K
DOI:10.1016/j.msea.2014.07.046 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:4 AU: Fedorova, I.;Belyakov, A.;Kozlov, P.;Skorobogatykh, V.;Shenkova, I.;Kaibyshev, R.;
6:16:1:13 Coarsening behavior for M23C6 carbide in 12 %Cr-reduced activation ferrite/martensite steel: experimental study combined with DICTRA simulation
DOI:10.1007/s10853-013-7334-5 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:5 AU: Xiao, Xiang;Liu, Guoquan;Hu, Benfu;Wang, Jinsan;Ma, Wenbin;
6:16:1:14 Study of nucleation, growth and coarsening of precipitates in a novel 9%Cr heat resistant steel: Experimental and modeling
DOI:10.1016/j.matchemphys.2013.10.010 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:1 AU: Prat, O.;Garcia, J.;Rojas, D.;Sanhueza, J. P.;Camurri, C.;
6:16:1:15 Precipitation behavior of Laves phase in 10%Cr steel X12CrMoWVNbN10-1-1 during short-term creep exposure
DOI:10.1016/j.msea.2010.08.013 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:20 AU: Cui, Huiran;Sun, Feng;Chen, Ke;Zhang, Lanting;Wan, Rongchun;Shan, Aidang;Wu, Jiansheng;
6:16:1:16 Effect of V and Ta on the precipitation behavior of 12%Cr reduced activation ferrite/martensite steel
DOI:10.1016/j.matchar.2013.05.006 JN:MATERIALS CHARACTERIZATION PY:2013 TC:1 AU: Xiao, Xiang;Liu, Guoquan;Hu, Benfu;Wang, Jinsan;Ullah, Asad;
6:16:1:17 Microstructure evolution in a 3%Co modified P911 heat resistant steel under tempering and creep conditions
DOI:10.1016/j.msea.2010.10.006 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:17 AU: Kipelova, A.;Kaibyshev, R.;Belyakov, A.;Molodov, D.;
6:16:1:18 Effect of stress on microstructural evolution and mechanical properties of 12Cr3W3Co steel during aging and short-term creep
DOI:10.1016/j.msea.2013.05.030 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:1 AU: Li, Shengzhi;Eliniyaz, Zumrat;Dong, Xianping;Shen, Yinzhong;Zhang, Lanting;Shan, Aidang;
6:16:1:19 Effect of precipitation behavior on creep strength of 15%Cr ferritic steels at high temperature between 923 and 1023 K
DOI:10.1016/j.msea.2013.10.085 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:9 AU: Shibuya, M.;Toda, Y.;Sawada, K.;Kushima, H.;Kimura, K.;
6:16:1:20 On the role of Nb in Z-phase formation in a 12% Cr steel
DOI:10.1016/j.scriptamat.2010.04.025 JN:SCRIPTA MATERIALIA PY:2010 TC:8 AU: Cipolla, L.;Danielsen, H. K.;Di Nunzio, P. E.;Venditti, D.;Hald, J.;Somers, M. A. J.;
6:16:1:21 High-temperature creep behavior and microstructural evolution of an 18Cr9Ni3CuNbVN austenitic stainless steel
DOI:10.1016/j.matchar.2014.03.012 JN:MATERIALS CHARACTERIZATION PY:2014 TC:5 AU: Park, Dae-Bum;Hong, Sung-Min;Lee, Kyu-Ho;Huh, Moo-Young;Suh, Jin-Yoo;Lee, Seung-Cheol;Jung, Woo-Sang;
6:16:1:22 Effect of thermo-mechanical treatment on microstructure and mechanical properties of P92 heat resistant steel
DOI:10.1016/j.msea.2012.09.040 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: Li, Shengzhi;Eliniyaz, Zumrat;Sun, Feng;Shen, Yinzhong;Zhang, Lanting;Shan, Aidang;
6:16:1:23 Effect of nickel and cobalt addition on the precipitation-strength of 15Cr ferritic steels
DOI:10.1016/j.msea.2011.03.088 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:8 AU: Shibuya, M.;Toda, Y.;Sawada, K.;Kushima, H.;Kimura, K.;
6:16:1:24 Microstructural evolution of delta ferrite in SAVE12 steel under heat treatment and short-term creep
DOI:10.1016/j.matchar.2012.08.009 JN:MATERIALS CHARACTERIZATION PY:2012 TC:9 AU: Li, Shengzhi;Eliniyaz, Zumrat;Zhang, Lanting;Sun, Feng;Shen, Yinzhong;Shan, Aidang;
6:16:1:25 Strengthening of a high strength Fe85Ni15 alloy by tempering treatment
DOI:10.1016/j.msea.2013.04.028 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:0 AU: Kang, Yonghai;Fu, Licai;Ma, Jiqiang;Li, Fei;Qiao, Zhuhui;Yang, Jun;Bi, Qinling;Liu, Weimin;
6:16:1:26 A phenomenological model for lifetime design of Ni2Al3/Ni hybrid coating formed on creep resistant ferritic steels
DOI:10.1007/s10853-011-5793-0 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:2 AU: Xiang, Z. D.;Zeng, D.;Zhu, C. Y.;Wu, D. J.;Datta, P. K.;
6:16:1:27 Effect of carbon and niobium on the microstructure and impact toughness of a high silicon 12% Cr ferritic/martensitic heat resistant steel
DOI:10.1016/j.msea2014.07.087 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Ye, Zhongfei;Wang, Pei;Li, Dianzhong;Zhang, Yutuo;Li, Yiyi;
6:16:1:28 The crystallography of M23C6 carbides in a martensitic 9% Cr steel after tempering, aging and creep
DOI:10.1080/14786435.2013.765995 JN:PHILOSOPHICAL MAGAZINE PY:2013 TC:0 AU: Kipelova, A.;Belyakov, A.;Kaibyshev, R.;
6:16:2:1 Validation of void growth models using X-ray microtomography characterization of damage in dual phase steels
DOI:10.1016/j.actamat.2011.08.046 JN:ACTA MATERIALIA PY:2011 TC:23 AU: Landron, C.;Maire, E.;Bouaziz, O.;Adrien, J.;Lecarme, L.;Bareggi, A.;
6:16:2:2 Characterization and modeling of void nucleation by interface decohesion in dual phase steels
DOI:10.1016/j.scriptamat.2010.07.021 JN:SCRIPTA MATERIALIA PY:2010 TC:34 AU: Landron, C.;Bouaziz, O.;Maire, E.;Adrien, J.;
6:16:2:3 Experimental investigation of void coalescence in a dual phase steel using X-ray tomography
DOI:10.1016/j.actamat.2013.07.058 JN:ACTA MATERIALIA PY:2013 TC:2 AU: Landron, C.;Bouaziz, O.;Maire, E.;Adrien, J.;
6:16:2:4 Non-destructive 3-D reconstruction of the martensitic phase in a dual-phase steel using synchrotron holotomography
DOI:10.1016/j.scriptamat.2012.03.003 JN:SCRIPTA MATERIALIA PY:2012 TC:6 AU: Landron, C.;Maire, E.;Adrien, J.;Suhonen, H.;Cloetens, P.;Bouaziz, O.;
6:16:2:5 Damage evolution in TWIP and standard austenitic steel by means of 3D X ray tomography
DOI:10.1016/j.msea.2013.05.013 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:5 AU: Fabregue, D.;Landron, C.;Bouaziz, O.;Maire, E.;
6:16:2:6 Separation of nucleation and growth of voids during tensile deformation of a dual phase steel using synchrotron microtomography
DOI:10.1016/j.msea.2013.09.084 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:6 AU: Requena, Guillermo;Maire, Eric;Leguen, Claire;Thuillier, Sandrine;
6:16:2:7 Damage observation in a high-manganese austenitic TWIP steel by synchrotron radiation computed tomography
DOI:10.1016/j.scriptamat.2010.08.042 JN:SCRIPTA MATERIALIA PY:2010 TC:13 AU: Lorthios, J.;Nguyen, F.;Gourgues, A. -F.;Morgeneyer, T. F.;Cugy, P.;
6:16:2:8 Heterogenous void growth revealed by in situ 3-D X-ray microtomography using automatic cavity tracking
DOI:10.1016/j.actamat.2013.10.014 JN:ACTA MATERIALIA PY:2014 TC:3 AU: Lecarme, L.;Maire, E.;Kumar, A. K. C.;De Vleeschouwer, C.;Jacques, L.;Simar, A.;Pardoen, T.;
6:16:2:9 Characterization of ductile damage for a high carbon steel using 3D X-ray micro-tomography and mechanical tests - Application to the identification of a shear modified GTN model
DOI:10.1016/j.commatsci.2013.12.006 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:6 AU: Cao, T. -S.;Maire, E.;Verdu, C.;Bobadilla, C.;Lasne, P.;Montmitonnet, P.;Bouchard, P. -O.;
6:16:2:10 Numerical investigation and experimental validation of physically based advanced GTN model for DP steels
DOI:10.1016/j.msea.2013.01.019 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:5 AU: Fansi, Joseph;Balan, Tudor;Lemoine, Xavier;Maire, Eric;Landron, Caroline;Bouaziz, Olivier;Ben Bettaieb, Mohamed;Habraken, Anne Marie;
6:16:2:11 Ductile damage in aluminium alloy thin sheets: Correlation between micro-tomography observations and mechanical modeling
DOI:10.1016/j.msea.2012.07.116 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:9 AU: Thuillier, S.;Maire, E.;Brunet, M.;
6:16:2:12 Characterization of porosity in a 19th century painting ground by synchrotron radiation X-ray tomography
DOI:10.1007/s00339-012-7533-y JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2013 TC:1 AU: Gervais, Claire;Boon, Jaap J.;Marone, Federica;Ferreira, Ester S. B.;
6:16:2:13 Hole expansion of twinning-induced plasticity steel
DOI:10.1016/j.scriptamat.2012.01.062 JN:SCRIPTA MATERIALIA PY:2012 TC:6 AU: Xu, Le;Barlat, Frederic;Lee, Myoung-Gyu;
6:16:3:1 The epsilon -> eta -> theta transition in 100Cr6 and its effect on mechanical properties
DOI:10.1016/j.actamat.2012.01.046 JN:ACTA MATERIALIA PY:2012 TC:12 AU: Barrow, A. T. W.;Kang, J. -H.;Rivera-Diaz-del-Castillo, P. E. J.;
6:16:3:2 Genetic design and characterization of novel ultra-high-strength stainless steels strengthened by Ni3Ti intermetallic nanoprecipitates
DOI:10.1016/j.actamat.2010.02.028 JN:ACTA MATERIALIA PY:2010 TC:19 AU: Xu, W.;Rivera-Diaz-del-Castillo, P. E. J.;Wang, W.;Yang, K.;Bliznuk, V.;Kestens, L. A. I.;van der Zwaag, S.;
6:16:3:3 A new ultrahigh-strength stainless steel strengthened by various coexisting nanoprecipitates
DOI:10.1016/j.actamat.2010.03.005 JN:ACTA MATERIALIA PY:2010 TC:20 AU: Xu, W.;Rivera-Diaz-del-Castillo, P. E. J.;Yan, W.;Yang, K.;San Martin, D.;Kestens, L. A. I.;van der Zwaag, S.;
6:16:3:4 A strain-based computational design of creep-resistant steels
DOI:10.1016/j.actamat.2013.10.004 JN:ACTA MATERIALIA PY:2014 TC:4 AU: Lu, Q.;Xu, W.;van der Zwaag, S.;
6:16:3:5 Nanoprecipitation in bearing steels
DOI:10.1016/j.actamat.2011.08.007 JN:ACTA MATERIALIA PY:2011 TC:13 AU: Barrow, A. T. W.;Rivera-Diaz-del-Castillo, P. E. J.;
6:16:3:6 The effect of silicon on the nanoprecipitation of cementite
DOI:10.1016/j.actamat.2013.08.012 JN:ACTA MATERIALIA PY:2013 TC:5 AU: Kim, B.;Celada, C.;San Martin, D.;Sourmail, T.;Rivera-Diaz-del-Castillo, P. E. J.;
6:16:3:7 Computational design of precipitation strengthened austenitic heat-resistant steels
DOI:10.1080/14786435.2013.809493 JN:PHILOSOPHICAL MAGAZINE PY:2013 TC:3 AU: Lu, Qi;Xu, Wei;van der Zwaag, Sybrand;
6:16:3:8 Carbide dissolution in bearing steels
DOI:10.1016/j.commatsci.2012.09.022 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:2 AU: Kang, J. -H.;Rivera-Diaz-del-Castillo, P. E. J.;
6:16:3:9 Design of low hardness abrasion resistant steels
DOI:10.1016/j.wear.2013.01.002 JN:WEAR PY:2013 TC:3 AU: Xu, Xiaojun;Xu, Wei;Ederveen, Fre Hipgrave;van der Zwaag, Sybrand;
6:16:3:10 Fatigue in martensitic 100Cr6: Relationship between rolling contact fatigue microstructural transitions and repetitive push testing
DOI:10.1016/j.msea.2014.06.107 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Kang, Jee-Hyun;Rivera-Diaz-del-Castillo, Pedro E. J.;
6:16:3:11 Quantitative measurement of cementite dissociation in drawn pearlitic steel
DOI:10.1016/j.msea.2011.03.051 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:4 AU: Park, Jiwon;Kim, Sung-Dae;Hong, Seung-Pyo;Baik, Sung-Il;Ko, Dong-Su;Lee, Choong Yeol;Lee, Duk-Lak;Kim, Young-Woon;
6:16:3:12 Rolling contact fatigue in martensitic 100Cr6: Subsurface hardening and crack formation
DOI:10.1016/j.msea.2014.03.143 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Kang, Jee-Hyun;Vegter, R. H.;Rivera-Diaz-del-Castillo, Pedro E. J.;
6:16:4:1 In situ 3-D observation of early strain localization during failure of thin Al alloy (2198) sheet
DOI:10.1016/j.actamat.2014.01.033 JN:ACTA MATERIALIA PY:2014 TC:9 AU: Morgeneyer, Thilo F.;Taillandier-Thomas, Thibault;Helfen, Lukas;Baumbach, Tilo;Sinclair, Ian;Roux, Stephane;Hild, Francois;
6:16:4:2 In situ laminography study of three-dimensional individual void shape evolution at crack initiation and comparison with Gurson-Tvergaard-Needleman-type simulations
DOI:10.1016/j.actamat.2014.06.029 JN:ACTA MATERIALIA PY:2014 TC:1 AU: Ueda, Toshiyuki;Helfen, Lukas;Morgeneyer, Thilo F.;
6:16:4:3 In situ synchrotron computed laminography of damage in carbon fibre-epoxy [90/0](s) laminates
DOI:10.1016/j.scriptamat.2009.09.027 JN:SCRIPTA MATERIALIA PY:2010 TC:33 AU: Moffat, A. J.;Wright, P.;Helfen, L.;Baumbach, T.;Johnson, G.;Spearing, S. M.;Sinclair, I.;
6:16:4:4 Ductile crack initiation and propagation assessed via in situ synchrotron radiation-computed laminography
DOI:10.1016/j.scriptamat.2011.09.005 JN:SCRIPTA MATERIALIA PY:2011 TC:22 AU: Morgeneyer, T. F.;Helfen, L.;Sinclair, I.;Proudhon, H.;Xu, F.;Baumbach, T.;
6:16:4:5 Three-dimensional quantitative in situ study of crack initiation and propagation in AA6061 aluminum alloy sheets via synchrotron laminography and finite-element simulations
DOI:10.1016/j.actamat.2013.01.035 JN:ACTA MATERIALIA PY:2013 TC:11 AU: Shen, Yang;Morgeneyer, Thilo F.;Garnier, Jerome;Allais, Lucien;Helfen, Lukas;Crepin, Jerome;
6:16:4:6 The characterization and interpretation of ductile fracture mechanisms in AL2024-T351 using X-ray and focused ion beam tomography
DOI:10.1016/j.actamat.2011.11.031 JN:ACTA MATERIALIA PY:2012 TC:7 AU: Taylor, K. L.;Sherry, A. H.;
6:16:4:7 Flat to slant ductile fracture transition: Tomography examination and simulations using shear-controlled void nucleation
DOI:10.1016/j.scriptamat.2011.09.004 JN:SCRIPTA MATERIALIA PY:2011 TC:14 AU: Morgeneyer, T. F.;Besson, J.;
6:16:4:8 Three-dimensional investigation of thermal barrier coatings by synchrotron-radiation computed laminography
DOI:10.1016/j.scriptamat.2011.12.021 JN:SCRIPTA MATERIALIA PY:2012 TC:7 AU: Maurel, V.;Helfen, L.;N'Guyen, F.;Koster, A.;Di Michiel, M.;Baumbach, T.;Morgeneyer, T. F.;
6:16:4:9 High-resolution non-invasive 3D imaging of paint microstructure by synchrotron-based X-ray laminography
DOI:10.1007/s00339-013-7687-2 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2013 TC:5 AU: Reischig, Peter;Helfen, Lukas;Wallert, Arie;Baumbach, Tilo;Dik, Joris;
6:16:4:10 Quantification of damage evolution in a 7075 aluminum alloy using an acoustic emission technique
DOI:10.1016/j.msea.2011.05.017 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:7 AU: Lugo, Marcos;Jordon, J. B.;Horstemeyer, M. F.;Tschopp, M. A.;Harris, J.;Gokhale, A. M.;
6:16:5:1 Evolution of dislocation density, size of subgrains and MX-type precipitates in a P91 steel during creep and during thermal ageing at 600 degrees C for more than 100,000 h
DOI:10.1016/j.msea.2010.03.010 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:33 AU: Panait, Clara Gabriela;Zielinska-Lipiec, Anna;Koziel, Tomasz;Czyrska-Filemonowicz, Aleksandra;Gourgues-Lorenzon, Anne-Francoise;Bendick, Walter;
6:16:5:2 Microstructural degradation of Gr.91 steel during creep under low stress
DOI:10.1016/j.msea.2011.03.073 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:21 AU: Sawada, K.;Kushima, H.;Tabuchi, M.;Kimura, K.;
6:16:5:3 A dislocation-based model for high temperature cyclic viscoplasticity of 9-12Cr steels
DOI:10.1016/j.commatsci.2014.05.034 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:0 AU: Barrett, R. A.;O'Donoghue, P. E.;Leen, S. B.;
6:16:5:4 Residual stress distributions in a P91 steel-pipe girth weld before and after post weld heat treatment
DOI:10.1016/j.msea.2011.12.024 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:17 AU: Paddea, S.;Francis, J. A.;Paradowska, A. M.;Bouchard, P. J.;Shibli, I. A.;
6:16:5:5 Quantification of the effect of early microstructural degradation during creep of 9Cr-1Mo-NbV steels at 600 degrees C
DOI:10.1016/j.msea.2012.12.056 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:1 AU: Spigarelli, S.;
6:16:5:6 Microstructural change of 9% Cr-welded joints after long-term creep
DOI:10.1016/j.msea.2009.10.044 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:14 AU: Sawada, K.;Bauer, M.;Kauffmann, F.;Mayr, P.;Klenk, A.;
6:16:5:7 Microstructural change of a 9Cr steel longitudinal welded tube under internal pressure creep loading
DOI:10.1016/j.msea.2012.09.089 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:2 AU: Yamada, Susumu;Yaguchi, Masatsugu;Ogata, Takashi;
6:16:5:8 Creep rupture behavior of Grade 91 steel
DOI:10.1016/j.msea.2012.12.031 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:9 AU: Shrestha, Triratna;Basirat, Mehdi;Charit, Indrajit;Potirniche, Gabriel P.;Rink, Karl K.;
6:16:5:9 A primary creep model for Class M materials
DOI:10.1016/j.msea.2011.03.069 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:7 AU: Esposito, Luca;Bonora, Nicola;
6:16:5:10 Characterization of the creep properties of heat resistant 9-12% chromium steels by miniature specimen testing
DOI:10.1016/j.msea.2013.07.067 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:2 AU: Olbricht, Juergen;Bismarck, Marc;Skrotzki, Birgit;
6:16:5:11 Determination of creep properties of a P91 weldment by small punch testing and a new evaluation approach
DOI:10.1016/j.msea.2013.09.029 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:3 AU: Gulcimen, B.;Hahner, P.;
6:16:5:12 The role of microstructure in the stress relaxation and tempering of laser clad Ti-6Al-4V
DOI:10.1016/j.msea.2014.02.034 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Cottam, R.;Luzin, V.;Liu, Q.;Mayes, E.;Wong, Y. C.;Wang, J.;Brandt, M.;
6:16:6:1 Mechanical and microstructural stability of P92 steel under uniaxial tension at high temperature
DOI:10.1016/j.msea.2010.03.001 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:31 AU: Giroux, P. F.;Dalle, F.;Sauzay, M.;Malaplate, J.;Fournier, B.;Gourgues-Lorenzon, A. F.;
6:16:6:2 Comparison of various 9-12%Cr steels under fatigue and creep-fatigue loadings at high temperature
DOI:10.1016/j.msea.2011.05.046 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:16 AU: Fournier, B.;Dalle, F.;Sauzay, M.;Longour, J.;Salvi, M.;Caes, C.;Tournie, I.;Giroux, P. -F.;Kim, S. -H.;
6:16:6:3 Tensile flow and work hardening behaviour of 9Cr-1Mo ferritic steel in the frame work of Voce relationship
DOI:10.1016/j.msea.2011.05.026 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:16 AU: Christopher, J.;Choudhary, B. K.;Samuel, E. Isaac;Srinivasan, V. S.;Mathew, M. D.;
6:16:6:4 Microstructure evolution during cyclic tests on EUROFER 97 at room temperature. TEM observation and modelling
DOI:10.1016/j.msea.2012.04.038 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:8 AU: Giordana, M. F.;Giroux, P. -F.;Alvarez-Armas, I.;Sauzay, M.;Armas, A.;Kruml, T.;
6:16:6:5 Influence of strain rate and temperature on tensile stress-strain and work hardening behaviour of 9Cr-1Mo ferritic steel
DOI:10.1016/j.msea.2011.12.109 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:12 AU: Palaparti, D. P. Rao;Choudhary, B. K.;Samuel, E. Isaac;Srinivasan, V. S.;Mathew, M. D.;
6:16:6:6 Isothermal and thermomechanical fatigue studies on a modified 9Cr-1Mo ferritic martensitic steel
DOI:10.1016/j.msea.2012.06.021 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:3 AU: Nagesha, A.;Kannan, R.;Sastry, G. V. S.;Sandhya, R.;Singh, Vakil;Rao, K. Bhanu Sankara;Mathew, M. D.;
6:16:6:7 Dislocation-density-based constitutive modelling of tensile flow and work-hardening behaviour of P92 steel
DOI:10.1080/14786435.2014.944608 JN:PHILOSOPHICAL MAGAZINE PY:2014 TC:2 AU: Christopher, J.;Choudhary, B. K.;
6:16:6:8 Applicability of the one-internal-variable Kocks-Mecking approach for tensile flow and work hardening behaviour of modified 9Cr-1Mo steel
DOI:10.1016/j.msea.2013.03.044 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:2 AU: Christopher, J.;Choudhary, B. K.;Mathew, M. D.;Jayakumar, T.;
6:16:6:9 Quasi-static tensile behavior and constitutive modeling of large diameter thin-walled commercial pure titanium tube
DOI:10.1016/j.msea.2013.01.055 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:6 AU: Zhang, Z. Y.;Yang, H.;Li, H.;Ren, N.;Wang, D.;
6:16:6:10 Influence of strain rate and temperature on serrated flow in 9Cr-1Mo ferritic steel
DOI:10.1016/j.msea.2012.11.104 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:10 AU: Choudhary, B. K.;
6:16:6:11 Low-cyclic fatigue behavior of modified 9Cr-1Mo steel at elevated temperature
DOI:10.1016/j.msea.2014.02.076 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Guguloth, Krishna;Sivaprasad, S.;Chakrabarti, D.;Tarafder, S.;
6:16:6:12 Tensile work hardening behaviour of P91 steel
DOI:10.1016/j.msea.2011.06.058 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:4 AU: Samuel, E. Isaac;Choudhary, B. K.;
6:16:6:13 Universal scaling of work hardening parameters in type 316L(N) stainless steel
DOI:10.1016/j.msea.2010.08.021 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:1 AU: Samuel, E. Isaac;Choudhary, B. K.;
6:16:6:14 An anomalous cyclic stress evolution in reduced activation ferritic/martensitic steel
DOI:10.1016/j.msea.2010.06.048 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:4 AU: Reddy, G. V. Prasad;Sandhya, R.;Laha, K.;Mathew, M. D.;
6:16:7:1 On the nucleation of Laves phase particles during high-temperature exposure and creep of tempered martensite ferritic steels
DOI:10.1016/j.actamat.2014.08.008 JN:ACTA MATERIALIA PY:2014 TC:1 AU: Isik, M. I.;Kostka, A.;Eggeler, G.;
6:16:7:2 Toughness under different rolling processes in ultra purified Fe-17 wt% Cr alloy steels
DOI:10.1016/j.jallcom.2013.03.072 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:3 AU: Gao, Fei;Liu, Zhenyu;Liu, Haitao;Wang, Guodong;
6:16:7:3 Laves phase precipitation and its transformation kinetics in the ferritic stainless steel type AISI 441
DOI:10.1016/j.msea.2010.09.090 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:8 AU: Sello, M. P.;Stumpf, W. E.;
6:16:7:4 Precipitation and impact toughness of Nb-V stabilised 18Cr-2Mo ferritic stainless steel during isothermal aging
DOI:10.1016/j.msea.2014.06.029 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Han, Jian;Li, Huijun;Barbaro, Frank;Jiang, Laizhu;Zhu, Zhixiong;Xu, Haigang;Ma, Li;
6:16:7:5 Influence of long heat treatments on the laves phase nucleation in a type 444 ferritic stainless steel
DOI:10.1016/j.jallcom.2014.06.201 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:1 AU: Juuti, T.;Rovatti, L.;Makela, A.;Karjalainen, L. P.;Porter, D.;
6:16:7:6 Effects of processing optimisation on microstructure, texture, grain boundary and mechanical properties of Fe-17Cr ferritic stainless steel thick plates
DOI:10.1016/j.msea.2014.07.107 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Han, Jian;Li, Huijun;Zhu, Zhixiong;Jiang, Laizhu;Xu, Haigang;Ma, Li;
6:16:7:7 How dislocation substructures evolve during long-term creep of a 12% Cr tempered martensitic ferritic steel
DOI:10.1016/j.scriptamat.2009.10.037 JN:SCRIPTA MATERIALIA PY:2010 TC:14 AU: Pesicka, J.;Aghajani, A.;Somsen, Ch.;Hartmaier, A.;Eggeler, G.;
6:16:7:8 Kinetic study on the coarsening behaviour of equilibrium phases in Nb alloyed ferritic stainless steels at 700 degrees C
DOI:10.1016/j.matchemphys.2010.06.013 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2010 TC:6 AU: Ghosh, Sadhan;
6:16:7:9 Fe3Nb3N precipitates of the Fe3W3C type in Nb stabilized ferritic stainless steel
DOI:10.1016/j.jallcom.2011.03.155 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:3 AU: Malfliet, A.;Van den Broek, W.;Chassagne, F.;Mithieux, J. -D.;Blanpain, B.;Wollants, P.;
6:16:7:10 Effect of Si on Precipitation Behavior of Nb-Laves Phase and Amount of Nb in Solid Solution at Elevated Temperature in High Purity 17%Cr-0.5%Nb Steels
DOI:10.2320/matertrans.M2010112 JN:MATERIALS TRANSACTIONS PY:2010 TC:6 AU: Kato, Yasushi;Ito, Masatoshi;Kato, Yoshimine;Furukimi, Osamu;
6:16:7:11 Laves phase embrittlement of the ferritic stainless steel type AISI 441
DOI:10.1016/j.msea.2010.04.058 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:10 AU: Sello, M. P.;Stumpf, W. E.;
6:16:7:12 Creep deformation and rupture behaviour of 9Cr-1W-0.2V-0.06Ta Reduced Activation Ferritic-Martensitic steel
DOI:10.1016/j.msea.2011.10.112 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:18 AU: Vanaja, J.;Laha, K.;Mythili, R.;Chandravathi, K. S.;Saroja, S.;Mathew, M. D.;
6:16:8:1 Measuring the stress field around an evolving crack in tensile deformed Mg AZ31 using three-dimensional X-ray diffraction
DOI:10.1016/j.actamat.2012.02.054 JN:ACTA MATERIALIA PY:2012 TC:16 AU: Oddershede, Jette;Camin, Bettina;Schmidt, Soren;Mikkelsen, Lars P.;Sorensen, Henning Osholm;Lienert, Ulrich;Poulsen, Henning Friis;Reimers, Walter;
6:16:8:2 A study on fatigue crack growth behavior subjected to a single tensile overload Part I. An overload-induced transient crack growth micromechanism
DOI:10.1016/j.actamat.2010.09.049 JN:ACTA MATERIALIA PY:2011 TC:17 AU: Lee, S. Y.;Liaw, P. K.;Choo, H.;Rogge, R. B.;
6:16:8:3 3D Crack-tip Microscopy: Illuminating Micro-Scale Effects on Crack-Tip Behavior
DOI:10.1002/adem.201100092 JN:ADVANCED ENGINEERING MATERIALS PY:2011 TC:8 AU: Withers, Philip J.;
6:16:8:4 The evolution of crack-tip stresses during a fatigue overload event
DOI:10.1016/j.actamat.2010.03.013 JN:ACTA MATERIALIA PY:2010 TC:22 AU: Steuwer, A.;Rahman, M.;Shterenlikht, A.;Fitzpatrick, M. E.;Edwards, L.;Withers, P. J.;
6:16:8:5 A study on fatigue crack growth behavior subjected to a single tensile overload: Part II. Transfer of stress concentration and its role in overload-induced transient crack growth
DOI:10.1016/j.actamat.2010.09.048 JN:ACTA MATERIALIA PY:2011 TC:11 AU: Lee, S. Y.;Choo, H.;Liaw, P. K.;An, K.;Hubbard, C. R.;
6:16:8:6 Development of crystallographic-orientation-dependent internal strains around a fatigue-crack tip during overloading and underloading
DOI:10.1016/j.matchar.2013.02.008 JN:MATERIALS CHARACTERIZATION PY:2013 TC:0 AU: Lee, S. Y.;Huang, E. -W.;Wu, W.;Liaw, P. K.;Paradowska, A. M.;
6:16:8:7 A study on fatigue crack growth behavior subjected to a single tensile overload: Part I. An overload-induced transient crack growth micromechanism (vol 59, pg 485, 2011)
DOI:10.1016/j.actamat.2011.02.041 JN:ACTA MATERIALIA PY:2011 TC:0 AU: Lee, S. Y.;Liaw, P. K.;Choo, H.;Rogge, R. B.;
6:16:8:8 A study on fatigue crack growth behavior subjected to a single tensile overload: Part II. Transfer of stress concentration and its role in overload-induced transient crack growth (vol 59, pg 495, 2011)
DOI:10.1016/j.actamat.2011.02.042 JN:ACTA MATERIALIA PY:2011 TC:0 AU: Lee, S. Y.;Choo, H.;Liaw, P. K.;An, K.;Hubbard, C. R.;
6:16:8:9 Evolution of residual-strain distribution through an overload-induced retardation period during fatigue-crack growth
DOI:10.1063/1.3234388 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:3 AU: Lee, S. Y.;Sun, Y.;An, K.;Choo, H.;Hubbard, C. R.;Liaw, P. K.;
6:16:8:10 On the Use of Laguerre Tessellations for Representations of 3D Grain Structures
DOI:10.1002/adem.201000258 JN:ADVANCED ENGINEERING MATERIALS PY:2011 TC:17 AU: Lyckegaard, Allan;Lauridsen, Erik Mejdal;Ludwig, Wolfgang;Fonda, Richard Warren;Poulsen, Henning Friis;
6:16:9:1 Microstructure evolution and life assessment of T92 steel during long-term creep
DOI:10.1016/j.jallcom.2013.11.080 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:2 AU: Nie, M.;Zhang, J.;Huang, F.;Liu, J. W.;Zhu, X. K.;Chen, Z. L.;Ouyang, L. Z.;
6:16:9:2 Microstructure characteristics and temperature-dependent high cycle fatigue behavior of advanced 9% Cr/CrMoV dissimilarly welded joint
DOI:10.1016/j.msea.2014.07.067 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:4 AU: Wu, Qingjun;Lu, Fenggui;Cui, Haichao;Ding, Yuming;Liu, Xia;Gao, Yulai;
6:16:9:3 Study on fatigue property and microstructure characteristics of welded nuclear power rotor with heavy section
DOI:10.1016/j.jallcom.2013.09.048 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:8 AU: Liu, Peng;Lu, Fenggui;Liu, Xia;Ji, Huijun;Gao, Yulai;
6:16:9:4 Synthesis, characterization and application of some nanosized mixed metal oxides as high heat resistant pigments: Ca2CuO3, Ca3Co2O6, and NiSb2O6
DOI:10.1016/j.jallcom.2012.05.078 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:5 AU: Fouad, Osama A.;Hassan, Ali M.;El-Wahab, Hamada Abd;Eldin, Adel Mohy;Naser, Abdel-Rahman M.;Wahba, Osama A. G.;
6:16:9:5 Optimization of pulsed TIG cladding process of stellite alloy on carbon steel using RSM
DOI:10.1016/j.jallcom.2011.08.073 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:10 AU: Madadi, F.;Ashrafizadeh, F.;Shamanian, M.;
6:16:9:6 Microstructural and mechanical studies of reactor pressure vessel steel under proton irradiation
DOI:10.1016/j.jallcom.2013.07.149 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:2 AU: Wang, Rongshan;Xu, Chaoliang;Liu, Xiangbing;Huang, Ping;Ren, Ai;
6:16:9:7 Reductive synthesis of metal antimonides
DOI:10.1016/j.jallcom.2010.06.078 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:3 AU: Kift, Rebecca L.;Prior, Timothy J.;
6:16:9:8 Diffusion barrier properties of nitride-based coatings on fuel cladding
DOI:10.1016/j.jallcom.2013.06.108 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:3 AU: Khatkhatay, Fauzia;Jian, Jie;Jiao, Liang;Su, Qing;Gan, Jian;Cole, James I.;Wang, Haiyan;
6:16:10:1 Study of creep cavitation behavior in tempered martensitic steel using synchrotron micro-tomography and serial sectioning techniques
DOI:10.1016/j.msea.2012.12.002 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:8 AU: Gupta, C.;Toda, H.;Schlacher, C.;Adachi, Y.;Mayr, P.;Sommitsch, C.;Uesugi, K.;Suzuki, Y.;Takeuchi, A.;Kobayashi, M.;
6:16:10:2 Influence of high-temperature solution treatments on mechanical properties of an Al-Si-Cu aluminum alloy
DOI:10.1016/j.actamat.2009.11.044 JN:ACTA MATERIALIA PY:2010 TC:23 AU: Toda, Hiroyuki;Nishimura, Takanori;Uesugi, Kentaro;Suzuki, Yoshio;Kobayashi, Masakazu;
6:16:10:3 In situ observation of ductile fracture using X-ray tomography technique
DOI:10.1016/j.actamat.2010.11.065 JN:ACTA MATERIALIA PY:2011 TC:23 AU: Toda, H.;Maire, E.;Yamauchi, S.;Tsuruta, H.;Hiramatsu, T.;Kobayashi, M.;
6:16:10:4 Grain boundary tracking: A four-dimensional visualization technique for determining grain boundary geometry via local strain mapping
DOI:10.1016/j.actamat.2013.06.013 JN:ACTA MATERIALIA PY:2013 TC:7 AU: Toda, Hiroyuki;Ohkawa, Yoshikazu;Kamiko, Takanobu;Naganuma, Takuma;Uesugi, Kentaro;Takeuchi, Akihisa;Suzuki, Yoshio;Kobayashi, Masakazu;
6:16:10:5 Characterization of Cell Wall Microstructure and Damage Behavior of Alloyed Aluminum Foam via Synchrotron-Based Microtomography
DOI:10.1002/adem.201200142 JN:ADVANCED ENGINEERING MATERIALS PY:2013 TC:0 AU: Zhang, Qiang;Toda, Hiroyuki;Kobayashi, Masakazu;Uesugi, Kentaro;Suzuki, Yoshio;
6:16:10:6 Application of Dual-Energy K-Edge Subtraction Imaging to Assessment of Heat Treatments in Al-Cu Alloys
DOI:10.2320/matertrans.L-M2010819 JN:MATERIALS TRANSACTIONS PY:2010 TC:6 AU: Toda, Hiroyuki;Shimizu, Kazuyuki;Uesugi, Kentaro;Suzuki, Yoshio;Kobayashi, Masakazu;
6:16:10:7 Assessment of 3D inhomogeneous microstructure of highly alloyed aluminium foam via dual energy K-edge subtraction imaging
DOI:10.1080/14786430903571438 JN:PHILOSOPHICAL MAGAZINE PY:2010 TC:4 AU: Zhang, Qiang;Toda, Hiroyuki;Takami, Yasutaka;Suzuki, Yoshio;Uesugi, Kentaro;Kobayashi, Masakazu;
6:16:10:8 Three-dimensional evaluation of the compression and recovery behavior in a flexible graphite sheet by synchrotron radiation microtomography
DOI:10.1016/j.matchar.2012.04.008 JN:MATERIALS CHARACTERIZATION PY:2012 TC:6 AU: Kobayashi, M.;Toda, H.;Takeuchi, A.;Uesugi, K.;Suzuki, Y.;
6:16:10:9 Microtomographic investigation of damage in E911 steel after long term creep
DOI:10.1016/j.msea.2010.07.029 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:8 AU: Sket, F.;Dzieciol, K.;Borbely, A.;Kaysser-Pyzalla, A. R.;Maile, K.;Scheck, R.;
6:16:11:1 The influence of silicon in tempered martensite: Understanding the microstructure-properties relationship in 0.5-0.6 wt.% C steels
DOI:10.1016/j.actamat.2014.01.039 JN:ACTA MATERIALIA PY:2014 TC:2 AU: Kim, B.;Boucard, E.;Sourmail, T.;San Martin, D.;Gey, N.;Rivera-Diaz-del-Castillo, P. E. J.;
6:16:11:2 Application of Nomarski differential interference contrast microscopy to highlight the prior austenite grain boundaries revealed by thermal etching
DOI:10.1016/j.matchar.2010.03.001 JN:MATERIALS CHARACTERIZATION PY:2010 TC:7 AU: San Martin, D.;Palizdar, Y.;Cochrane, R. C.;Brydson, R.;Scott, A. J.;
6:16:11:3 The effect of deliberate aluminium additions on the microstructure of rolled steel plate characterized using EBSD
DOI:10.1016/j.matchar.2009.11.006 JN:MATERIALS CHARACTERIZATION PY:2010 TC:11 AU: Palizdar, Y.;Cochrane, R. C.;Brydson, R.;Crowther, D.;San Martin, D.;Scott, A. J.;
6:16:11:4 Prediction of the yield strength of a secondary-hardening steel
DOI:10.1016/j.actamat.2013.04.052 JN:ACTA MATERIALIA PY:2013 TC:6 AU: Wang, J. -S.;Mulholland, M. D.;Olson, G. B.;Seidman, D. N.;
6:16:11:5 Observation of thermally etched grain boundaries with the FIB/TEM technique
DOI:10.1016/j.matchar.2013.07.003 JN:MATERIALS CHARACTERIZATION PY:2013 TC:2 AU: Palizdar, Y.;San Martin, D.;Ward, M.;Cochrane, R. C.;Brydson, R.;Scott, A. J.;
6:16:11:6 Grain and grain boundary characters in surface layer of untreated and plasma nitrocarburized 18Ni maraging steel with nanocrystalline structure
DOI:10.1016/j.apsusc.2013.02.073 JN:APPLIED SURFACE SCIENCE PY:2013 TC:3 AU: Yan, M. F.;Wu, Y. Q.;Liu, R. L.;
6:16:11:7 Demonstration of elemental partitioning during austenite formation in low-carbon aluminium alloyed steel
DOI:10.1007/s10853-010-5208-7 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:2 AU: Palizdar, Y.;San Martin, D.;Brown, A. P.;Ward, M.;Cochrane, R. C.;Brydson, R.;Scott, A. J.;
6:16:11:8 Interrupted ageing in steels: Hardness improvement and microstructural stabilization
DOI:10.1016/j.scriptamat.2013.02.036 JN:SCRIPTA MATERIALIA PY:2013 TC:3 AU: Kim, B.;Celada, C.;San Martin, D.;Chao, J.;Vara, J.;Rivera-Diaz-del-Castillo, P. E. J.;
6:16:11:9 Thermal etching of SiC
DOI:10.1016/j.apsusc.2011.12.132 JN:APPLIED SURFACE SCIENCE PY:2012 TC:13 AU: van der Berg, N. G.;Malherbe, Johan B.;Botha, A. J.;Friedland, E.;
6:16:11:10 Neutron diffraction in situ monitoring of the dislocation density during martensitic transformation in a stainless steel
DOI:10.1016/j.scriptamat.2012.11.031 JN:SCRIPTA MATERIALIA PY:2013 TC:7 AU: Christien, F.;Telling, M. T. F.;Knight, K. S.;
6:16:12:1:1 Annealing effects on the microstructure and magnetic domain structures of duplex stainless steel studied by in situ technique
DOI:10.1016/j.apsusc.2012.07.021 JN:APPLIED SURFACE SCIENCE PY:2012 TC:5 AU: Guo, L. Q.;Zhao, X. M.;Li, M.;Zhang, W. J.;Bai, Y.;Qiao, L. J.;
6:16:12:1:2 Effect of annealing treatment on microstructure evolution and the associated corrosion behavior of a super-duplex stainless steel
DOI:10.1016/j.jallcom.2009.12.127 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:22 AU: Deng, B.;Jiang, Y. M.;Gao, J.;Li, J.;
6:16:12:1:3 Magnetic domain characterisation of duplex stainless steel after different treatments
DOI:10.1016/j.matchar.2012.07.007 JN:MATERIALS CHARACTERIZATION PY:2012 TC:3 AU: Lo, K. H.;
6:16:12:1:4 Detection of secondary phases in duplex stainless steel by magnetic force microscopy and scanning Kelvin probe force microscopy
DOI:10.1016/j.matchar.2013.10.012 JN:MATERIALS CHARACTERIZATION PY:2013 TC:2 AU: Ramirez-Salgado, J.;Dominguez-Aguilar, M. A.;Castro-Dominguez, B.;Hernandez-Hernandez, P.;Newman, R. C.;
6:16:12:1:5 Magnetic detection of sigma phase in duplex stainless steel UNS S31803
DOI:10.1016/j.jmmm.2010.02.055 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2010 TC:8 AU: Tavares, S. S. M.;Pardal, J. M.;Guerreiro, J. L.;Gomes, A. M.;da Silva, M. R.;
6:16:12:2:1 Precipitation kinetics and mechanical behavior in a solution treated and aged dual phase stainless steel
DOI:10.1016/j.matchemphys.2014.08.032 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:0 AU: Badji, R.;Kherrouba, N.;Mehdi, B.;Cheniti, B.;Bouabdallah, M.;Kahloun, C.;Bacroix, B.;
6:16:12:2:2 Precipitation in as-solidified undercooled Ni-Si hypoeutectic alloy: Effect of non-equilibrium solidification
DOI:10.1016/j.msea.2011.05.004 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:3 AU: Fan, Kai;Liu, Feng;Yang, Gencang;Zhou, Yaohe;
6:16:12:2:3 Modeling of sigma-phase precipitation in a 2205 duplex stainless steel using an analytical soft impingement treatment
DOI:10.1016/j.msea.2010.04.074 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:4 AU: Fan, K.;Liu, F.;Ma, Y. Z.;Yang, G. C.;Zhou, Y. H.;
6:16:12:2:4 Effects of W substitution on the precipitation of secondary phases and the associated pitting corrosion in hyper duplex stainless steels
DOI:10.1016/j.jallcom.2012.07.129 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:3 AU: Jeon, Soon-Hyeok;Kim, Soon-Tae;Lee, In-Sung;Kim, Ji-Soo;Kim, Kwang-Tae;Park, Yong-Soo;
6:16:12:3:1 The phase stability in Cr-Ni and Cr-Mn duplex stainless steels
DOI:10.1007/s10853-011-5657-7 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:8 AU: Calliari, I.;Pellizzari, M.;Zanellato, M.;Ramous, E.;
6:16:12:3:2 Experimental and computational study on microstructural evolution in 2205 duplex stainless steel during high temperature aging
DOI:10.1016/j.msea.2010.09.067 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:12 AU: He, Yan-Lin;Zhu, Na-Qiong;Lu, Xiao-Gang;Li, Lin;
6:16:12:3:3 Thermal, magnetic and composition analyses of the reverse transformation of intermetallic sigma phase to ferrite
DOI:10.1007/s10853-009-4156-6 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:1 AU: Lo, K. H.;Shek, C. H.;Zhang, W. W.;Lai, J. K. L.;
6:16:12:3:4 Effect of temperature, chloride ion and pH on the crevice corrosion behavior of SAF 2205 duplex stainless steel in chloride solutions
DOI:10.1007/s10853-011-5889-6 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:5 AU: Han, D.;Jiang, Y. M.;Shi, C.;Deng, B.;Li, J.;
6:16:12:4:1 Effect of solution annealing temperature on precipitation in 2205 duplex stainless steel
DOI:10.1016/j.matchar.2012.09.008 JN:MATERIALS CHARACTERIZATION PY:2012 TC:9 AU: Kashiwar, A.;Vennela, N. Phani;Kamath, S. L.;Khatirkar, R. K.;
6:16:12:4:2 Precipitation of sigma and chi phases in delta-ferrite of Type 316FR weld metals
DOI:10.1016/j.matchar.2013.10.003 JN:MATERIALS CHARACTERIZATION PY:2013 TC:2 AU: Chun, Eun Joon;Baba, Hayato;Nishimoto, Kazutoshi;Saida, Kazuyoshi;
6:16:13:1 High-temperature tensile and creep deformation of cross-weld specimens of weld joint between T92 martensitic and Super304H austenitic steels
DOI:10.1016/j.matchar.2014.09.011 JN:MATERIALS CHARACTERIZATION PY:2014 TC:1 AU: Kim, Myung-Yeon;Kwak, Suk-Chul;Choi, In-Suk;Lee, Young-Kook;Suh, Jin-Yoo;Fleury, Eric;Jung, Woo-Sang;Son, Tae-Ha;
6:16:13:2 Grain boundary embrittlement by Mn and eutectoid reaction in binary Fe-12Mn steel
DOI:10.1016/j.actamat.2013.03.016 JN:ACTA MATERIALIA PY:2013 TC:8 AU: Heo, N. H.;Nam, J. W.;Heo, Y. -U.;Kim, S. -J.;
6:16:13:3 The mechanism of elevated temperature intergranular cracking in heat-resistant alloys
DOI:10.1016/j.msea.2010.12.025 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:12 AU: Heo, N. H.;Chang, J. C.;Yoo, K. B.;Lee, J. K.;Kim, J.;
6:16:13:4 Elevated temperature intergranular cracking in heat-resistant steels
DOI:10.1016/j.msea.2012.09.007 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:6 AU: Heo, N. H.;Chang, J. C.;Kim, S. -J.;
6:16:13:5 Correlation between carbide reaction and anomalous interfacial segregation of solutes under tensile stress in heat-resistant steels
DOI:10.1016/j.msea.2014.01.058 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Heo, Y. -U.;Sung, H. J.;Heo, N. H.;Kim, S. -J.;
6:16:13:6 Anomalies in segregation kinetics of solutes under tensile stress in heat resistant steel
DOI:10.1016/j.msea.2012.07.023 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:3 AU: Heo, N. H.;Kim, S-J.;
6:16:13:7 Origin of intergranular fracture in martensitic 8Mn steel at cryogenic temperatures
DOI:10.1016/j.scriptamat.2013.05.042 JN:SCRIPTA MATERIALIA PY:2013 TC:5 AU: Kwon, K. H.;Yi, I. -C.;Ha, Y.;Um, K. -K.;Choi, J. -K.;Hono, K.;Oh-ishi, K.;Kim, Nack J.;
6:16:13:8 Grain Boundary Segregation of Phosphorus and Columnar Grain Growth during Decarburization in Plain Carbon Steels
DOI:10.2320/matertrans.M2010283 JN:MATERIALS TRANSACTIONS PY:2011 TC:1 AU: Heo, N. H.;Lee, J. K.;
6:16:13:9 Microstructural analysis on creep properties of dissimilar materials joints between T92 martensitic and HR3C austenitic steels
DOI:10.1016/j.msea.2011.04.057 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:4 AU: Cao, Jian;Gong, Yi;Yang, Zhen-Guo;
6:16:13:10 Factors affecting Type IV creep damage in Grade 91 steel welds
DOI:10.1016/j.msea.2013.04.045 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:8 AU: Parker, Jonathan;
6:16:13:11 The abnormal segregation behavior of solutes under tensile stress and its effect on carbide reactions in 2.25Cr-1.5W heat-resistant steels
DOI:10.1016/j.msea.2014.09.078 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Sung, H. J.;Heo, N. H.;Heo, Y. -U.;Kim, S. -J.;
6:16:14:1 Coarsening mechanisms in a dendritic Al-10% Cu alloy
DOI:10.1016/j.actamat.2009.08.052 JN:ACTA MATERIALIA PY:2010 TC:33 AU: Terzi, S.;Salvo, L.;Suery, M.;Dahle, A. K.;Boller, E.;
6:16:14:2 Linking Crack Tip Morphology to Tear Toughness of Hot Rolled AA7050 Alloys Using X-Ray Computed Tomography
DOI:10.1002/adem.201200079 JN:ADVANCED ENGINEERING MATERIALS PY:2012 TC:1 AU: Wu, Xiaomin;Schlangen, Erik;van der Zwaag, Sybrand;
6:16:14:3 Pinch-off of rods by bulk diffusion
DOI:10.1016/j.actamat.2011.04.036 JN:ACTA MATERIALIA PY:2011 TC:6 AU: Aagesen, L. K.;Johnson, A. E.;Fife, J. L.;Voorhees, P. W.;Miksis, M. J.;Poulsen, S. O.;Lauridsen, E. M.;Marone, F.;Stampanoni, M.;
6:16:14:4 The dynamics of interfaces during coarsening in solid-liquid systems
DOI:10.1016/j.actamat.2014.01.024 JN:ACTA MATERIALIA PY:2014 TC:2 AU: Fife, J. L.;Gibbs, J. W.;Gulsoy, E. B.;Park, C. -L.;Thornton, K.;Voorhees, P. W.;
6:16:14:5 3D X-ray Microtomography Volume Correlation to Study Fatigue Crack Growth
DOI:10.1002/adem.201000235 JN:ADVANCED ENGINEERING MATERIALS PY:2011 TC:7 AU: Limodin, Nathalie;Rethore, Julien;Buffiere, Jean-Yves;Hild, Francois;Ludwig, Wolfgang;Rannou, Johann;Roux, Stephane;
6:16:14:6 Linking Porosity to Rolling Reduction and Fatigue Lifetime of Hot Rolled AA7xxx Alloys by 3D X-Ray Computed Tomography
DOI:10.1002/adem.201200087 JN:ADVANCED ENGINEERING MATERIALS PY:2012 TC:1 AU: Wu, Xiaomin;Schlangen, Erik;van der Zwaag, Sybrand;
6:16:14:7 Internal melting and coarsening of liquid droplets in an Al-Cu alloy: a 4-D experimental study
DOI:10.1007/s10853-013-7557-5 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:0 AU: Terzi, Sofiane;Salvo, Luc;Suery, Michel;Dahle, Arne K.;Boller, Elodie;
6:16:14:8 3D Characterization of the Influence of Porosity on Fatigue Properties of a Cast Al Alloy
DOI:10.1002/adem.201000236 JN:ADVANCED ENGINEERING MATERIALS PY:2011 TC:7 AU: Caty, Olivier;Buffiere, Jean-Yves;Maire, Eric;Adrien, Jerome;
6:16:14:9 Evolution of specific surface area with solid fraction during solidification
DOI:10.1016/j.actamat.2010.04.012 JN:ACTA MATERIALIA PY:2010 TC:4 AU: Ratke, L.;Genau, A.;
6:16:15:1:1 Effects of High Pressure Heat Treatment on Thermal Conductivity and Electrical Conductivity of CuAlBi Alloy
DOI:10.2320/matertrans.M2013131 JN:MATERIALS TRANSACTIONS PY:2013 TC:0 AU: Ma Yu-quan;Lin Hong-ju;Zhang Li-hong;
6:16:15:1:2 Thermal properties of Cu-Pd alloy under high pressure
DOI:10.1016/j.commatsci.2010.03.052 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2010 TC:4 AU: Davoodi, J.;Ahmadi, M.;
6:16:15:1:3 High pressure molecular dynamics simulation of Au-x%Ni alloys
DOI:10.1063/1.4866596 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Davoodi, J.;Katouzi, F.;
6:16:15:1:4 Investigation of thermal, mechanical and magnetic behaviors of the Cu-11%Al alloy with Ag and Mn additions
DOI:10.1016/j.matchar.2012.11.007 JN:MATERIALS CHARACTERIZATION PY:2013 TC:5 AU: Silva, R. A. G.;Paganotti, A.;Gama, S.;Adorno, A. T.;Carvalho, T. M.;Santos, C. M. A.;
6:16:15:2:1 Effects of High Pressure Heat Treatment on Microstructure and Micro-Mechanical Properties of Cu77.96Al22.04 Alloy
DOI:10.2320/matertrans.M2011296 JN:MATERIALS TRANSACTIONS PY:2012 TC:6 AU: Wu, Lailei;Liu, Lin;Liu, Jianhua;Zhang, Ruijun;
6:16:15:2:2 Effects of 4 GPa Pressure Heat Treatment on Microstructure and Micro-Mechanical Properties of LC4 Aluminum Alloy
DOI:10.2320/matertrans.M2013040 JN:MATERIALS TRANSACTIONS PY:2013 TC:0 AU: Chen, Yan;Liu, Lin;Liu, Jian-hua;Zhang, Rui-jun;
6:16:15:2:3 Effects of 4 GPa Pressure Heat Treatment on Mechanical Properties and Electrical Conductivity of CuCrNiAl Alloy
DOI:10.2320/matertrans.M2012360 JN:MATERIALS TRANSACTIONS PY:2013 TC:1 AU: Ma, Yu-quan;
6:16:15:3:1 Influence of High Pressure Treatment on Microstructure Evolution of Cu-Zn Alloy
DOI:10.2320/matertrans.M2012251 JN:MATERIALS TRANSACTIONS PY:2013 TC:3 AU: Chen, Yan;Li, Ya-li;Liu, Jian-hua;Zhang, Rui-jun;
6:16:15:3:2 Effect of High Pressure Heat Treatment on Microstructure and Thermal Expansion Coefficients of Cu-Al Alloy
DOI:10.2320/matertrans.M2012358 JN:MATERIALS TRANSACTIONS PY:2013 TC:1 AU: Ma Yu-quan;
6:16:15:3:3 Effects of 4 GPa Pressure Heat Treatment on Micro-Mechanical Properties of Brass by Nanoindentation
DOI:10.2320/matertrans.M2013446 JN:MATERIALS TRANSACTIONS PY:2014 TC:0 AU: Ma Yu-quan;Li Ji-meng;Lin Hong-ju;
6:16:15:4:1 Shape memory properties of highly textured Cu-Al-Ni-(Ti) alloys
DOI:10.1016/j.msea.2011.12.104 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:7 AU: Sobrero, C. E.;La Roca, P.;Roatta, A.;Bolmaro, R. E.;Malarria, J.;
6:16:15:4:2 Load-biased martensitic transformation strain of Ti-50-Ni-47-Co-3 strip obtained by a twin-roll casting technique
DOI:10.1016/j.msea.2013.12.102 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Isola, L.;La Roca, P.;Roatta, A.;Vermaut, Ph.;Jordan, L.;Ochin, P.;Malarria, J.;
6:16:15:4:3 Mechanism of the shape memory effect in martensitic alloys: an assessment
DOI:10.1080/14786435.2011.608735 JN:PHILOSOPHICAL MAGAZINE PY:2011 TC:5 AU: Otsuka, Kazuhiro;Saxena, Avadh;Deng, Junkai;Ren, Xiaobing;
6:16:16:1 Microstructure and mechanical properties of annealed SUS 304H austenitic stainless steel with copper
DOI:10.1016/j.msea.2011.02.019 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:12 AU: Sen, Indrani;Amankwah, E.;Kumar, N. S.;Fleury, E.;Oh-ishi, K.;Hono, K.;Ramamurty, U.;
6:16:16:2 Effect of vanadium addition on the creep resistance of 18Cr9Ni3CuNbN austenitic stainless heat resistant steel
DOI:10.1016/j.jallcom.2013.05.106 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:3 AU: Park, Dae-Bum;Huh, Moo-Young;Jung, Woo-Sang;Suh, Jin-Yoo;Shim, Jae-Hyeok;Lee, Seung-Cheol;
6:16:16:3 Effect of Nb and Cu on the high temperature creep properties of a high Mn-N austenitic stainless steel
DOI:10.1016/j.matchar.2013.05.015 JN:MATERIALS CHARACTERIZATION PY:2013 TC:1 AU: Lee, Kyu-Ho;Suh, Jin-Yoo;Huh, Joo-Youl;Park, Dae-Bum;Hong, Sung-Min;Shim, Jae-Hyeok;Jung, Woo-Sang;
6:16:16:4 Enhancing the high temperature plasticity of a Cu-containing austenitic stainless steel through grain boundary strengthening
DOI:10.1016/j.msea.2014.02.054 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Singh, Gaurav;Hong, Sung-Min;Oh-ishi, Keiichiro;Hono, Kazuhiro;Fleury, Eric;Ramamurty, Upadrasta;
6:16:16:5 Effect of copper addition on the fracture and fatigue crack growth behavior of solution heat-treated SUS 304H austenitic steel
DOI:10.1016/j.msea.2010.04.018 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:7 AU: Alaneme, K. K.;Hong, S. M.;Sen, Indrani;Fleury, E.;Ramamurty, U.;
6:16:16:6 Strengthening mechanisms of precipitates in S30432 heat-resistant steel during short-term aging
DOI:10.1016/j.msea.2012.01.076 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:5 AU: Jiang, Jun;Zhu, Lihui;
6:16:16:7 A study on the mechanism of serrated grain boundary formation in an austenitic stainless steel
DOI:10.1016/j.matchemphys.2010.12.025 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2011 TC:2 AU: Kim, K. J.;Hong, H. U.;Nam, S. W.;
6:16:16:8 Effect of creep deformation on the microstructural evolution of 11CrMoVNb heat resistant steel
DOI:10.1016/j.msea.2011.12.074 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:3 AU: Lee, K. H.;Park, D. B.;Kwun, S. I.;Huh, J. Y.;Suh, J. Y.;Shim, J. H.;Jung, W. S.;
6:16:17:1:1 Statistical assessment of fatigue crack initiation from sub-surface hydrogen micropores in high-quality die-cast aluminum
DOI:10.1016/j.actamat.2011.04.049 JN:ACTA MATERIALIA PY:2011 TC:10 AU: Toda, Hiroyuki;Masuda, Shotaro;Batres, Rafael;Kobayashi, Masakazu;Aoyama, Shunzo;Onodera, Masato;Furusawa, Ryosuke;Uesugi, Kentaro;Takeuchi, Akihisa;Suzuki, Yoshio;
6:16:17:1:2 Four-Dimensional Annihilation Behaviors of Micro Pores during Surface Cold Working
DOI:10.2320/matertrans.M2010069 JN:MATERIALS TRANSACTIONS PY:2010 TC:9 AU: Toda, Hiroyulci;Yamaguchi, Tomoyasu;Nakazawa, Mitsuru;Aoki, Yoshimitsu;Uesugi, Kentaro;Suzuki, Yoshio;Kobayashi, Masakazu;
6:16:17:1:3 Effects of Stress Triaxiality on Damage Evolution from Pre-Existing Hydrogen Pores in Aluminum Alloy
DOI:10.2320/matertrans.L-M2013841 JN:MATERIALS TRANSACTIONS PY:2014 TC:0 AU: Toda, Hiroyuki;Tsuruta, Hideki;Horikawa, Keitaro;Uesugi, Kentaro;Takeuchi, Akihisa;Suzuki, Yoshio;Kobayashi, Masakazu;
6:16:17:1:4 Cavitation during high-temperature deformation in Al-Mg alloys
DOI:10.1016/j.actamat.2013.01.012 JN:ACTA MATERIALIA PY:2013 TC:5 AU: Toda, Hiroyuki;Bin Shamsudin, Zul Azri;Shimizu, Kazuyuki;Uesugi, Kentaro;Takeuchi, Akihisa;Suzuki, Yoshio;Nakazawa, Mitsuru;Aoki, Yoshimitsu;Kobayashi, Masakazu;
6:16:17:1:5 Effects of Hydrogen Micro Pores on Mechanical Properties in A2024 Aluminum Alloys
DOI:10.2320/matertrans.L-M2013832 JN:MATERIALS TRANSACTIONS PY:2013 TC:2 AU: Toda, Hiroyuki;Inamori, Takaaki;Horikawa, Keitaro;Uesugi, Kentaro;Takeuchi, Akihisa;Suzuki, Yoshio;Kobayashi, Masakazu;
6:16:17:1:6 Effect of microstructural features on fatigue behavior in A319-T6 aluminum alloy
DOI:10.1016/j.msea.2010.02.055 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:8 AU: Mo De-Feng;He Guo-Qiu;Hu Zheng-Fei;Liu Xiao-Shan;Zhang Wei-Hua;
6:16:17:2:1 Micro-pore development phenomenon in hydrogen pre-charged aluminum alloy studied using synchrotron X-ray micro-tomography
DOI:10.1063/1.4826274 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Gupta, C.;Toda, H.;Fujioka, T.;Kobayashi, M.;Uesugi, K.;Takeuchi, A.;Suzuki, Y.;
6:16:17:2:2 Spatial resolution of synchrotron x-ray microtomography in high energy range: Effect of x-ray energy and sample-to-detector distance
DOI:10.1063/1.4773239 JN:APPLIED PHYSICS LETTERS PY:2012 TC:2 AU: Seo, D.;Tomizato, F.;Toda, H.;Uesugi, K.;Takeuchi, A.;Suzuki, Y.;Kobayashi, M.;
6:16:17:2:3 Kinetics of Hydrogen Desorption from Rapidly Solidified Al-Cr Alloys
DOI:10.2320/matertrans.L-MZ201104 JN:MATERIALS TRANSACTIONS PY:2011 TC:2 AU: Tashlykova-Bushkevich, Iya I.;Itoh, Goroh;Shepelevich, Vasiliy G.;Shikagawa, Takahiro;
6:16:17:2:4 Thermal Desorption Spectroscopy Study on the Hydrogen Trapping States in a Pure Aluminum
DOI:10.2320/matertrans.L-M2010825 JN:MATERIALS TRANSACTIONS PY:2011 TC:6 AU: Izumi, Takahiro;Itoh, Goroh;
6:16:18:1 Electronic structure of the sigma phase of paramagnetic Fe-V alloys
DOI:10.1103/PhysRevB.81.174203 JN:PHYSICAL REVIEW B PY:2010 TC:11 AU: Cieslak, J.;Tobola, J.;Dubiel, S. M.;
6:16:18:2 Discovery and characterization of magnetism in sigma-phase intermetallic Fe-Re compounds
DOI:10.1063/1.4900853 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:2 AU: Cieslak, J.;Dubiel, S. M.;Reissner, M.;Tobola, J.;
6:16:18:3 Experimental and theoretical study of the sigma-phase Fe-Re alloys
DOI:10.1016/j.matchemphys.2013.01.061 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2013 TC:3 AU: Cieslak, J.;Dubiel, S. M.;Tobola, J.;Zukrowski, J.;
6:16:18:4 Magnetic properties of sigma-FeCr alloys as calculated with the charge- and spin-self-consistent KKR(CPA) method
DOI:10.1103/PhysRevB.82.224407 JN:PHYSICAL REVIEW B PY:2010 TC:6 AU: Cieslak, J.;Tobola, J.;Dubiel, S. M.;Sikora, W.;
6:16:18:5 Sublattice magnetism in sigma-phase Fe(100-x)Vx (x=34.4, 39.9, and 47.9) studied via zero-field V-51 NMR
DOI:10.1103/PhysRevB.81.184407 JN:PHYSICAL REVIEW B PY:2010 TC:4 AU: Dubiel, Stanislaw M.;Tozoni, Jose Roberto;Cieslak, Jakub;Braz, Daniel Cesar;Gea Vidoto, Edson Luiz;Bonagamba, Tito Jose;
6:16:18:6 Modeling of molar volume of the sigma phase involving transition elements
DOI:10.1016/j.commatsci.2014.08.015 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:1 AU: Liu Wei;Lu Xiao-Gang;He Yan-Lin;Li Lin;
6:16:18:7 Structural and electronic properties of the mu-phase Fe-Mo compounds
DOI:10.1016/j.jallcom.2014.05.201 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:1 AU: Cieslak, J.;Przewoznik, J.;Dubiel, S. M.;
6:16:18:8 The crystal structure of La-doped Co40V60 compound
DOI:10.1016/j.jallcom.2010.04.045 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:1 AU: Chen, X. J.;Zhou, H. Y.;Wang, T.;Yang, Y. Q.;Rao, G. H.;
6:16:18:9 Kinetics of sigma-phase formation in equiatomic cold-rolled Fe-V alloys
DOI:10.1016/j.matchemphys.2013.07.020 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2013 TC:0 AU: Costa, B. F. O.;Cieslak, J.;Dubiel, S. M.;
6:16:19:1 Premature creep failure in strength enhanced high Cr ferritic steels caused by static recovery of tempered martensite lath structures
DOI:10.1016/j.msea.2010.07.037 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:14 AU: Armaki, Hassan Ghassemi;Chen, Ruiping;Maruyama, Kouichi;Igarashi, Masaaki;
6:16:19:2 Long-term microstructural degradation and creep strength in Gr.91 steel
DOI:10.1016/j.msea.2011.02.060 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:14 AU: Chen, R. P.;Armaki, H. Ghassemi;Maruyama, K.;Igarashi, M.;
6:16:19:3 The influence of long-term aging on microstructures and static mechanical properties of P92 steel at room temperature
DOI:10.1016/j.msea.2012.10.024 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: Guo, Xiaofeng;Gong, Jianming;Jiang, Yong;Rong, Dongsong;
6:16:19:4 Heat-to-heat variation of creep strength and long-term stability of microstructure in Grade 91 steels
DOI:10.1016/j.msea.2013.12.088 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Sawada, K.;Kushima, H.;Hara, T.;Tabuchi, M.;Kimura, K.;
6:16:19:5 Strain-induced coarsening of nanoscale precipitates in strength enhanced high Cr ferritic steels
DOI:10.1016/j.msea.2011.10.105 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:1 AU: Armaki, Hassan Ghassemi;Chen, Ruiping;Kano, S.;Maruyama, Kouichi;Hasegawa, Yasushi;Igarashi, Masaaki;
6:16:19:6 Low-Stress Creep Deformation in Long-Term Aged Ferritic Heat-Resistant Steel
DOI:10.2320/matertrans.M2013427 JN:MATERIALS TRANSACTIONS PY:2014 TC:0 AU: Yamasaki, Shigeto;Mitsuhara, Masatoshi;Ikeda, Ken-ichi;Hata, Satoshi;Nakashima, Hideharu;
6:16:20:1:1 Creep rupture behavior of 9Cr-1.8W-0.5Mo-VNb (ASME grade 92) ferritic steel weld joint
DOI:10.1016/j.msea.2013.10.071 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:6 AU: Sakthivel, T.;Vasudevan, M.;Laha, K.;Parameswaran, P.;Chandravathi, K. S.;Selvi, S. Panneer;Maduraimuthu, V.;Mathew, M. D.;
6:16:20:1:2 Microstructure and type IV cracking behavior of HAZ in P92 steel weldment
DOI:10.1016/j.msea.2012.05.076 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:5 AU: Wang Xue;Pan Qian-gang;Ren Yao-yao;Shang Wei;Zeng Hui-qiang;Liu Hong;
6:16:20:1:3 Comparison of creep rupture behaviour of type 316L(N) austenitic stainless steel joints welded by TIG and activated TIG welding processes
DOI:10.1016/j.msea.2011.05.052 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:6 AU: Sakthivel, T.;Vasudevan, M.;Laha, K.;Parameswaran, P.;Chandravathi, K. S.;Mathew, M. D.;Bhaduri, A. K.;
6:16:20:1:4 The method for reproducing fine grained HAZ of W strengthened high Cr steel
DOI:10.1016/j.msea.2013.09.064 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Wang, Xue;Xu, Qiang;Liu, Hong-wei;Liu, Hong;Shang, Wei;Ren, Yao-yao;Yu, Shu-min;
6:16:20:2:1 Correlation of precipitate stability to increased creep resistance of Cr-Mo steel welds
DOI:10.1016/j.actamat.2012.12.040 JN:ACTA MATERIALIA PY:2013 TC:6 AU: Yu, X.;Babu, S. S.;Terasaki, H.;Komizo, Y.;Yamamoto, Y.;Santella, M. L.;
6:16:20:2:2 In situ investigation of structure and stability of niobium carbonitrides in an austenitic heat-resistant steel
DOI:10.1016/j.scriptamat.2012.04.019 JN:SCRIPTA MATERIALIA PY:2012 TC:8 AU: Zhang, X. F.;Terasaki, H.;Komizo, Y.;
6:16:20:3:1 Diffusional and displacive transformation behaviour in low carbon-low alloy steels studied by a hybrid in situ observation system
DOI:10.1016/j.scriptamat.2010.08.055 JN:SCRIPTA MATERIALIA PY:2011 TC:13 AU: Terasaki, Hidenori;Komizo, Yu-ichi;
6:16:20:3:2 Correlation between the thermodynamic stability of austenite and the shear modulus of polycrystalline steel alloy
DOI:10.1063/1.4712535 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:2 AU: Terasaki, H.;Yamagishi, H.;Moriguchi, K.;Tomio, Y.;Komizo, Y.;
6:16:20:3:3 Correlation between the thermodynamic stability of austenite and the shear modulus of polycrystalline steel alloy (vol 111, 093523, 2012)
DOI:10.1063/1.4757030 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:0 AU: Terasaki, H.;Yamagishi, H.;Moriguchi, K.;Tomio, Y.;Komizo, Y.;
6:16:20:3:4 In situ studies of nonlinear d-spacing changes in titanium and steel alloys
DOI:10.1016/j.matlet.2011.03.087 JN:MATERIALS LETTERS PY:2011 TC:1 AU: Terasaki, Hidenori;Yamamoto, Yu-hei;Komizo, Yu-ichi;
6:16:21:1 Influence of heat treatment on the microstructure and corrosion behavior of Ni-Fe-Cr alloy 028
DOI:10.1557/jmr.2014.249 JN:JOURNAL OF MATERIALS RESEARCH PY:2014 TC:0 AU: Zhang, L. N.;Szpunar, J. A.;Dong, J. X.;Zhang, M. C.;
6:16:21:2 Ageing of forged superaustenitic stainless steel: Precipitate phases and mechanical properties
DOI:10.1016/j.msea.2011.12.048 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:9 AU: Anburaj, J.;Nazirudeen, S. S. Mohamed;Narayanan, R.;Anandavel, B.;Chandrasekar, A.;
6:16:21:3 Effect of ageing on phase evolution and mechanical properties of a high tungsten super-duplex stainless steel
DOI:10.1016/j.msea.2011.12.087 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:6 AU: Akisanya, Alfred R.;Obi, Udoka;Renton, Neill C.;
6:16:21:4 Influence of annealing conditions on microstructure and phase occurrence in high-alloy CrMnN steels
DOI:10.1016/j.matchar.2010.06.012 JN:MATERIALS CHARACTERIZATION PY:2010 TC:5 AU: Bakajova, Jana;Domankova, Maria;Cicka, Roman;Eglsaeer, Sabine;Janovec, Jozef;
6:16:21:5 Phase transformations and mechanical properties in heat treated superaustenitic stainless steels
DOI:10.1016/j.msea.2012.10.066 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:9 AU: Koutsoukis, T.;Redjaimia, A.;Fourlaris, G.;
6:16:21:6 The influence of solution treatment temperature on microstructure and corrosion behavior of high temperature ageing in 25% Cr duplex stainless steel
DOI:10.1016/j.jallcom.2011.06.099 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:4 AU: Yang, Y. H.;Yan, B.;Wang, J.;Yin, J. L.;
6:16:21:7 Chloride induced pitting corrosion of nickel in alkaline solutions and its inhibition by organic amines
DOI:10.1016/j.matchemphys.2011.03.023 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2011 TC:6 AU: Abd El-Haleem, S. M.;Abd El-Wanees, S.;
6:16:22:1 Dramatically enhanced impact toughness in welded 10%Cr rotor steel by high temperature post-weld heat treatment
DOI:10.1016/j.matchar.2014.03.014 JN:MATERIALS CHARACTERIZATION PY:2014 TC:4 AU: Lu, Fenggui;Liu, Peng;Ji, Huijun;Ding, Yuming;Xu, Xiaojin;Gao, Yulai;
6:16:22:2 Precipitation behavior of nanoscale cementite in hypoeutectoid steels during ultra fast cooling (UFC) and their strengthening effects
DOI:10.1016/j.msea.2013.02.071 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:7 AU: Wang Bin;Liu Zhenyu;Zhou Xiaoguang;Wang Guodong;Misra, R. D. K.;
6:16:22:3 Role of second phase cementite and martensite particles on strength and strain hardening in a plain C-Mn steel
DOI:10.1016/j.msea.2012.04.040 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:2 AU: Zhao, Ming-Chun;Huang, Xiao-Fang;Atrens, Andrej;
6:16:22:4 Prediction of the work-hardening exponent for ultrafine-grained steels
DOI:10.1016/j.msea.2011.11.064 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:8 AU: Qiu, H.;Wang, L. N.;Hanamura, T.;Torizuka, S.;
6:16:22:5 Effect of heat treatment on the structure and mechanical properties of 0.08%C-17.0%Cr-0.8%Ti steel after "internal" nitriding
DOI:10.1016/j.jallcom.2013.02.162 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:1 AU: Nikulin, S. A.;Rogachev, S. O.;Khatkevich, V. M.;Rozhnov, A. B.;Nechaykina, T. A.;
6:16:22:6 Rate-controlling parameters in the coarsening kinetics of cementite in Fe-0.6C steels during tempering
DOI:10.1016/j.scriptamat.2010.04.002 JN:SCRIPTA MATERIALIA PY:2010 TC:9 AU: Ghosh, Sadhan;
6:16:23:1 Control of precipitation behavior in reduced activation steels by intermediate heat treatment
DOI:10.1016/j.msea.2011.05.084 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:11 AU: Xia, Z. X.;Zhang, C.;Yang, Z. G.;
6:16:23:2 Influence of smelting processes on precipitation behaviors and mechanical properties of low activation ferrite steels
DOI:10.1016/j.msea.2010.09.088 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:17 AU: Xia, Z. X.;Zhang, C.;Lan, H.;Yang, Z. G.;Wang, P. H.;Chen, J. M.;Xu, Z. Y.;Li, X. W.;Liu, S.;
6:16:23:3 Improve creep properties of reduced activation steels by controlling precipitation behaviors
DOI:10.1016/j.msea.2012.03.004 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:5 AU: Xia, Z. X.;Zhang, C.;Fan, N. Q.;Zhao, Y. F.;Xue, F.;Liu, S. J.;
6:16:23:4 TaC precipitation behaviors in reduced activation martensitic steels
DOI:10.1007/s10853-010-5196-7 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:3 AU: Xia, Z. X.;Zhang, C.;Lan, H.;Yang, Z. G.;
6:16:23:5 Coherent precipitation of copper in Super304H austenite steel
DOI:10.1016/j.msea.2013.06.082 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:3 AU: Bai, J. W.;Liu, P. P.;Zhu, Y. M.;Li, X. M.;Chi, C. Y.;Yu, H. Y.;Xie, X. S.;Zhan, Q.;
6:16:24:1:1 Low temperature thermal aging of austenitic stainless steel welds: Kinetics and effects on mechanical properties
DOI:10.1016/j.msea.2011.11.055 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:7 AU: Chandra, K.;Kain, Vivekanand;Bhutani, Vikas;Raja, V. S.;Tewari, R.;Dey, G. K.;Chakravartty, J. K.;
6:16:24:1:2 Low temperature embrittlement of duplex stainless steel: Correlation between mechanical and electrochemical behavior
DOI:10.1016/j.msea.2010.02.069 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:26 AU: Chandra, K.;Singhal, Rahul;Kain, V.;Raja, V. S.;
6:16:24:1:3 Annealing induced recovery of long-term thermal aging embrittlement in a duplex stainless steel
DOI:10.1016/j.msea.2012.11.046 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:6 AU: Li, S. L.;Zhang, H. L.;Wang, Y. L.;Li, S. X.;Zheng, K.;Xue, F.;Wang, X. T.;
6:16:24:1:4 Spinodal decomposition in AISI 316L stainless steel via high-speed laser remelting
DOI:10.1016/j.apsusc.2013.10.099 JN:APPLIED SURFACE SCIENCE PY:2014 TC:2 AU: Chikarakara, Evans;Naher, Sumsun;Brabazon, Dermot;
6:16:24:1:5 Influence of laser hardening on the tribological properties of forged steel for hot rolls
DOI:10.1016/j.wear.2011.01.044 JN:WEAR PY:2011 TC:6 AU: Pellizzari, M.;De Flora, M. G.;
6:16:24:1:6 Effect of long-term thermal aging on the mechanical properties of casting duplex stainless steels
DOI:10.1016/j.msea.2012.04.105 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:8 AU: Yao, Y. H.;Wei, J. F.;Wang, Z. P.;
6:16:24:2:1 In situ measurement and modelling of austenite grain growth in a Ti/Nb microalloyed steel
DOI:10.1016/j.actamat.2011.11.016 JN:ACTA MATERIALIA PY:2012 TC:21 AU: Maalekian, M.;Radis, R.;Militzer, M.;Moreau, A.;Poole, W. J.;
6:16:24:2:2 Understanding sigma-phase precipitation in a stabilized austenitic stainless steel (316Nb) through complementary CALPHAD-based and experimental investigations
DOI:10.1016/j.actamat.2014.06.066 JN:ACTA MATERIALIA PY:2014 TC:1 AU: Perron, A.;Toffolon-Masclet, C.;Ledoux, X.;Buy, F.;Guilbert, T.;Urvoy, S.;Bosonnet, S.;Marini, B.;Cortial, F.;Texier, G.;Harder, C.;Vignal, V.;Petit, Ph.;Farre, J.;Suzon, E.;
6:16:24:2:3 Modelling of austenite grain growth kinetics in a microalloyed steel (30MSV6) in the presence of carbonitride precipitates
DOI:10.1080/14786435.2014.932460 JN:PHILOSOPHICAL MAGAZINE PY:2014 TC:0 AU: Azghandi, S. H. Mohamadi;Ahmadabadi, V. Ghanooni;Zabett, A.;Fazeli, F.;
6:16:25:1 Correlation between microstructure, hardness and strength in HAZ of dissimilar welds of rotor steels
DOI:10.1016/j.msea.2010.03.066 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:29 AU: Zhu, Ming-Liang;Xuan, Fu-Zhen;
6:16:25:2 Effect of long-term aging on microstructure and local behavior in the heat-affected zone of a Ni-Cr-Mo-V steel welded joint
DOI:10.1016/j.matchar.2013.10.026 JN:MATERIALS CHARACTERIZATION PY:2014 TC:9 AU: Zhu, Ming-Liang;Wang, De-Qiang;Xuan, Fu-Zhen;
6:16:25:3 A comparative study of the microstructure and mechanical properties of HTLA steel welds obtained by the tungsten arc welding and resistance spot welding
DOI:10.1016/j.msea.2011.11.046 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:7 AU: Ghazanfari, H.;Naderi, M.;Iranmanesh, M.;Seydi, M.;Poshteban, A.;
6:16:25:4 Study on microstructure and mechanical characteristics of low-carbon steel and ferritic stainless steel joints
DOI:10.1016/j.msea.2014.04.065 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:4 AU: Khorrami, Mahmoud Sarkari;Mostafaei, Mohammad Ali;Pouraliakbar, Hesam;Kokabi, Amir Hossein;
6:16:25:5 Investigation of cold rolling influence on the mechanical properties of explosive-welded Al/Cu bimetal
DOI:10.1016/j.msea.2012.07.102 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:5 AU: Asemabadi, M.;Sedighi, M.;Honarpisheh, M.;
6:16:25:6 Observation and modeling of physically short fatigue crack closure in terms of in-situ SEM fatigue test
DOI:10.1016/j.msea.2014.08.021 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Zhu, Ming-Liang;Xuan, Fu-Zhen;Tu, Shan-Tung;
6:16:26:1 Analysis of the microstructure near the crack tip of ASME Gr.92 steel after creep crack growth
DOI:10.1016/j.matchar.2010.07.003 JN:MATERIALS CHARACTERIZATION PY:2010 TC:9 AU: Sawada, K.;Hongo, H.;Watanabe, T.;Tabuchi, M.;
6:16:26:2 Investigation on mechanism of type IV cracking in P92 steel at 650 degrees C
DOI:10.1557/jmr.2011.11 JN:JOURNAL OF MATERIALS RESEARCH PY:2011 TC:10 AU: Zhao, Lei;Jing, Hongyang;Xu, Lianyong;An, Junchao;Xiao, Guangchun;Xu, Delu;Chen, Yucheng;Han, Yu;
6:16:26:3 Microstructure and creep characteristics of dissimilar T91/TP316H martensitic/austenitic welded joint with Ni-based weld metal
DOI:10.1016/j.matchar.2012.06.014 JN:MATERIALS CHARACTERIZATION PY:2012 TC:8 AU: Falat, Ladislav;Svoboda, Milan;Vyrostkova, Anna;Petryshynets, Ivan;Sopko, Martin;
6:16:26:4 Analysis of creep crack growth behavior of P92 steel welded joint by experiment and numerical simulation
DOI:10.1016/j.msea.2012.07.094 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:4 AU: Zhao, Lei;Jing, Hongyang;Xu, Lianyong;Han, Yongdian;Xiu, Junjie;
6:16:26:5 Stochastic aspects of evolution of creep damage in austenitic stainless steel
DOI:10.1016/j.msea.2010.04.013 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:9 AU: Roy, N.;Bose, S. C.;Ghosh, R. N.;
6:16:26:6 Prediction of creep crack growth behavior in ASME P92 steel welded joint
DOI:10.1016/j.commatsci.2012.04.028 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:5 AU: Zhao, Lei;Jing, Hongyang;Han, Yongdian;Xiu, Junjie;Xu, Lianyong;
6:16:26:7 Evolution of precipitated phases during prolonged tempering in a 9%Cr1%MoVNb ferritic-martensitic steel: Influence on creep performance
DOI:10.1016/j.msea.2011.01.116 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:6 AU: Zavaleta Gutierrez, N.;De Cicco, H.;Marrero, J.;Danon, C. A.;Luppo, M. I.;
6:16:26:8 Creep characterization and damage assessment of long term service exposed P-22 grade of steel
DOI:10.1016/j.msea.2012.10.039 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:2 AU: Roy, N.;Bagui, S.;Sahu, J. K.;Ray, A. K.;
6:16:27:1 Void growth in copper during high-temperature power-law creep
DOI:10.1016/j.actamat.2010.10.003 JN:ACTA MATERIALIA PY:2011 TC:17 AU: Dzieciol, K.;Borbely, A.;Sket, F.;Isaac, A.;Di Michiel, M.;Cloetens, P.;Buslaps, Th;Pyzalla, A. R.;
6:16:27:2 Nanovoid morphology and distribution in deformed HDPE studied by magnified synchrotron radiation holotomography
DOI:10.1016/j.polymer.2014.10.022 JN:POLYMER PY:2014 TC:0 AU: Morgeneyer, Thilo F.;Proudhon, Henry;Cloetens, Peter;Ludwig, Wolfgang;Roirand, Quentin;Laiarinandrasana, Lucien;Maire, Eric;
6:16:27:3 Continuous characterization by X-ray microtomography of damage during high-temperature deformation of magnesium alloy
DOI:10.1016/j.scriptamat.2013.03.001 JN:SCRIPTA MATERIALIA PY:2013 TC:2 AU: Lhuissier, P.;Scheel, M.;Salvo, L.;Di Michiel, M.;Blandin, J. J.;
6:16:27:4 A mesoscale quantification method of cavitation in semicrystalline polymers using X-ray microtomography
DOI:10.1016/j.msea.2011.04.091 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:8 AU: Rosenberg, E.;Brusselle-Dupend, N.;Epsztein, T.;
6:16:27:5 Application of X-ray microtomography to analysis of cavitation in AZ61 magnesium alloy during hot deformation
DOI:10.1016/j.msea.2010.11.083 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:2 AU: Rashed, H. M. M. A.;Robson, J. D.;Bate, P. S.;Davis, B.;
6:16:27:6 Tomographic method for evaluation of apparent activation energy of steady-state creep
DOI:10.1016/j.msea.2009.11.058 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:6 AU: Sket, F.;Dzieciol, K.;Isaac, A.;Borbely, A.;Pyzalla, A. R.;
6:16:27:7 Characterization of cavitation development while tensile testing PVF2 using 3D X-ray microtomography
DOI:10.1016/j.msea.2011.09.009 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:4 AU: Brusselle-Dupend, N.;Rosenberg, E.;Adrien, J.;
6:16:28:1 Plastic flow and ductile rupture of a 2198 Al-Cu-Li aluminum alloy
DOI:10.1016/j.commatsci.2010.06.029 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:15 AU: Chen, Jianqiang;Madi, Yazid;Morgeneyer, Thilo F.;Besson, Jacques;
6:16:28:2 Retardation of fatigue crack growth in aircraft aluminium alloys via laser heating - Numerical prediction of fatigue crack growth
DOI:10.1016/j.commatsci.2012.07.047 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:3 AU: Schnubel, D.;Huber, N.;
6:16:28:3 Retardation of fatigue crack growth in aircraft aluminium alloys via laser heating - Experimental proof of concept
DOI:10.1016/j.msea.2012.02.094 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:6 AU: Schnubel, D.;Horstmann, M.;Ventzke, V.;Riekehr, S.;Staron, P.;Fischer, T.;Huber, N.;
6:16:28:4 Experimental and numerical investigation for ductile fracture of Al-alloy 5052 using modified Rousselier model
DOI:10.1016/j.commatsci.2013.01.011 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:4 AU: Guo, Junhang;Zhao, Shengdun;Murakami, Ri-ichi;Zang, Shunlai;
6:16:28:5 Experimental investigation and finite element simulation of laser beam welding induced residual stresses and distortions in thin sheets of AA 6056-T4
DOI:10.1016/j.msea.2010.01.054 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:17 AU: Zain-ul-abdein, Muhammad;Nelias, Daniel;Jullien, Jean-Francois;Deloison, Dominique;
6:16:28:6 Influence of the FSW clamping force on the final distortion and residual stress field
DOI:10.1016/j.msea.2012.01.016 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:8 AU: Richter-Trummer, V.;Suzano, E.;Beltrao, M.;Roos, A.;dos Santos, J. F.;de Castro, P. M. S. T.;
6:16:29:1 Fatigue behavior of a 316L stainless steel coated with a DLC film deposited by PVD magnetron sputter ion plating
DOI:10.1016/j.msea.2009.09.030 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:21 AU: Puchi-Cabrera, E. S.;Staia, M. H.;Ochoa-Perez, E. A.;Teer, D. G.;Santana-Mendez, Y. Y.;La Barbera-Sosa, J. G.;Chicot, D.;Lesage, J.;
6:16:29:2 Enhancing the tribo-mechanical properties of aerospace AL7075-T6 by magnetron-sputtered Ti/TiN, Cr/CrN & TiCr/TiCrN thin film ceramic coatings
DOI:10.1016/j.ceramint.2014.07.067 JN:CERAMICS INTERNATIONAL PY:2014 TC:5 AU: Ezazi, M. A.;Quazi, M. M.;Zalnezhad, E.;Sarhan, Ahmed A. D.;
6:16:29:3 The effect of typical flight temperatures on the fatigue behaviour of Al 7075-T6 clamped plates
DOI:10.1016/j.msea.2010.10.074 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:14 AU: Oskouei, R. H.;Ibrahim, R. N.;
6:16:29:4 An experimental study on the characteristics and delamination of TiN coatings deposited on Al 7075-T6 under fatigue cycling
DOI:10.1016/j.tsf.2012.11.016 JN:THIN SOLID FILMS PY:2012 TC:3 AU: Oskouei, R. H.;Ibrahim, R. N.;Barati, M. R.;
6:16:29:5 The electrochemical synthesis of poly(methylcarbyne) for diamond film coatings
DOI:10.1002/app.34805 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2012 TC:0 AU: Nur, Yusuf;Duygulu, Sebnem;Pitcher, Michael W.;Toppare, Levent;
6:16:29:6 Mechanical and tribological properties of CrN coatings deposited by large area filtered cathodic arc
DOI:10.1016/j.wear.2011.03.011 JN:WEAR PY:2011 TC:11 AU: Cheng, Y. H.;Browne, T.;Heckerman, B.;
6:16:30:1 Effect of aging on the impact toughness of 25Cr-20Ni-Nb-N steel
DOI:10.1016/j.msea.2009.12.039 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:11 AU: Peng, Bicao;Zhang, Hongxiang;Hong, Jie;Gao, Jiaqiang;Wang, Qijiang;Zhang, Hanqian;
6:16:30:2 Deformation behavior and the Portevin-Le Chatelier effect in a modified 18Cr-8Ni stainless steel
DOI:10.1016/j.msea.2010.10.056 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:7 AU: Nikulin, I.;Kaibyshev, R.;
6:16:30:3 Effect of high-temperature exposure on the mechanical properties of 18Cr-8Ni-W-Nb-V-N stainless steel
DOI:10.1016/j.msea.2012.06.011 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:2 AU: Nikulin, I.;Kipelova, A.;Kaibyshev, R.;
6:16:30:4 The effect of M23C6 on the high-temperature tensile strength of two austenitic heat-resistant steels: 22Cr-25Ni-Mo-Nb-N and 25Cr-20Ni-Nb-N
DOI:10.1016/j.msea.2011.01.079 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:3 AU: Peng, Bicao;Zhang, Hongxiang;Hong, Jie;Gao, Jiaqiang;Zhang, Hanqian;Wang, Qijiang;Li, Jinfu;
6:16:30:5 Dynamic strain ageing in Inconel (R) Alloy 783 under tension and low cycle fatigue
DOI:10.1016/j.msea.2012.03.018 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:4 AU: Nagesha, A.;Goyal, Sunil;Nandagopal, M.;Parameswaran, P.;Sandhya, R.;Mathew, M. D.;Mannan, Sarwan K.;
6:16:30:6 Temperature dependent slip mode modification in Cu-Al solid solution alloy single crystals
DOI:10.1016/j.msea.2012.12.044 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: Ha, Jong Su;Hong, Sun Ig;
6:16:30:7 Microstructural evolution and the effect on hardness and plasticity of S31042 heat-resistant steel during creep
DOI:10.1016/j.msea.2014.04.073 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Yang, Yahong;Zhu, Lihui;Wang, Qijiang;Zhu, Changchun;
6:16:31:1 Subsurface crack initiation and propagation mechanisms in gigacycle fatigue
DOI:10.1016/j.actamat.2010.07.022 JN:ACTA MATERIALIA PY:2010 TC:15 AU: Huang, Zhiyong;Wagner, Daniele;Bathias, Claude;Paris, Paul C.;
6:16:31:2 Crystalline Phase Transformation of Polytetrafluoroethylene in a Fatigue Test
DOI:10.1002/APP.41113 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2014 TC:0 AU: Yang, S. B.;Pu, X. X.;Huang, Z. Y.;Wang, Q. Y.;
6:16:31:3 Influence of closure on the 3D propagation of fatigue cracks in a nodular cast iron investigated by X-ray tomography and 3D volume correlation
DOI:10.1016/j.actamat.2010.01.024 JN:ACTA MATERIALIA PY:2010 TC:29 AU: Limodin, Nathalie;Rethore, Julien;Buffiere, Jean-Yves;Hild, Francois;Roux, Stephane;Ludwig, Wolfgang;Rannou, Johann;Gravouil, Anthony;
6:16:31:4 Effect of carburizing treatment on the "fish eye" crack growth for a low alloyed chromium steel in very high cycle fatigue
DOI:10.1016/j.msea.2012.09.025 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:5 AU: Huang, Zhi Yong;Wagner, Daniele;Wang, Qing Yuan;Bathias, Claude;
6:16:31:5 3D analysis of micro-deformation in VHCF-loaded nodular cast iron by mu CT
DOI:10.1016/j.msea.2013.04.057 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:7 AU: Fischer, G.;Nellesen, J.;Anar, N. B.;Ehrig, K.;Riesemeier, H.;Tillmann, W.;
6:16:31:6 In Situ SEM Study of Fatigue Crack Growth Mechanism in Carbon Black-Filled Natural Rubber
DOI:10.1002/app.31707 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2010 TC:13 AU: Beurrot, Stephanie;Huneau, Bertrand;Verron, Erwan;
6:16:32:1:1 Finite element analysis of type IV cracking in 2.25Cr-1Mo steel weldment based on micro-mechanistic approach
DOI:10.1080/14786435.2011.570279 JN:PHILOSOPHICAL MAGAZINE PY:2011 TC:8 AU: Goyal, Sunil;Laha, K.;Chandravathi, K. S.;Parameswaran, P.;Mathew, M. D.;
6:16:32:1:2 Creep life prediction of 9Cr-1Mo steel under multiaxial state of stress
DOI:10.1016/j.msea.2014.07.096 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Goyal, Sunil;Laha, K.;
6:16:32:1:3 Creep-fatigue-oxidation interaction in Grade 91 steel weld joints for high temperature applications
DOI:10.1016/j.msea.2011.07.046 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:7 AU: Shankar, Vani;Sandhya, R.;Mathew, M. D.;
6:16:32:2:1 Finite element analysis of uniaxial and multiaxial state of stress on creep rupture behaviour of 2.25Cr-1Mo steel
DOI:10.1016/j.msea.2012.11.038 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:5 AU: Goyal, Sunil;Laha, K.;Das, C. R.;Selvi, S. Panneer;Mathew, M. D.;
6:16:32:2:2 Effect of multi-axial stress state on creep behavior and stress rupture life of a Ni-based DS superalloy
DOI:10.1016/j.commatsci.2013.12.026 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:1 AU: Huang, Jia;Shi, Duoqi;Yang, Xiaoguang;Hu, Xiaoan;
6:16:32:2:3 Prediction of creep rupture life of a V-notched bar in DD6 Ni-based single crystal superalloy
DOI:10.1016/j.msea.2014.07.006 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Liu, D. S.;Zhang, D. X.;Liang, J. W.;Wen, Z. X.;Yue, Z. F.;
6:16:32:3:1 Long term creep behaviour of welded joints of P91 steel at 650 degrees C
DOI:10.1016/j.msea.2012.10.013 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:2 AU: Abd El-Azim, M. E.;Ibrahim, O. H.;El-Desoky, O. E.;
6:16:32:3:2 Influence of welding process on Type IV cracking behavior of P91 steel
DOI:10.1016/j.msea.2014.06.089 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Divya, M.;Das, C. R.;Albert, S. K.;Goyal, Sunil;Ganesh, P.;Kaul, R.;Swaminathan, J.;Murty, B. S.;Kukreja, L. M.;Bhaduri, A. K.;
6:16:33:1 Effect of Cu on the Precipitation of Deleterious Phases and the Mechanical Properties of 27Cr-7Ni Hyper Duplex Stainless Steels
DOI:10.2320/matertrans.M2013471 JN:MATERIALS TRANSACTIONS PY:2014 TC:1 AU: Jeon, Soon-Hyeok;Park, Il-Jeong;Kim, Hye-Jin;Kim, Soon-Tae;Lee, Young-Kook;Park, Yong-Soo;
6:16:33:2 Effects of Sulfur Addition on the Formation of Inclusions and the Corrosion Behavior of Super Duplex Stainless Steels in Chloride Solutions of Different pH
DOI:10.2320/matertrans.M2012194 JN:MATERIALS TRANSACTIONS PY:2012 TC:3 AU: Jeon, Soon-Hyeok;Kim, Soon-Tae;Lee, Jun-Seob;Lee, In-Sung;Park, Yong-Soo;
6:16:33:3 Effects of Copper Addition on the Precipitation of Chromium Nitrides and the Associated Pitting Corrosion Resistance of the Hyper Duplex Stainless Steels
DOI:10.2320/matertrans.M2012277 JN:MATERIALS TRANSACTIONS PY:2012 TC:2 AU: Jeon, Soon-Hyeok;Kim, Soon-Tae;Kim, Jin-Seung;Kim, Ji-Soo;Kim, Kwang-Tae;Park, Yong-Soo;
6:16:33:4 Effects of Solution-Annealing Temperature on the Precipitation of Secondary Phases and the Associated Pitting Corrosion Resistance in Hyper Duplex Stainless Steel
DOI:10.2320/matertrans.M2012402 JN:MATERIALS TRANSACTIONS PY:2013 TC:2 AU: Jeon, Soon-Hyeok;Kim, Soon-Tae;Kim, Se-Young;Choi, Min-Seok;Park, Yong-Soo;
6:16:33:5 Influence of Oxygen Content on the Inclusion Formation and Pitting Corrosion Resistance of Hyper Duplex Stainless Steels
DOI:10.2320/matertrans.M2014164 JN:MATERIALS TRANSACTIONS PY:2014 TC:0 AU: Jeon, Soon-Hyeok;Hur, Do Haeng;Kim, Hye-Jin;Park, Yong-Soo;
6:16:33:6 Pipe fittings in duplex stainless steel with deviation in quality caused by sigma phase precipitation
DOI:10.1016/j.msea.2010.06.087 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:7 AU: Borvik, T.;Lange, H.;Marken, L. A.;Langseth, M.;Hopperstad, O. S.;Aursand, M.;Rorvik, G.;
6:16:33:7 Effect of Ce addition on secondary phase transformation and mechanical properties of 27Cr-7Ni hyper duplex stainless steels
DOI:10.1016/j.msea.2013.02.044 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:3 AU: Kim, Sun Mi;Kim, Ji Soo;Kim, Kwang Tae;Park, Kyung-Tae;Lee, Chong Soo;
6:16:34:1 Damage mechanics-based creep model for 9-10%Cr ferritic steels
DOI:10.1016/j.actamat.2010.12.015 JN:ACTA MATERIALIA PY:2011 TC:12 AU: Oruganti, R.;Karadge, M.;Swaminathan, S.;
6:16:34:2 A new approach to dislocation creep
DOI:10.1016/j.actamat.2011.11.051 JN:ACTA MATERIALIA PY:2012 TC:3 AU: Oruganti, R.;
6:16:34:3 Stability of MX-type strengthening nanoprecipitates in ferritic steels under thermal aging, stress and ion irradiation
DOI:10.1016/j.actamat.2014.03.015 JN:ACTA MATERIALIA PY:2014 TC:1 AU: Tan, L.;Byun, T. S.;Katoh, Y.;Snead, L. L.;
6:16:34:4 A new approach to dislocation creep (vol 60, pg 1695, 2012)
DOI:10.1016/j.actamat.2014.05.011 JN:ACTA MATERIALIA PY:2014 TC:0 AU: Oruganti, R.;
6:16:35:1 Discussing the precipitation behavior of sigma phase using diffusion equation and thermodynamic simulation in dissimilar stainless steels
DOI:10.1016/j.jallcom.2010.07.084 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:9 AU: Hsieh, Chih-Chun;Wu, Weite;
6:16:35:2 Transformation of austenite during isothermal annealing at 600-900 degrees C for heat-resistant stainless steel
DOI:10.1016/j.jallcom.2013.03.102 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:3 AU: Kosec, Ladislav;Savli, Stefan;Kozuh, Stjepan;Grguric, Tamara Holjevac;Nagode, Ales;Kosec, Gorazd;Drazic, Goran;Gojic, Mirko;
6:16:35:3 Development of high chromium ferritic steels strengthened by intermetallic phases
DOI:10.1016/j.msea.2013.11.048 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:8 AU: Kuhn, B.;Talik, M.;Niewolak, L.;Zurek, J.;Hattendorf, H.;Ennis, P. J.;Quadakkers, W. J.;Beck, T.;Singheiser, L.;
6:16:35:4 The evolution of precipitates of 22Cr-25Ni-Mo-Nb-N heat-resistant austenitic steel in long-term creep
DOI:10.1016/j.msea.2010.03.089 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:10 AU: Peng, Bicao;Zhang, Hongxiang;Hong, Jie;Gao, Jiaqiang;Zhang, Hanqian;Li, Jinfu;Wang, Qijiang;
6:16:35:5 Effect of Precipitated Phases on the Pitting Corrosion of Z3CN20.09M Cast Duplex Stainless Steel
DOI:10.2320/matertrans.M2012410 JN:MATERIALS TRANSACTIONS PY:2013 TC:3 AU: Wang, Y. Q.;Yang, B.;Han, J.;Wu, H. C.;Wang, X. T.;
6:16:36:1 Effect of feeding Ca-Mg-RE-Zr composite cored wire during refining of liquid steel on abrasive wear resistance of high-strength steels
DOI:10.1016/j.wear.2013.04.011 JN:WEAR PY:2013 TC:1 AU: He, T. Q.;Wu, K. M.;Anatolii, Trotsan;Yu, H. W.;Xiong, Y. Z.;
6:16:36:2 Improved wear resistance of medium carbon microalloyed bainitic steels
DOI:10.1016/j.wear.2012.03.005 JN:WEAR PY:2012 TC:6 AU: Chattopadhyay, C.;Sangal, S.;Mondal, K.;Garg, A.;
6:16:36:3 Pinning efficiency of austenite grain boundary by a cubic shaped TiN particle in hot rolled HSLA steel
DOI:10.1016/j.matchar.2012.07.003 JN:MATERIALS CHARACTERIZATION PY:2012 TC:2 AU: Moon, Joonoh;Lee, Changhee;
6:16:36:4 Evaluation of morphology and deposits on worn polyimide/graphite composite surfaces by contact-mode AFM
DOI:10.1016/j.wear.2010.09.006 JN:WEAR PY:2010 TC:4 AU: Samyn, Pieter;Schoukens, Gustaaf;De Baets, Patrick;
6:16:36:5 Effect of nickel additions on the mechanical and sliding wear properties of Al-40Zn-3Cu alloy
DOI:10.1016/j.wear.2009.10.002 JN:WEAR PY:2010 TC:5 AU: Savaskan, Temel;Alemdag, Yasin;
6:16:36:6 Assessment of Hardness in As-Cast and Homogenized Zn-Al-Cu Alloys
DOI:10.2320/matertrans.M2011084 JN:MATERIALS TRANSACTIONS PY:2011 TC:2 AU: Villegas-Cardenas, Jose D.;Lopez-Hirata, Victor M.;De Ita-De la Torre, Antonio;Saucedo-Munoz, Maribel L.;
6:16:36:7 On the optical microscopic method for the determination of ball-on-flat surface linearly reciprocating sliding wear volume
DOI:10.1016/j.wear.2013.01.107 JN:WEAR PY:2013 TC:6 AU: Sharma, S.;Sangal, S.;Mondal, K.;
6:16:37:1 A thermodynamic model of sliding friction
DOI:10.1063/1.3699027 JN:AIP ADVANCES PY:2012 TC:1 AU: Makkonen, Lasse;
6:16:37:2 The frictional behavior of UHMWPE films with different surface energies at low normal loads
DOI:10.1016/j.wear.2009.12.032 JN:WEAR PY:2010 TC:12 AU: Minn, Myo;Sinha, Sujeet K.;
6:16:37:3 The effect of plasticization by fatty acid amides on the scratch resistance of PMMA
DOI:10.1016/j.wear.2010.12.089 JN:WEAR PY:2011 TC:7 AU: Mansha, M.;Gauthier, C.;Gerard, P.;Schirrer, R.;
6:16:37:4 3D multiscale simulation of a silicon slider on a PE substrate
DOI:10.1016/j.commatsci.2014.04.048 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:0 AU: Su, Z. C.;Tan, V. B. C.;Tay, T. E.;
6:16:37:5 Molecular Simulation of the Frictional Behavior of Polymer-on-Polymer Sliding
DOI:10.1021/la201167r JN:LANGMUIR PY:2011 TC:6 AU: Yew, Y. K.;Minn, Myo;Sinha, S. K.;Tan, V. B. C.;
6:16:37:6 Investigation of friction and surface degradation of innovative boundary lubricant functionalized hydrogel material for use as artificial articular cartilage
DOI:10.1016/j.wear.2012.11.042 JN:WEAR PY:2013 TC:2 AU: Blum, Michelle M.;Ovaert, Timothy C.;
6:16:38:1 Polyurethane/Acrylate Hybrids: Effects of the Acrylic Content and Thermal Treatment on the Polymer Properties
DOI:10.1002/app.31795 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2010 TC:15 AU: Peruzzo, Pablo J.;Anbinder, Pablo S.;Pardini, Oscar R.;Costa, Carlos A.;Leite, Carlos A.;Galembeck, Fernando;Amalvy, Javier I.;
6:16:38:2 Thermal and mechanical properties of PES/PTFE composites and nanocomposites
DOI:10.1002/app.39613 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2013 TC:9 AU: Righetti, Maria Cristina;Boggioni, Alessia;Laus, Michele;Antonioli, Diego;Sparnacci, Katia;Boarino, Luca;
6:16:38:3 Synthesis and Swelling Behavior of pH-Responsive Polyurethane/Poly[2-(diethylamino)ethyl methacrylate] Hybrid Materials
DOI:10.1002/APP.39799 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2014 TC:0 AU: Pardini, Francisco M.;Amalvy, Javier I.;
6:16:38:4 Surface, thermal, and mechanical properties of composites and nanocomposites of polyurethane/PTFE nanoparticles
DOI:10.1007/s11051-014-2529-5 JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2014 TC:1 AU: Anbinder, P. S.;Peruzzo, P. J.;de Siervo, A.;Amalvy, J. I.;
6:16:38:5 Preparation, mechanical properties of waterborne polyurethane and crosslinked polyurethane-acrylate composite
DOI:10.1002/app.35127 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2012 TC:10 AU: Xu, Heping;Qiu, Fengxian;Wang, Yingying;Yang, Dongya;Wu, Wenling;Chen, Zusheng;Zhu, Junhua;
6:16:38:6 Synthesis, characterization, and swelling behavior of new pH-sensitive hydrogels derived from copolymers of 2-hydroxyethyl methacrylate and 2-(diisopropylamino)ethylmethacrylate
DOI:10.1002/app.37576 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2013 TC:7 AU: Faccia, Paula A.;Amalvy, Javier I.;
6:16:39:1:1 Giga cycle fatigue behavior of a duplex-phase high strength steel
DOI:10.1016/j.msea.2012.02.036 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:0 AU: Li, Yong-De;Zhang, Li-Li;Guo, Wei-Min;Xu, Na;Wu, Xiao-Feng;Shi, Jun-Bo;Zhao, Mei;Ma, Hong;
6:16:39:1:2 The characteristics of granular-bright facet in hydrogen pre-charged and uncharged high strength steels in the very high cycle fatigue regime
DOI:10.1007/s10853-009-4007-5 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:6 AU: Li, Y. D.;Chen, S. M.;Liu, Y. B.;Yang, Z. G.;Li, S. X.;Hui, W. J.;Weng, Y. Q.;
6:16:39:1:3 Thermal effect of bainite/martensite duplex-phase steel under ultrasonic fatigue testing
DOI:10.1007/s10853-010-4225-x JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:2 AU: Liu, Y. B.;Li, S. X.;Yang, Z. G.;Li, Y. D.;Yu, Y.;Gu, J. L.;Bai, B. Z.;Cai, G. X.;
6:16:39:1:4 Factors influencing the GBF size of high strength steels in the very high cycle fatigue regime
DOI:10.1016/j.msea.2010.10.017 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:5 AU: Liu, Y. B.;Li, S. X.;Li, Y. D.;Yang, Z. G.;
6:16:39:2:1 Relationship among fatigue life, inclusion size and hydrogen concentration for high-strength steel in the VHCF regime
DOI:10.1016/j.msea.2009.10.056 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:9 AU: Yang, Z. G.;Li, S. X.;Li, Y. D.;Liu, Y. B.;Hui, W. J.;Weng, Y. Q.;
6:16:39:2:2 Inclusion-controlled high cycle fatigue behavior of a high V alloyed powder metallurgy cold-working tool steel
DOI:10.1016/j.msea.2011.02.016 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:6 AU: Yao, J.;Qu, X. H.;He, X. B.;Zhang, L.;
6:16:39:2:3 Influence of microstructure and microdefects on long-term fatigue behavior of a Cr-Mo-V steel
DOI:10.1016/j.msea.2012.03.030 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:9 AU: Zhu, Ming-Liang;Xuan, Fu-Zhen;Chen, Jian;
6:16:40:1 The temperature and stress dependent primary creep of CP-Ti at low and intermediate temperature
DOI:10.1016/j.msea.2014.05.094 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Peng, Jian;Zhou, Chang-Yu;Dai, Qiao;He, Xiao-Hua;
6:16:40:2 Understanding room temperature deformation behavior through indentation studies on modified 9Cr-1Mo steel weldments
DOI:10.1016/j.msea.2012.05.064 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:1 AU: Das, C. R.;Albert, S. K.;Bhaduri, A. K.;Murty, B. S.;
6:16:40:3 Low temperature creep of hot-extruded near-stoichiometric NiTi shape memory alloy part I: Isothermal creep
DOI:10.1016/j.msea.2013.04.040 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:6 AU: Raj, S. V.;Noebe, R. D.;
6:16:40:4 Creep behavior of Mg-2Nd-0.5Zn-0.4Zr at ambient temperature
DOI:10.1016/j.msea.2010.05.047 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:2 AU: Guo, Tian-Cai;Deng, Yun-Lai;Zhang, Xin-Ming;Zhong, Ying-Ying;
6:16:40:5 Transient creep in titanium alloys: Effect of stress, temperature and trace element concentration
DOI:10.1016/j.msea.2012.07.020 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:1 AU: Gollapudi, S.;Satyanarayana, D. V. V.;Phaniraj, C.;Nandy, T. K.;
6:16:41:1 Modeling of two-phase magnetic materials based on Jiles-Atherton theory of hysteresis
DOI:10.1016/j.jmmm.2011.07.017 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2012 TC:10 AU: Raghunathan, A.;Melikhov, Y.;Snyder, J. E.;Jiles, D. C.;
6:16:41:2 The role of tungsten in the coarsening behaviour of M23C6 carbide in 9Cr-W steels at 600 A degrees C
DOI:10.1007/s10853-009-4165-5 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:7 AU: Ghosh, Sadhan;
6:16:41:3 Modeling the effect of creep deterioration on magnetic properties in heat-resistant steels
DOI:10.1016/j.jmmm.2014.05.006 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2014 TC:0 AU: Zhang, S. Z.;Tu, S. T.;
6:16:41:4 Phenomenological modelling of first order phase transitions in magnetic systems
DOI:10.1063/1.4875678 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Melikhov, Yevgen;Hadimani, R. L.;Raghunathan, Arun;
6:16:41:5 Influence of W and Ta content on microstructural characteristics in heat treated 9Cr-reduced activation ferritic/martensitic steels
DOI:10.1016/j.matchar.2013.08.003 JN:MATERIALS CHARACTERIZATION PY:2013 TC:1 AU: Ravikirana;Mythili, R.;Raju, S.;Saroja, S.;Jayakumar, T.;Rajendrakumar, E.;
6:16:42:1 Microstructure and mechanical properties of low nickel maraging steel
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6:16:42:2 Microstructure evolution in CLAM steel under low cycle fatigue
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6:16:42:3 Evolution of microstructure and changes of mechanical properties of CLAM steel after long-term aging
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6:16:42:4 Tensile and impact properties of low nickel maraging steel
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6:16:42:5 Low cycle fatigue properties of CLAM steel at 823 K
DOI:10.1016/j.msea.2014.06.069 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Hu, Xue;Huang, Lixin;Yan, wei;Wang, Wei;Sha, Wei;Shan, Yiyin;Yang, Ke;
6:16:43:1 A local defect resonance to enhance acoustic wave-defect interaction in ultrasonic nondestructive evaluation
DOI:10.1063/1.3663872 JN:APPLIED PHYSICS LETTERS PY:2011 TC:7 AU: Solodov, Igor;Bai, Juxing;Bekgulyan, Sumbat;Busse, Gerd;
6:16:43:2 High-selectivity imaging of closed cracks using elastic waves with thermal stress induced by global preheating and local cooling
DOI:10.1063/1.4816160 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Ohara, Yoshikazu;Takahashi, Koji;Murai, Satoru;Yamanaka, Kazushi;
6:16:43:3 High-Selectivity Ultrasonic Imaging of Closed Cracks Using Global Preheating and Local Cooling
DOI:10.2320/matertrans.I-M2014810 JN:MATERIALS TRANSACTIONS PY:2014 TC:0 AU: Ohara, Yoshikazu;Takahashi, Koji;Jinno, Kentaro;Yamanaka, Kazushi;
6:16:43:4 Resonance ultrasonic thermography: Highly efficient contact and air-coupled remote modes
DOI:10.1063/1.4792236 JN:APPLIED PHYSICS LETTERS PY:2013 TC:0 AU: Solodov, Igor;Busse, Gerd;
6:16:43:5 Resonant ultrasound spectroscopy of defects: Case study of flat-bottomed holes
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6:16:44:1 A new wrought NiFe-base superalloy for advanced ultra-supercritical power plant applications beyond 700 degrees C
DOI:10.1016/j.matlet.2013.07.060 JN:MATERIALS LETTERS PY:2013 TC:13 AU: Zhong, Z. H.;Gu, Y. F.;Yuan, Y.;Shi, Z.;
6:16:44:2 Variations in overall- and phase-hardness of a new Ni-based superalloy during isothermal aging
DOI:10.1016/j.msea.2011.03.115 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:8 AU: Oh, Jun-Hak;Choi, In-Chul;Kim, Yong-Jae;Yoo, Byung-Gil;Jang, Jae-il;
6:16:44:3 Investigation on long-term creep rupture properties and microstructure stability of Fe-Ni based alloy Ni-23Cr-7W at 700 degrees C
DOI:10.1016/j.msea.2012.12.019 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:6 AU: Tokairin, Tsuyoshi;Dahl, Kristian Vinter;Danielsen, Hilmar Kjartansson;Grumsen, Flemming Bjerg;Sato, Takashi;Hald, John;
6:16:44:4 Precipitation behavior of Fe2Nb Laves phase on grain boundaries in austenitic heat resistant steels
DOI:10.1016/j.msea.2014.07.104 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Chen, S. W.;Zhang, C.;Xia, Z. X.;Ishikawa, H.;Yang, Z. G.;
6:16:45:1 A method for the 3-D quantification of bridging ligaments during crack propagation
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6:16:45:2 Image analysis of cracks in the weld metal of a wet welded steel joint by three dimensional (3D) X-ray microtomography
DOI:10.1016/j.matchar.2013.06.016 JN:MATERIALS CHARACTERIZATION PY:2013 TC:3 AU: Padilla, E.;Chawla, N.;Silva, L. F.;dos Santos, V. R.;Paciornik, S.;
6:16:45:3 3D characterization of trans- and inter-lamellar fatigue crack in (alpha plus beta) Ti alloy
DOI:10.1016/j.matchar.2014.10.017 JN:MATERIALS CHARACTERIZATION PY:2014 TC:0 AU: Babout, Laurent;Jopek, Lukasz;Preuss, Michael;
6:16:45:4 Quantitative characterization of porosity in laser welds of stainless steel
DOI:10.1016/j.scriptamat.2012.06.015 JN:SCRIPTA MATERIALIA PY:2012 TC:7 AU: Madison, Jonathan D.;Aagesen, Larry K.;
6:16:46:1 Evolution of creep damage in a modified ferritic heat resistant steel with excellent short-term creep performance and its oxide layer characteristic
DOI:10.1016/j.msea.2014.04.075 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Zhou, Xiaosheng;Liu, Yongchang;Liu, Chenxi;Ning, Baoqun;
6:16:46:2 Creep and creep fracture of 2.25Cr-1.6W steels (Grade 23)
DOI:10.1016/j.msea.2010.04.033 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:10 AU: Whittaker, M. T.;Wilshire, B.;
6:16:46:3 Creep property evaluation of a 2.25Cr-1Mo low alloy steel
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6:16:46:4 Constitutive equations of the minimum creep rate for 9% Cr heat resistant steels
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6:16:47:1 Microstructural evolution in nickel alloy C-276 after Ar-ion irradiation at elevated temperature
DOI:10.1016/j.matchar.2012.06.010 JN:MATERIALS CHARACTERIZATION PY:2012 TC:1 AU: Jin, Shuoxue;He, Xinfu;Li, Tiecheng;Ma, Shuli;Tang, Rui;Guo, Liping;
6:16:47:2 Microstructural evolution of P92 ferritic/martensitic steel under Ar+ ion irradiation at elevated temperature
DOI:10.1016/j.matchar.2012.03.009 JN:MATERIALS CHARACTERIZATION PY:2012 TC:6 AU: Jin, Shuoxue;Guo, Liping;Li, Tiecheng;Chen, Jihong;Yang, Zheng;Luo, Fengfeng;Tang, Rui;Qiao, Yanxin;Liu, Feihua;
6:16:47:3 Microstructural evolution of P92 ferritic/martensitic steel under argon ion irradiation
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6:16:48:1 Microstructural sensitivity of 316H austenitic stainless steel: Residual stress relaxation and grain boundary fracture
DOI:10.1016/j.msea.2010.08.010 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:13 AU: Chen, B.;Flewitt, P. E. J.;Smith, D. J.;
6:16:48:2 Quantifying internal stress and internal resistance associated with thermal ageing and creep in a polycrystalline material
DOI:10.1016/j.actamat.2013.12.027 JN:ACTA MATERIALIA PY:2014 TC:4 AU: Chen, B.;Hu, J. N.;Flewitt, P. E. J.;Smith, D. J.;Cocks, A. C. F.;Zhang, S. Y.;
6:16:48:3 Mechanical properties and hot-rolled microstructures of a low carbon bainitic steel with Cu-P alloying
DOI:10.1016/j.msea.2011.05.013 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:2 AU: Cui, W. F.;Zhang, S. X.;Jiang, Y.;Dong, J.;Liu, C. M.;
6:16:49:1 Role of dynamic strain aging in the tensile property, cyclic deformation and fatigue behavior of Z2CND18.12N stainless steel between 293 K and 723 K
DOI:10.1016/j.msea.2012.08.088 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:2 AU: Yu, Dunji;Yu, Weiwei;Chen, Gang;Jin, Fengmin;Chen, Xu;
6:16:49:2 Several aspects of the temperature history in relation to the cyclic behaviour of an austenitic stainless steel
DOI:10.1016/j.msea.2011.06.048 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:5 AU: Gentet, D.;Feaugas, X.;Risbet, M.;Lejeail, Y.;Pilvin, P.;
6:16:49:3 A comparative study of isothermal and thermomechanical fatigue on type 316L(N) austenitic stainless steel
DOI:10.1016/j.msea.2010.05.082 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:7 AU: Nagesha, A.;Kannan, R.;Parameswaran, P.;Sandhya, R.;Rao, K. Bhanu Sankara;Singh, Vakil;
6:16:50:1 Small angle neutron scattering comparative investigation of Udimet 520 and Udimet 720 samples submitted to different ageing treatments
DOI:10.1016/j.jallcom.2011.10.106 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:2 AU: Rogante, M.;Lebedev, V. T.;
6:16:50:2 Precipitate microstructure evolution in exposed IN738LC superalloy
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6:16:50:3 Investigations of early stage precipitation in a tungsten-rich nickel-base superalloy using SAXS and SANS
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6:16:51:1 Characterization of microstructures and mechanical properties of Inconel 617/310 stainless steel dissimilar welds
DOI:10.1016/j.matchar.2011.02.003 JN:MATERIALS CHARACTERIZATION PY:2011 TC:18 AU: Hosseini, H. Shah;Shamanian, M.;Kermanpur, A.;
6:16:51:2 Investigation of the elastic/crystallographic anisotropy of welds for improved ultrasonic inspections
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6:16:51:3 Characterisation of microstructure and creep properties of alloy 617 for high-temperature applications
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6:16:52:1 A unified model of grain-boundary segregation kinetics
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6:16:52:2 Phosphorus grain boundary segregation under different applied tensile stress levels in a Cr-Mo low alloy steel
DOI:10.1016/j.matlet.2010.01.038 JN:MATERIALS LETTERS PY:2010 TC:5 AU: Song, S. -H.;Wu, J.;Weng, L. -Q.;Liu, S. -J.;
6:16:52:3 A unified model of grain-boundary segregation kinetics (vol 110, 063531, 2011)
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6:17:1:1 Grain refinement mechanism of multiple laser shock processing impacts on ANSI 304 stainless steel
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6:17:1:2 Grain refinement of LY2 aluminum alloy induced by ultra-high plastic strain during multiple laser shock processing impacts
DOI:10.1016/j.actamat.2010.03.026 JN:ACTA MATERIALIA PY:2010 TC:68 AU: Lu, J. Z.;Luo, K. Y.;Zhang, Y. K.;Cui, C. Y.;Sun, G. F.;Zhou, J. Z.;Zhang, L.;You, J.;Chen, K. M.;Zhong, J. W.;
6:17:1:3 Fatigue performance improvement in AISI 4140 steel by dynamic strain aging and dynamic precipitation during warm laser shock peening
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6:17:1:4 Gradient nanostructure and residual stresses induced by Ultrasonic Nano-crystal Surface Modification in 304 austenitic stainless steel for high strength and high ductility
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6:17:1:5 Deformation-induced martensite and nanotwins by cryogenic laser shock peening of AISI 304 stainless steel and the effects on mechanical properties
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6:17:1:6 The mechanisms of thermal engineered laser shock peening for enhanced fatigue performance
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6:17:1:7 Single-layer graphene oxide reinforced metal matrix composites by laser sintering: Microstructure and mechanical property enhancement
DOI:10.1016/j.actamat.2014.07.038 JN:ACTA MATERIALIA PY:2014 TC:4 AU: Lin, Dong;Liu, C. Richard;Cheng, Gary J.;
6:17:1:8 Warm Laser Shock Peening Driven Nanostructures and Their Effects on Fatigue Performance in Aluminum Alloy 6160
DOI:10.1002/adem.200900290 JN:ADVANCED ENGINEERING MATERIALS PY:2010 TC:26 AU: Ye, Chang;Liao, Yiliang;Cheng, Gary J.;
6:17:1:9 Cryogenic ultrahigh strain rate deformation induced hybrid nanotwinned microstructure for high strength and high ductility
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6:17:1:10 Ultrahigh dense and gradient nano-precipitates generated by warm laser shock peening for combination of high strength and ductility
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6:17:1:11 Dislocation density-based modeling of subsurface grain refinement with laser-induced shock compression
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6:17:1:12 Mechanism of fatigue performance enhancement in a laser sintered superhard nanoparticles reinforced nanocomposite followed by laser shock peening
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6:17:1:13 Micro-structural strengthening mechanism of multiple laser shock processing impacts on AISI 8620 steel
DOI:10.1016/j.msea.2011.04.018 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:13 AU: Lu, J. Z.;Zhong, J. W.;Luo, K. Y.;Zhang, L.;Dai, F. Z.;Chen, K. M.;Wang, Q. W.;Zhong, J. S.;Zhang, Y. K.;
6:17:1:14 Effects of laser shock processing on mechanical properties and micro-structure of ANSI 304 austenitic stainless steel
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6:17:1:15 Effects of laser shock processing on surface microstructure and mechanical properties of ultrafine-grained high carbon steel
DOI:10.1016/j.msea.2013.01.068 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:5 AU: Xiong, Yi;He, Tiantian;Guo, Zhiqiang;He, Hongyu;Ren, Fengzhang;Volinsky, Alex A.;
6:17:1:16 Bimodal nanocrystallization of NiTi shape memory alloy by laser shock peening and post-deformation annealing
DOI:10.1016/j.actamat.2011.07.070 JN:ACTA MATERIALIA PY:2011 TC:16 AU: Ye, Chang;Suslov, Sergey;Fei, Xueling;Cheng, Gary J.;
6:17:1:17 Effects of multiple laser shock processing (LSP) impacts on mechanical properties and wear behaviors of AISI 8620 steel
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6:17:1:18 Large scale, highly dense nanoholes on metal surfaces by underwater laser assisted hydrogen etching near nanocrystalline boundary
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6:17:1:19 Residual stress distribution of Ti-6Al-4V alloy under different ns-LSP processing parameters
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6:17:1:20 Effects of laser shock peening and groove spacing on the wear behavior of non-smooth surface fabricated by laser surface texturing
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6:17:1:21 Microstructure of ultra-fine-grained high carbon steel prepared by equal channel angular pressing
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6:17:1:22 Nucleation of highly dense nanoscale precipitates based on warm laser shock peening
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6:17:1:23 Effects of laser shock processing and strain rate on tensile property of LY2 aluminum alloy
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6:17:1:24 Comparison of mechanisms of advanced mechanical surface treatments in nickel-based superalloy
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6:17:1:25 Controlled precipitation by thermal engineered laser shock peening and its effect on dislocation pinning: Multiscale dislocation dynamics simulation and experiments
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6:17:1:26 Laser assisted embedding of nanoparticles into metallic materials
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6:17:1:27 Graded/soft/graded exchange-coupled thin films fabricated by [FePt/C] 5/Fe/[C/FePt](5) multilayer deposition and post-annealing
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6:17:1:28 Microstructure and mechanical properties of copper subjected to cryogenic laser shock peening
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6:17:1:29 Deformation induced martensite in NiTi and its shape memory effects generated by low temperature laser shock peening
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6:17:1:30 Laser sintering of separated and uniformly distributed multiwall carbon nanotubes integrated iron nanocomposites
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6:17:1:31 Deforming TC6 titanium alloys at ultrahigh strain rates during multiple laser shock peening
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6:17:1:32 Grain refinement progress of pure titanium during laser shock forming (LSF) and mechanical property characterizations with nanoindentation
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6:17:1:33 Effects of laser shock processing with different shocked paths on mechanical properties of laser welded ANSI 304 stainless steel joint
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6:17:1:34 Engineering the residual stress state and microstructure of stainless steel with mechanical surface treatments
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6:17:1:35 Pulsed laser induced confined vapor deposition for thin layer of dense nanoparticle arrays on various substrates
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6:17:1:36 Shock pressure induced by glass-confined laser shock peening: Experiments, modeling and simulation
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6:17:1:37 Dislocation pinning effects induced by nano-precipitates during warm laser shock peening: Dislocation dynamic simulation and experiments
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6:17:1:38 High spatial resolution, high energy synchrotron x-ray diffraction characterization of residual strains and stresses in laser shock peened Inconel 718SPF alloy
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6:17:1:39 Experiment investigation of laser shock peening on TC6 titanium alloy to improve high cycle fatigue performance
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6:17:1:40 Geometrical scaling law for laser shock processing
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6:17:1:41 Deformation microstructures of austenitic stainless steel 2Cr13Mn9Ni4 under ultrafast strain rate by laser shock processing
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6:17:1:42 Microstructure and mechanical properties of an austenite NiTi shape memory alloy treated with laser induced shock
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6:17:1:43 Surface texturing of the carbon steel AISI 1045 using femtosecond laser in single pulse and scanning regime
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6:17:1:44 High spatial resolution, high energy synchrotron x-ray diffraction characterization of residual strains and stresses in laser shock peened Inconel 718SPF alloy (vol 111, 084904, 2012)
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6:17:1:45 Influence of interaction parameters on laser shock wave induced dynamic strain on 7050 aluminum alloy surface
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6:17:1:46 Toughened austenitic stainless steel by surface severe plastic deformation
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6:17:2:1 Lattice rotation induced by plasma nitriding in a 316L polycrystalline stainless steel
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6:17:2:2 Hardness and elastic modulus gradients in plasma-nitrided 316L polycrystalline stainless steel investigated by nanoindentation tomography
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6:17:2:3 Nitrogen interstitial diffusion induced decomposition in AISI 304L austenitic stainless steel
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6:17:2:4 Magnetic Properties of Single Crystalline Expanded Austenite Obtained by Plasma Nitriding of Austenitic Stainless Steel Single Crystals
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6:17:2:5 Influence of crystal orientation and ion bombardment on the nitrogen diffusivity in single-crystalline austenitic stainless steel
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6:17:2:6 Swelling of 316L austenitic stainless steel induced by plasma nitriding
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6:17:2:7 Anisotropy changes in hardness and indentation modulus induced by plasma nitriding of 316L polycrystalline stainless steel
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6:17:2:8 Plasma nitriding response at 400 degrees C of the single crystalline Ni-based superalloy MC2
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6:17:2:9 On the thermo-mechanical stability and oxidation behavior of carbon S-phase at elevated temperature and under tensile stress
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6:17:2:10 Extended X-ray absorption fine structure investigation of nitrogen stabilized expanded austenite
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6:17:2:11 Monotonic mechanical properties of plasma nitrided 316L polycrystalline austenitic stainless steel: Mechanical behaviour of the nitrided layer and impact of nitriding residual stresses
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6:17:2:12 Out-of-plane magnetic patterning on austenitic stainless steels using plasma nitriding
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6:17:2:13 EBSD and AFM observations of the microstructural changes induced by low temperature plasma carburising on AISI 316
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6:17:2:14 Effect of tensile stress on the formation of S-phase during low-temperature plasma carburizing of 316L foil
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6:17:2:15 Hardness cartography to increase the nanoindentation resolution in heterogeneous materials: Application to a Ni-based single-crystal superalloy
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6:17:2:16 Impurity precipitation in atomized particles evidenced by nano x-ray diffraction computed tomography
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6:17:2:17 Nitrogen interstitial induced texture depth gradient in stainless steel
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6:17:2:18 NANOTWINNED METALS It's all about imperfections
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6:17:2:19 Isotope exchange investigation of nitrogen redistribution in expanded austenite
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6:17:2:20 The gamma-Fe[N] and gamma '-Fe4N1-x phase boundaries in high-nitrogen steels: The cube cluster approximation and the effect of vibrational energy contributions
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6:17:2:21 Formation of oriented nitrides by N+ ion implantation in iron single crystals
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6:17:2:22 Determination of composition, residual stress and stacking fault depth profiles in expanded austenite with energy-dispersive diffraction
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6:17:3:1 Interfacial diffusion in Cu with a gradient nanostructured surface layer
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6:17:3:2 Enhanced reactive diffusion of Zn in a nanostructured Fe produced by means of surface mechanical attrition treatment
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6:17:3:3 Enhanced chromizing kinetics of tool steel by means of surface mechanical attrition treatment
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6:17:3:4 Interfacial diffusion in a nanostructured Cu produced by means of dynamic plastic deformation
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6:17:3:5 In Situ Formation of Carbon Nanomaterials on Bulk Metallic Materials
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6:17:3:6 Nanocrystallization of a quenched RAFM steel and microstructure evolution during annealing heat treatment
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6:17:3:7 Grain size effects on the austenitization process in a nanostructured ferritic steel
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6:17:3:8 Strain-induced refinement and thermal stability of a nanocrystalline steel produced by surface mechanical attrition treatment
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6:17:3:9 Effect of surface nanostructuring of aluminum alloy on post plasma electrolytic oxidation
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6:17:3:10 Effects of grain growth on interface diffusion in nanostructured Cu
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6:17:3:11 Enhanced boronizing kinetics of alloy steel assisted by surface mechanical attrition treatment
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6:17:4:1 Joining and microstructural development of Ni-Al-Ti sheets under ball collisions
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6:17:4:2 Microstructures and formation mechanism of W-Cu composite coatings on copper substrate prepared by mechanical alloying method
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6:17:4:3 Microstructure evolution of Cr coatings on Cu substrates prepared by mechanical alloying method
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6:17:4:4 Fabrication of Cu-SiC surface composite under ball collisions
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6:17:4:5 Formation of nanostructured NiAl coating on carbon steel by using mechanical alloying
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6:17:4:6 Investigation of structural formation of Al-SiC surface composite under ball collisions
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6:17:4:7 Deformation-induced alloying of Cu sheet with Al using ball collisions
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6:17:4:8 Formation of nanolaminated amorphous/crystalline structure in the multicomponent system under severe plastic deformation
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6:17:4:9 Formation of Fe-Al intermetallic coating on low-carbon steel by a novel mechanical alloying technique
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6:17:4:10 Coating of metals with intermetallics by mechanical alloying
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6:17:4:11 Formation of intermetallic Ni-Al coatings by mechanical alloying on the different hardness substrates
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6:17:5:1 Effect of repeated impacts on mechanical properties and fatigue fracture morphologies of 6061-T6 aluminum subject to laser peening
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6:17:5:2 Dislocation polymorphism transformation of 6061-T651 aluminum alloy processed by laser shock processing: Effect of tempering at the elevated temperatures
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6:17:5:3 The effects of laser peening and shot peening on high cycle fatigue in 7050-T7451 aluminum alloy
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6:17:5:4 Improvement of fatigue life of Ti-6Al-4V alloy by laser shock peening
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6:17:5:5 Effect of laser shock peening on residual stress and fatigue life of clad 2024 aluminium sheet containing scribe defects
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6:17:5:6 Effect of laser shock processing on the fatigue crack initiation and propagation of 7050-T7451 aluminum alloy
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6:17:5:7 Effects of precipitate morphology on the notch sensitivity of ductile fracture in heat-treatable aluminum alloys
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6:17:5:8 Microstructure modifications induced by a laser surface treatment in an AA7449 aluminium alloy
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6:17:5:9 Influence of exposure to aggressive environment on fatigue behavior of a shot peened high strength aluminum alloy
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6:17:6:1 Structure evolution and thermal stability of SMAT-derived nanograined layer on Ti-25Nb-3Mo-3Zr-2Sn alloy at elevated temperatures
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6:17:6:2 Thermal stability of ultrafine-grained austenitic stainless steels
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6:17:6:3 Effect of surface nanocrystallization induced by fast multiple rotation rolling on hardness and corrosion behavior of 316L stainless steel
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6:17:6:4 Thermal stability of a nanostructured layer on the surface of 316L stainless steel
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6:17:6:5 The effect of surface nanocrystallization on plasma nitriding behaviour of AISI 4140 steel
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6:17:6:6 Thermal stability of nanocrystalline layers fabricated by surface nanocrystallization
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6:17:6:7 Effect of treatment duration on surface nanocrystallization induced by fast multiple rotation rolling and its thermal stability
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6:17:6:8 Effect of the particle size on the thermal stability of nanostructured aluminum powder: dislocation density and second-phase particles controlling the grain growth
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6:17:6:9 Crystal structure, transformation and thermal stability of nanostructured 316LSS alloyed with 2 and 6 wt.% aluminum
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6:17:7:1 Strengthening mechanisms in an Al-Mg alloy
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6:17:7:2 Wear assessment of composite surface layers in Al-6Mg alloy reinforced with AlCuFe quasicrystalline particles: Effects of particle size, microstructure and hardness
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6:17:7:3 Improvement of fatigue property in 7050-T7451 aluminum alloy by laser peening and shot peening
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6:17:7:4 Enhanced fatigue durability of Al-6 Mg alloy by applying ultrasonic impact peening: Effects of surface hardening and reinforcement with AlCuFe quasicrystalline particles
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6:17:7:5 Ti particle-reinforced surface layers in Al: Effect of particle size on microstructure, hardness and wear
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6:17:7:6 Low-cycle fatigue behavior of SiCp/Al-Si composites produced by spray deposition
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6:17:7:7 Effects of particulate volume fraction on cyclic stress response and fatigue life of AZ91D magnesium alloy metal matrix composites
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6:17:7:8 Microstructural characterization and grain refinement of AA6082 gas tungsten arc welds by scandium modified fillers
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6:17:8:1 Surface properties of nitrided layer on AISI 316L austenitic stainless steel produced by high temperature plasma nitriding in short time
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6:17:8:2 Plasma nitriding of AISI 304 stainless steel: Role of surface mechanical attrition treatment
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6:17:8:3 Oxidative heat treatment of 316L stainless steel for effective catalytic growth of carbon nanotubes
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6:17:8:4 Microstructure and antibacterial properties of microwave plasma nitrided layers on biomedical stainless steels
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6:17:8:5 The effect of gas mixture of post-oxidation on structure and corrosion behavior of plasma nitrided AISI 316 stainless steel
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6:17:8:6 New insights into the mechanism of low-temperature active-screen plasma nitriding of austenitic stainless steel
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6:17:8:7 Influence of atomic and mechanical attrition on low temperature plasma nitriding of ferrous alloys
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6:17:8:8 Sliding wear behavior of plasma nitrided Austenitic Stainless Steel Type AISI 316LN in the temperature range from 25 to 400 degrees C at 10(-4) bar
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6:17:9:1:1 Micromould based laser shock embossing of thin metal sheets for MEMS applications
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6:17:9:1:2 Fabrication of sub-microstructures in solid copper surfaces by inverse laser microembossing
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6:17:9:1:3 Effect of confining overlay in micro scale laser bulge forming
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6:17:9:1:4 Effect of laser energy on the deformation behavior in microscale laser bulge forming
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6:17:9:1:5 Effect of plasma confinement on laser shock microforming of thin metal sheets
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6:17:9:1:6 Scalable patterning on shape memory alloy by laser shock assisted direct imprinting
DOI:10.1016/j.apsusc.2012.06.070 JN:APPLIED SURFACE SCIENCE PY:2012 TC:4 AU: Ye, Chang;Cheng, Gary J.;
6:17:9:1:7 Laser shock forming of aluminum sheet: Finite element analysis and experimental study
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6:17:9:2:1 Multiple-pulse laser dynamic forming of metallic thin films for microscale three dimensional shapes
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6:17:9:2:2 Laser Shock-Based Platform for Controllable Forming of Nanowires
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6:17:9:3:1 Investigation on bend displacement and surface quality induced by laser shock micro-adjustment
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6:17:9:3:2 Thermal laser micro-adjustment using picosecond pulse durations
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6:17:9:3:3 Laser peen forming induced two way bending of thin sheet metals and its mechanisms
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6:17:10:1 Effect of surface mechanical attrition treatment (SMAT) on microhardness, surface roughness and wettability of AISI 316L
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6:17:10:2 Microstructure and thermal stability of bulk nanocrystalline alloys produced by surface mechanical attrition treatment
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6:17:10:3 Effect of ultrasonic nanocrystal surface modification on surface and fatigue properties of quenching and tempering S45C steel
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6:17:10:4 Effects of surface mechanical attrition treatment (SMAT) on a rough surface of AISI 316L stainless steel
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6:17:10:5 Fatigue properties of a S45C steel subjected to ultrasonic nanocrystal surface modification
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6:17:10:6 A new way to synthesize carbon nanofiber film on bulk titanium via hybrid surface mechanical attrition treatment
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6:17:11:1 Laser shock peening effect on the dislocation transitions and grain refinement of Al-Mg-Si alloy
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6:17:11:2 Effect of laser shock processing on fatigue crack growth of duplex stainless steel
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6:17:11:3 Fatigue in laser shock peened open-hole thin aluminium specimens
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6:17:11:4 Laser Shock Processing of 6061-T6 Al alloy with 1064 nm and 532 nm wavelengths
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6:17:11:5 Fatigue in laser shock peened open-hole thin aluminium specimens (vol 534, pg 573, 2012)
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6:17:12:1 Experimental study of the microstructure and stress state of shot peened and surface mechanical attrition treated nickel alloys
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6:17:12:2 High-temperature surface alloying of nanocrystalline nickel produced by surface mechanical attrition treatment
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6:17:12:3 Optimization of the strain rate to achieve exceptional mechanical properties of 304 stainless steel using high speed ultrasonic surface mechanical attrition treatment
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6:17:12:4 Surface mechanical properties of S30432 austenitic steel after shot peening
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6:17:12:5 Surface Alloying of Nanocrystalline Fe-0.45 wt Pct C Alloy Subjected to Surface Mechanical Attrition Treatment Within Cr Powders
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6:17:12:6 The strain-controlled fatigue behavior and modeling of Haynes (R) HASTELLOY (R) C-2000 (R) superalloy
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6:17:13:1 Structurally induced enhancement in corrosion resistance of Zr-2.5%Nb alloy in saline solution by applying ultrasonic impact peening
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6:17:13:2 Multimodal grain size distribution and high hardness in fine grained tungsten fabricated by spark plasma sintering
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6:17:13:3 Ultrafine-grained surface layer on Mg-Al-Zn alloy produced by cryogenic burnishing for enhanced corrosion resistance
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6:17:13:4 Microstructure refinement of tungsten by surface deformation for irradiation damage resistance
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6:17:13:5 Influence of size of nanoparticles and plasma pressure compaction on microstructural development and hardness of bulk tungsten samples
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6:17:13:6 Electrochemical behaviour of anodic zirconium oxide nanotubes in simulated body fluid
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6:17:13:7 The investigation of Y doping content effect on the microstructure and microhardness of tungsten materials
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6:17:13:8 Fabrication and properties of mechanically alloyed and Ni activated sintered W matrix composites reinforced with Y2O3 and TiB2 particles
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6:17:14:1 Surface hardening of aluminum alloy by shot peening treatment with Zn based ball
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6:17:14:2 Nanocrystalline structure of magnesium alloys subjected to high energy shot peening
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6:17:14:4 Effect of Si content on surface hardening of Al-Si alloy by shot peening treatment
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6:17:14:5 Mechanical metallization of alumina substrate through shot impact treatment
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6:17:14:7 Iron-rich layer introduced by SMAT and its effect on corrosion resistance and wear behavior of 2024 Al alloy
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6:17:14:8 Study of a pre-treatment process for electroless copper plating on ceramics
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6:17:15:1 Introducing a hierarchical structure for fabrication of a high performance steel
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6:17:15:2 Effect of warm deformation on microstructure and mechanical properties of a layered and nanostructured 304 stainless steel
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6:17:15:3 Fatigue Crack Behavior of Stainless Steel 304 by the Addition of Carbon Nanotubes
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6:17:15:4 Effect of laser shock peening on the mechanical properties of a near-alpha titanium alloy
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6:17:15:5 Laser shock peening of Ti-17 titanium alloy: Influence of process parameters
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6:17:15:6 Study of toughening mechanisms through the observations of crack propagation in nanostructured and layered metallic sheet
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6:17:15:7 Mechanical properties and residual stresses changing on 00Cr12 alloy by nanoseconds laser shock processing at high temperatures
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6:17:16:1 Plastic deformation mechanism of polycrystalline copper foil shocked with femtosecond laser
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6:17:16:2 Numerical modeling of laser shock peening with femtosecond laser pulses and comparisons to experiments
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6:17:16:3 Mold-free fabrication of 3D microfeatures using laser-induced shock pressure
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6:17:16:4 Experimental research on laser shock forming metal foils with femtosecond laser
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6:17:16:5 Investigation of laser-induced plasma evolution in flexible pad laser shock forming with high speed camera
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6:17:16:6 Effects of laser shock processing with different parameters and ways on residual stresses fields of a TC4 alloy blade
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6:17:16:7 Numerical modeling of laser shock peening with femtosecond laser pulses and comparisons to experiments (vol 256, pg 4376, 2010)
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6:17:16:8 Numerical modeling of residual stress induced by laser shock processing
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6:17:17:1 The effects of defects in purple AuAl2 thin films
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6:17:17:2 AuAl2 and PtAl2 as potential plasmonic materials
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6:17:17:3 The role of plasmons and interband transitions in the color of AuAl2, AuIn2, and AuGa2
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6:17:17:4 High pressure transport, structural, and first principles investigations on the fluorite structured intermetallic, PtAl2
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6:17:17:5 Colors of thin films of binary and ternary gold- and platinum-based alloys
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6:17:17:6 On the peculiar deformation mechanism of ion-induced texture rotation in thin films
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6:17:17:7 Selective ion-induced grain growth: Thermal spike modeling and its experimental validation
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6:17:17:8 Phase stability of intermetallic PtIn2 under pressure: An in-situ transport, structural and first principles investigations
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6:17:18:1 Effect of surface nanocrystallization on the microstructural and corrosion characteristics of AZ91D magnesium alloy
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6:17:18:2 Formation and bioactivity of porous titania containing nanostructured Ag
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6:17:18:3 Effect of heat treatment on bioactivity of anodic titania films
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6:17:18:4 Microstructure: Surface and cross-sectional studies of hydroxyapatite formation on the surface of white Portland cement paste in vitro
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6:17:18:5 Formation of high bioactive nanoporous titania film by hybrid surface mechanical attrition treatment
DOI:10.1016/j.matlet.2011.04.095 JN:MATERIALS LETTERS PY:2011 TC:5 AU: Laleh, M.;Kargar, Farzad;
6:17:18:6 Microstructure and morphology of Cu-Zr-Ti coatings produced by thermal spray and treated by surface mechanical attrition
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6:17:19:1 Investigation of laser shock peening effects on residual stress state and fatigue performance of titanium alloys
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6:17:19:2 Characterisation of foreign object damage (FOD) and early fatigue crack growth in laser shock peened Ti-6Al-4V aerofoil specimens
DOI:10.1016/j.msea.2010.11.045 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:13 AU: Spanrad, S.;Tong, J.;
6:17:19:3 Thermal Fatigue Behavior Evaluation of Shot-Peened JIS SKD61 Hot-Work Mold Steel
DOI:10.2320/matertrans.M2013019 JN:MATERIALS TRANSACTIONS PY:2013 TC:0 AU: Yeh, Shu-Hung;Chiu, Liu-Ho;Chuang, Tao-Liang;Wu, Cheng-Yen;
6:17:19:4 Stress distribution in mechanically surface treated Ti-2.5Cu determined by combining energy-dispersive synchrotron and neutron diffraction
DOI:10.1016/j.msea.2010.05.044 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:5 AU: Maawad, E.;Brokmeier, H. -G.;Hofmann, M.;Genzel, Ch.;Wagner, L.;
6:17:19:5 Thermally activated relaxation behaviour of shot-peened tool steels for cutting tool body applications
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6:17:19:6 Influence of mechanical surface treatments on the high cycle fatigue performance of TIMETAL 54M
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6:17:19:7 Determination of polycrystal diffraction elastic constants of Ti-2.5Cu by using in situ tensile loading and synchrotron radiation
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6:17:19:8 Residual stresses caused by head-on and 45 degrees foreign object damage for a laser shock peened Ti-6Al-4V alloy aerofoil
DOI:10.1016/j.msea.2012.09.097 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:7 AU: Zabeen, S.;Preuss, M.;Withers, P. J.;
6:17:19:9 A novel proposal to manipulate the properties of titanium parts by laser surface alloying
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6:17:20:1:1 Strain localization and damage mechanisms during bending of AA6016 sheet
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6:17:20:1:2 Effect of Sr-modification on the bendability of cast aluminum alloy A356 using digital image correlation method
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6:17:20:1:3 Strain localization and damage development during bending of Al-Mg alloy sheets
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6:17:20:1:4 Grain scale modeling of the bendability of AA6xxx Al alloy sheet
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6:17:20:2:1 Solid-solution copper alloys with high strength and high electrical conductivity
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6:17:20:2:2 Microstructure controlled bending response in AA6016 Al alloys
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6:17:20:2:3 Influence of quench rate and microstructure on bendability of AA6016 aluminum alloys
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6:17:20:2:4 Effects of B and Y additions on the microstructure and properties of Cu-Mg-Te alloys
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6:17:20:2:5 Effect of Plastic Deformation on the Proof Strength and Electrical Conductivity of Copper-Magnesium Supersaturated Solid-Solution Alloys
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6:17:21:1 Direct evidence for stress-induced texture evolution and grain growth of silver thin films upon thermal treatment and self-ion bombardment
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6:17:21:2 Large-scale nanotwins in Cu films/Cu nanowires via stress engineering by a high-energy ion beam bombardment process: growth and characterization
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6:17:21:3 Ion-induced grain growth and texturing in refractory thin films-A low temperature process
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6:17:21:4 Irradiation-induced grain growth in nanocrystalline reduced activation ferrite/martensite steel
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6:17:21:5 Multi-directional self-ion irradiation of thin gold films: A new strategy for achieving full texture control
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6:17:21:6 Displacive radiation-induced structural contraction in nanocrystalline ZrN
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6:17:22:1 Microstructure, microhardness and wear resistance of VCP/Fe surface composites fabricated in situ
DOI:10.1016/j.apsusc.2013.04.152 JN:APPLIED SURFACE SCIENCE PY:2013 TC:4 AU: Ye, Fangxia;Hojamberdiev, Mirabbos;Xu, Yunhua;Zhong, Lisheng;Zhao, Nana;Li, Yaping;Huang, Xing;
6:17:22:2 Understanding the mechanical properties of vanadium carbides: Nano-indentation measurement and first-principles calculations
DOI:10.1016/j.jallcom.2012.09.014 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:9 AU: Wu, Lailei;Yao, Tiankai;Wang, Yachun;Zhang, Jingwu;Xiao, Furen;Liao, Bo;
6:17:22:3 Characterization of in situ synthesized TiB2 reinforcements in iron-based composite coating
DOI:10.1016/j.apsusc.2011.10.004 JN:APPLIED SURFACE SCIENCE PY:2011 TC:7 AU: Zhang, Panpan;Wang, Xibao;Guo, Lijie;Cai, Lijuan;Sun, Hongling;
6:17:22:4 The phase stability and mechanical properties of Nb-C system: Using first-principles calculations and nano-indentation
DOI:10.1016/j.jallcom.2013.01.200 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:3 AU: Wu, Lailei;Wang, Yachun;Yan, Zhigang;Zhang, Jingwu;Xiao, Furen;Liao, Bo;
6:17:22:5 Microstructural, mechanical and tribological characterisation of roll materials for the finishing stands of the hot strip mill for steel rolling
DOI:10.1016/j.wear.2013.09.002 JN:WEAR PY:2013 TC:1 AU: Nilsson, M.;Olsson, M.;
6:17:22:6 Microstructure evolution and mechanical properties in VC/SiC nanomultilayers
DOI:10.1016/j.apsusc.2012.06.042 JN:APPLIED SURFACE SCIENCE PY:2012 TC:4 AU: Li, Yuge;Li, Guanqun;Yang, Duo;Li, Geyang;
6:17:22:7 Fabrication and microstructure of in situ vanadium carbide ceramic particulates-reinforced iron matrix composites
DOI:10.1016/j.ceramint.2012.06.085 JN:CERAMICS INTERNATIONAL PY:2013 TC:5 AU: Zhong, Lisheng;Hojamberdiev, Mirabbos;Ye, Fangxia;Wu, Hong;Xu, Yunhua;
6:17:22:8 A thermal reduction route to nanocrystalline transition metal carbides from waste polytetrafluoroethylene and metal oxides
DOI:10.1016/j.matchemphys.2012.08.008 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:2 AU: Wang, Liangbiao;Li, Qianwen;Mei, Tao;Shi, Liang;Zhu, Yongchun;Qian, Yitai;
6:17:23:1 Microstructure and corrosion characteristics of 304 stainless steel laser-alloyed with Cr-CrB2
DOI:10.1016/j.apsusc.2014.01.011 JN:APPLIED SURFACE SCIENCE PY:2014 TC:1 AU: Sun, G. F.;Zhang, Y. K.;Zhang, M. K.;Zhou, R.;Wang, K.;Liu, C. S.;Luo, K. Y.;
6:17:23:2 Influence of tensile pre-strain and sensitization on passive films in AISI 304 austenitic stainless steel
DOI:10.1016/j.matchemphys.2012.05.086 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:4 AU: Jin-long, L. V.;Hong-yun, Luo;
6:17:23:3 Interaction of liquid tin and zinc with AISI 304 stainless steel after passivation in air and nitric acid
DOI:10.1016/j.matchar.2012.12.011 JN:MATERIALS CHARACTERIZATION PY:2013 TC:2 AU: Zhao, Yan;Cheng, Cong Qian;Cao, Zhi Yuan;Zhao, Jie;
6:17:23:4 Suppression of chromium depletion and sensitization in austenitic stainless steel by surface mechanical attrition treatment
DOI:10.1016/j.matlet.2011.03.055 JN:MATERIALS LETTERS PY:2011 TC:6 AU: Laleh, M.;Kargar, Farzad;
6:17:23:5 Structure-property-correlation in laser surface alloyed AISI 304 stainless steel with WC plus Ni plus NiCr
DOI:10.1016/j.msea.2011.12.095 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:8 AU: Anandan, S.;Pityana, Sisa;Majumdar, J. Dutta;
6:17:23:6 A comparative study of the tribological performances of laser clad TiB2-TiC-Al2O3 composite coatings on AISI 1020 and AISI 304 substrates
DOI:10.1016/j.wear.2011.05.009 JN:WEAR PY:2011 TC:11 AU: Masanta, Manoj;Shariff, S. M.;Choudhury, A. Roy;
6:17:23:7 Erosion-corrosion wear of Cr/CrN multi-layer coating deposited on AISI-304 stainless steel using the unbalanced magnetron (UBM) sputtering system
DOI:10.1016/j.wear.2012.04.007 JN:WEAR PY:2012 TC:7 AU: Alegria-Ortega, J. A.;Ocampo-Carmona, L. M.;Suarez-Bustamante, F. A.;Olaya-Florez, J. J.;
6:17:24:1 Microstructure and wear resistance of composite layers on a ductile iron with multicarbide by laser surface alloying
DOI:10.1016/j.apsusc.2010.05.015 JN:APPLIED SURFACE SCIENCE PY:2010 TC:17 AU: Yan, Hua;Wang, Aihua;Xiong, Zhaoting;Xu, Kaidong;Huang, Zaowen;
6:17:24:2 Microstructural study of surface melted and chromium surface alloyed ductile iron
DOI:10.1016/j.apsusc.2012.04.014 JN:APPLIED SURFACE SCIENCE PY:2012 TC:7 AU: Sohi, M. Heydarzadeh;Ebrahimi, M.;Ghasemi, H. M.;Shahripour, A.;
6:17:24:3 Improvement in corrosion resistance of a nodular cast iron surface modified by plasma beam treatment
DOI:10.1016/j.apsusc.2013.09.083 JN:APPLIED SURFACE SCIENCE PY:2013 TC:3 AU: Cheng, Xiu;Hu, Shubing;Song, Wulin;Xiong, Xuesong;
6:17:24:4 The effect of heat treatment on the electrochemical corrosion behavior of reactive plasma-sprayed TiN coatings
DOI:10.1016/apsusc.2011.06.143 JN:APPLIED SURFACE SCIENCE PY:2011 TC:8 AU: Zhao, Xuebo;Yan, Dianran;Li, Sha;Lu, Chenguang;
6:17:24:5 Microstructure of Fe-TiC Composite Surface Layer on Carbon Steel Formed by Laser Alloying Process
DOI:10.2320/matertrans.MAW201304 JN:MATERIALS TRANSACTIONS PY:2013 TC:1 AU: Yamaguchi, Takuto;Hagino, Hideki;Takemura, Mamoru;Hasegawa, Yasunori;Michiyama, Yasuhiro;Nakahira, Atsushi;
6:17:24:6 Surface modification of nodular cast iron: A comparative study on graphite elimination
DOI:10.1016/j.msea.2010.04.067 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:7 AU: Karamis, M. B.;Yildizli, K.;
6:17:25:1 Unusual precipitation of amorphous silicon nitride upon nitriding Fe-2at.%Si alloy
DOI:10.1080/14786435.2011.648226 JN:PHILOSOPHICAL MAGAZINE PY:2012 TC:12 AU: Meka, Sai Ramudu;Jung, Kyung Sub;Bischoff, Ewald;Mittemeijer, Eric Jan;
6:17:25:2 Coherency strain and precipitation kinetics: crystalline and amorphous nitride formation in ternary Fe-Ti/Cr/V-Si alloys
DOI:10.1080/14786435.2014.952258 JN:PHILOSOPHICAL MAGAZINE PY:2014 TC:1 AU: Schwarz, B.;Rossi, P. J.;Strassberger, L.;Joerg, F.;Meka, S. R.;Bischoff, E.;Schacherl, R. E.;Mittemeijer, E. J.;
6:17:25:3 Nitriding of iron-based ternary Fe-V-Si alloy: The precipitation process of separate nitrides
DOI:10.1016/j.actamat.2014.05.017 JN:ACTA MATERIALIA PY:2014 TC:3 AU: Schwarz, B.;Meka, S. R.;Schacherl, R. E.;Bischoff, E.;Mittemeijer, E. J.;
6:17:25:4 Effect of nitriding time on secondary recrystallization behaviors and magnetic properties of grain-oriented electrical steel
DOI:10.1016/j.jmmm.2009.09.072 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2010 TC:6 AU: Liao, Chun-Chih;Hou, Chun-Kan;
6:17:25:5 Unexpected low-temperature crystallization of amorphous silicon nitride into alpha-Si3N4 in a ferritic Fe-Si matrix
DOI:10.1016/j.scriptamat.2012.10.014 JN:SCRIPTA MATERIALIA PY:2013 TC:1 AU: van Landeghem, H. P.;Goune, M.;Epicier, T.;Redjaimia, A.;
6:17:25:6 Nitride precipitation in compositionally heterogeneous alloys: Nucleation, growth and coarsening during nitriding
DOI:10.1016/j.jcrysgro.2011.12.056 JN:JOURNAL OF CRYSTAL GROWTH PY:2012 TC:7 AU: Van Landeghem, H. P.;Goune, M.;Redjaimia, A.;
6:17:25:7 Cavitation erosion behavior of ion-nitrided 34 CrAlNi 7 steel with different microstructures
DOI:10.1016/j.wear.2013.04.025 JN:WEAR PY:2013 TC:2 AU: da Silva, F. J.;Marinho, R. R.;Paes, M. T. P.;Franco, S. D.;
6:17:26:1 Laser coating of aluminum alloy EN AW 6082-T651 with TiB2 and TiC: Microstructure and mechanical properties
DOI:10.1016/j.apsusc.2013.06.089 JN:APPLIED SURFACE SCIENCE PY:2013 TC:7 AU: Ravnikar, Dunja;Dahotre, Narendra B.;Grum, Janez;
6:17:26:2 Characterization at a local scale of a laser-shock peened aluminum alloy surface
DOI:10.1016/j.apsusc.2011.03.090 JN:APPLIED SURFACE SCIENCE PY:2011 TC:12 AU: Rouleau, B.;Peyre, P.;Breuils, J.;Pelletier, H.;Baudin, T.;Brisset, F.;
6:17:26:3 On microstructure and flexural strength of metal-ceramic composite cladding developed through microwave heating
DOI:10.1016/j.apsusc.2012.02.019 JN:APPLIED SURFACE SCIENCE PY:2012 TC:3 AU: Sharma, Apurbba Kumar;Gupta, Dheeraj;
6:17:26:4 Composite Ni-Co-fly ash coatings on 5083 aluminium alloy
DOI:10.1016/j.apsusc.2010.10.130 JN:APPLIED SURFACE SCIENCE PY:2011 TC:5 AU: Panagopoulos, C. N.;Georgiou, E. P.;Tsopani, A.;Piperi, L.;
6:17:26:5 The effect of powder composition on the morphology of in situ TiC composite coating deposited by Laser-Assisted Powder Deposition (LAPD)
DOI:10.1016/j.apsusc.2012.07.141 JN:APPLIED SURFACE SCIENCE PY:2012 TC:3 AU: Emamian, Ali;Corbin, Stephen F.;Khajepour, Amir;
6:17:26:6 Enhanced performance of the AA2050-T8 aluminium alloy following excimer laser surface melting and anodising processes
DOI:10.1016/j.tsf.2009.09.121 JN:THIN SOLID FILMS PY:2010 TC:9 AU: Viejo, F.;Coy, A. E.;Garcia-Garcia, F. J.;Merino, M. C.;Liu, Z.;Skeldon, P.;Thompson, G. E.;
6:17:26:7 Investigation on sliding wear performance of WC10Co2Ni cladding developed through microwave irradiation
DOI:10.1016/j.wear.2010.12.037 JN:WEAR PY:2011 TC:7 AU: Gupta, Dheeraj;Sharma, A. K.;
6:17:27:1 A novel rapid DC plasma nitriding at low gas pressure for 304 austenitic stainless steel
DOI:10.1016/j.matlet.2013.04.031 JN:MATERIALS LETTERS PY:2013 TC:4 AU: Wang, Shukai;Cai, Wei;Li, Jingcai;Wei, Wei;Hu, Jing;
6:17:27:2 Low temperature anodic nitriding of AISI 304 austenitic stainless steel
DOI:10.1016/j.matlet.2014.04.121 JN:MATERIALS LETTERS PY:2014 TC:2 AU: Li, Yang;Xu, Huizhong;Zhu, Feng;Wang, Liang;
6:17:27:3 Surface hardness improvement of plasma-sprayed AISI 316L stainless steel coating by low-temperature plasma carburizing
DOI:10.1016/j.apt.2012.12.011 JN:ADVANCED POWDER TECHNOLOGY PY:2013 TC:4 AU: Adachi, Shinichiro;Ueda, Nobuhiro;
6:17:27:4 Influence of CoO glass-ceramic coating on the anti-oxidation behavior and thermal shock resistance of 200 stainless steel at elevated temperature
DOI:10.1016/j.ceramint.2014.04.078 JN:CERAMICS INTERNATIONAL PY:2014 TC:1 AU: Shan, X.;Wei, L. Q.;Liu, P.;Zhang, X. M.;Tang, W. X.;Qian, P.;He, Y.;Ye, S. F.;
6:17:27:5 Novel plasma nitriding-oxidizing duplex treatment of AISI 316 austenitic stainless steel
DOI:10.1016/j.matlet.2009.12.042 JN:MATERIALS LETTERS PY:2010 TC:8 AU: Abedi, H. R.;Salehi, M.;Yazdkhasti, M.;
6:17:27:6 A rapid DC plasma nitriding technology catalyzed by pre-oxidation for AISI4140 steel
DOI:10.1016/j.matlet.2013.11.033 JN:MATERIALS LETTERS PY:2014 TC:3 AU: Li, Jingcai;Yang, Xingmei;Wang, Shukai;Wei, Kunxia;Hu, Jing;
6:17:27:7 Formation of S-phase layer on plasma sprayed AISI 316L stainless steel coating by plasma nitriding at low temperature
DOI:10.1016/j.tsf.2012.05.062 JN:THIN SOLID FILMS PY:2012 TC:8 AU: Adachi, Shinichiro;Ueda, Nobuhiro;
6:17:28:1 Nitrogen diffusion through cementite layers
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6:17:28:2 Synthesis of epsilon-FexN (2 <= x <= 3) Submicron Particles and the Diffusion Mechanism of Nitrogen Atoms
DOI:10.2320/matertrans.MAW201023 JN:MATERIALS TRANSACTIONS PY:2010 TC:2 AU: Minagawa, Makoto;Yanagihara, Hideto;Kishimoto, Mikio;Kita, Eiji;
6:17:28:3 The Ternary Nitrides GaFe3N and AlFe3N: Improved Synthesis and Magnetic Properties (vol 21, pg 4332, 2009)
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6:17:28:4 Unusual nucleation and growth of gamma ' iron nitride upon nitriding Fe-4.75 at.% Al alloy
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6:17:28:5 Defect-dependent nitride surface layer development upon nitriding of Fe-1 at.% Mo alloy
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6:17:28:6 Comments on 'Thermodynamics of cementite layer formation'
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6:17:29:1 Tribological characteristics of an A356 aluminium alloy laser surface alloyed with nickel and Ni-Ti-C
DOI:10.1016/j.apsusc.2014.06.061 JN:APPLIED SURFACE SCIENCE PY:2014 TC:0 AU: D'Amato, C.;Buhagiar, J.;Betts, J. C.;
6:17:29:2 Three body abrasion of laser surface alloyed aluminium AA1200
DOI:10.1016/j.wear.2012.05.034 JN:WEAR PY:2012 TC:3 AU: Mabhali, L. A. B.;Sacks, N.;Pityana, S.;
6:17:29:3 Study on Fe-Al-Si in situ composite coating fabricated by laser cladding
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6:17:29:4 Effects of WC particle size on the wear resistance of laser surface alloyed medium carbon steel
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6:17:29:5 Al-Al7Cr eutectic in Al-Cr alloys synthesized by laser alloying
DOI:10.1016/j.scriptamat.2010.06.022 JN:SCRIPTA MATERIALIA PY:2010 TC:8 AU: Almeida, A.;Vilar, R.;
6:17:29:6 Laser Surface Alloying of Aluminium AA1200
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6:17:30:1 A simple technique of nanocrystallizing metallic surfaces for enhanced resistances to mechanical and electrochemical attacks
DOI:10.1016/j.msea.2010.01.024 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:11 AU: Mao, X. Y.;Li, D. Y.;Fang, F.;Tan, R. S.;Jiang, J. Q.;
6:17:30:2 Evaluation of stress corrosion, cracking susceptibility of stainless steel 304L with surface nanocrystallization by small punch test
DOI:10.1016/j.msea.2012.10.071 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:5 AU: Bai, Tao;Chen, Peng;Guan, Kaishu;
6:17:30:3 Experimental study of corrosion behavior for burnished aluminum alloy by EWF, EBSD, EIS and Raman spectra
DOI:10.1016/j.apsusc.2013.02.012 JN:APPLIED SURFACE SCIENCE PY:2013 TC:2 AU: Lv Jinlong;Luo Hongyun;Xie Jinpeng;
6:17:30:4 Effect of surface machining and cold working on the ambient temperature chloride stress corrosion cracking susceptibility of AISI 304L stainless steel
DOI:10.1016/j.msea.2009.08.039 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:12 AU: Ghosh, Swati;Kain, Vivekanand;
6:17:30:5 High temperature oxidation behavior of AISI 304L stainless steel-Effect of surface working operations
DOI:10.1016/j.apsusc.2012.10.018 JN:APPLIED SURFACE SCIENCE PY:2013 TC:5 AU: Ghosh, Swati;Kumar, M. Kiran;Kain, Vivekanand;
6:17:30:6 Surface working of 304L stainless steel: Impact on microstructure, electrochemical behavior and SCC resistance
DOI:10.1016/j.matchar.2012.07.008 JN:MATERIALS CHARACTERIZATION PY:2012 TC:3 AU: Acharyya, S. G.;Khandelwal, A.;Kain, V.;Kumar, A.;Samajdar, I.;
6:17:31:1 Stability of shot peening induced residual stresses and their influence on fatigue lifetime
DOI:10.1016/j.msea.2010.09.050 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:26 AU: Dalaei, K.;Karlsson, B.;Svensson, L-E;
6:17:31:2 Prediction of residual stress relaxations in shot-peened specimens and its application for the rotor disc assessment
DOI:10.1016/j.msea.2010.07.010 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:8 AU: Liu, Jinxiang;Yuan, Huang;
6:17:31:3 Influence of overloading on fatigue durability and stability of residual stresses in shot peened normalized steel
DOI:10.1016/j.msea.2011.06.002 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:5 AU: Dalaei, K.;Karlsson, B.;
6:17:31:4 X-ray diffraction study of microstructural changes during fatigue damage initiation in steel pipes
DOI:10.1016/j.msea.2011.10.077 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:6 AU: Pinheiro, B.;Lesage, J.;Pasqualino, I.;Benseddiq, N.;Bemporad, E.;
6:17:31:5 Residual stress redistribution in shot peened samples subject to mechanical loading
DOI:10.1016/j.msea.2014.06.118 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Buchanan, Dennis J.;John, Reji;
6:17:31:6 X-ray diffraction study of microstructural changes during fatigue damage initiation in pipe steels: Role of the initial dislocation structure
DOI:10.1016/j.msea.2013.05.042 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:0 AU: Pinheiro, B.;Lesage, J.;Pasqualino, I.;Bemporad, E.;Benseddiq, N.;
6:17:32:1 Swelling effect on stress induced and concentration dependent diffusion of nitrogen in plasma nitrided austenitic stainless steel
DOI:10.1016/j.commatsci.2013.02.007 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:4 AU: Galdikas, Arvaidas;Moskalioviene, Teresa;
6:17:32:2 Fatigue performance of low temperature nitrided AISI 321 grade austenitic stainless steel
DOI:10.1016/j.msea.2012.11.122 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:5 AU: Celik, Ozgur;Baydogan, Murat;Atar, Erdem;Kayali, E. Sabri;Cimenoglu, Huseyin;
6:17:32:3 Stress induced nitrogen diffusion during nitriding of austenitic stainless steel
DOI:10.1016/j.commatsci.2010.10.018 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2010 TC:8 AU: Galdikas, Arvaidas;Moskalioviene, Teresa;
6:17:32:4 Theoretical modelling of iron nitriding coupled with a nanocrystallisation treatment. Application to numerical predictions for ferritic stainless steels
DOI:10.1016/j.apsusc.2012.03.089 JN:APPLIED SURFACE SCIENCE PY:2012 TC:2 AU: Panicaud, B.;Chemkhi, M.;Roos, A.;Retraint, D.;
6:17:32:5 Influence of ion-beam bombardment on the physical properties of 100Cr6 steel
DOI:10.1016/j.matchemphys.2014.04.016 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:0 AU: Droppa, R., Jr.;Pinto, H. C.;Garcia, J.;Ochoa, E. A.;Morales, M.;Cucatti, S.;Alvarez, F.;
6:17:32:6 Improvement of fatigue properties in type 304 stainless steel by annealing treatment in nitrogen gas
DOI:10.1016/j.msea.2014.04.047 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Bai, Yu;Akita, Masayuki;Uematsu, Yoshihiko;Kakiuchi, Toshifumi;Nakamura, Yuki;Nakajima, Masaki;
6:17:33:1 Formation of hard surface layer on austenitic stainless steels via simultaneous chromising and nitriding by pack cementation process
DOI:10.1016/j.apsusc.2012.01.167 JN:APPLIED SURFACE SCIENCE PY:2012 TC:7 AU: Zeng, D.;Yang, S.;Xiang, Z. D.;
6:17:33:2 The states of nitrogen atoms in the processing of Ni-Cr alloy surface nitriding modification
DOI:10.1016/j.apsusc.2014.02.076 JN:APPLIED SURFACE SCIENCE PY:2014 TC:0 AU: Zhang, Z. P.;Lei, M. K.;
6:17:33:3 Development of nitride-layer of AISI 304 austenitic stainless steel during high-temperature ammonia gas-nitriding
DOI:10.1016/j.apsusc.2010.05.100 JN:APPLIED SURFACE SCIENCE PY:2010 TC:7 AU: Peng, D. Q.;Kim, T. H.;Chung, J. H.;Park, J. K.;
6:17:33:4 The effect of Al and Cr additions on pack cementation zinc coatings
DOI:10.1016/j.apsusc.2009.12.165 JN:APPLIED SURFACE SCIENCE PY:2010 TC:5 AU: Chaliampalias, D.;Papazoglou, M.;Tsipas, S.;Pavlidou, E.;Skolianos, S.;Stergioudis, G.;Vourlias, G.;
6:17:33:5 Formation and cyclic oxidation resistance of Hf-Co-modified aluminide coatings on nickel base superalloys
DOI:10.1016/j.matchemphys.2013.09.016 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:3 AU: Li, Haixia;Qiao, Min;Zhou, Chungen;
6:17:34:1 Microstructure and mechanical properties of multiphase layer formed during thermo-diffusing of titanium into the surface of C17200 copper-beryllium alloy
DOI:10.1016/j.apsusc.2013.11.121 JN:APPLIED SURFACE SCIENCE PY:2014 TC:1 AU: Yang, L.;Zhang, F. Y.;Yan, M. F.;Zhang, M. L.;
6:17:34:2 Surface tension of liquid Cu-Ti binary alloys measured by electromagnetic levitation and thermodynamic modelling
DOI:10.1016/j.apsusc.2011.04.019 JN:APPLIED SURFACE SCIENCE PY:2011 TC:7 AU: Amore, S.;Brillo, J.;Egry, I.;Novakovic, R.;
6:17:34:3 Validity of "sputtering and re-condensation" model in active screen cage plasma nitriding process
DOI:10.1016/j.apsusc.2013.02.008 JN:APPLIED SURFACE SCIENCE PY:2013 TC:8 AU: Saeed, A.;Khan, A. W.;Jan, F.;Abrar, M.;Khalid, M.;Zakaullah, M.;
6:17:34:4 The precipitation behavior and strengthening of a Cu-2.0 wt% Be alloy
DOI:10.1016/j.msea.2012.08.007 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:6 AU: Xie Guoliang;Wang Qiangsong;Mi Xujun;Xiong Baiqing;Peng Lijun;
6:17:34:5 The Thermophysical Properties of Liquid TRIP/TWIP-Steel Alloys Using the Maximum Bubble Pressure Method
DOI:10.1002/adem.201200310 JN:ADVANCED ENGINEERING MATERIALS PY:2013 TC:1 AU: Dubberstein, Tobias;Heller, Hans-Peter;
6:17:34:6 Active screen plasma nitriding enhances cell attachment to polymer surfaces
DOI:10.1016/j.apsusc.2013.03.001 JN:APPLIED SURFACE SCIENCE PY:2013 TC:6 AU: Kaklamani, Georgia;Bowen, James;Mehrban, Nazia;Dong, Hanshan;Grover, Liam M.;Stamboulis, Artemis;
6:17:34:7 Investigation of metastable gamma ' precipitate using HRTEM in aged Cu-Be alloy
DOI:10.1016/j.msea.2011.01.114 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:3 AU: Yagmur, Levent;Duygulu, Ozgur;Aydemir, Bulent;
6:17:35:1 Nitriding behaviour of maraging steel: experiments and modelling
DOI:10.1007/s10853-013-7248-2 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:4 AU: Selg, H.;Meka, S. R.;Kachel, M.;Schacherl, R. E.;Waldenmaier, T.;Mittemeijer, E. J.;
6:17:35:2 Plasma nitriding of steels with severely plastic deformed surfaces
DOI:10.1007/s10853-012-6566-0 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:3 AU: Schuster, J.;Bruder, E.;Mueller, C.;
6:17:35:3 Unusual martensite-formation kinetics in steels: Observation of discontinuous transformation rates
DOI:10.1016/j.actamat.2013.11.052 JN:ACTA MATERIALIA PY:2014 TC:1 AU: Loewy, Sarah;Rheingans, Bastian;Meka, Sai Ramudu;Mittemeijer, Eric J.;
6:17:35:4 An in situ transmission electron microscopy study of interface growth during martensitic transformation in an Fe-Ni-Mn alloy
DOI:10.1016/j.actamat.2011.02.003 JN:ACTA MATERIALIA PY:2011 TC:4 AU: Wu, J.;Howe, J. M.;Zhang, W. -Z.;
6:17:35:5 Formation of UFG-surface layers on a HSLA steel by a continuous Surface-SPD-Process
DOI:10.1016/j.msea.2011.12.012 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:12 AU: Kaune, Vanessa;Mueller, Clemens;
6:17:36:1 Effects of shot peening on fatigue behavior in high speed steel and cast iron with spheroidal vanadium carbides dispersed within martensitic-matrix microstructure
DOI:10.1016/j.msea.2012.10.045 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:3 AU: Uematsu, Y.;Kakiuchi, T.;Tokaji, K.;Nishigaki, K.;Ogasawara, M.;
6:17:36:2 Effects of HIP and forging on fracture behaviour in cast iron with spheroidal vanadium carbides dispersed within martensitic-matrix microstructure
DOI:10.1016/j.msea.2010.01.067 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:3 AU: Uematsu, Y.;Tokaji, K.;Nishigaki, K.;Okajima, D.;Ogasawara, M.;
6:17:36:3 On the comparison of microstructural characteristics and mechanical properties of high-vanadium austenitic manganese steels with the Hadfield steel
DOI:10.1016/j.msea.2011.10.089 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:4 AU: Moghaddam, E. G.;Varahram, N.;Davami, P.;
6:17:36:4 Influence of shot peening on the fatigue life of Cu-Ni austempered ductile iron
DOI:10.1016/j.msea.2012.02.092 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:6 AU: Zammit, A.;Mhaede, M.;Grech, M.;Abela, S.;Wagner, L.;
6:17:36:5 Pre-Corrosion and Surface Treatments Effects on the Fatigue Life of AA6082 T6
DOI:10.1002/adem.201300054 JN:ADVANCED ENGINEERING MATERIALS PY:2013 TC:4 AU: Abdulstaar, Mustafa;Mhaede, Mansour;Wagner, Lothar;
6:17:36:6 Impact-abrasion wear characteristics of in-situ VC-reinforced austenitic steel matrix composite
DOI:10.1016/j.msea.2013.07.082 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:1 AU: Moghaddam, E. G.;Karimzadeh, N.;Varahram, N.;Davami, P.;
6:17:37:1 Nitrogen surface enrichment of austenitic stainless steel ISO 5832-1
DOI:10.1007/s10853-010-4827-3 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:8 AU: Reis, R. F.;Maliska, A. M.;Borges, P. C.;
6:17:37:2 Effect of pressurized solution nitriding on phase changes and mechanical properties of ferritic Fe-22.7Cr-2.4Mo stainless steel
DOI:10.1016/j.msea.2013.10.103 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Mohammadzadeh, Roghayeh;Akbari, Alireza;
6:17:37:3 Surface modification by nitrogen plasma immersion ion implantation into new steel 460Li-21Cr in a capacitively coupled radio frequency discharge
DOI:10.1016/j.apsusc.2014.07.176 JN:APPLIED SURFACE SCIENCE PY:2014 TC:0 AU: Bhuyan, H.;Maendl, S.;Bora, B.;Favre, M.;Wyndham, E.;Maze, J. R.;Walczak, M.;ManovabaInstitut, D.;
6:17:37:4 In situ investigation of the gas-solid interaction between high-alloyed steel powder and nitrogen by energy dispersive diffraction
DOI:10.1007/s10853-011-6159-3 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:1 AU: Zumsande, K.;Krasokha, N.;Huth, S.;Weber, S.;Theisen, W.;
6:17:37:5 Grain refinement of a nickel and manganese free austenitic stainless steel produced by pressurized solution nitriding
DOI:10.1016/j.matchar.2014.04.001 JN:MATERIALS CHARACTERIZATION PY:2014 TC:1 AU: Mohammadzadeh, Roghayeh;Akbari, Alireza;
6:17:38:1 Modelling of thermomechanical fatigue stress relaxation in a single-crystal nickel-base superalloy
DOI:10.1016/j.commatsci.2014.04.009 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:1 AU: Leidermark, Daniel;Segersall, Mikael;
6:17:38:2 Tension/compression asymmetry of a single-crystal superalloy in virgin and degraded condition
DOI:10.1016/j.actamat.2010.05.032 JN:ACTA MATERIALIA PY:2010 TC:8 AU: Leidermark, D.;Moverare, J. J.;Johansson, S.;Simonsson, K.;Sjostrom, S.;
6:17:38:3 Thermo-mechanical fatigue behavior of a single crystal nickel-based superalloy
DOI:10.1016/j.msea.2011.04.083 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:6 AU: Han, G. M.;Yu, J. J.;Sun, X. F.;Hu, Z. Q.;
6:17:39:1 Grain refinement under high strain rate impact: A numerical approach
DOI:10.1016/j.commatsci.2009.12.018 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2010 TC:14 AU: Lemiale, Vincent;Estrin, Yuri;Kim, Hyoung Seop;O'Donnell, Robert;
6:17:39:2 Modeling of grain refinement in aluminum and copper subjected to cutting
DOI:10.1016/j.commatsci.2011.05.020 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:17 AU: Ding, Hongtao;Shen, Ninggang;Shin, Yung C.;
6:17:40:1 Grain growth and grain size effects on the thermal expansion properties of an electrodeposited Fe-Ni invar alloy
DOI:10.1016/j.scriptamat.2010.04.006 JN:SCRIPTA MATERIALIA PY:2010 TC:7 AU: Liu, Yichun;Liu, Lei;Wu, Zhong;Li, Jiake;Shen, Bin;Hu, Wenbin;
6:17:40:2 A study of thermal stability in electrodeposited nanocrystalline Fe-Ni invar alloy
DOI:10.1016/j.msea.2011.04.052 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:6 AU: Liu, Yichun;Liu, Lei;Shen, Bin;Hu, Wenbin;
6:17:40:3 Interface structure characterization of Fe36Ni alloy with ultrasonic soldering
DOI:10.1016/j.jallcom.2013.05.085 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:1 AU: Wei, Jinghui;Deng, Binghui;Gao, Xingqiang;Yan, Jiuchun;Chen, Xiaoguang;
6:17:41:1 Ferromagnetism in interstitially hardened austenitic stainless steel induced by low-temperature gas-phase nitriding
DOI:10.1016/j.scriptamat.2011.09.023 JN:SCRIPTA MATERIALIA PY:2011 TC:4 AU: Wu, D.;Kahn, H.;Michal, G. M.;Ernst, F.;Heuer, A. H.;
6:17:41:2 Orientation dependence of nitrogen supersaturation in austenitic stainless steel during low-temperature gas-phase nitriding
DOI:10.1016/j.actamat.2014.07.007 JN:ACTA MATERIALIA PY:2014 TC:1 AU: Wu, D.;Kahn, H.;Dalton, J. C.;Michal, G. M.;Ernst, F.;Heuer, A. H.;
6:18:1:1 Analysis by synchrotron X-ray radiography of convection effects on the dynamic evolution of the solid-liquid interface and on solute distribution during the initial transient of solidification
DOI:10.1016/j.actamat.2011.03.059 JN:ACTA MATERIALIA PY:2011 TC:33 AU: Bogno, A.;Nguyen-Thi, H.;Buffet, A.;Reinhart, G.;Billia, B.;Mangelinck-Noel, N.;Bergeon, N.;Baruchel, J.;Schenk, T.;
6:18:1:2 Spacing characterization in Al-Cu alloys directionally solidified under transient growth conditions
DOI:10.1016/j.actamat.2010.07.029 JN:ACTA MATERIALIA PY:2010 TC:23 AU: Amoorezaei, Morteza;Gurevich, Sebastian;Provatas, Nikolas;
6:18:1:3 Phase field investigation of dendrite growth in the welding pool of aluminum alloy 2A14 under transient conditions
DOI:10.1016/j.commatsci.2013.08.022 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:6 AU: Zheng, W. J.;Dong, Z. B.;Wei, Y. H.;Song, K. J.;Guo, J. L.;Wang, Y.;
6:18:1:4 A quantitative multi-phase field model of polycrystalline alloy solidification
DOI:10.1016/j.actamat.2009.12.001 JN:ACTA MATERIALIA PY:2010 TC:18 AU: Ofori-Opoku, Nana;Provatas, Nikolas;
6:18:1:5 Phase-field simulation of solidification morphology in laser powder deposition of Ti-Nb alloys
DOI:10.1016/j.actamat.2011.12.009 JN:ACTA MATERIALIA PY:2012 TC:14 AU: Fallah, V.;Amoorezaei, M.;Provatas, N.;Corbin, S. F.;Khajepour, A.;
6:18:1:6 Dendrite growth simulation during solidification in the LENS process
DOI:10.1016/j.actamat.2009.10.053 JN:ACTA MATERIALIA PY:2010 TC:23 AU: Yin, H.;Felicelli, S. D.;
6:18:1:7 Orientation selection in solidification patterning
DOI:10.1016/j.actamat.2011.10.006 JN:ACTA MATERIALIA PY:2012 TC:16 AU: Amoorezaei, Morteza;Gurevich, Sebastian;Provatas, Nikolas;
6:18:1:8 Quantitatively comparing phase-field modeling with direct real time observation by synchrotron X-ray radiography of the initial transient during directional solidification of an Al-Cu alloy
DOI:10.1016/j.actamat.2011.09.028 JN:ACTA MATERIALIA PY:2012 TC:19 AU: Chen, Yun;Bogno, Abdoul-Aziz;Xiao, Na Min;Billia, Bernard;Kang, Xiu Hong;Nguyen-Thi, Henri;Luo, Xing Hong;Li, Dian Zhong;
6:18:1:9 Microstructure analysis of AZ31 magnesium alloy welds using phase-field models
DOI:10.1016/j.actamat.2012.07.035 JN:ACTA MATERIALIA PY:2012 TC:9 AU: Montiel, D.;Liu, L.;Xiao, L.;Zhou, Y.;Provatas, N.;
6:18:1:10 A novel integrated model combining Cellular Automata and Phase Field methods for microstructure evolution during solidification of multi-component and multi-phase alloys
DOI:10.1016/j.commatsci.2011.03.044 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:15 AU: Tan, Wenda;Bailey, Neil S.;Shin, Yung C.;
6:18:1:11 Onset of the initial instability during the solidification of welding pool of aluminum alloy under transient conditions
DOI:10.1016/j.jcrysgro.2014.05.025 JN:JOURNAL OF CRYSTAL GROWTH PY:2014 TC:0 AU: Zheng, Wenjian;Dong, Zhibo;Wei, Yanhong;Song, Kuijing;
6:18:1:12 Effect of boundary heat flux on solidification in a forced liquid metal flow: a phase-field simulation
DOI:10.1080/14786435.2014.981233 JN:PHILOSOPHICAL MAGAZINE PY:2014 TC:0 AU: Du, Lifei;Zhang, Rong;
6:18:1:13 Influence of natural convection during upward directional solidification: A comparison between in situ X-ray radiography and direct simulation of the grain structure
DOI:10.1016/j.actamat.2013.04.067 JN:ACTA MATERIALIA PY:2013 TC:7 AU: Reinhart, G.;Gandin, Ch. -A.;Mangelinck-Noel, N.;Nguyen-Thi, H.;Spinelli, J. -E.;Baruchel, J.;Billia, B.;
6:18:1:14 A phase-field study of large-scale dendrite fragmentation in Al-Cu
DOI:10.1016/j.jcrysgro.2012.08.036 JN:JOURNAL OF CRYSTAL GROWTH PY:2012 TC:2 AU: Wesner, Eugenia;Choudhury, Abhik;August, Anastasia;Berghoff, Marco;Nestler, Britta;
6:18:1:15 Characterization of late-stage equiaxed solidification of alloys
DOI:10.1016/j.actamat.2014.05.063 JN:ACTA MATERIALIA PY:2014 TC:0 AU: Montiel, David;Gurevich, Sebastian;Ofori-Opoku, Nana;Provatas, Nikolas;
6:18:1:16 Tip-splitting instability and transition to seaweed growth during alloy solidification in anisotropically preferred growth direction
DOI:10.1016/j.actamat.2013.11.069 JN:ACTA MATERIALIA PY:2014 TC:4 AU: Chen, Yun;Billia, Bernard;Li, Dian Zhong;Nguyen-Thi, Henri;Xiao, Na Min;Bogno, Abdoul-Aziz;
6:18:1:17 Using the interface Peclet number to select the maximum simulation interface width in phase-field solidification modelling
DOI:10.1016/j.commatsci.2012.12.030 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:1 AU: Xie, Y.;Dong, H. B.;Dantzig, J. A.;
6:18:1:18 Modeling of morphological evolution of columnar dendritic grains in the molten pool of gas tungsten arc welding
DOI:10.1016/j.commatsci.2014.07.052 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:0 AU: Han, Rihong;Dong, Wenchao;Lu, Shanping;Li, Dianzhong;Li, Yiyi;
6:18:1:19 Quantitative analysis by in situ synchrotron X-ray radiography of the evolution of the mushy zone in a fixed temperature gradient
DOI:10.1016/j.jcrysgro.2014.10.053 JN:JOURNAL OF CRYSTAL GROWTH PY:2015 TC:1 AU: Salloum-Abou-Jaoude, G.;Reinhart, G.;Combeau, H.;Zaloznik, M.;Lafford, T. A.;Nguyen-Thi, H.;
6:18:1:20 Evolution of microstructural length scales during solidification of magnesium alloys
DOI:10.1016/j.actamat.2012.02.055 JN:ACTA MATERIALIA PY:2012 TC:4 AU: Gurevich, Sebastian;Amoorezaei, Morteza;Montiel, David;Provatas, Nikolas;
6:18:1:21 Phase field modeling the selection mechanism of primary dendritic spacing in directional solidification
DOI:10.1016/j.actamat.2011.12.029 JN:ACTA MATERIALIA PY:2012 TC:13 AU: Wang, Zhijun;Li, Junjie;Wang, Jincheng;Zhou, Yaohe;
6:18:1:22 Phase-field study for the influence of solute interactions on solidification process in multicomponent alloys
DOI:10.1016/j.commatsci.2009.11.011 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2010 TC:7 AU: Zhang, Ruijie;Li, Mei;Allison, John;
6:18:1:23 In situ analysis of the influence of convection during the initial transient of planar solidification
DOI:10.1016/j.jcrysgro.2010.10.184 JN:JOURNAL OF CRYSTAL GROWTH PY:2011 TC:5 AU: Bogno, A.;Reinhart, G.;Buffet, A.;Thi, H. Nguyen;Billia, B.;Schenk, T.;Mangelinck-Noel, N.;Bergeon, N.;Baruchel, J.;
6:18:1:24 A Cell-Automaton Model for Eutectic Growth of a Ternary Alloy System with a Dilute Third Element
DOI:10.2320/matertrans.M2012147 JN:MATERIALS TRANSACTIONS PY:2012 TC:0 AU: Himemiya, Toshiaki;
6:18:1:25 Eutectic Growth Model Using Cell-Automaton Method
DOI:10.2320/matertrans.M2009304 JN:MATERIALS TRANSACTIONS PY:2010 TC:3 AU: Himemiya, Toshiaki;Ohsasa, Kenichi;Saga, Takahiro;
6:18:2:1 Influence of Fe-rich intermetallics on solidification defects in Al-Si-Cu alloys
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6:18:2:2 In situ synchrotron tomographic quantification of granular and intragranular deformation during semi-solid compression of an equiaxed dendritic Al-Cu alloy
DOI:10.1016/j.actamat.2014.05.035 JN:ACTA MATERIALIA PY:2014 TC:3 AU: Cai, B.;Karagadde, S.;Yuan, L.;Marrow, T. J.;Connolley, T.;Lee, P. D.;
6:18:2:3 Granular deformation mechanisms in semi-solid alloys
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6:18:2:4 In situ X-ray observation of semi-solid deformation and failure in Al-Cu alloys
DOI:10.1016/j.actamat.2010.11.005 JN:ACTA MATERIALIA PY:2011 TC:27 AU: Phillion, A. B.;Hamilton, R. W.;Fuloria, D.;Leung, A. C. L.;Rockett, P.;Connolley, T.;Lee, P. D.;
6:18:2:5 3-D granular modeling and in situ X-ray tomographic imaging: A comparative study of hot tearing formation and semi-solid deformation in Al-Cu alloys
DOI:10.1016/j.actamat.2013.03.021 JN:ACTA MATERIALIA PY:2013 TC:11 AU: Sistaninia, M.;Terzi, S.;Phillion, A. B.;Drezet, J. -M.;Rappaz, M.;
6:18:2:6 In situ study of granular micromechanics in semi-solid carbon steels
DOI:10.1016/j.actamat.2013.03.043 JN:ACTA MATERIALIA PY:2013 TC:8 AU: Fonseca, J.;O'Sullivan, C.;Nagira, T.;Yasuda, H.;Gourlay, C. M.;
6:18:2:7 A 3-D coupled hydromechanical granular model for simulating the constitutive behavior of metallic alloys during solidification
DOI:10.1016/j.actamat.2012.08.057 JN:ACTA MATERIALIA PY:2012 TC:8 AU: Sistaninia, M.;Phillion, A. B.;Drezet, J. -M.;Rappaz, M.;
6:18:2:8 A mesoscale solidification simulation of fusion welding in aluminum-magnesium-silicon alloys
DOI:10.1016/j.actamat.2014.06.014 JN:ACTA MATERIALIA PY:2014 TC:1 AU: Rajani, H. R. Zareie;Phillion, A. B.;
6:18:2:9 Exploring dendrite coherency with the discrete element method
DOI:10.1016/j.actamat.2011.11.042 JN:ACTA MATERIALIA PY:2012 TC:8 AU: Yuan, L.;O'Sullivan, C.;Gourlay, C. M.;
6:18:2:10 Coupling in situ synchrotron X-ray tomographic microscopy and numerical simulation to quantify the influence of intermetallic formation on permeability in aluminium-silicon-copper alloys
DOI:10.1016/j.actamat.2013.10.044 JN:ACTA MATERIALIA PY:2014 TC:7 AU: Puncreobutr, C.;Phillion, A. B.;Fife, J. L.;Lee, P. D.;
6:18:2:11 Dilatancy and rheology at 0-60% solid during equiaxed solidification
DOI:10.1016/j.actamat.2011.01.049 JN:ACTA MATERIALIA PY:2011 TC:9 AU: Meylan, B.;Terzi, S.;Gourlay, C. M.;Dahle, A. K.;
6:18:2:12 Three-dimensional granular model of semi-solid metallic alloys undergoing solidification: Fluid flow and localization of feeding
DOI:10.1016/j.actamat.2012.03.036 JN:ACTA MATERIALIA PY:2012 TC:15 AU: Sistaninia, M.;Phillion, A. B.;Drezet, J. -M.;Rappaz, M.;
6:18:2:13 Particle and liquid motion in semi-solid aluminium alloys: A quantitative in situ microradioscopy study
DOI:10.1016/j.actamat.2012.10.047 JN:ACTA MATERIALIA PY:2013 TC:6 AU: Zabler, S.;Ershov, A.;Rack, A.;Garcia-Moreno, F.;Baumbach, T.;Banhart, J.;
6:18:2:14 In situ quantification of the nucleation and growth of Fe-rich intermetallics during Al alloy solidification
DOI:10.1016/j.actamat.2014.07.018 JN:ACTA MATERIALIA PY:2014 TC:2 AU: Puncreobutr, C.;Phillion, A. B.;Fife, J. L.;Rockett, P.;Horsfield, A. P.;Lee, P. D.;
6:18:2:15 3D finite element model of semi-solid permeability in an equiaxed granular structure
DOI:10.1016/j.commatsci.2010.04.042 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2010 TC:8 AU: Sun, Z.;Loge, R. E.;Bernacki, M.;
6:18:2:16 Pore behaviour during semi-solid alloy compression: Insights into defect creation under pressure
DOI:10.1016/j.scriptamat.2014.06.033 JN:SCRIPTA MATERIALIA PY:2014 TC:0 AU: Kareh, K. M.;Lee, P. D.;Atwood, R. C.;Connolley, T.;Gourlay, C. M.;
6:18:2:17 Permeability of dual structured hypoeutectic aluminum alloys
DOI:10.1016/j.actamat.2011.03.074 JN:ACTA MATERIALIA PY:2011 TC:1 AU: Khajeh, Ehsan;Maijer, Daan M.;
6:18:2:18 Multiscale modeling of the influence of Fe content in a Al-Si-Cu alloy on the size distribution of intermetallic phases and micropores
DOI:10.1063/1.3340520 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:6 AU: Wang, Junsheng;Li, Mei;Allison, John;Lee, Peter D.;
6:18:2:19 Development of shear bands during deformation of partially solid alloys
DOI:10.1016/j.scriptamat.2010.08.032 JN:SCRIPTA MATERIALIA PY:2010 TC:5 AU: Meylan, B.;Terzi, S.;Gourlay, C. M.;Suery, M.;Dahle, A. K.;
6:18:2:20 Direct observation of deformation in semi-solid carbon steel
DOI:10.1016/j.scriptamat.2011.03.009 JN:SCRIPTA MATERIALIA PY:2011 TC:24 AU: Nagira, T.;Gourlay, C. M.;Sugiyama, A.;Uesugi, M.;Kanzawa, Y.;Yoshiya, M.;Uesugi, K.;Umetani, K.;Yasuda, H.;
6:18:2:21 Physical and numerical characterization of the near-eutectic permeability of aluminum-copper alloys
DOI:10.1016/j.actamat.2010.07.055 JN:ACTA MATERIALIA PY:2010 TC:11 AU: Khajeh, Ehsan;Maijer, Daan M.;
6:18:2:22 A new parameter for modelling three-dimensional damage evolution validated by synchrotron tomography
DOI:10.1016/j.actamat.2013.08.065 JN:ACTA MATERIALIA PY:2013 TC:3 AU: Kaye, M.;Puncreobutr, C.;Lee, P. D.;Balint, D. S.;Connolley, T.;Farrugia, D.;Lin, J.;
6:18:2:23 Agglomeration and bending of equiaxed crystals during solidification of hypoeutectic Al and Mg alloys
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6:18:2:24 A level-set and anisotropic adaptive remeshing strategy for the modeling of void growth under large plastic strain
DOI:10.1016/j.commatsci.2012.10.004 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:3 AU: Roux, E.;Bernacki, M.;Bouchard, P. O.;
6:18:3:1 A synchrotron X-ray radiography study of dendrite fragmentation induced by a pulsed electromagnetic field in an A1-15Cu alloy
DOI:10.1016/j.actamat.2014.02.024 JN:ACTA MATERIALIA PY:2014 TC:11 AU: Liotti, E.;Lui, A.;Vincent, R.;Kumar, S.;Guo, Z.;Connolley, T.;Dolbnya, I. P.;Hart, M.;Arnberg, L.;Mathiesen, R. H.;Grant, P. S.;
6:18:3:2 Growth and interaction of dendritic equiaxed grains: In situ characterization by synchrotron X-ray radiography
DOI:10.1016/j.actamat.2012.11.008 JN:ACTA MATERIALIA PY:2013 TC:18 AU: Bogno, A.;Nguyen-Thi, H.;Reinhart, G.;Billia, B.;Baruchel, J.;
6:18:3:3 In situ synchrotron X-ray imaging on morphological evolution of dendrites in Sn-Bi hypoeutectic alloy under electric currents
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6:18:3:4 In situ study the effect of refiner on the microstructure evolution of variable cross-section structure by synchrotron X-ray radiography
DOI:10.1016/j.crysgro.2015.07.016 JN:JOURNAL OF CRYSTAL GROWTH PY:2015 TC:0 AU: Li, Faguo;Zhang, Jiao;Dai, Yongbing;Bian, Fenggang;Fu, Yanan;Yin, Fucheng;Sun, Baode;
6:18:3:5 Visualization of freckle formation induced by forced melt convection in solidifying GaIn alloys
DOI:10.1016/j.matlet.2010.03.044 JN:MATERIALS LETTERS PY:2010 TC:19 AU: Boden, S.;Eckert, S.;Gerbeth, G.;
6:18:3:6 Real time observation of equiaxed growth of Sn-Pb alloy under an applied direct current by synchrotron microradiography
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6:18:3:7 XRMON-GF: A novel facility for solidification of metallic alloys with in situ and time-resolved X-ray radiographic characterization in microgravity conditions
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6:18:3:8 Real time synchrotron X-ray observations of solidification in hypoeutectic Al-Si alloys
DOI:10.1016/j.matchar.2013.08.015 JN:MATERIALS CHARACTERIZATION PY:2013 TC:7 AU: Nogita, Kazuhiro;Yasuda, Hideyuki;Prasad, Arvind;McDonald, Stuart D.;Nagira, Tomoya;Nakatsuka, Noriaki;Uesugi, Kentaro;StJohn, David H.;
6:18:3:9 Real-Time Radiographic Observation of Solidification Behavior of Al-Si-Cu Casting Alloys with the Variation of Iron Content
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6:18:3:10 In situ observation of columnar-to-equiaxed transition in directional solidification using synchrotron X-radiation imaging technique
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6:18:3:11 In situ investigation of unidirectional solidification in Sn-0.7Cu and Sn-0.7Cu-0.06Ni
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6:18:3:12 In Situ and Real-Time Observation of the Solidification Process of Al-20 mass%Cu Alloy by Synchrotron X-ray Radiography
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6:18:3:13 Combined in situ X-ray radiographic observations and post-solidification metallographic characterisation of eutectic transformations in Al-Cu alloy systems
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6:18:3:14 The relevance of melt convection to grain refinement in Al-Si alloys solidified under the impact of electric currents
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6:18:3:15 The effect of natural and forced melt convection on dendritic solidification in Ga-In alloys
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6:18:3:16 Flow oscillations driven by a rotating magnetic field in liquid metal columns with an upper free surface
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6:18:3:17 Quantitative metallographic assessment of the electromagnetic casting influence on the microstructure of 7075 Al alloy
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6:18:3:18 Study of the influence of TiB2 particles on the melt structure of the hypoeutectic Al-Cu alloy by small angle X-ray scattering
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6:18:4:1 The role of hafnium in the formation of misoriented defects in Ni-based superalloys: An atom-probe tomographic study
DOI:10.1016/j.actamat.2011.02.006 JN:ACTA MATERIALIA PY:2011 TC:15 AU: Amouyal, Y.;Seidman, D. N.;
6:18:4:2 On the origin of sliver defects in single crystal investment castings
DOI:10.1016/j.actamat.2013.04.071 JN:ACTA MATERIALIA PY:2013 TC:3 AU: Aveson, J. W.;Tennant, P. A.;Foss, B. J.;Shollock, B. A.;Stone, H. J.;D'Souza, N.;
6:18:4:3 Modeling fluid flow in three-dimensional single crystal dendritic structures
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6:18:4:4 A new mechanism for freckle initiation based on microstructural level simulation
DOI:10.1016/j.actamat.2012.04.043 JN:ACTA MATERIALIA PY:2012 TC:17 AU: Yuan, Lang;Lee, Peter D.;
6:18:4:5 An atom-probe tomographic study of freckle formation in a nickel-based superalloy
DOI:10.1016/j.actamat.2011.07.030 JN:ACTA MATERIALIA PY:2011 TC:11 AU: Amouyal, Y.;Seidman, D. N.;
6:18:4:6 Simulation of solid deformation during solidification: Shearing and compression of polycrystalline structures
DOI:10.1016/j.actamat.2012.12.047 JN:ACTA MATERIALIA PY:2013 TC:4 AU: Yamaguchi, M.;Beckermann, C.;
6:18:4:7 3-D microstructural model of freckle formation validated using in situ experiments
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6:18:4:8 The subgrain structure in turbine blade roots of CMSX-4 superalloy
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6:18:4:9 Formation of stray grains during directional solidification of a nickel-based superalloy
DOI:10.1016/j.scriptamat.2011.04.023 JN:SCRIPTA MATERIALIA PY:2011 TC:14 AU: Zhou, Yizhou;
6:18:4:10 Simulation of solid deformation during solidification: Compression of a single dendrite
DOI:10.1016/j.actamat.2013.03.030 JN:ACTA MATERIALIA PY:2013 TC:2 AU: Yamaguchi, M.;Beckermann, C.;
6:18:4:11 Simulation of diffusion-limited lateral growth of dendrites during solidification via liquid metal cooling
DOI:10.1016/j.actamat.2014.01.035 JN:ACTA MATERIALIA PY:2014 TC:0 AU: Miller, J. D.;Yuan, L.;Lee, P. D.;Pollock, T. M.;
6:18:4:12 Formation of stray grains during directional solidification of a superalloy AM3
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6:18:4:13 Numerical investigations of stress in dendrites caused by gravity
DOI:10.1016/j.jcrysgro.2011.10.012 JN:JOURNAL OF CRYSTAL GROWTH PY:2011 TC:3 AU: Takaki, Tomohiro;Kashima, Hiroko;
6:18:5:1 A three-dimensional sharp interface model for the quantitative simulation of solutal dendritic growth
DOI:10.1016/j.actamat.2009.09.012 JN:ACTA MATERIALIA PY:2010 TC:33 AU: Pan, Shiyan;Zhu, Mingfang;
6:18:5:2 Perspectives for cellular automata for the simulation of dendritic solidification - A review
DOI:10.1016/j.commatsci.2014.07.037 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:2 AU: Reuther, K.;Rettenmayr, M.;
6:18:5:3 Comparison of phase-field and cellular automaton models for dendritic solidification in Al-Cu alloy
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6:18:5:4 Simulation of a dendritic microstructure with the lattice Boltzmann and cellular automaton methods
DOI:10.1016/j.actamat.2011.01.052 JN:ACTA MATERIALIA PY:2011 TC:16 AU: Yin, H.;Felicelli, S. D.;Wang, L.;
6:18:5:5 A three-dimensional cellular automaton model for dendritic growth in multi-component alloys
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6:18:5:6 A two-dimensional model for the quantitative simulation of the dendritic growth with cellular automaton method
DOI:10.1016/j.commatsci.2012.12.040 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:7 AU: Luo, Sen;Zhu, Miao Yong;
6:18:5:7 A three-dimensional cellular automata model coupled with finite element method and thermodynamic database for alloy solidification
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6:18:5:8 Polydimensional modelling of dendritic growth and microsegregation in multicomponent alloys
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6:18:5:9 Numerical modeling of crystal growth of a nickel-based superalloy with applied direct current
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6:18:5:10 Three dimensional simulation of solutal dendrite growth using lattice Boltzmann and cellular automaton methods
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6:18:5:11 A cellular automaton model for the solidification of a pure substance
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6:18:5:12 Interrupted interface growth and periodic boundary layer trapping in dendrite growth of steel
DOI:10.1063/1.4811701 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Ma, Xiaoping;Li, Dianzhong;
6:18:5:13 Dendritic growth of high carbon iron-based alloy under constrained melt flow
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6:18:5:14 The effect of ultrasonication on calcium carbonate crystallization in the presence of biopolymer
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6:18:5:15 Microstructure development of different orientated nickel-base single crystal superalloy in directional solidification
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6:18:5:16 A cellular automaton model for a pure substance solidification with interface reconstruction method
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6:18:6:1 Phase-field study of competitive dendritic growth of converging grains during directional solidification
DOI:10.1016/j.actamat.2011.11.037 JN:ACTA MATERIALIA PY:2012 TC:27 AU: Li, Junjie;Wang, Zhijun;Wang, Yaqin;Wang, Jincheng;
6:18:6:2 Two-dimensional phase-field simulations of dendrite competitive growth during the directional solidification of a binary alloy bicrystal
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6:18:6:3 Unexpected selection of growing dendrites by very-large-scale phase-field simulation
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6:18:6:4 Directional solidification of inclined structures in thin samples
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6:18:6:5 GPU-accelerated phase-field simulation of dendritic solidification in a binary alloy
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6:18:6:6 Parallel Implementation for Phase-Field Simulation of Flow Effect on Dendritic Growth with GPU Acceleration
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6:18:6:7 Million-atom molecular dynamics simulation on spontaneous evolution of anisotropy in solid nucleus during solidification of iron
DOI:10.1016/j.scriptamat.2014.04.021 JN:SCRIPTA MATERIALIA PY:2014 TC:4 AU: Shibuta, Yasushi;Oguchi, Kanae;Ohno, Munekazu;
6:18:6:8 Mechanism of competitive growth during directional solidification of a nickel-base superalloy in a three-dimensional reference frame
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6:18:6:9 Competitive grain growth mechanism in three dimensions during directional solidification of a nickel-based superalloy
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6:18:6:10 Molecular dynamics calculation of solid-liquid interfacial free energy and its anisotropy during iron solidification
DOI:10.1016/j.commatsci.2013.03.018 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:10 AU: Liu, J.;Davidchack, R. L.;Dong, H. B.;
6:18:6:11 Predicting growth direction of tilted dendritic arrays during directional solidification
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6:18:6:12 Wave dynamics on directional solidification interfaces swept by a flow in a thin sample
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6:18:6:13 Anomalous overgrowth of converging dendrites during directional solidification
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6:18:7:1 Computational Modeling of Columnar to Equiaxed Transition in Alloy Solidification
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6:18:7:2 Modelling mixed columnar-equiaxed solidification with melt convection and grain sedimentation - Part I: Model description
DOI:10.1016/j.commatsci.2010.07.005 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2010 TC:25 AU: Wu, M.;Fjeld, A.;Ludwig, A.;
6:18:7:3 Corrosion and wear resistance of hypoeutectic Zn-Al alloys as a function of structural features
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6:18:7:4 Modelling mixed columnar-equiaxed solidification with melt convection and grain sedimentation - Part II: Illustrative modelling results and parameter studies
DOI:10.1016/j.commatsci.2010.07.006 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2010 TC:19 AU: Wu, M.;Ludwig, A.;Fjeld, A.;
6:18:7:5 Modeling diffusion-governed solidification of ternary alloys - Part 2: Macroscopic transport phenomena and macrosegregation
DOI:10.1016/j.commatsci.2014.05.027 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:4 AU: Wu, M.;Li, J.;Ludwig, A.;Kharicha, A.;
6:18:7:6 Meso-scale modelling of directional solidification and comparison with in situ X-ray radiographic observations made during the MASER-12 XRMON microgravity experiment
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6:18:7:7 An experimental investigation of the columnar-to-equiaxed grain transition in aluminum-copper hypoeutectic and eutectic alloys
DOI:10.1016/j.jcrysgro.2010.04.040 JN:JOURNAL OF CRYSTAL GROWTH PY:2010 TC:13 AU: Ares, A. E.;Gueijman, S. F.;Schvezov, C. E.;
6:18:7:8 A generalised version of an Ivantsov-based dendrite growth model incorporating a facility for solute measurement ahead of the tip
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6:18:7:9 Modeling diffusion-governed solidification of ternary alloys - Part 1: Coupling solidification kinetics with thermodynamics
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6:18:7:10 Simulation of international space station microgravity directional solidification experiments on columnar-to-equiaxed transition
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6:18:7:11 Structures in directionally solidified Al-7 wt.% Si alloys: Benchmark experiments under microgravity
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6:18:7:12 Analysis of macrosegregation formation and columnar-to-equiaxed transition during solidification of Al-4 wt.%Cu ingot using a 5-phase model
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6:18:7:13 Sedimentation speed of a free dendrite growing in an undercooled melt
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6:18:7:14 Simulation of channel segregation using a two-phase columnar solidification model - Part II: Mechanism and parameter study
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6:18:7:15 Vertical and Horizontal Directional Solidification of Zn-Al and Zn-Ag Diluted Alloys
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6:18:8:1 Dendrite fragmentation and columnar-to-equiaxed transition during directional solidification at lower growth speed under a strong magnetic field
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6:18:8:2 Thermoelectric magnetic force acting on the solid during directional solidification under a static magnetic field
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6:18:8:3 Thermoelectric magnetic flows in melt during directional solidification
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6:18:8:4 Effect of strong magnetic field on solid solubility and microsegregation during directional solidification of Al-Cu alloy
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6:18:8:5 Modification of liquid/solid interface shape in directionally solidifying Al-Cu alloys by a transverse magnetic field
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6:18:8:6 Columnar-to-equiaxed transitions in al-based alloys during directional solidification under a high magnetic field
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6:18:8:7 Motion of equiaxed grains during directional solidification under static magnetic field
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6:18:8:8 Columnar to equiaxed transition in directional solidification of inoculated melts
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6:18:8:9 Effect of a weak transverse magnetic field on solidification structure during directional solidification
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6:18:8:10 Faceted growth of primary Al2Cu crystals during directional solidification in high magnetic field
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6:18:8:11 Thermoelectric Magnetohydrodynamic Stirring of Liquid Metals
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6:18:8:12 Influence of an axial uniform magnetic field on the solid/liquid interface curvature and macrosegregation in directionally solidified the Al-0.85 wt.% Cu alloy
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6:18:9:1 Experimental evidence and thermodynamics analysis of high magnetic field effects on the austenite to ferrite transformation temperature in Fe-C-Mn alloys
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6:18:9:2 Magnetic-field-induced microstructural features in a high carbon steel during diffusional phase transformation
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6:18:9:3 Effects of a high magnetic field on structure evolution and properties of the molecular beam vapor deposited Fe60Ni40 nanoparticles thin films
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6:18:9:4 Effect of high magnetic field on alloy carbide precipitation in an Fe-C-Mo alloy
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6:18:9:5 Experimental study on modulated structure in Alnico alloys under high magnetic field and comparison with phase-field simulation
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6:18:9:6 Effect of magnetic field on interfacial energy and precipitation behavior of carbides in reduced activation steels
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6:18:9:7 Kinetic effects of magnetic field on the gamma/alpha interface controlled reaction in iron
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6:18:9:8 Carbon-content dependent effect of magnetic field on austenitic decomposition of steels
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6:18:9:9 Effect of magnetic field on the carbide precipitation during tempering of a molybdenum-containing steel
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6:18:9:10 Effects of high magnetic field on isothermal pearlite transformation and microstructure in a hypereutectoid steel
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6:18:9:11 Phase field simulation of spinodal decomposition under external magnetic field
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6:18:9:12 Effects of high magnetic field on austenite formation and grain size in a hypereutectoid carbon steel
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6:18:9:13 The role of magnetic fields on the arrangement of ordered variants of L1(0)-type Fe-55Pd (at.%) alloy
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6:18:9:14 Phase field simulation of microstructure evolution in Fe-Cr-Co alloy during thermal magnetic treatment and step aging
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6:18:10:1 Secondary dendrite arm migration caused by temperature gradient zone melting during peritectic solidification
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6:18:10:2 A skull-aided technique for directional solidification of Nb-41Ni-40Ti hydrogen permeable alloy
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6:18:10:3 Preparation of the initial solid-liquid interface and melt in directional solidification of Al-18 at%Ni peritectic alloy
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6:18:10:4 An analysis of non-equilibrium peritectic reaction driven by solute diffusion under a temperature gradient
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6:18:10:5 Au-Fe alloy solidification and solid-state transformations
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6:18:10:6 Influence of thermal stabilization on the solute concentration of the melt in directional solidification
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6:18:10:7 Influence of time-variant temperature gradients on resolidifying mushy zones
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6:18:11:1 Adaptive three-dimensional phase-field modeling of dendritic crystal growth with high anisotropy
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6:18:11:2 Three-dimensional phase field modeling of silicon thin-film growth during directional solidification: Facet formation and grain competition
DOI:10.1016/j.jcrysgro.2014.02.016 JN:JOURNAL OF CRYSTAL GROWTH PY:2014 TC:0 AU: Lin, H. K.;Lan, C. W.;
6:18:11:3 Anisotropy function of kinetic coefficient for phase-field simulations: Reproduction of kinetic Wulff shape with arbitrary face angles
DOI:10.1016/j.jcrysgro.2013.01.014 JN:JOURNAL OF CRYSTAL GROWTH PY:2013 TC:3 AU: Miura, Hitoshi;
6:18:11:4 Phase field modeling of facet formation during directional solidification of silicon film
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6:18:11:5 A phase field model for isothermal crystallization of oxide melts
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6:18:11:6 A simple anisotropic surface free energy function for three-dimensional phase field modeling of multi-crystalline crystal growth
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6:18:11:7 Pattern formation mechanism of a periodically faceted interface during crystallization of Si
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6:18:11:8 Phase-field analysis of a ternary two-phase diffusion couple with multiple analytical solutions
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6:18:11:9 Phase-field simulation for crystallization of a highly supercooled forsterite-chondrule melt droplet
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6:18:11:10 Efficient adaptive three-dimensional phase field simulation of free dendritic growth under natural convection
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6:18:11:11 In situ visualization of crystallization inside high temperature silicate melts
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6:18:12:1:1 Determination of the Jackson-Hunt constants of the In-In2Bi eutectic alloy based on in situ observation of its solidification dynamics
DOI:10.1016/j.actamat.2011.08.036 JN:ACTA MATERIALIA PY:2011 TC:9 AU: Akamatsu, S.;Bottin-Rousseau, S.;Faivre, G.;
6:18:12:1:2 Role of transverse temperature gradients in the generation of lamellar eutectic solidification patterns
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6:18:12:1:3 Dynamic instabilities of rod-like eutectic growth patterns: A real-time study
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6:18:12:1:4 In-situ observation of eutectic growth in Al-based alloys by light microscopy
DOI:10.1016/j.jcrysgro.2013.02.033 JN:JOURNAL OF CRYSTAL GROWTH PY:2013 TC:0 AU: Witusiewicz, V. T.;Hecht, U.;Rex, S.;
6:18:12:1:5 Steady spatially-periodic eutectic growth with the effect of triple point in directional solidification
DOI:10.1016/j.actamat.2014.06.047 JN:ACTA MATERIALIA PY:2014 TC:1 AU: Xu, Jian-Jun;Chen, Yong-Qiang;
6:18:12:1:6 Global steady state solutions for lamellar eutectic growth in directional solidification
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6:18:12:2:1 Lamellar coupled growth in the neopentylglycol-(D)camphor eutectic
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6:18:12:2:2 Fibrous eutectic growth in succinonitrile-neopentylglycol-(D)camphor-aminomethylpropanediol alloys for thin and bulk sample geometry
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6:18:12:2:3 On the role of initial conditions in the selection of eutectic onset mechanisms in directional growth
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6:18:12:2:4 Top-view approach for in-situ observation of growth morphology in bulk transparent organic alloys
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6:18:12:2:5 Solid-liquid interfacial energy of neopentylglycol solid solution in equilibrium with neopentylglycol-(D) camphor eutectic liquid
DOI:10.1016/j.jcrysgro.2011.11.005 JN:JOURNAL OF CRYSTAL GROWTH PY:2012 TC:2 AU: Bayram, U.;Aksoz, S.;Marasli, N.;
6:18:12:3:1 Lamellar eutectic growth with anisotropic interphase boundaries: Experimental study using the rotating directional solidification method
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6:18:12:3:2 A theory of thin lamellar eutectic growth with anisotropic interphase boundaries
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6:18:13:1 The microstructure parameters and microhardness of directionally solidified Ti-43A1-3Si alloy
DOI:10.1016/j.jallcom.2010.07.122 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:15 AU: Fan, Jianglei;Li, Xinzhong;Su, Yanqing;Guo, Jingjie;Fu, Hengzhi;
6:18:13:2 Dependency of microhardness on solidification processing parameters and microstructure characteristics in the directionally solidified Ti-46Al-0.5W-0.5Si alloy
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6:18:13:3 Dendrite coarsening in directionally solidified Sn-36 at.%Ni peritectic alloy in the presence of the migration of secondary dendrite arms
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6:18:13:4 Dependency of microstructure parameters and microhardness on the temperature gradient for directionally solidified Ti-49Al alloy
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6:18:13:5 Directional solidification of Ti-49 at.%Al alloy
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6:18:13:6 Research on lamellar structure and microhardness in directionally solidified ternary Sn-40.5Pb-2.6Sb eutectic alloy
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6:18:13:7 Secondary dendrite arm migration caused by temperature gradient zone melting in the directionally solidified Sn-40 at.% Mn peritectic alloy
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6:18:13:8 Effect of peritectic reaction on dendrite coarsening in directionally solidified Sn-36 at.%Ni alloy
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6:18:13:10 Determination of heat transfer coefficients at metal-mold interface during horizontal unsteady-state directional solidification of Sn-Pb alloys
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6:18:13:11 Numerical simulation of the cooling-down of high-zirconia fused-cast refractories
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6:18:13:12 Primary dendrite distribution in directionally solidified Sn-36 at.% Ni peritectic alloy
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6:18:14:1 Magnetic Field Effects on Crystallization of Iron-Based Amorphous Alloys
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6:18:14:2 Diffusion of carbon in iron under magnetic fields
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6:18:14:3 Improvement of soft magnetic properties in Fe38Co38Mo8B15Cu amorphous and nanocrystalline alloys by heat treatment in external magnetic field
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6:18:14:4 Crystallization kinetics of high iron concentration amorphous alloys under high magnetic fields
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6:18:14:5 Transmission Electron Microscopy in the Heat Affected Zone of an AISI 304 Austenitic Stainless Steel Welded with the Application of a Magnetic Field of Low Intensity
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6:18:14:6 Isothermal Crystallization of Iron-Based Amorphous Alloys in a High Magnetic Field
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6:18:14:7 Effect of high magnetic field on crystallization of Zr46.75Ti8.25Cu7.5Ni10Be27.5 bulk metallic glass
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6:18:14:8 Effect of a High Magnetic Field on Carbon Diffusion in gamma-Iron
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6:18:14:9 Differential Scanning Calorimetry of the alpha/gamma Transformation in Fe-Co Alloys under a Magnetic Field
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6:18:14:10 Improvement of localised corrosion resistance of AISI 2205 Duplex Stainless Steel joints made by gas metal arc welding under electromagnetic interaction of low intensity
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6:18:14:11 Enhancing Corrosion Resistance of 304 Stainless Steel GMA Welds with Electromagnetic Interaction
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6:18:15:1 Isothermal heat treatments of an Al-4.8mass%Cu alloy under high magnetic fields
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6:18:15:2 The effects of high magnetic field on crystallization of Fe-71(Nb0.8Zr0.2)(6)B-23 bulk metallic glass
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6:18:15:3 Morphological instabilities and alignment of lamellar eutectics during directional solidification under a strong magnetic field
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6:18:15:4 Effect of an axial high magnetic field on Sn dendrite morphology of Pb-Sn alloys during directional solidification
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6:18:15:5 Magnetic properties of Fe-49%Sn monotectic alloys solidified under a high magnetic field
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6:18:15:6 Alignment of weakly magnetic metals during solidification in a strong magnetic field
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6:18:15:7 Observation of the orientation of membrane protein crystals grown in high magnetic force fields
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6:18:16:1 Local melting/solidification during peritectic solidification in a steep temperature gradient: analysis of a directionally solidified Al-25at%Ni
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6:18:16:2 Multiple non-equilibrium phase transformations: Modeling versus electro-magnetic levitation experiment
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6:18:16:3 Gas atomization of Al-Ni powders: Solidification modeling and neutron diffraction analysis
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6:18:16:4 Multiscale dendritic needle network model of alloy solidification
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6:18:16:5 Microstructural characterisation of Ni75Al25 and Ni31.5Al68.5 powder particles produced by gas atomisation
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6:18:16:6 Experimental verification of a model on melting and resolidification in a temperature gradient
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6:18:16:7 Phase quantification of impulse atomized Al68.5Ni31.5 alloy
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6:18:17:1 In situ control of the distributions of alloying elements in alloys in liquid state using high magnetic field gradients
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6:18:17:2 Effects of high magnetic fields on solidification microstructure of Al-Si alloys
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6:18:17:3 Nucleation behavior of bulk Ni-Cu alloy and pure Sb in High magnetic fields
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6:18:17:4 Effects of a high magnetic field on the phase equilibria of Mn-Sb system during solidification process
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6:18:17:5 Distribution of alloying elements and the corresponding structural evolution of Mn-Sb alloys in high magnetic field gradients
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6:18:17:6 Undercooling behavior of glass-fluxed Sb melts under gradient magnetic fields
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6:18:18:1 Influence of rotating magnetic field on the microstructure and phase content of Ni-Al alloy
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6:18:18:2 Effect of rotating magnetic field on microstructure formation of directionally solidified Sn-1.6Cd peritectic alloy
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6:18:18:3 Fluid flow and microstructure formation in a rotating magnetic field during the directional solidification process
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6:18:18:4 Influence of initial solid-liquid interface morphology on further microstructure evolution during directional solidification
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6:18:18:5 Crystal nucleation and dendrite growth of metastable phases in undercooled melts
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6:18:18:6 Preparation of gradient material in Sn-Cd peritectic alloy using rotating magnetic field
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6:18:18:7 Mechanism of grain refinement of an Al-Zn-Mg-Cu alloy prepared by low-frequency electromagnetic casting
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6:18:18:9 Solidification Structure of Al-Cu and Sn-Cu-Sb Alloys Obtained by Casting through Induction Stirring Using Permanent Magnet
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6:18:19:2 Modification effect of Al-30Zn-5Zr-1B on ZnAl4Y alloy
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6:18:19:3 The effect of silver on wear behaviour of zinc-aluminium-based ZA-12 alloy produced by gravity casting
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6:18:19:4 Wear resistance of dilute Zn-Al alloys
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6:18:19:5 Investigation of the effect of solidification processing parameters on microhardness and determination of thermo-physical properties in the Zn-Cu peritectic alloy
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6:18:19:6 Investigation of mechanical, electrical, and thermal properties of a Zn-1.26 wt% Al alloy
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6:18:19:7 Relationship between silver concentration with microstructural and mechanical properties of rolled AlZn alloy
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6:18:19:9 The relationship between the wear behavior and microstructure features in end-chill cast Zn-27%Al alloy
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6:18:20:1 Ab initio simulations of molten Ni alloys
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6:18:20:2 Effects of refractory elements on the structure and dynamics of molten Ni: An ab initio molecular dynamics study
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6:18:20:3 Temperature dependent mechanical properties of Mo-Si-B compounds via ab initio molecular dynamics
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6:18:20:4 Structure and energetics of Ni from ab initio molecular dynamics calculations
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6:18:20:5 Measurement and analysis of liquid density of Ni-Al binary alloys
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6:18:20:6 Effects of reactive elements on the structure and diffusivity of liquid chromia: An ab initio molecular dynamics study
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6:18:21:1 The accelerating effect of high magnetic field annealing on the interdiffusion behavior of Co/Ni films
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6:18:21:2 Enhancement of the Kirkendall effect in Cu-Ni diffusion couples induced by high magnetic fields
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6:18:21:3 Effects on high magnetic fields on the microstructure of Al-Al2Cu eutectic
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6:18:21:4 Diffusion interaction between Al and Mg controlled by a high magnetic field
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6:18:21:5 An investigation of grain boundary diffusion and segregation of Ni in Cu in an electrodeposited Cu/Ni micro-multilayer system
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6:18:21:6 Effect of high magnetic field on diffusion behavior of aluminum in Ni-Al alloy
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6:18:21:7 Influence of strong magnetic field on interdiffusion behavior between Al and Cu
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6:18:22:1 Phase-field modeling of Widmanstatten ferrite formation during isothermal transformation in low carbon steels
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6:18:22:2 Experimental study of the distribution of alloying elements after the formation of epitaxial ferrite upon cooling in a low-carbon steel
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6:18:22:3 Phase field simulation of the carbon redistribution during the quenching and partitioning process in a low-carbon steel
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6:18:22:4 A phase-field model for polycrystalline thin film growth
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6:18:23:1 Three-dimensional phase-field simulation of micropore formation during solidification: Morphological analysis and pinching effect
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6:18:23:2 Curvature of micropores in Al-Cu alloys: An X-ray tomography study
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6:18:23:3 Phase-field simulation of micropores constrained by the dendritic network during solidification
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6:18:23:4 A new multi-zone model for porosity distribution in Al-Si alloy castings
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6:18:23:5 A model for growth and engulfment of gas microporosity during aluminum alloy solidification process
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6:18:24:1 Effect of magnetic field on binodal temperature in immiscible alloys
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6:18:24:2 Weak magnetic field-enhanced glass formation in non-ferromagnetic Al-based alloys
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6:18:24:3 Transformations in liquid state and microstructure development in immiscible Fe60Cu20P10Si5B5 alloy
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6:18:24:4 Investigation of the phase separation of Al-Bi immiscible alloy melts by viscosity measurements
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6:18:24:5 The effect of magnetic field on precipitation phases of single-crystal nickel-base superalloy during directional solidification
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6:18:25:1 Investigation of thermoelectric magnetic force in solid and its effect on morphological instability in directional solidification
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6:18:25:2 Effect of a low axial magnetic field on the primary Al2Cu phase growth in a directionally solidified Al-Cu hypereutectic alloy
DOI:10.1016/j.jcrysgro.2011.08.043 JN:JOURNAL OF CRYSTAL GROWTH PY:2011 TC:4 AU: Shen, Yu;Ren, Zhongming;Li, Xi;Ren, Weili;Xi, Yan;
6:18:25:3 Influence on the macrosegregation of binary metallic alloys by thermoelectromagnetic convection and electromagnetic stirring combination
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6:18:25:4 Thermoelectric current and magnetic field interaction influence on the structure of directionally solidified Sn-10 wt.%Pb alloy
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6:18:25:5 Investigation on the formation mechanism of irregular dendrite during directional solidification of Al-Cu alloys under a high magnetic field
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6:18:25:6 Morphological instability of interface, cell and dendrite during directional solidification under strong magnetic field
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6:18:26:1 The effect of the flow driven by a travelling magnetic field on solidification structure of Sn-Cd peritectic alloys
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6:18:26:2 Effects of melt flow on the primary dendrite spacing of Pb-Sn binary alloy during directional solidification
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6:18:26:3 Influences of travelling magnetic field on the dendritic structures of Sn-1.8Cd peritectic alloy during directional solidification
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6:18:26:4 Microstructure evolution in directionally solidified Fe-Ni alloys under traveling magnetic field
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6:18:26:5 Formation mechanism of banded structure during directional solidification of Sn-Cd peritectic alloy under convection condition
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6:18:27:1 Spatiotemporal Dynamics of Oscillatory Cellular Patterns in Three-Dimensional Directional Solidification
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6:18:27:2 Dynamics of interface pattern formation in 3D alloy solidification: first results from experiments in the DECLIC directional solidification insert on the International Space Station
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6:18:27:3 Phase-field simulations and geometrical characterization of cellular solidification fronts
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6:18:28:1 Design, fabrication and testing of an apparatus for in-situ investigation of free dendritic growth under an applied electric field
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6:18:28:2 Measurements of dendrite tip growth and sidebranching in succinonitrile-acetone alloys
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6:18:28:3 On the dilemma of shear and flow requirements for the evolution of semisolid microstructures
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6:18:28:4 Initial stages of solidification during semisolid processing of a transparent model material
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6:18:29:1 Macro-Segregation and Microstructural Characteristics in Rheo-Diecasting of a High Strength Al-4.8 mass%Si-0.7 mass%Mg Alloy
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6:18:29:2 Macro-Segregation Characteristics in Semi-Solid Forging of a High Strength Al-4.8Si-0.7Mg Alloy
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6:18:29:3 Effect of Injection Speed on Microstructure of AZ91D Magnesium Alloy in Semi-Solid Injection Process
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6:18:29:4 Controlled Semisolid Forging of Aluminium Alloys Using Mechanical Servo Press to Manufacture Products with Homo- and Heterogeneous Microstructures
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6:18:30:1 In situ observation of solidification of undercooled hypoeutectic Ni-Ni3B alloy melt
DOI:10.1557/jmr.2013.165 JN:JOURNAL OF MATERIALS RESEARCH PY:2013 TC:3 AU: Xu, Junfeng;Liu, Feng;Zhang, Di;
6:18:30:2 Multiscale analysis of the effect of competitive nucleation on phase selection in rapid solidification of rare-earth ternary magnetic materials
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6:18:30:3 Phase selection of undercooled solidification of Ni-4.5 wt% B alloy
DOI:10.1557/jmr.2013.358 JN:JOURNAL OF MATERIALS RESEARCH PY:2013 TC:0 AU: Xu, Junfeng;Liu, Feng;Zhang, Di;
6:18:31:1 An operator splitting scheme for coupling macroscopic transport and grain growth in a two-phase multiscale solidification model: Part I - Model and solution scheme
DOI:10.1016/j.commatsci.2009.04.036 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2010 TC:23 AU: Zaloznik, Miha;Combeau, Herve;
6:18:31:2 An operator splitting scheme for coupling macroscopic transport and grain growth in a two-phase multiscale solidification model: Part II - Application of the model
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6:18:31:3 Simulation of channel segregation using a two-phase columnar solidification model - Part I: Model description and verification
DOI:10.1016/j.commatsci.2011.12.037 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:9 AU: Li, J.;Wu, M.;Hao, J.;Ludwig, A.;
6:18:32:1 Modelling of hot cracking in welding with a cellular automaton combined with an intergranular fluid flow model
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6:18:32:2 Hot cracking in stainless steel 310s, numerical study and experimental verification
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6:18:32:3 Thermo-viscoplastic constitutive equation of austenitic stainless steel 310s
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6:18:33:1 Effect of a high magnetic field on the microstructures in directionally solidified Zn-Cu peritectic alloys
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6:18:33:2 Electronic transport properties of liquid zinc and zinc-germanium alloys: Theory versus experiment
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6:18:33:3 Influences of strong magnetic field on interdiffusion behavior between Zn and Cu and dendrite growth
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6:19:1:1 Formation of multiple stoichiometric phases in binary systems by combined bulk and grain boundary diffusion: Experiments and model
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6:19:1:2 Two-dimensional simulation of reactive diffusion in binary systems
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6:19:1:3 Diffusion of elements and vacancies in multi-component systems
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6:19:1:4 Substitutional diffusion in multicomponent solids with non-ideal sources and sinks for vacancies
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6:19:1:5 Modelling of the influence of the vacancy source and sink activity and the stress state on diffusion in crystalline solids
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6:19:1:6 Reactive diffusion and stresses in spherical geometry
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6:19:1:7 Concentration and Strain Fields inside a Ag/Au Core-Shell Nanowire Studied by Coherent X-ray Diffraction
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6:19:1:8 Thermodynamically consistent bi-velocity mass transport phenomenology
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6:19:1:9 Entropy production during interdiffusion under internal stress
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6:19:1:10 A new computational treatment of reactive diffusion in binary systems
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6:19:1:11 Effects of coherency stress and vacancy sources/sinks on interdiffusion across coherent multilayer interfaces - Part II: Interface sharpening and intermixing rate
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6:19:1:12 Modeling of diffusional phase transformation in multi-component systems with stoichiometric phases
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6:19:1:13 Competition between Kirkendall shift and backstress in interdiffusion revisited - simple analytic model
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6:19:1:14 The lattice shift generated by two dimensional diffusion process
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6:19:1:15 Bi-velocity model of mass transport in two-phase zone of ternary system
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6:19:1:16 Chemical interdiffusion in binary systems; interface barriers and phase competition
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6:19:1:17 The Kirkendall effect in single-phase multicomponent systems: dependence on drift and entropy distribution
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6:19:1:18 Simulating phase transformations by a meshless method with front tracking
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6:19:1:19 Mean-field and quasi-phase-field models of nucleation and phase competition in reactive diffusion
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6:19:1:20 Validity of the diffusion equation at the atomic scale investigated via numerical simulations
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6:19:1:21 Computer simulations of electrodiffusion problems based on Nernst-Planck and Poisson equations
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6:19:1:22 Model of phase separation and of morphology evolution in two-phase alloy
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6:19:1:23 Bi-velocity phase field method; reactive diffusion in Ni-Cr-Al
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6:19:1:24 Reaction diffusion and interdiffusion in some binary metallic systems
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6:19:2:1 Local non-equilibrium diffusion model for solute trapping during rapid solidification
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6:19:2:2 Modeling grain refinement for undercooled single-phase solid-solution alloys
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6:19:2:3 On the transition from diffusion-limited to kinetic-limited regimes of alloy solidification
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6:19:2:4 Modeling dendrite growth in undercooled concentrated multi-component alloys
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6:19:2:5 Atomistic Simulations of Nonequilibrium Crystal-Growth Kinetics from Alloy Melts
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6:19:2:6 Modeling rapid solidification of multi-component concentrated alloys
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6:19:2:7 A comparative study on migration of a planar interface during solidification of non-dilute alloys
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6:19:2:8 Modeling the overall solidification kinetics for undercooled single-phase solid-solution alloys. I. Model derivation
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6:19:2:9 Morphological stability analysis for planar interface during rapidly directional solidification of concentrated multi-component alloys
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6:19:2:10 Modeling the overall solidification kinetics for undercooled single-phase solid-solution alloys. II. Model application
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6:19:2:11 Local nonequilibrium solute trapping model for non-planar interface
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6:19:2:12 An analytical model for complete solute trapping during rapid solidification of binary alloys
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6:19:2:13 Oscillatory morphological stability for rapid directional solidification: Effect of non-linear liquidus and solidus
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6:19:2:14 An analytical model for solute diffusion in multicomponent alloy solidification
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6:19:2:15 Numerical solution and comparison to experiment of solute drag models for binary alloy solidification with a planar phase interface
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6:19:2:16 The interrelated effect of initial melt undercooling, solute trapping and solute drag on the grain growth mechanism of as-solidified Ni-B alloys
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6:19:2:17 The effect of non-equilibrium delta/gamma transition on the formation of metastable "dendrite core" in undercooled Fe-Cu alloy
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6:19:2:18 The effect of fluid flow on the solidification of Ni2B from the undercooled melt
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6:19:2:19 Analysis of the influence of the gas velocity, particle size and nucleation temperature on the thermal history and microstructure development in the tool steel during atomization
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6:19:2:20 Selection criterion for the growing dendritic tip in a non-isothermal binary system under forced convective flow
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6:19:3:1 Structural morphologies of Cu-Sn-Bi immiscible alloys with varied compositions
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6:19:3:2 Macrosegregation driven by movement of minor phase in (Al0.345Bi0.655)(90)Sn-10 immiscible alloy
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6:19:3:3 Phase separation and formation of core-type microstructure of Al-65.5 mass% Bi immiscible alloys
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6:19:3:4 One-Step Fabrication of Al/Sn-Bi Core-Shell Spheres via Phase Separation
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6:19:3:5 Formation of core-type microstructure in Al-Bi monotectic alloys
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6:19:3:6 Complex phase separation of ternary Co-Cu-Pb alloy under containerless processing condition
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6:19:3:7 Segregation driven by collision and coagulation of minor droplets in Al-Bi immiscible alloys under aerodynamic levitation condition
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6:19:3:8 Formation mechanisms of self-organized core/shell and core/shell/corona microstructures in liquid droplets of immiscible alloys
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6:19:3:9 Macrosegregation pattern and microstructure feature of ternary Fe-Sn-Si immiscible alloy solidified under free fall condition
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6:19:3:10 Correlated process of phase separation and microstructure evolution of ternary Co-Cu-Pb alloy
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6:19:5:6 Phase-field model with finite interface dissipation
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6:19:5:7 Transient solute drag in migrating grain boundaries
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6:19:5:10 Effects of amount and type of cation species on the phase formation of single and codoped alpha-SiAlONs
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6:19:6:1:2 Growth mechanism of tantalum silicides by interdiffusion
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6:19:6:1:3 Reactive diffusion in the Ti-Si system and the significance of the parabolic growth constant
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6:19:6:1:4 Effect of Ti Concentration on the Growth of Nb3Sn Between Solid Nb(Ti) and Liquid Sn
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6:19:6:2:1 A pseudobinary approach to study interdiffusion and the Kirkendall effect in multicomponent systems
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6:19:6:2:2 Interdiffusion and the vacancy wind effect in Ni-Pt and Co-Pt systems
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6:19:8:1:6 Nature of high hardness in the Co70Mo30 alloy
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6:19:9:12 Microstructure evolution in undercooled Co80Pd20 alloys
DOI:10.1007/s10853-011-5493-9 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:3 AU: Zhou, Shengyin;Hu, Rui;Jiang, Li;Li, Jinshan;Kou, Hongchao;Chang, Hui;Zhou, Lian;
6:19:10:1 Theory of the Kirkendall effect during grain boundary interdiffusion
DOI:10.1016/j.actamat.2010.10.070 JN:ACTA MATERIALIA PY:2011 TC:17 AU: Klinger, L.;Rabkin, E.;
6:19:10:2 The effect of surface contact conditions on grain boundary interdiffusion in a semi-infinite bicrystal
DOI:10.1080/14786435.2014.951708 JN:PHILOSOPHICAL MAGAZINE PY:2014 TC:0 AU: Svoboda, J.;Fischer, F. D.;Klinger, L.;Rabkin, E.;
6:19:10:3 A mesoscopic model of dissolution/disintegration of nanocrystalline metals via vacancy diffusion along grain boundaries
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6:19:10:4 Grain boundary interdiffusion and stresses in thin polycrystalline films
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6:19:10:5 A model of interfacial cavitation induced by vacancy supersaturation on the surface
DOI:10.1016/j.scriptamat.2012.05.021 JN:SCRIPTA MATERIALIA PY:2012 TC:3 AU: Klinger, L.;Gotman, I.;Rabkin, E.;
6:19:11:1 Ternary diffusion in Cu-rich fcc Cu-Al-Si alloys at 1073 K
DOI:10.1016/j.jallcom.2013.03.024 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:5 AU: Liu, Dandan;Zhang, Lijun;Du, Yong;Xu, Honghui;Jin, Zhanpeng;
6:19:11:2 Interdiffusion and atomic mobility studies in Ni-rich fcc Ni-Al-Mn alloys
DOI:10.1016/j.jallcom.2013.05.046 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:3 AU: Cheng, Kaiming;Liu, Dandan;Zhang, Lijun;Du, Yong;Liu, Shuhong;Tang, Chengying;
6:19:11:3 Ternary diffusion and thermodynamic interaction in the beta solid solutions of Ti-Al-Fe alloys at 1423 K
DOI:10.1016/j.jallcom.2012.07.117 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:7 AU: Takahashi, Tomoshi;Minamino, Yoritoshi;
6:19:11:4 First-principles study of solute-vacancy binding in Cu
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6:19:11:5 Comment on "Interdiffusion in the beta phase region of the Ni-Al-Cr system"
DOI:10.1016/j.scriptamat.2009.10.003 JN:SCRIPTA MATERIALIA PY:2010 TC:2 AU: Liu, Yajun;Liang, Dong;
6:19:11:6 Diffusion mobilities in the fcc_A1 Cu-Si, Al-Si and Al-Cu-Si alloys
DOI:10.1016/j.jallcom.2012.09.070 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:2 AU: Cao, Dachun;Liu, Ya;Su, Xuping;Wang, Jianhua;Tu, Hao;Huang, Jianfeng;
6:19:11:7 Revisiting diffusion in Fe-Al intermetallics: Experimental determination and phenomenological treatment
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6:19:11:8 Reply to Comments on "Interdiffusion in the beta phase region of the Ni-Al-Cr system"
DOI:10.1016/j.scriptamat.2010.01.030 JN:SCRIPTA MATERIALIA PY:2010 TC:0 AU: Wei, H.;Sun, X. F.;
6:19:12:1 New evidence for the dual origin of anomalous eutectic structures in undercooled Ni-Sn alloys: In situ observations and EBSD characterization
DOI:10.1016/j.actamat.2011.03.016 JN:ACTA MATERIALIA PY:2011 TC:16 AU: Yang, C.;Gao, J.;Zhang, Y. K.;Kolbe, M.;Herlach, D. M.;
6:19:12:2 The origin of anomalous eutectic structures in undercooled Ag-Cu alloy
DOI:10.1016/j.actamat.2013.08.001 JN:ACTA MATERIALIA PY:2013 TC:1 AU: Clopet, C. R.;Cochrane, R. F.;Mullis, A. M.;
6:19:12:3 Spasmodic growth during the rapid solidification of undercooled Ag-Cu eutectic melts
DOI:10.1063/1.4775670 JN:APPLIED PHYSICS LETTERS PY:2013 TC:3 AU: Clopet, C. R.;Cochrane, R. F.;Mullis, A. M.;
6:19:12:4 Disorder trapping during the solidification of beta Ni3Ge from its deeply undercooled melt
DOI:10.1007/s10853-011-6062-y JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:6 AU: Ahmad, R.;Cochrane, R. F.;Mullis, A. M.;
6:19:12:5 Solidification interface morphology pattern in the undercooled Co-24.0 at.% Sn eutectic melt
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6:19:12:6 Anomalous eutectic formation in the solidification of undercooled Co-Sn alloys
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6:19:12:7 Microstructure evolution in laser surface remelting of Ni-33 wt.%Sn alloy
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6:19:12:8 Decoupled growth mechanism of Fe40Ni40P14B6 eutectic alloy
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6:19:13:1 Characterization of rapidly solidified Ni-Si and Co-Al eutectic alloys in drop tube
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6:19:13:2 Investigation of the microhardness and the electrical resistivity of undercooled Ni-10 at.% Si alloys
DOI:10.1016/j.jnoncrysol.2010.11.104 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2011 TC:7 AU: Cadirli, Emin;
6:19:13:3 Microstructure and mechanical properties of disperse Ni-Co alloys electrodeposited on Cu substrates
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6:19:13:4 Microstructure evolution and mechanical properties of intermetallic Ni-xSi (x=5, 10, 15, 20) alloys
DOI:10.1016/j.jallcom.2012.02.165 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:3 AU: Karakose, Ercan;Keskin, Mustafa;
6:19:13:5 Investigation of microstructural, mechanical and thermal properties of rapidly solidified Ni-7 wt% Si alloy
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6:19:13:6 Containerless solidification of Ag-Al and Ag-Cu eutectic alloys in a drop tube
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6:19:13:7 Microstructural, mechanical, electrical and thermal characterization of arc-melted Ni-Si and Co-Si alloys
DOI:10.1016/j.jnoncrysol.2010.06.005 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2010 TC:3 AU: Cadirli, E.;Herlach, D. M.;Davydov, E.;
6:19:14:1 Viscosity of Al-Cu liquid alloys: measurement and thermodynamic description
DOI:10.1007/s10853-012-6710-x JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:11 AU: Schick, Michael;Brillo, Juergen;Egry, Ivan;Hallstedt, Bengt;
6:19:14:2 Surface tension and density measurement of liquid Si-Cu binary alloys
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6:19:14:3 Density and viscosity of ternary Cr-Fe-Ni liquid alloys
DOI:10.1007/s10853-013-7487-2 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:2 AU: Kobatake, Hidekazu;Brillo, Juergen;
6:19:14:4 Density and viscosity of ternary Al-Cu-Si liquid alloys
DOI:10.1007/s10853-014-8072-z JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:2 AU: Kobatake, Hidekazu;Schmitz, Julianna;Brillo, Juergen;
6:19:14:5 Density and thermal expansion of liquid Al-Si alloys
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6:19:14:6 Experimental determination and thermodynamic modeling of phase equilibria in the Cu-Cr system
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6:19:14:7 Density and thermal expansion of Cr-Fe, Fe-Ni, and Cr-Ni binary liquid alloys
DOI:10.1007/s10853-013-7274-0 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:4 AU: Kobatake, Hidekazu;Brillo, Juergen;
6:19:14:8 Oscillating-cup technique for yield stress and density measurement
DOI:10.1007/s10853-013-7257-1 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:3 AU: Elyukhina, Inna;
6:19:14:9 Assessment of Temperature and Pressure Dependence of Molar Volume and Phase Diagrams of Binary Al-Si Systems
DOI:10.2320/matertrans.MAW201407 JN:MATERIALS TRANSACTIONS PY:2014 TC:0 AU: Liu, Xuantong;Oikawa, Katsunari;
6:19:15:1 Growth of large-area graphene films from metal-carbon melts
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6:19:15:2 Synthesis of curved graphene layers on metallic dendrites
DOI:10.1016/j.matlet.2012.08.039 JN:MATERIALS LETTERS PY:2012 TC:2 AU: Amini, Shaahin;Abbaschian, Reza;
6:19:15:3 Growth of graphene and graphite nanocrystals from a molten phase
DOI:10.1007/s10853-011-5432-9 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:10 AU: Amini, Shaahin;Kalaantari, Haamun;Garay, Javier;Balandin, Alexander A.;Abbaschian, Reza;
6:19:15:4 Graphite crystals grown within electromagnetically levitated metallic droplets
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6:19:15:5 Influence of solidification variables on the microporosity formation on Al-Cu (4.5 wt%) alloy with axial heat processing
DOI:10.1007/s10853-011-5547-z JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:2 AU: Kim, Joo Ro;Abbaschian, Reza;
6:19:16:1 A comparative study of dendritic growth within undercooled liquid pure Fe and Fe50Cu50 alloy
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6:19:16:2 Formation mechanism of the primary faceted phase and complex eutectic structure within an undercooled Ag-Cu-Ge alloy
DOI:10.1007/s00339-010-6125-y JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2011 TC:10 AU: Ruan, Y.;Dai, F. P.;Wei, B.;
6:19:16:3 Pseudobinary eutectics in Cu-Ag-Ge alloy droplets under containerless condition
DOI:10.1016/j.jallcom.2013.02.021 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:1 AU: Ruan, Y.;Wang, X. J.;Lu, X. Y.;
6:19:16:4 Rapid dendritic growth and solute trapping within undercooled ternary Ni-5%Cu-5%Mo alloy
DOI:10.1007/s00339-012-7017-0 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2012 TC:6 AU: Chang, J.;Wang, H. P.;Zhou, K.;Wei, B.;
6:19:16:5 Interfacial morphology development and solute trapping behavior during rapid solidification of an Al-Li-Cu alloy
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6:19:16:6 Containerless solidification of acoustically levitated Ni-Sn eutectic alloy
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6:19:16:7 Investigating the effects of bulk supercooling and rapid solidification on Co-Ni-Ga ferromagnetic shape memory alloys
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6:19:16:8 Solid fraction in dendritic solidification of a liquid
DOI:10.1063/1.3306728 JN:APPLIED PHYSICS LETTERS PY:2010 TC:5 AU: Makkonen, Lasse;
6:19:17:1 Application of dendrite fragmentation to fabricate the homogeneous dispersed structure in undercooled Cu-Co immiscible alloy
DOI:10.1016/j.jallcom.2011.07.077 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:11 AU: Yang, W.;Yu, H.;Wang, J. H.;Cai, C. C.;Xu, Z. F.;Li, S.;Liu, F.;Yang, G. C.;
6:19:17:2 Investigation on the phase separation in undercooled Cu-Fe melts
DOI:10.1016/j.jnoncrysol.2011.09.009 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2012 TC:10 AU: Liu, Ning;
6:19:17:3 Influence of Al addition on microstructure and properties of Cu-Fe-based coatings by laser induction hybrid rapid cladding
DOI:10.1557/jmr.2014.64 JN:JOURNAL OF MATERIALS RESEARCH PY:2014 TC:0 AU: Zhou, Shengfeng;Dai, Xiaoqin;Xiong, Zheng;Wu, Chao;Zhang, Tianyou;Zhang, Zezhong;
6:19:17:4 Movement of minor phase in undercooled immiscible Fe-Co-Cu alloys
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6:19:17:5 Thermodynamics and liquid phase separation in the Cu-Co-Nb ternary alloys
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6:19:17:6 Thermodynamics and kinetics in liquid immiscible Cu-Cr-Si ternary system
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6:19:18:1 Formation of metastable solid solutions by mechanical alloying of immiscible Ag and Bi
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6:19:18:2 Surface area effects on the early stages of the mechanical alloying of Ag50Cu50 powder mixtures
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6:19:18:3 Scrutinising magnetic disorder through metastable 3d-and 4f-nanostructured alloys
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6:19:18:4 Structural and magnetic investigations on metastable Ag-Fe nanophase alloy
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6:19:18:5 Structure evolution and phase change in Ag-5.1 at.% Bi alloy during mechanical alloying
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6:19:18:6 Phonon softening on the specific heat of nanocrystalline metals
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6:19:19:1 The Khachaturyan theory of elastic inclusions: Recollections and results
DOI:10.1080/14786430902934256 JN:PHILOSOPHICAL MAGAZINE PY:2010 TC:10 AU: Morris, J. W., Jr.;
6:19:19:2 The orientation and morphology of platinum precipitates in sapphire
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6:19:19:3 Size characterisation of noble-metal nano-crystals formed in sapphire by ion irradiation and subsequent thermal annealing
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6:19:19:4 Size-and shape-dependent nonlinear optical response of Au nanoparticles embedded in sapphire
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6:19:19:5 Precipitate orientation relationships in Pt-implanted sapphire
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6:19:19:6 The microstructure of lath martensite in quenched 9Ni steel
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6:19:19:7 Martensitic Transformation in Sn-Rich SnIn Solder Joints
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6:19:19:8 Transformation-Induced Plasticity in Sn-In Solder Joints
DOI:10.1007/s11664-012-2335-8 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2013 TC:1 AU: Lee, K-O;Morris, J. W., Jr.;Hua, Fay;
6:19:19:9 Encapsulation-induced stabilization of dimensionally restricted metallic alloy wires
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6:19:19:10 The microstructure of dislocated martensitic steel: Theory
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6:19:20:1 Characterization of Cu6Sn5 intermetallic powders produced by water atomization and powder heat treatment
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6:19:20:2 A DSC analysis of thermodynamic properties and solidification characteristics for binary Cu-Sn alloys
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6:19:20:3 Cooling rate dependence of undercooling of pure Sn single drop by fast scanning calorimetry
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6:19:20:4 Direct nucleation and growth of peritectic phase induced by substantial undercooling condition
DOI:10.1016/j.matlet.2013.06.084 JN:MATERIALS LETTERS PY:2013 TC:2 AU: Zhai, Wei;Wei, Bingbo;
6:19:20:5 Selective laser sintering of composite copper-tin powders
DOI:10.1557/jmr.2014.194 JN:JOURNAL OF MATERIALS RESEARCH PY:2014 TC:2 AU: Walker, David C.;Caley, William F.;Brochu, Mathieu;
6:19:20:6 Open-cellular copper structures fabricated by additive manufacturing using electron beam melting
DOI:10.1016/j.msea.2011.03.053 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:20 AU: Ramirez, D. A.;Murr, L. E.;Li, S. J.;Tian, Y. X.;Martinez, E.;Martinez, J. L.;Machado, B. I.;Gaytan, S. M.;Medina, F.;Wicker, R. B.;
6:19:21:1:1 Influence of humidity on high temperature oxidation of Inconel 600 alloy: Oxide layers and residual stress study
DOI:10.1016/j.apsusc.2013.07.117 JN:APPLIED SURFACE SCIENCE PY:2013 TC:7 AU: Xiao, J.;Prud'homme, N.;Li, N.;Ji, V.;
6:19:21:1:2 High-temperature-oxidation-induced ordered structure in Inconel 939 superalloy exposed to oxy-combustion environments
DOI:10.1016/j.msea.2012.12.074 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:2 AU: Zhu, Jingxi;Wise, Adam;Nuhfer, Thomas;Holcomb, Gordon R.;Jablonski, Paul D.;Sridhar, Seetharaman;Laughlin, David E.;
6:19:21:1:3 Oxidation of Inconel 625 superalloy upon treatment with oxygen or hydrogen plasma at high temperature
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6:19:21:1:4 Subsurface characterization of an oxidation-induced phase transformation and twinning in nickel-based superalloy exposed to oxy-combustion environments
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6:19:21:2:1 Incipient oxidation kinetics and residual stress of the oxide scale grown on Haynes 230 at high temperatures
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6:19:21:3:3 Synthesis and characterization of the manganese cobaltite spinel prepared using two "soft chemical" methods
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6:19:22:2 Influence of the static high magnetic field on the liquid-liquid phase separation during solidifying the hyper-monotectic alloys
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6:19:22:5 Structure, growth characteristic and magnetic properties in directionally solidified Bi-MnBi composite under strong magnetic field
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6:19:22:6 Effects of static magnetic fields on thermal fluctuations in the melt of industrial CZ-Si crystal growth
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6:19:22:7 Effect of mischmetal modification treatment on the microstructure, tensile properties, and fracture behavior of Al-7.0%Si-0.3%Mg foundry aluminum alloys
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6:19:23:1 A pragmatic method to determine the composition-dependent interdiffusivities in ternary systems by using a single diffusion couple
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6:19:23:2 Genomic materials design: The ferrous frontier
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6:19:23:3 Better Alloys with Quantum Design
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6:19:23:4 Materials genomics: From CALPHAD to flight
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6:19:23:5 CALPHAD, first and second generation - Birth of the materials genome
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6:19:24:1 The effect of anisotropic surface tension on the interface evolution of a particle in the undercooled melt
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6:19:24:3 The effect of the shear flow on particle growth in the undercooled melt
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6:19:25:1 Thermodynamic analysis of Ti-Al-C intermetallics formation by mechanical alloying
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6:19:25:2 Isothermal section of Al-Ti-Zr ternary system at 1273 K
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6:19:26:1 Analysis of the Cermak-Rothova method for determining the concentration dependence of ternary interdiffusion coefficients with a single diffusion couple
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6:19:26:2 Oxidation and interdiffusion behavior of Niobium substrate coated MoSi2 coating prepared by spark plasma sintering
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6:19:26:3 Interdiffusion behavior between Nb and MoSi2 intermetallic compound
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6:19:26:5 Single-phase interdiffusion in the Ni3Al-Mo ternary system
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6:19:27:1 Thermodynamic Description of the Quaternary Ag-Cu-In-Sn System
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6:19:27:2 Atomic Mobilities in the Ag-Cu-Sn Face-Centered Cubic Lattice
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6:19:27:3 Modeling and simulation of the TiC reaction layer growth during active brazing of diamond using DICTRA
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6:19:27:4 Thermodynamic properties of the liquid Ag-Cu-Sn lead-free solder alloys
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6:19:28:1 Numerical simulation of precipitation in multicomponent Ni-base alloys
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6:19:28:2 Numerical integration of the Gibbs-Thomson equation for multicomponent systems
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6:19:29:1 Formation of the short-range order in Al-based liquid alloys
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6:20:1:1:8 Fabrication of grain-oriented silicon steel by a novel way: Strip casting process
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6:20:1:2:2 Strong cube recrystallization texture in silicon steel by twin-roll casting process
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6:20:1:2:3 Occurrence of shear bands in rotated Goss ({110} < 110 >) orientations of metals with bcc crystal structure
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6:20:1:2:4 Evolution of cube texture in strip-cast non-oriented silicon steels
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6:20:1:2:5 Preparation of non-oriented silicon steel with high magnetic induction using columnar grains
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6:20:1:2:7 Microstructure, texture and magnetic properties of strip-cast 1.3% Si non-oriented electrical steels
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6:20:1:2:8 Texture evolution in an electrodeposited nanocrystalline Ni-Fe alloy during growth-plane rolling and cross-section rolling
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6:20:1:3:1 Texture Evolution in Si-Alloyed Ultra Low-Carbon Steels after Severe Plastic Deformation
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6:20:1:3:3 Magnetic properties and crystallographic textures of Fe 2.6% Si after 90% cold rolling plus different annealing
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6:20:1:3:4 Recrystallized {311} < 136 > orientation in ferrite steels
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6:20:1:4:1 Texture evolution in Fe-3% Si steel treated under unconventional annealing conditions
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6:20:1:4:2 Molten Salt Pulse Electrodeposition of Silicon on Low Silicon Steel
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6:20:2:2 Effect of annealing temperature on magnetic properties of cold rolled high silicon steel thin sheet
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6:20:2:3 Core loss reduction in Fe-6.5 wt.%Si/SiO2 core-shell composites by ball milling coating and spark plasma sintering
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6:20:2:5 Development of {210} < 0 0 1 > recrystallization texture in Fe-6.5 wt.% Si thin sheets
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6:20:2:6 Improvement of magnetic properties of an Fe-6.5 wt.% Si alloy by directional solidification
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6:20:2:7 Hot deformation behavior and softening mechanism of Fe-6.5 wt% Si alloy
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6:20:2:8 Effect of quench cooling rate on residual stress, microstructure and mechanical property of an Fe-6.5Si alloy
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6:20:2:9 Morphology of the boron-rich phase along columnar grain boundary and its effect on the compression crack of Fe-6.5Si-0.05B alloy
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6:20:2:10 Fabrication and magnetic properties of Fe-6.5% Si alloys by magnetron sputtering method
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6:20:2:11 Cold rolled Fe-6.5 wt. % Si alloy foils with high magnetic induction
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6:20:2:12 Effects of precipitated phase and order degree on bending properties of an Fe-6.5 wt%Si alloy with columnar grains
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6:20:2:13 Superelasticity and Serration Behavior in Small-Sized NiMnGa Alloys
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6:20:2:14 Texture and Magnetic Properties of Rolled Fe-6.5 wt.%Si Thin Sheets
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6:20:2:15 Strain-softening behavior of an Fe-6.5 wt%Si alloy during warm deformation and its applications
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6:20:2:16 Oxidation of silicon from an Fe-6 at% Si alloy
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6:20:2:17 Effects of order-disorder reactions on rapidly quenched Fe-6.5%Si alloy
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6:20:2:18 Hot drawn Fe-6.5 wt.%Si wires with good ductility
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6:20:3:1 Structural investigation on nano-crystalline Cu-Cr supersaturated solid solution prepared by mechanical alloying
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6:20:3:2 Influence of Al2O3 nanoparticles on solubility extension of Cr in Cu by mechanical alloying
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6:20:3:3 Structural investigation of vacuum sintered Cu-Cr and Cu-Cr-4% SIC nanocomposites prepared by mechanical alloying
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6:20:3:4 Bulk Cu-Cr nanocomposites by high-energy ball milling and spark plasma sintering
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6:20:3:5 Preparation of Cu-Cr alloy powder by mechanical alloying
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6:20:3:6 Mechanical properties and electrical conductivity of Cu-Cr and Cu-Cr-4% SiC nanocomposites for thermo-electric applications
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6:20:3:7 Effect of microwave sintering over vacuum and conventional sintering of Cu based nanocomposites
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6:20:3:8 Spinodal decomposition and precipitation in Cu-Cr nanocomposite
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6:20:3:9 Synthesis of CuCr and CuCrAg alloy with nano-ceramic dispersion by mechanical alloying and consolidation by laser assisted sintering
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6:20:3:10 Synthesis of copper alloys with extended solid solubility and nano Al2O3 dispersion by mechanical alloying and equal channel angular pressing
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6:20:3:11 Effects of TiB2 on microstructure of nano-grained Cu-Cr-TiB2 composite powders prepared by mechanical alloying
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6:20:3:12 Synthesis of CuCr and CuCrAg alloys with extended solid solubility with nano-Al2O3 dispersion by mechanical alloying and consolidation by high pressure sintering
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6:20:3:13 Surface precipitation of chromium in rapidly solidified Cu-Cr alloys
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6:20:3:14 Influence of the high energy ball milling on structure and reactivity of the Ni plus Al powder mixture
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6:20:4:1 Effect of ball milling on the rheology and particle characteristics of Fe-50%Ni powder injection molding feedstock
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6:20:4:2 Preparation of high performance sintered soft magnetic alloy by metal injection molding
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6:20:4:3 Microstructure and magnetic properties of Fe-79%Ni-4%Mo alloy fabricated by metal injection molding
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6:20:4:4 Influence of powder particle size distribution on rheological properties of 316 L powder injection moulding feedstocks
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6:20:4:5 Improvements in magnetic performance and sintered density of metal injection-molded soft magnetic alloy by hot isostatic pressing
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6:20:4:6 Effects of acrylic acid-grafted HDPE in HDPE-based binder on properties after injection and debinding in metal injection molding
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6:20:4:7 Powder injection moulding of premixed ferritic and austenitic stainless steel powders
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6:20:4:8 Soft magnetic moldable composites: Properties and applications
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6:20:4:9 Steinmetz law in iron-phenolformaldehyde resin soft magnetic composites
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6:20:4:10 Syntactic Iron Foams with Integrated Microglass Bubbles Produced by Means of Metal Powder Injection Moulding
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6:20:4:11 Improvement of magnetic properties of nanostructured Ni79Fe16Mo5 alloyed powders by a suitable heat treatment
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6:20:4:12 Microstructure and magnetic properties of Fe-50%Ni alloy fabricated by powder injection molding
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6:20:4:13 Metal injection moulding of in-situ formed AlN hollow sphere reinforced Al matrix syntactic foam parts
DOI:10.1016/j.matchemphys.2012.09.044 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:2 AU: Yu, P.;Qian, M.;
6:20:4:14 Microstructure, magnetic and mechanical properties of Ni-Zn ferrites prepared by powder injection moulding
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6:20:4:15 Microstructural study of duplex stainless steels obtained by powder injection molding
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6:20:4:16 Scaling analysis of minor hysteresis loops in ferromagnets with large uniaxial anisotropy
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6:20:5:1 Extended solid solubility of a Co-Cr system by mechanical alloying
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6:20:5:2 Structural analysis and magnetic properties of solid solutions of Co-Cr system obtained by mechanical alloying
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6:20:5:3 Stacking faults and structure analysis of ball-milled Fe-50%Co powders
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6:20:5:4 Stacking faults and phase transformations study in ball milled Co100-xCrx (x=0, 20, 50) alloys
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6:20:5:5 Amorphisation of Cr-10Co mixture by mechanical alloying
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6:20:5:6 Amorphization of Co-base alloy by mechanical alloying
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6:20:5:7 Formation study of the ball-milled Cr20Co80 alloy
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6:20:5:8 Formation study of nanostructured Cr100-xCox (x=10, 90) alloys
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6:20:5:9 Characterization of nanostructured Fe-Co-Si powder alloy
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6:20:5:10 Investigation of structural, microstructural and magnetic properties of mechanically alloyed amorphous/nanocrystalline Fe32.5Co32.5Nb35 powders
DOI:10.1016/j.powtec.2012.05.059 JN:POWDER TECHNOLOGY PY:2012 TC:1 AU: Nasibi, Sh;Shokrollahi, H.;Karimi, L.;Janghorban, K.;
6:20:5:11 Investigation of structural, microstructural and magnetic properties of mechanically alloyed nanostructured (Fe50Co50)(100-x)Mo-x(x=25,35) powders
DOI:10.1016/j.powtec.2012.09.013 JN:POWDER TECHNOLOGY PY:2013 TC:1 AU: Tavakoli, M.;Shokrollahi, H.;Karimi, L.;Janghorban, K.;
6:20:6:1 Solution combustion synthesis of nanocrystalline Fe-50%Ni alloy powder
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6:20:6:2 The effect of heat treatment on the structure and magnetic properties of mechanically alloyed Fe-45%Ni nanostructured powders
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6:20:6:3 Structural evolution and magnetic properties of nanocrystalline 50 Permalloy powders prepared by mechanical alloying
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6:20:6:4 Influence of milling time on the structural, microstructural and magnetic properties of mechanically alloyed Ni58Fe12Zr10Hf10B10 nanostructured/amorphous powders
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6:20:6:5 Structural and magnetic properties of nanocrystalline nickel-rich Fe-Ni alloy powders prepared via hydrazine reduction
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6:20:6:6 Synthesis and characteristic of FeNi3 intermetallic compound obtained by electrical explosion of wire
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6:20:6:7 Components of the core losses under low frequency magnetic field of the bulk Ni-Fe compacted powder material
DOI:10.1016/j.jmmm.2012.12.034 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2013 TC:2 AU: Oleksakova, Denisa;Fuezer, Jan;Kollar, Peter;Roth, S.;
6:20:6:8 Gas phase synthesis of Ni3Fe nanoparticles by magnesium reduction of metal chlorides
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6:20:6:9 Preparation of amorphous Fe-based magnetic powder by water atomization
DOI:10.1016/j.powtec.2011.06.026 JN:POWDER TECHNOLOGY PY:2011 TC:7 AU: Liu, Yong;Niu, Sen;Li, Fei;Zhu, Yitian;He, Yuehui;
6:20:7:1 Development of nano-structure Cu-Zr alloys by the mechanical alloying process
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6:20:7:2 Structural study of nanocrystalline solid solution of Cu-Mo obtained by mechanical alloying
DOI:10.1016/j.msea.2012.03.105 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:7 AU: Aguilar, C.;Castro, F.;Martinez, V.;Guzman, D.;de las Cuevas, F.;Lozada, L.;Vielma, N.;
6:20:7:3 Mechanical alloying of Cu-xCr (x=3, 5 and 8 wt.%) alloy
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6:20:7:4 Investigation on the formation of Cu-Fe nano crystalline super-saturated solid solution developed by mechanical alloying
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6:20:7:5 Simple thermodynamic model of the extension of solid solution of Cu-Mo alloys processed by mechanical alloying
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6:20:7:6 Fabrication of nanocrystalline alloys Cu-Cr-Mo super satured solid solution by mechanical alloying
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6:20:7:7 Characterization of crystallite size, dislocation characteristics and stacking faults in nanostructured mechanically alloyed Cu-Fe system using an advanced X-ray diffraction analysis method
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6:20:7:8 Simultaneous variations of microstructure and magnetic properties of Ni58Fe12Zr20B10 nanostructure/amorphous alloy prepared by mechanical alloying
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6:20:7:9 Thermodynamic feasibility of solid solubility extension of Nb in Cu and their thermal stability
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6:20:7:10 Synthesis of ultra-fine Mo-Cu nanocomposites by coreduction of mechanical-activated CuMoO4-MoO3 mixtures at low temperature
DOI:10.1016/j.jallcom.2010.06.080 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:4 AU: Sun, Aokui;Wang, Dezhi;Wu, Zhuangzhi;Zan, Xiuqi;
6:20:7:11 Evolution of mechanical properties in SPD processed Cu/Nb nano-layered composites
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6:20:7:12 Effect of La addition on glass-forming ability and stability of mechanically alloyed Zr-Ni amorphous alloys
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6:20:8:1 Microstructural and mechanical properties of Al-Mg/Al2O3 nanocomposite prepared by mechanical alloying
DOI:10.1016/j.jallcom.2011.07.061 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:14 AU: Safari, J.;Akbari, G. H.;Shahbazkhan, A.;Chermahini, M. Delshad;
6:20:8:2 The effect of Si addition on the microstructure and magnetic properties of Permalloy prepared by mechanical alloying method
DOI:10.1016/j.apt.2012.06.008 JN:ADVANCED POWDER TECHNOLOGY PY:2013 TC:3 AU: Bahrami, A. H.;Sharafi, S.;Baghbaderani, H. Ahmadian;
6:20:8:3 Liquid phase surface melting of AA8011 aluminum alloy by addition of Al/Al2O3 nano-composite powders synthesized by high-energy milling
DOI:10.1016/j.apsusc.2014.05.143 JN:APPLIED SURFACE SCIENCE PY:2014 TC:4 AU: Sohi, M. Heydarzadeh;Hojjatzadeh, S. M. H.;Moosavifar, Sh. S.;Heshmati-Manesh, S.;
6:20:8:4 Investigation of nanostructure formation mechanism and magnetic properties in Fe45Co45Ni10 system synthesized by mechanical alloying
DOI:10.1016/j.powtec.2012.07.039 JN:POWDER TECHNOLOGY PY:2012 TC:9 AU: Baghbaderani, H. Ahmadian;Sharafi, S.;Chermahini, M. Delshad;
6:20:8:5 Microstructure and magnetic properties of nanostructured Fe-Co powders prepared by series of milling and annealing treatments
DOI:10.1016/j.apt.2013.07.010 JN:ADVANCED POWDER TECHNOLOGY PY:2014 TC:0 AU: Chermahini, M. Delshad;Rahimipour, M. R.;Pakseresht, A. H.;
6:20:8:6 Synthesis behavior of nanocrystalline Al-Al2O3 composite during low time mechanical milling process
DOI:10.1016/j.jallcom.2011.01.177 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:11 AU: Alizadeh, Mostafa;Aliabadi, Morteza Mirzaei;
6:20:8:7 The effect of reinforcement content and milling time on microstructure and mechanical properties of Al-10Mg/xAl(2)O(3) nanocomposites
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6:20:8:8 Processing and properties of Al-based powder suspension/slurry: A comparison study of aqueous binder systems, stability and film uniformity
DOI:10.1016/j.powtec.2013.12.051 JN:POWDER TECHNOLOGY PY:2014 TC:1 AU: Amirjan, Mostafa;Khorsand, Hamid;
6:20:8:9 The effect of Mg add on morphology and mechanical properties of Al-xMg/10Al(2)O(3) nanocomposite produced by mechanical alloying
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6:20:8:10 The effect of Mg content on microstructure and mechanical properties of Al-xMg/5Al(2)O(3) nanocomposite prepared by mechanical alloying
DOI:10.1016/j.powtec.2012.09.033 JN:POWDER TECHNOLOGY PY:2013 TC:4 AU: Safari, J.;Chermahini, M. Delshad;Akbari, G. H.;
6:20:9:1 Phase transformations during mechanical alloying of Fe-30% Al-20% Cu
DOI:10.1016/j.powtec.2013.05.015 JN:POWDER TECHNOLOGY PY:2013 TC:3 AU: Krifa, M.;Mhadhbi, M.;Escoda, L.;Saurina, J.;Sunol, J. J.;Llorca-Isern, N.;Artieda-Guzman, C.;Khitouni, M.;
6:20:9:2 X-ray studies of structure defects in nanostructured FeAl alloy
DOI:10.1016/j.matlet.2010.05.038 JN:MATERIALS LETTERS PY:2010 TC:16 AU: Mhadhbi, M.;Khitouni, M.;Escoda, L.;Sunol, J. J.;
6:20:9:3 Mechanochemical reactions in nanocrystalline Cu-Fe system induced by mechanical alloying in air atmosphere
DOI:10.1016/j.powtec.2012.03.016 JN:POWDER TECHNOLOGY PY:2012 TC:7 AU: Azabou, M.;Ibn Gharsallah, H.;Escoda, L.;Sunol, J. J.;Kolsi, A. W.;Khitouni, M.;
6:20:9:4 Characterization of Mechanically Alloyed Nanocrystalline Fe(Al): Crystallite Size and Dislocation Density
DOI:10.1155/2010/712407 JN:JOURNAL OF NANOMATERIALS PY:2010 TC:9 AU: Mhadhbi, M.;Khitouni, M.;Escoda, L.;Sunol, J. J.;Dammak, M.;
6:20:9:5 Investigation on solid solubility and physical properties of Cu-Fe/CNT nano-composite prepared via mechanical alloying route
DOI:10.1016/j.powtec.2014.08.010 JN:POWDER TECHNOLOGY PY:2014 TC:2 AU: Vishlaghi, M. Barzegar;Ataie, A.;
6:20:9:6 Microstructure evolution and mechanical properties of nanocrystalline FeAl obtained by mechanical alloying and cold consolidation
DOI:10.1016/j.jallcom.2010.10.214 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:14 AU: Mhadhbi, M.;Khitouni, M.;Escoda, L.;Sunol, J. J.;Dammak, M.;
6:20:9:7 Nanocrystalline (Fe60Al40)(80)Cu-20 alloy prepared by mechanical alloying
DOI:10.1016/j.jallcom.2012.11.131 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:6 AU: Krifa, M.;Mhadhbi, M.;Escoda, L.;Gueell, M.;Sunol, J. J.;Llorca-Isern, N.;Artieda-Guzman, C.;Khitouni, M.;
6:20:9:8 Mossbauer and X-ray diffraction studies of nanostructured Fe70Al30 powders elaborated by mechanical alloying
DOI:10.1016/j.jallcom.2011.11.043 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:4 AU: Kezrane, M.;Guittoum, A.;Boukherroub, N.;Lamrani, S.;Sahraoui, T.;
6:20:9:9 Carbon nanotubes: Amino functionalization and its application in the fabrication of Al-matrix composites
DOI:10.1016/j.powtec.2011.10.013 JN:POWDER TECHNOLOGY PY:2012 TC:11 AU: Singhal, S. K.;Pasricha, Renu;Jangra, Mamta;Chahal, Rajiv;Teotia, Satish;Mathur, R. B.;
6:20:9:10 Structural and microstructural properties of nanocrystalline Cu-Fe-Ni powders produced by mechanical alloying
DOI:10.1016/j.powtec.2014.03.064 JN:POWDER TECHNOLOGY PY:2014 TC:1 AU: Slimi, M.;Azabou, M.;Escoda, L.;Sunol, J. J.;Khitouni, M.;
6:20:9:11 X-ray line profile analysis of the ball-milled Fe-30Co alloy
DOI:10.1016/j.apt.2012.04.007 JN:ADVANCED POWDER TECHNOLOGY PY:2013 TC:0 AU: Laala-Bouali, H.;Bentayeb, F-Z;Louidi, S.;Guo, X.;Tria, S.;Sunol, J. J.;Escoda, L.;
6:20:10:1 Correlation between structural parameters and magnetic properties of ball milled nano-crystalline Fe-Co-Si powders
DOI:10.1016/j.apt.2013.11.008 JN:ADVANCED POWDER TECHNOLOGY PY:2014 TC:1 AU: Yousefi, M.;Sharafi, S.;Mehrolhosseiny, A.;
6:20:10:2 Structural and magnetic properties of nanostructured Fe-50(Co-50)-6.5 wt% Si powder prepared by high energy ball milling
DOI:10.1016/j.jallcom.2011.04.095 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:7 AU: Khajepour, M.;Sharafi, S.;
6:20:10:3 The effect of multi-step milling and annealing treatments on microstructure and magnetic properties of nanostructured Fe-Si powders
DOI:10.1016/j.jmmm.2010.09.022 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2011 TC:10 AU: Zandrahimi, M.;Chermahini, M. Delshad;Mirbeik, M. H.;
6:20:10:4 Investigating the magnetic properties of soft magnetic composites based on mechanically alloyed nanocrystalline Fe-5 wt% Ni powders
DOI:10.1016/j.jmmm.2010.08.052 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2011 TC:11 AU: Taghvaei, Amir Hossein;Ebrahimi, Azadeh;Ghaffari, Mohammad;Janghorban, Kamal;
6:20:10:5 Characterization and magnetic coercivity of nanostructured (Fe50Co50)(100-x)V-x=0,2,4 powders containing a small amount of Co3V intermetallic obtained by mechanical alloying
DOI:10.1016/j.powtec.2011.07.042 JN:POWDER TECHNOLOGY PY:2011 TC:8 AU: Chitsazan, B.;Shokrollahi, H.;Behvandi, A.;Mirzaee, O.;
6:20:10:6 Magnetic and structural studies of mechanically alloyed nanostructured Fe49Co49V2 powders
DOI:10.1016/j.jmmm.2010.08.025 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2010 TC:5 AU: Behvandi, A.;Shokrollahi, H.;Chitsazan, B.;Ghaffari, M.;
6:20:10:7 Synthesis and characterization of BaFe12O19/Fe3O4 and BaFe12O19/Fe/Fe3O4 magnetic nano-composites
DOI:10.1016/j.powtec.2012.01.015 JN:POWDER TECHNOLOGY PY:2012 TC:3 AU: Molaei, M. J.;Ataie, A.;Raygan, S.;Picken, S. J.;Mendes, E.;Tichelaar, F. D.;
6:20:10:8 Magnetic and structural properties of nanostructured (Fe65Co35)(100-x)Cr-x (x=0, 10) powders prepared by mechanical alloying process
DOI:10.1016/j.apt.2013.04.001 JN:ADVANCED POWDER TECHNOLOGY PY:2014 TC:1 AU: Khaneghahi, S. Farabi;Sharafi, S.;
6:20:10:9 Effects of high magnetic field on the structure evolution, magnetic and electrical properties of the molecular beam vapor deposited FexNi1-x (0.3 <= x <= 0.8) thin films
DOI:10.1016/j.jmmm.2012.12.008 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2013 TC:12 AU: Cao, Yongze;Wang, Qiang;Li, Guojian;Du, Jiaojiao;Wu, Chun;He, Jicheng;
6:20:11:1 Magnetic and structural characterization of the mechanically alloyed Fe75Si15B10 powders
DOI:10.1016/j.jallcom.2010.01.013 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:13 AU: Alleg, S.;Ibrir, M.;Fenineche, N. E.;Azzaza, S.;Bensalem, R.;Sunol, J. J.;
6:20:11:2 Preparation, crystallization process and magnetic property of Fe(Co, Ni)ZrB alloy powders
DOI:10.1016/j.jallcom.2010.06.138 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:3 AU: Hua, Zhong;Yu, Wanqiu;Sun, Yaming;Zhao, Shuhua;
6:20:11:3 On the crystallization behavior of amorphous Fe-Cr-Mo-B-P-Si-C powder prepared by mechanical alloying
DOI:10.1016/j.matlet.2010.02.008 JN:MATERIALS LETTERS PY:2010 TC:13 AU: Movahedi, B.;Enayati, M. H.;Wong, C. C.;
6:20:11:4 Effect of Minor Alloying Substitution on Glass-Forming Ability and Crystallization Behavior of a Ni57Zr22X8Nb8Al5 (X = Ti, Cu) Alloy Synthesized by Mechanical Alloying
DOI:10.2320/matertrans.M2013184 JN:MATERIALS TRANSACTIONS PY:2013 TC:1 AU: Yang, Chao;Zeng, Jin;Guo, Hao;Qu, ShengGuan;Li, XiaoQiang;
6:20:11:5 Structure and thermal behavior of multicomponent Fe68-xNixZr15Nb5B12 (x=5, 10, 15, 20) alloys
DOI:10.1016/j.jallcom.2010.09.079 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:2 AU: Sun, Y. M.;
6:20:11:6 Effect of the Nb content on the amorphization process of the mechanically alloyed Fe-Co-Nb-B powders
DOI:10.1016/j.jallcom.2012.02.061 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:2 AU: Alleg, S.;Souilah, S.;Younes, A.;Bensalem, R.;Sunol, J. J.;Greneche, J. M.;
6:20:11:7 Experimental investigation of phase equilibria in the Fe-Nb-Si ternary system
DOI:10.1016/j.jallcom.2014.03.167 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:1 AU: Wang, Dong;Yang, Shuiyuan;Yang, Mujin;Zheng, Jianping;Hu, Hongfa;Liu, Xingjun;Wang, Cuiping;
6:20:11:8 Fabrication of FeSiB magnetic coatings with improved saturation magnetization by plasma spray and dry-ice blasting
DOI:10.1016/j.jallcom.2013.09.038 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:1 AU: Dong, Shujuan;Song, Bo;Zhang, Xiaofeng;Deng, Chunming;Fenineche, Nouredine;Hansz, Bernard;Liao, Hanlin;Coddet, Christian;
6:20:11:9 Structural and magnetic properties of Co50Ni50 powder mixtures
DOI:10.1016/j.jmmm.2011.06.059 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2011 TC:4 AU: Loudjani, N.;Bensebaa, N.;Dekhil, L.;Alleg, S.;Sunol, J. J.;
6:20:11:10 XRD analysis and magnetic properties of nanocrystalline Ni20Co80 alloys
DOI:10.1016/j.jmmm.2013.08.045 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2014 TC:4 AU: Bensebaa, N.;Loudjani, N.;Alleg, S.;Dekhil, L.;Sunol, J. J.;Al Sae, M.;Bououdina, M.;
6:20:12:1 Structural evolutions of the Fe-40Al-5Cr powders during mechanical alloying and subsequent heat treatment
DOI:10.1016/j.jallcom.2010.07.130 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:5 AU: Liu, Haili;Tang, Wenming;Wang, Yuexia;Liu, Chao;Xu, Guangqing;Zheng, Zhixiang;
6:20:12:2 Structural evolution of Fe-50 at.% Al powders during mechanical alloying and subsequent annealing processes
DOI:10.1016/j.jallcom.2010.01.145 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:10 AU: Haghighi, Sh. Ehtemam;Janghorban, K.;Izadi, S.;
6:20:12:3 Rapid consolidation of FeAl-Fe3AlCx ultrafine composites by mechanically activated field-assisted technique
DOI:10.1016/j.msea.2014.05.066 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Archana, M. S.;Gundakaram, Ravi C.;Rao, Y. S.;Srikanth, V. V. S. S.;Joshi, S. V.;Joardar, J.;
6:20:12:4 Processing conditions, microstructure and mechanical properties of hetero-nanostructured ODS FeAl alloys produced by spark plasma sintering
DOI:10.1016/j.msea.2012.08.142 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:11 AU: Ji, Gang;Bernard, Frederic;Launois, Sebastien;Grosdidier, Thierry;
6:20:12:5 Characterization of as-synthesized and mechanically milled Fe-Al powders produced by the self-disintegration method
DOI:10.1016/j.powtec.2014.04.090 JN:POWDER TECHNOLOGY PY:2014 TC:9 AU: Senderowski, C.;Zasada, D.;Durejko, T.;Bojar, Z.;
6:20:12:6 Rapid consolidation of nanostructured FeAl compound by high frequency induction heating and its mechanical properties
DOI:10.1016/j.jallcom.2010.01.148 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:2 AU: Ko, In-Yong;Jo, Seung-Hoon;Doh, Jung-Mann;Yoon, Jin-Kook;Shon, In-Jin;
6:20:12:7 Effects of a new pre-milling coating process on the formation and properties of an Fe-Al intermetallic coating
DOI:10.1016/j.powtec.2014.08.034 JN:POWDER TECHNOLOGY PY:2014 TC:3 AU: Canakci, A.;Erdemir, F.;Varol, T.;Dalmis, R.;Ozkaya, S.;
6:20:13:1 Surface composition of the steel powders pre-alloyed with manganese
DOI:10.1016/j.apsusc.2010.01.055 JN:APPLIED SURFACE SCIENCE PY:2010 TC:36 AU: Hryha, E.;Gierl, C.;Nyborg, L.;Danninger, H.;Dudrova, E.;
6:20:13:2 Characterization of the surface of Fe-19Mn-18Cr-C-N during heat treatment in a high vacuum - An XPS study
DOI:10.1016/j.matchar.2012.06.002 JN:MATERIALS CHARACTERIZATION PY:2012 TC:4 AU: Zumsande, K.;Weddeling, A.;Hryha, E.;Huth, S.;Nyborg, L.;Weber, S.;Krasokha, N.;Theisen, W.;
6:20:13:3 Characterization of oxide on the water-atomized FeMn powder surface
DOI:10.1016/j.apsusc.2013.12.183 JN:APPLIED SURFACE SCIENCE PY:2014 TC:1 AU: Long, An Ping;Li, Song Lin;Wang, Hang;Chen, HuiZhu;
6:20:13:4 Characterization of surface oxides on water-atomized steel powder by XPS/AES depth profiling and nano-scale lateral surface analysis
DOI:10.1016/j.apsusc.2012.12.155 JN:APPLIED SURFACE SCIENCE PY:2013 TC:10 AU: Chasoglou, D.;Hryha, E.;Norell, M.;Nyborg, L.;
6:20:13:5 Degradation of alumina refractory bricks by sintering Mn low-alloy steels
DOI:10.1016/j.ceramint.2013.09.140 JN:CERAMICS INTERNATIONAL PY:2014 TC:1 AU: Campos, Monica;Antonio Sicre-Artalejo, Jose;Manuel Torralba, Jose;Zbiral, Hannes;Danninger, Herbert;Pena, P.;
6:20:13:6 Thermodynamic assessment of the Cr-Mn-O system
DOI:10.1016/j.jallcom.2010.04.252 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:6 AU: Kjellqvist, Lina;Selleby, Malin;
6:20:13:7 Surface phenomena during the early stages of sintering in steels modified with Fe-Mn-Si-C master alloys
DOI:10.1016/j.matchar.2013.07.022 JN:MATERIALS CHARACTERIZATION PY:2013 TC:3 AU: Oro, Raquel;Campos, Monica;Hryha, Eduard;Manuel Torralba, Jose;Nyborg, Lars;
6:20:13:8 Effect of process parameters on surface oxides on chromium-alloyed steel powder during sintering
DOI:10.1016/j.matchemphys.2012.11.074 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2013 TC:9 AU: Chasoglou, D.;Hryha, E.;Nyborg, L.;
6:20:13:9 Effect of processing conditions on microstructural features in Mn-Si sintered steels
DOI:10.1016/j.matchar.2014.06.011 JN:MATERIALS CHARACTERIZATION PY:2014 TC:0 AU: Oro, Raquel;Hryha, Eduard;Campos, Monica;Torralba, Jose M.;
6:20:13:10 The impact of processing on microstructure, single-phase properties and wear resistance of MMCs
DOI:10.1016/j.wear.2010.11.031 JN:WEAR PY:2011 TC:4 AU: Hill, H.;Weber, S.;Huth, S.;Niederhofer, P.;Theisen, W.;
6:20:14:1 Synthesis of nanocrystalline TiC reinforced W nanocomposites by high-energy mechanical alloying: Microstructural evolution and its mechanism
DOI:10.1016/j.apsusc.2013.02.044 JN:APPLIED SURFACE SCIENCE PY:2013 TC:8 AU: Zhang, Guoquan;Gu, Dongdong;
6:20:14:2 Effect of reinforcing particle type on morphology and age-hardening behavior of Al-4.5 wt.% Cu based nanocomposites synthesized through mechanical milling
DOI:10.1016/j.matchar.2012.12.007 JN:MATERIALS CHARACTERIZATION PY:2013 TC:1 AU: Mostaed, A.;Saghafian, H.;Mostaed, E.;Shokuhfar, A.;Rezaie, H. R.;
6:20:14:3 Investigation on preparation of Al-4.5%Cu/SiCp nanocomposite powder via mechanical milling
DOI:10.1016/j.powtec.2012.01.012 JN:POWDER TECHNOLOGY PY:2012 TC:6 AU: Mostaed, Ehsan;Saghafian, Hassan;Mostaed, Ali;Shokuhfar, Ali;Rezaie, Hamid Reza;
6:20:14:4 Plasma focus assisted damage studies on tungsten
DOI:10.1016/j.apsusc.2012.10.093 JN:APPLIED SURFACE SCIENCE PY:2013 TC:7 AU: Bhuyan, M.;Mohanty, S. R.;Rao, C. V. S.;Rayjada, P. A.;Raole, P. M.;
6:20:14:5 Deposition of tungsten nitride thin films by plasma focus device at different axial and angular positions
DOI:10.1016/j.apsusc.2011.03.155 JN:APPLIED SURFACE SCIENCE PY:2011 TC:15 AU: Hosseinnejad, M. T.;Ghoranneviss, M.;Etaati, G. R.;Shirazi, M.;Ghorannevis, Z.;
6:20:14:6 The effect of surface roughness on self-assembly tungsten nanoneedles induced by focused Ga+ ion beam bombardment
DOI:10.1016/j.apsusc.2012.01.073 JN:APPLIED SURFACE SCIENCE PY:2012 TC:3 AU: Ran, Guang;Liu, Xiang;Wu, Jihong;Zu, Xiaotao;Wang, Lumin;
6:20:14:7 Mechanical thermal synthesis of in situ Al based hybrid nanocomposites in Al-Ni-Ti-O system
DOI:10.1016/j.jallcom.2009.09.166 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:2 AU: Dilip, J. John Samuel;Reddy, B. S. B.;Das, Siddhartha;Das, Karabi;
6:20:15:1 Through process texture evolution and magnetic properties of high Si non-oriented electrical steels
DOI:10.1016/j.matchar.2012.06.006 JN:MATERIALS CHARACTERIZATION PY:2012 TC:20 AU: Sidor, Jurij J.;Verbeken, Kim;Gomes, Edgar;Schneider, Juergen;Rodriguez Calvillo, Pablo;Kestens, Leo A. I.;
6:20:15:2 Oxidation upon segregation: Evaluation of chemical state of segregated species in polycrystalline Fe-Si-Al alloys by AES
DOI:10.1016/j.apsusc.2013.10.173 JN:APPLIED SURFACE SCIENCE PY:2014 TC:0 AU: Mandrino, Djordje;Petrovic, Darja Steiner;
6:20:15:3 On the hot working of FeSi ferritic steels
DOI:10.1016/j.msea.2014.03.073 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Rodriguez-Calvillo, P.;Boulaajaj, A.;Perez-Sine, M.;Schneider, J.;Cabrera, J. M.;
6:20:15:4 Quantification of magnetic flux density in non-oriented electrical steel sheets by analysis of texture components
DOI:10.1016/j.jmmm.2011.03.041 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2011 TC:6 AU: Kang, H. G.;Lee, K. M.;Huh, M. Y.;Kim, J. S.;Park, J. T.;Engler, O.;
6:20:15:5 Effect of texture and grain size on magnetic flux density and core loss in non-oriented electrical steel containing 3.15% Si
DOI:10.1016/j.jmmm.2013.11.030 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2014 TC:6 AU: Lee, K. M.;Park, S. Y.;Huh, M. Y.;Kim, J. S.;Engler, O.;
6:20:15:6 XPS characterization of the oxide scale on fully processed non-oriented electrical steel sheet
DOI:10.1016/j.matchar.2011.03.011 JN:MATERIALS CHARACTERIZATION PY:2011 TC:6 AU: Petrovic, Darja Steiner;Mandrino, Djordje;
6:20:15:7 High temperature deformation of silicon steel
DOI:10.1016/j.matchemphys.2012.07.047 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:3 AU: Rodriguez-Calvillo, Pablo;Houbaert, Yvan;Petrov, Roumen;Kestens, Leo;Colas, Rafael;
6:20:15:8 Effect of asymmetric hot rolling on texture, microstructure and magnetic properties in a non-grain oriented electrical steel
DOI:10.1016/j.jmmm.2014.05.054 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2014 TC:2 AU: Chen, S.;Butler, J.;Melzer, S.;
6:20:16:1 Nano/sub-micron crystallization of Fe-Co-7.15V alloy by thermo-mechanical process to improve magnetic properties
DOI:10.1016/j.mseb.2014.09.013 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2014 TC:4 AU: Hasani, S.;Shamanian, M.;Shafyei, A.;Behjati, P.;Szpunar, J. A.;Fathi-Moghaddam, M.;
6:20:16:2 Positive correlation between coercivity and ferromagnetic resonance extrinsic linewidth in FeCoV/SiO2 films
DOI:10.1063/1.4865418 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Wei, Yajun;Brucas, Rimantas;Gunnarsson, Klas;Celinski, Zbigniew;Svedlindh, Peter;
6:20:16:3 Analysis of antiphase domain growth in ternary FeCo alloys after different cooling rates and annealing treatments using neutron diffraction and positron annihilation
DOI:10.1016/j.jallcom.2010.09.075 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:6 AU: Gilles, Ralph;Hofmann, Michael;Johnson, Francis;Gao, Yan;Mukherji, Debashis;Hugenschmidt, Christoph;Pikart, Philip;
6:20:16:4 Chemical synthesis, structure and magnetic properties of nanocrystalline Fe-Co alloys
DOI:10.1016/j.matlet.2012.01.090 JN:MATERIALS LETTERS PY:2012 TC:6 AU: Popova, Anna N.;Zaharov, Yuriy A.;Pugachev, Valeriy M.;
6:20:16:5 Order-Disorder Transformation in Fe50Co50 Particles Synthesized by Polyol Process
DOI:10.2320/matertrans.M2009251 JN:MATERIALS TRANSACTIONS PY:2010 TC:4 AU: Chon, G. B.;Shinoda, K.;Suzuki, S.;Jeyadevan, B.;
6:20:16:6 Effect of recrystallization and degree of order on the magnetic and mechanical properties of soft magnetic FeCo-2V alloy
DOI:10.1016/j.msea.2013.04.066 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:5 AU: Nabi, Brahim;Helbert, Anne-Laure;Brisset, Francois;Andre, Gilles;Waeckerle, Thierry;Baudin, Thierry;
6:20:16:7 Effect of long range order on mechanical properties of partially recrystallized Fe49Co-2V alloy
DOI:10.1016/j.msea.2013.10.093 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Nabi, Brahim;Helbert, Anne-Laure;Brisset, Francois;Batonnet, Remy;Andre, Gilles;Waeckerle, Thierry;Baudin, Thierry;
6:20:16:8 Chemical synthesis, structure and magnetic properties of nanocrystalline Fe-Co alloys (vol 74, pg 173, 2012)
DOI:10.1016/j.matlet.2012.04.020 JN:MATERIALS LETTERS PY:2012 TC:0 AU: Popova, Anna N.;Zaharov, Yuriy A.;Pugachev, Valeriy M.;
6:20:17:1 Magnetic and structural properties of amorphous/nanocrystalline Fe42Ni28Zr8Ta2B10C10 soft magnetic alloy produced by mechanical alloying
DOI:10.1016/j.apt.2013.03.016 JN:ADVANCED POWDER TECHNOLOGY PY:2013 TC:1 AU: Nowroozi, M. A.;Shokrollahi, H.;
6:20:17:2 Microstructural evolution and amorphous phase formation of Fe42Ni28Zr8Ta2B10C10 alloy produced by mechanical alloying
DOI:10.1016/j.powtec.2012.08.035 JN:POWDER TECHNOLOGY PY:2013 TC:4 AU: Nowroozi, M. A.;Janghorban, K.;Hashemi, B.;Taghvaei, A. H.;Maleksaeedi, S.;
6:20:17:3 On the magnetic properties of mechanosynthesized Co-Fe-Ni ternary alloys
DOI:10.1016/j.jmmm.2010.09.002 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2011 TC:8 AU: Jartych, E.;
6:20:17:4 The effects of milling time and heat treatment on the micro-structural and magnetic behavior of Fe42Ni28Zr8Ta2B10C10 synthesized by mechanical alloying
DOI:10.1016/j.jmmm.2013.01.034 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2013 TC:2 AU: Nowroozi, M. A.;Shokrollahi, H.;
6:20:17:5 Local atomic arrangement in mechanosynthesized CoxFe1-x-yNiy alloys studied by Mossbauer spectroscopy
DOI:10.1007/s00339-014-8582-1 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2014 TC:0 AU: Pikula, Tomasz;
6:20:17:6 Magnetic, structural and micro-structural properties of mechanically alloyed nano-structured Fe48Co48V4 powder containing inter-metallic Co3V
DOI:10.1016/j.jmmm.2010.11.079 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2011 TC:3 AU: Chitsazan, B.;Shokrollahi, H.;Behvandi, A.;Ghaffari, M.;
6:20:17:7 High-energy mechanical milling-induced crystallization in Fe32Ni52Zr3B13
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6:20:18:1 Evolution of microstructure and magnetic properties of nanocrystalline Fe70-xCuxCo30 alloy prepared by mechanical alloying
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6:20:18:2 Evolution of structure, microstructure and hyperfine properties of nanocrystalline Fe50Co50 powders prepared by mechanical alloying
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6:20:18:3 Hyperfine interactions and structural features of Fe-44Co-6Mo (wt.%) nanostructured powders
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6:20:18:4 Magnetic behaviour of nanocrystalline Cu-Fe-Co/Al2O3 composite powders obtained by mechanical alloying
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6:20:19:1 Microstructure and interface characteristics of Fe-B alloy in liquid 0.25 wt.% Al-Zn at various bath temperatures
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6:20:19:2 Heteroepitaxial growth of Fe2Al5 inhibition layer in hot-dip galvanizing of an interstitial-free steel
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6:20:19:3 Bulk Fe2B crystal fabricated by mechanical ball milling and plasma activated sintering
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6:20:19:4 Morphological and electrochemical characterization of electrodeposited Zn-Ag nanoparticle composite coatings
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6:20:19:5 The Zn-rich corner of the Zn-Al-Ti system at 723 K
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6:20:19:6 Microstructure and corrosion behavior of cast Fe-B alloys dipped into liquid zinc bath
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6:20:19:7 Green synthesis of silver nanoparticles using aqueous solution of Ficus benghalensis leaf extract and characterization of their antibacterial activity
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6:20:19:8 The 450 degrees C and 600 degrees C isothermal sections of the Zn-Ti-Si system
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6:20:20:1 MnV2O6 center dot V2O5 cross-like nanobelt arrays: synthesis, characterization and photocatalytic properties
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6:20:20:2 End-closed NiCoFe-B nanotube arrays by electroless method
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6:20:20:3 Synthesis, characterization and catalytic activity of birnessite type potassium manganese oxide nanotubes and nanorods
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6:20:20:4 Electrodeposited NiCoFe films from electrolytes with different Fe ion concentrations
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6:20:20:5 Growth behavior and magnetic property of electroless NiCoFeP films
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6:20:20:6 Synthesis, surface group modification of 3D MnV2O6 nanostructures and adsorption effect on Rhodamine B
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6:20:21:1 Injection molding of nickel based 625 superalloy: Sintering, heat treatment, microstructure and mechanical properties
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6:20:21:2 Microstructural and mechanical characterization of injection molded 718 superalloy powders
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6:20:21:3 Effect of heat treatment on microstructure and mechanical properties of the hot-isostatic-pressed Inconel 718 powder compact
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6:20:22:1 Studies on wear behavior of nano-Y2O3 dispersed ferritic steel developed by mechanical alloying and hot isostatic pressing
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6:20:22:2 Effect of chromium concentration on microstructure and properties of Fe-3.5B alloy
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6:20:22:3 Development of ultra high strength nano-Y2O3 dispersed ferritic steel by mechanical alloying and hot isostatic pressing
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6:20:22:4 Microstructure and mechanical properties of nano-Y2O3 dispersed ferritic alloys synthesized by mechanical alloying and consolidated by hydrostatic extrusion
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6:20:22:5 Microstructure and mechanical properties of nano-Y2O3 dispersed ferritic steel synthesized by mechanical alloying and consolidated by pulse plasma sintering
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6:20:23:1 Influence of glass particles incorporation on the microstructure and magnetic properties of Fe-6.5wt% Si alloy subjected to metal injection molding technique
DOI:10.1016/j.jallcom.2013.02.117 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:1 AU: Choi, Dae Yeob;Husein, Syarif;Ko, Young Gun;
6:20:23:2 Effect of non-magnetic doping on multi-step magnetization behavior of Dy50-xAlxAg50
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6:20:23:3 Full pearlite obtained by slow cooling in medium carbon steel
DOI:10.1016/j.msea.2010.08.009 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:3 AU: Yi, H. L.;
6:20:23:4 Martensitic transformation and magnetocaloric properties of Sn doping Mn-Ni-Ga alloys
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6:20:23:5 Unusual dilution effect of non-magnetic Al-substitution in intermetallic DyAg
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6:20:23:6 Formation of fully pearlitic microstructure in medium carbon steel
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6:20:24:1 Ferromagnetic behavior of nanocrystalline Cu-Mn alloy prepared by ball milling
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6:20:24:2 Influence of ternary addition of transition elements (Cr, Si and Mn) on the microstructure and magnetic properties of nano-structured Cu-Co alloy
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6:20:24:3 Solubility and magnetic properties enhancement in bi-phase nanostructure Cu-Fe-Mn alloy
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6:20:24:4 Magnetic response of Cu (25 wt.%)-316 grade stainless steel processed by ball milling
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6:20:25:1 Replication and characterization of 316L stainless steel micro-mixer by micro powder injection molding
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6:20:25:2 Microstructure and tensile properties of metal injection molding Co-29Cr-6Mo-0.23C alloy
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6:20:25:3 Characterisation and replication of metallic micro-fluidic devices using three different powders processed by hot embossing
DOI:10.1016/j.powtec.2013.05.026 JN:POWDER TECHNOLOGY PY:2013 TC:2 AU: Sahli, M.;Gelin, J. -C.;Barriere, T.;
6:20:26:1 Influence of size and volume fraction of SiC particulates on properties of ex situ reinforced Al-4.5Cu-3Mg metal matrix composite prepared by direct metal laser sintering process
DOI:10.1016/j.msea.2010.03.108 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:12 AU: Ghosh, Subrata Kumar;Saha, Partha;Kishore, Shyam;
6:20:26:2 Development of an in-situ multi-component reinforced Al-based metal matrix composite by direct metal laser sintering technique-Optimization of process parameters
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6:20:27:1 Influence of thermomechanical processing on shear bands formation and magnetic properties of a 3% Si non-oriented electrical steel
DOI:10.1016/j.jmmm.2011.07.015 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2011 TC:7 AU: Ferreira de Dafe, Sara Silva;Paolinelli, Sebastiao da Costa;Cota, Andre Barros;
6:20:27:2 Texture and magnetic properties improvement of a 3% Si non-oriented electrical steel by Sb addition
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6:21:1:1:1 Sub-zero treatments of AISI D2 steel: Part I. Microstructure and hardness
DOI:10.1016/j.msea.2009.10.070 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:56 AU: Das, Debdulal;Dutta, Apurba Kishore;Ray, Kalyan Kumar;
6:21:1:1:2 Sub-zero treatments of AISI D2 steel: Part II. Wear behavior
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6:21:1:1:3 Structure-property correlation of sub-zero treated AISI D2 steel
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6:21:1:1:4 Experimental verification of segregation of carbon and precipitation of carbides due to deep cryogenic treatment for tool steel by internal friction method
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6:21:1:1:5 Cryogenic treatments on AISI 420 stainless steel: Microstructure and mechanical properties
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6:21:1:1:6 Influence of sub-zero treatments on fracture toughness of AISI D2 steel
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6:21:1:1:7 Influence of deep cryogenic treatment on internal friction behavior in the process of tempering
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6:21:1:1:8 Effects of heat treatment influencing factors on microstructure and mechanical properties of a low-carbon martensitic stainless bearing steel
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6:21:1:1:9 Effect of deep cryogenic treatment on internal friction behaviors of cold work die steel and their experimental explanation by coupling model
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6:21:1:1:10 Effects of the sub-zero treatment condition on microstructure, mechanical behavior and wear resistance of W9Mo3Cr4V high speed steel
DOI:10.1016/j.wear.2012.12.037 JN:WEAR PY:2013 TC:4 AU: Yan, X. G.;Li, D. Y.;
6:21:1:1:11 Microstructure and tensile properties of 45WCrV7 tool steel after deep cryogenic treatment
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6:21:1:1:12 Effect of cryogenic treatment and aging treatment on the tensile properties and microstructure of Ti-6Al-4V alloy
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6:21:1:1:13 The effects of cryogenic processing on the wear resistance of grey cast iron brake discs
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6:21:1:1:14 Elastic properties of eta carbide (eta-Fe2C) from ab initio calculations: application to cryogenically treated gear steel
DOI:10.1007/s10853-013-7942-0 JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:2 AU: Oila, Adrian;Lung, Chi;Bull, Steve;
6:21:1:1:15 Residual Stresses and Dimensional Changes Related to the Lattice Parameter Changes of Heat-Treated JIS SKD 11 Tool Steels
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6:21:1:1:16 Vacuum heat treatment, deep cryogenic treatment and simultaneous pulse plasma nitriding and tempering of P/M S390MC steel
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6:21:1:1:17 The influence of cryogenic processing on wear on the impact wear resistance of low carbon steel and lamellar graphite cast iron
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6:21:1:1:18 Effects of deep cryogenic treatment on the dry sliding wear performance of ferrous alloys
DOI:10.1016/j.wear.2013.06.005 JN:WEAR PY:2013 TC:2 AU: Thornton, R.;Slatter, T.;Ghadbeigi, H.;
6:21:1:2:1 Low-temperature martensitic transformation and deep cryogenic treatment of a tool steel
DOI:10.1016/j.msea.2010.07.056 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:34 AU: Tyshchenko, A. I.;Theisen, W.;Oppenkowski, A.;Siebert, S.;Razumov, O. N.;Skoblik, A. P.;Sirosh, V. A.;Petrov, Yu. N.;Gavriljuk, V. G.;
6:21:1:2:2 Evolution of compressive strains in retained austenite during sub-zero Celsius martensite formation and tempering
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6:21:1:2:3 Influence of deep cryogenic treatment on the thermal decomposition of Fe-C martensite
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6:21:1:2:4 Low-temperature martensitic transformation in tool steels in relation to their deep cryogenic treatment
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6:21:1:2:5 Simultaneous enhancement of strength and ductility in cryogenically treated AISI D2 tool steel
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6:21:1:2:6 Investigating the effect of as-quenched vacancies in the final microstructure of 1.2080 tool steel during the deep cryogenic heat treatment
DOI:10.1016/j.matlet.2012.11.081 JN:MATERIALS LETTERS PY:2013 TC:2 AU: Akhbarizadeh, A.;Javadpour, S.;
6:21:1:3:1 Synchrotron micro-diffraction analysis of the microstructure of cryogenically treated high performance tool steels prior to and after tempering
DOI:10.1016/j.msea.2010.06.072 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:5 AU: Xu, N.;Cavallaro, G. P.;Gerson, A. R.;
6:21:1:3:2 Micrometer-scale synchrotron diffraction mapping analysis of carbide precipitation in deep cryogenically treated low carbon steel
DOI:10.1557/jmr.2012.135 JN:JOURNAL OF MATERIALS RESEARCH PY:2012 TC:1 AU: Xu, Ning;Cavallaro, Giuseppe P.;Gerson, Andrea R.;
6:21:1:4:1 Effect of copper addition on the characteristics of high-carbon and high-chromium steels
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6:21:1:4:2 Phase transformation of Cu precipitates from bcc to fcc in Fe-3Si-2Cu alloy
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6:21:2:1 Influence of intermetallic phases and Kirkendall-porosity on the mechanical properties of joints between steel and aluminium alloys
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6:21:2:2 Growth kinetics of Al-Fe intermetallic compounds during annealing treatment of friction stir lap welds
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6:21:2:3 On the formation and growth of intermetallic phases during interdiffusion between low-carbon steel and aluminum alloys
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6:21:2:4 New evidence for the formation and growth mechanism of the intermetallic phase formed at the Al/Fe interface
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6:21:2:5 Arc joining of aluminum alloy to stainless steel with flux-cored Zn-based filler metal
DOI:10.1016/j.msea.2010.07.092 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:19 AU: Dong, Honggang;Yang, Liqun;Dong, Chuang;Kou, Sindo;
6:21:2:6 Intermetallic compounds in Al 6016/IF-steel friction stir spot welds
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6:21:2:9 Improving arc joining of Al to steel and Al to stainless steel
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6:21:2:10 Microstructure characteristics and mechanical property of aluminum alloy/stainless steel lap joints fabricated by MIG welding-brazing process
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6:21:2:11 Effect of input current modes on intermetallic layer and mechanical property of aluminum-steel lap joint obtained by gas metal arc welding
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6:21:2:12 Partitioning evaluation of mechanical properties and the interfacial microstructure in a friction stir welded aluminum alloy/stainless steel lap joint
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6:21:2:13 Interfacial characterization of joint between mild steel and aluminum alloy welded by resistance spot welding
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6:21:2:14 Study on laser welding-brazing of zinc coated steel to aluminum alloy with a zinc based filler
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6:21:2:15 Effects of post-weld heat treatment on dissimilar metal joint between aluminum alloy and stainless steel
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6:21:2:16 On the Correlation Between Thermal Cycle and Formation of Intermetallic Phases at the Interface of Laser-Welded Aluminum-Steel Overlap Joints
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6:21:2:17 Characterization of 6061-T6 aluminum alloy to AISI 1018 steel interfaces during joining and thermo-mechanical conditioning
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6:21:2:18 On the joining of steel and aluminium by means of a new friction melt bonding process
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6:21:2:19 Formation of nanometer scale intermetallic phase at interface of aluminum-to-steel spot joint by welding-brazing process
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6:21:2:20 A sessile drop setup for the time-resolved synchrotron study of solid-liquid interactions: Application to intermetallic formation in 55%Al-Zn alloys
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6:21:2:21 An investigation of metallurgical bonding in Al-7Si/gray iron bimetal composites
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6:21:2:22 Variables affecting growth and morphology of the intermetallic layer (Fe2Al5)
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6:21:2:23 Nanoindentation Measurement of Interfacial Reaction Layers in 6000 Series Aluminum Alloys and Steel Dissimilar Metal Joints with Alloying Elements
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6:21:3:1 Diffusion bonding of Al7075 to Ti-6Al-4V using Cu coatings and Sn-3.6Ag-1Cu interlayers
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6:21:3:2 Weldability and mechanical properties of dissimilar aluminum-copper lap joints made by friction stir welding
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6:21:3:3 Joining mechanism of Ti/Al dissimilar alloys during laser welding-brazing process
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6:21:3:4 Cold metal transfer welding-brazing of pure titanium TA2 to magnesium alloy AZ31B
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6:21:3:5 Interfacial microstructure and mechanical property of Ti6Al4V/A6061 dissimilar joint by direct laser brazing without filler metal and groove
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6:21:3:6 A metallurgical and mechanical study on dissimilar Friction Stir welding of aluminum 1050 to brass (CuZn30)
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6:21:3:7 Effect of friction stir welding parameters on the microstructure and mechanical properties of the dissimilar Al-Cu joints
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6:21:3:8 Enhanced mechanical properties of friction stir welded dissimilar Al-Cu joint by intermetallic compounds
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6:21:3:9 Effect of calcium on intermetallic compound layer at interface of calcium added magnesium-aluminum alloy and titanium joint by friction stir welding
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6:21:3:10 Microstructural evolution of aluminum/magnesium lap joints welded using MIG process with zinc foil as an interlayer
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6:21:3:11 Dissimilar Metal Joining of 2024 and 7075 Aluminium Alloys to Titanium Alloys by Friction Stir Welding
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6:21:3:12 Influence of Zr addition on TIG welding-brazing of Ti-6Al-4V to Al5A06
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6:21:3:13 Dissimilar metal joining of ZK60 magnesium alloy and titanium by friction stir welding
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6:21:4:1 A model to describe the surface gradient-nanograin formation and property of friction stir processed laser Co-Cr-Ni-Mo alloy
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6:21:4:2 Surface enhancement of cold work tool steels by friction stir processing with a pinless tool
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6:21:4:3 Dependence of Zener parameter on the nanograins formed during friction stir processing of interstitial free steels
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6:21:4:4 Surface modification of hydroturbine steel using friction stir processing
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6:21:4:5 Formation of nanograin in IF steels by friction stir processing
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6:21:4:6 Producing nanostructured super-austenitic steels by friction stir processing
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6:21:4:7 Surface nitriding on Ti-6Al-4V alloy via friction stir processing method under nitrogen atmosphere
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6:21:4:8 Microstructure evolution and texture development in a friction stir-processed AISI D2 tool steel
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6:21:4:9 Effects of Tool Geometry on Hardened Layer of Friction Stir Processed Cast Iron
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6:21:4:11 Nanograined Ti-Nb microalloy steel achieved by Accumulative Roll Bonding (ARB) process
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6:21:5:1 Microstructure-property characterization of a friction-stir welded joint between AA5059 aluminum alloy and high density polyethylene
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6:21:5:2 Factors affecting the properties of Friction Stir Welds between aluminum and magnesium alloys
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6:21:5:3 Microstructure and mechanical properties of spot friction stir welded ultrafine grained 1050 Al and conventional grained 6061-T6 Al alloys
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6:21:5:4 Preliminary study on the feasibility of friction spot welding in PMMA
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6:21:5:6 Fabrication of high strength bond of Ti-17 alloy using press bonding under a high bonding pressure
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6:21:5:7 Effect of hydrogen content on superplastic forming/diffusion bonding of TC21 alloys
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6:21:5:8 Ultrasonic Welding of Aluminum Alloys to Fiber Reinforced Polymers
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6:21:5:10 Dissimilar friction stir welding between aluminum alloy and magnesium alloy at a low rotational speed
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6:21:6:1 Transient liquid phase (TLP) bonding of Al7075 to Ti-6Al-4V alloy
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6:21:6:3 An investigation on microstructure evolution and mechanical properties during liquid state diffusion bonding of Al2024 to Ti-6Al-4V
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6:21:6:6 Application of Ni and Cu nanoparticles in transient liquid phase (TLP) bonding of Ti-6Al-4V and Mg-AZ31 alloys
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6:21:6:7 Study on rigid restraint thermal self-compressing bonding - A new solid state bonding method
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6:21:6:8 Microstructural study of transient liquid phase bonded DD98 and K465 superalloys at high temperature
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6:21:7:2 Mechanisms of joint and microstructure formation in high power ultrasonic spot welding 6111 aluminium automotive sheet
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6:21:7:4 HAZ development and accelerated post-weld natural ageing in ultrasonic spot welding aluminium 6111-T4 automotive sheet
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6:21:7:5 Effect of zinc interlayer on ultrasonic spot welded aluminum-to-copper joints
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6:21:7:6 Joining aluminum to titanium alloy by friction stir lap welding with cutting pin
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6:21:8:1 Improving interfacial properties of a laser beam welded dissimilar joint of aluminium AA6056 and titanium Ti6Al4V for aeronautical applications
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6:21:8:3 Mechanical and dry sliding wear properties of silicon carbide particulate reinforced aluminium-copper alloy matrix composites produced by direct squeeze casting method
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6:21:8:4 In-situ observation of the nucleation kinetics and the mechanism of grain refinement in Al-Si alloys (Part I)
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6:21:8:5 Tribological properties of copper alloy-based composites reinforced with tungsten carbide particles
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6:21:8:6 The Nanomechanical and Tribological Properties of Restorative Dental Composites after Exposure in Different Types of Media
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6:21:9:1 Overview of transient liquid phase and partial transient liquid phase bonding
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6:21:9:2 Diffusion bonding of alumina using interlayer of mixed hydride nano powders
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6:21:9:3 Interfacial Reactions in Cu/Ga and Cu/Ga/Cu Couples
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6:21:9:4 A fixed-grid numerical modelling of transient liquid phase bonding and other diffusion-controlled phase changes
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6:21:9:5 Wetting and interfacial phenomena in relation to joining of alumina via Co/Nb/Co interlayers
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6:21:10:1 Effect of tempering treatment on microstructure and fatigue life of TiC-Cr overlay, produced by plasma transferred arc alloying
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6:21:10:2 Comment on "Experimental verification of segregation of carbon and precipitation of carbides due to deep cryogenic treatment for tool steel by internal friction method" by Li et al. [Mater. Sci. Eng. A 575 (2013) 51-60]
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6:21:10:3 Microstructural and mechanical properties evolutions of plasma transferred arc deposited Norem02 hardfacing alloy at high temperature
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6:21:10:4 Effects of tempering on internal friction of carbon steels
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6:21:10:5 Influence of secondary carbides precipitation and transformation on the secondary hardening of laser melted high chromium steel
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6:21:10:6 Influence of Welding Currents on Microstructure and Microhardness of Ni45 Alloy Reinforced with Spherical Tungsten Carbides (40 mass%) by Plasma Transferred Arc Welding
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6:21:10:7 Effect of substrate roughness on the fatigue behavior of a SAE 1045 steel coated with a WC-10Co-4Cr cermet, deposited by HVOF thermal spray
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6:21:10:8 The tempering behavior of granular structure in a Mn-series low carbon steel
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6:21:10:9 In situ studies of evolution of microstructure with temperature in heavily deformed Ti-modified austenitic stainless steel by X-ray diffraction technique
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6:21:11:1 Effect of bonding parameters on microstructure development during TGTLP bonding of Al7075 alloy
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6:21:11:2 Strength and microstructure of diffusion bonded titanium using silver and copper interlayers
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6:21:11:3 Microstructure and mechanical properties of TC4/oxygen-free copper joint with silver interlayer prepared by diffusion bonding
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6:21:11:4 Transient liquid phase bonding of commercially pure iron using Cu and Au-12Ge interlayer
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6:21:11:5 Pin-On-Disc Wear of Precipitation Hardened Titanium-Copper Alloys Fabricated by Powder Metallurgy
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6:21:12:1 TLP bonding of cast IN718 nickel based superalloy: Process-microstructure-strength characteristics
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6:21:12:2 The effect of TLP bonding temperature on microstructural and mechanical property of joints made using FSX-414 superalloy
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6:21:12:3 Microstructure and mechanical response of transient liquid phase joint in Haynes 282 superalloy
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6:21:12:4 Pulsed electric current bonding between Ni-based single crystal and powder metallurgy superalloys
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6:21:12:5 Effects of post-weld heat treatment on microstructure and mechanical properties of TLP bonded Incone1718 superalloy
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6:21:13:1 Friction stir spot welding of single-crystal austenitic stainless steel
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6:21:13:2 Eutectic structures in friction spot welding joint of aluminum alloy to copper
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6:21:13:3 Microstructure and mechanical properties of friction spot welds of dissimilar AA5754 Al and AZ31 Mg alloys
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6:21:13:4 The thermal cycle during the dissimilar friction spot welding of aluminum and magnesium alloy
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6:21:13:5 Anisotropy of structural response of single crystal austenitic stainless steel to friction stir welding
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6:21:14:1 Characterization and formation mechanism of laser-welded Mg and Al alloys using Ti interlayer
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6:21:14:2 Microstructure and mechanical properties of multiphase layer formed during depositing Ti film followed by plasma nitriding on 2024 aluminum alloy
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6:21:14:3 Surface modification of 5083 Al alloy by electrical discharge alloying processing with a 75 mass% Si-Fe alloy electrode
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6:21:14:4 Characterization of Mg/Al butt joints welded by gas tungsten arc filling with Zn-29.5Al-0.5Ti filler metal
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6:21:14:5 Fabrication of a nitrided coating on a novel Ni-Cr nanocomposite with increased surface hardness
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6:21:15:1 Evolution of microstructures and mechanical properties during dissimilar electron beam welding of titanium alloy to stainless steel via copper interlayer
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6:21:15:2 Interlayer engineering for dissimilar bonding of titanium to stainless steel
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6:21:15:3 Evaluation of interface microstructure and mechanical properties of the diffusion bonded joints of Ti-6Al-4V alloy to micro-duplex stainless steel
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6:21:15:4 The simulation of morphology of dissimilar copper-steel electron beam welds using level set method
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6:21:15:5 Effect of a copper filler metal on the microstructure and mechanical properties of electron beam welded titanium-stainless steel joint
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6:21:15:6 Interfacial reactions and strength properties in dissimilar titanium alloy/Ni alloy/microduplex stainless steel diffusion bonded joints
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6:21:16:1 Interface structure and bonding in abrasion circle friction stir spot welding: A novel approach for rapid welding aluminium alloy to steel automotive sheet
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6:21:16:2 Cold metal transfer spot plug welding of AA6061-T6-to-galvanized steel for automotive applications
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6:21:16:3 Microstructure and Joint Strength of Friction Stir Spot Welded 6022 Aluminum Alloy Sheets and Plated Steel Sheets
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6:21:16:4 The effect of a paint bake treatment on joint performance in friction stir spot welding AA6111-T4 sheet using a pinless tool
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6:21:17:1 Effects of modification on microstructure and properties of ultrahigh carbon (1.9 wt.% C) steel
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6:21:17:2 Effect of cerium and lanthanum on the microstructure and mechanical properties of AISI D2 tool steel
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6:21:17:4 Sliding friction properties of austenite- and martensite-based white cast iron containing 8.5% chromium
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6:21:18:1 Numerical modeling and simulation of a diffusion-controlled liquid-solid phase change in polycrystalline solids
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6:21:18:2 Understanding reversed temperature dependence of diffusional solidification time in single crystal superalloy brazement
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6:21:18:3 On an effective approach for reducing TLP bonding time in single crystal superalloys
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6:21:18:4 Isothermal solidification stage during transient liquid-phase bonding single-crystal superalloys
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6:21:19:1 Wetting of galvanized steel by Al 4043 alloys in the first cycle of CMT process
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6:21:19:2 Cold Metal Transfer joining of magnesium AZ31B-to-aluminum A6061-T6
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6:21:19:3 Wetting and laser brazing of Zn-coated steel products by Cu-Si filler metal
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6:21:20:1 Effect of joint gap on the quality of laser beam welded near-beta Ti-5553 alloy with the addition of Ti-6Al-4V filler wire
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6:21:20:2 The effect of contamination on the metallurgy of commercially pure titanium welded with a pulsed laser beam
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6:21:20:3 Effects of Cryo-Treatment on Corrosion Behavior and Mechanical Properties of Laser-Welded Commercial Pure Titanium
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6:21:21:1 Microstructure and Properties of 6061 Aluminum Alloy Brazing Joint with Al-Si-Zn Filler Metal
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6:21:21:2 Microstructure and interfacial reactions of soldering magnesium alloy AZ31B
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6:21:21:3 High-frequency induction soldering of magnesium alloy AZ31B using a Zn-Al filler metal
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6:22:1:1 Interfacial strained structure and orientation relationships of the nanosized oxide particles deduced from elasticity-driven morphology in oxide dispersion strengthened materials
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6:22:1:2 The formation and evolution of oxide particles in oxide-dispersion-strengthened ferritic steels during processing
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6:22:1:3 Transmission electron microscopy characterization of the nanofeatures in nanostructured ferritic alloy MA957
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6:22:1:4 Stability of nanoscale secondary phases in an oxide dispersion strengthened Fe-12Cr alloy
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6:22:1:5 The effect of Ti on the coarsening behavior of oxygen-rich nanoparticles in oxide-dispersion-strengthened steels after annealing at 1200 degrees C
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6:22:1:6 Orientation relationships and interface structure of alpha '-Cr nanoclusters embedded in alpha-Fe matrix after alpha-alpha ' demixing in neutron irradiated Oxide Dispersion Strengthened material
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6:22:1:7 Mechanical alloying of lanthana-bearing nanostructured ferritic steels
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6:22:1:8 Morphology, structure, and chemistry of nanoclusters in a mechanically alloyed nanostructured ferritic steel
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6:22:1:9 Radiation-induced Ostwald ripening in oxide dispersion strengthened ferritic steels irradiated at high ion dose
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6:22:1:10 Effect of alloying elements on the microstructure and mechanical properties of nanostructured ferritic steels produced by spark plasma sintering
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6:22:1:11 On the remarkable thermal stability of nanostructured ferritic alloys
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6:22:1:12 Formation of oxide nanoclusters in nanostructured ferritic alloys during anisothermal heat treatment: A kinetic Monte Carlo study
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6:22:1:13 A novel approach for strengthening Cu-Y2O3 composites by in situ reaction at liquidus temperature
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6:22:1:14 Effect of Oxide Particles and Pre-Implanted Helium on Defect Evolution during Electron Irradiation
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6:22:2:1 Nanoprecipitation of oxide particles and related high strength in oxide-dispersion-strengthened iron-aluminium-chromium intermetallics
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6:22:2:2 Temperature dependence of the strength of fine- and ultrafine-grained materials
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6:22:2:3 Temperature dependence of strengthening mechanisms in the nanostructured ferritic alloy 14YWT: Part II-Mechanistic models and predictions
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6:22:2:4 Creep behaviour of iron-aluminium-chromium intermetallics strengthened by nano-sized oxide particles
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6:22:2:7 Creep behavior and deformation mechanisms in a nanocluster strengthened ferritic steel
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6:22:2:8 Recent Developments Toward the Application of Iron Aluminides in Fossil Fuel Technologies
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6:22:2:10 Grain size and particle dispersion effects on the tensile behavior of friction stir welded MA956 oxide dispersion strengthened steel from low to elevated temperatures
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6:22:2:13 Laser metal deposition and selective laser melting of Fe-28 at.% Al
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6:22:2:14 Texture variations on powder consolidation of Oxide-Dispersion-Strengthened FeAl and FeAlCr alloys
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6:22:3:1 Formation mechanism and the role of nanoparticles in Fe-Cr ODS steels developed for radiation tolerance
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6:22:3:3 Microstructural evolution of oxide-dispersion-strengthened Fe-Cr model steels during mechanical milling and subsequent hot pressing
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6:22:3:5 Size and structure evolution of yttria in ODS ferritic alloy powder during mechanical milling and subsequent annealing
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6:22:3:6 An in situ powder neutron diffraction study of nano-precipitate formation during processing of oxide-dispersion-strengthened ferritic steels
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6:22:3:7 Microstructural evolution of MgAl2O4 oxide-dispersion-strengthened alloy by mechanical milling and hot isostatic pressing
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6:22:3:8 Solid-state diffusion bonding of high-Cr ODS ferritic steel
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6:22:3:9 XAFS and TEM studies of the structural evolution of yttrium-enriched oxides in nanostructured ferritic alloys fabricated by a powder metallurgy process
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6:22:3:10 Chemical composition of nano-phases studied by anomalous small-angle X-ray scattering: Application to oxide nano-particles in ODS steels
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6:22:3:11 Innovative processing of high-strength and low-cost ferritic steels strengthened by Y-Ti-O nanoclusters
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6:22:3:12 Atomic structure of nanoclusters in oxide-dispersion-strengthened steels
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6:22:4:1 Structure of oxide nanoparticles in Fe-16Cr MA/ODS ferritic steel
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6:22:4:2 Analysis of microstructural evolution during friction stir welding of ultrahigh-strength steel
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6:22:4:3 Microstructural Evolution and Hardness of Dissimilar Lap Joints of ODS/Stainless Steel by Friction Stir Welding
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6:22:4:4 Microstructural evolution in friction stir welding of nanostructured ODS alloys
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6:22:4:5 Ion-irradiation effects on dissimilar friction stir welded joints between ODS alloy and ferritic stainless steel
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6:22:4:6 On the formation of grain structure during friction stir welding of duplex stainless steel
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6:22:4:7 Effect of mechanical alloying and consolidation process on microstructure and hardness of nanostructured Fe-Cr-Al ODS alloys
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6:22:4:8 Dual-beam irradiation of friction stir spot welding of nanostructured ferritic oxide dispersion strengthened alloy
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6:22:4:9 Strain Heterogeneity, Recovery and Recrystallization of Nanostructured ODS Alloys during Cold Deformation
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6:22:4:10 Microstructure and mechanical properties of friction stir welded lean duplex stainless steel
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6:22:4:11 The effect of dual Fe+/He+ ion beam irradiation on microstructural changes in FeCrAl ODS alloys
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6:22:4:12 Effects of Two-Step Cold Rolling on Recrystallization Behaviors in ODS Ferritic Steel
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6:22:4:13 Effect of mechanical alloying on microstructure and mechanical properties of hot-pressed Nb-16Si alloys
DOI:10.1016/j.msea.2010.02.031 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:10 AU: Wang, X. L.;Wang, G. F.;Zhang, K. F.;
6:22:5:1 Microstructural evolution and chemical redistribution in Fe-Cr-W-Ti-Y2O3 nanostructured powders prepared by ball milling
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6:22:5:2 Nanostructured materials by mechanical alloying: new results on property enhancement
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6:22:5:3 Grain boundary misorientation and positron annihilation characteristics in steel Eurofer processed by equal channel angular pressing
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6:22:5:4 Investigation of microstructural characteristics of nanocrystalline 12YWT steel during milling and subsequent annealing by X-ray diffraction line profile analysis
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6:22:5:5 Microstructural studies on nanocrystalline oxide dispersion strengthened austenitic (Fe-18Cr-8Ni-2W-0.25Y(2)O(3)) alloy synthesized by high energy ball milling and vacuum hot pressing
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6:22:5:6 Relation between microstructure and Charpy impact properties of an elemental and pre-alloyed 14Cr ODS ferritic steel powder after hot isostatic pressing
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6:22:5:7 Role of strain heterogeneity on recrystallisation of oxide dispersion strengthened Fe-Cr-Al alloys for high-temperature applications
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6:22:5:8 Effect of yttria particle size on the microstructure and compression creep properties of nanostructured oxide dispersion strengthened ferritic (Fe-12Cr-2W-0.5Y(2)O(3)) alloy
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6:22:5:9 High-temperature oxidation resistance of ultrafine-grained 14 %Cr ODS ferritic steel
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6:22:5:10 Optimization of mechanical alloying parameters in 12YWT ferritic steel nanocomposite
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6:22:5:11 Two strain-hardening mechanisms in nanocrystalline austenitic steel: An in situ synchrotron X-ray diffraction study
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6:22:5:12 Damage assessment in structural metallic materials for advanced nuclear plants
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6:22:5:13 Influences of milling media on the fabricating process and thermoelectric properties of silicon germanium alloys
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6:22:5:14 Effect of residual stress on recrystallization behavior of mechanically alloyed steels
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6:22:6:1 High tensile ductility via enhanced strain hardening in ultrafine-grained Cu
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6:22:6:2 Achieving ultrafine dual-phase structure with superior mechanical property in friction stir processed plain low carbon steel
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6:22:6:3 Enhanced mechanical properties of 70/30 brass joint by rapid cooling friction stir welding
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6:22:6:4 Enhanced strength and ductility of friction stir processed Cu-Al alloys with abundant twin boundaries
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6:22:6:5 Enhanced mechanical properties in friction stir welded low alloy steel joints via structure refining
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6:22:6:6 Achieving friction stir welded pure copper joints with nearly equal strength to the parent metal via additional rapid cooling
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6:22:6:7 Development of nanocrystalline structure in Cu during friction stir processing (FSP)
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6:22:6:8 Influence of heat input on post weld microstructure and mechanical properties of friction stir welded HSLA-65 steel
DOI:10.1016/j.msea.2012.06.057 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:6 AU: Wei, Lingyun;Nelson, Tracy W.;
6:22:6:9 Twinning-Induced Plasticity Steels Preface
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6:22:7:1 Friction stir welding of high carbon steel with excellent toughness and ductility
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6:22:7:2 Investigation of the welding parameter dependent microstructure and mechanical properties of friction stir welded pure copper
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6:22:7:3 Investigation of welding parameter dependent microstructure and mechanical properties in friction stir welded pure Ti joints
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6:22:7:4 Microstructures and mechanical properties evolution during friction stir welding of SK4 high carbon steel alloy
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6:22:7:5 The microstructure and mechanical properties of friction stir welded Cu-30Zn brass alloys
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6:22:7:6 Suppression of hydrogen-induced blisters in SK4 carbon steel alloy by friction stir processing
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6:22:7:7 Microstructure and properties of friction stir welded high strength Fe-36 wt%Ni alloy
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6:22:7:8 High strength and ductility of friction-stir-welded steel joints due to mechanically stabilized metastable austenite
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6:22:7:9 Grain Orientation and Texture Evolution in Pure Titanium Lap Joint Produced by Friction Stir Welding
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6:22:7:10 Microstructure at friction stir lap joint interface of pure titanium and steel
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6:22:7:11 Interface microstructure evolution of dissimilar friction stir butt welded F82H steel and SUS304
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6:22:7:12 Microstructure and mechanical properties of friction stir welded pure Mo joints
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6:22:8:1 Strain softening behavior in a particle-containing copper alloy
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6:22:8:2 Effect of in situ reaction conditions on the microstructure changes of Cu-TiB2 alloys by combining in situ reaction and rapid solidification
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6:22:8:3 Microstructural evolution and mechanical properties in Zr705 during the rolling process
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6:22:8:4 High creep strength, dispersion-strengthened iron aluminide prepared by multidirectional high-strain forging
DOI:10.1016/j.actamat.2010.07.026 JN:ACTA MATERIALIA PY:2010 TC:6 AU: Morris, D. G.;Munoz-Morris, M. A.;
6:22:8:5 Recrystallization characteristics of a fine grained copper alloy
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6:22:8:6 The relationship among microstructure evolution, mechanical property and in situ reaction mechanisms in preparing Cu-1.6wt%TiB2 alloys
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6:22:8:7 Room and high temperature deformation behaviour of a forged Fe-15Al-5Nb alloy with a reinforcing dispersion of equiaxed Laves phase particles
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6:22:8:8 Effects of particle size, volume fraction, orientation and distribution on the high temperature compression and dynamical recrystallization behaviors of particle-containing alloys
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6:22:8:9 Dynamic recovery: The explanation for strain-softening behaviour in Zr-2.3Nb alloy
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6:22:8:10 The compression characteristics of particle-containing Cu alloys under different conditions
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6:22:9:1 Effects of metal additions on refinement behavior of TiC particles during a very high speed milling process
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6:22:9:2 Synthesis of Ni-Y2O3 nanocomposite powders by a very high speed planetary milling process: Microstructural development and refinement behavior
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6:22:9:3 High energy ball-mill behavior of titania plus hydroxyapatite composite nano-powders
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6:22:9:4 A plastic-yield compaction model for nanostructured Al6063 alloy and Al6063/Al2O3 nanocomposite powder
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6:22:9:5 Consolidation and mechanical properties of reactive nanocomposite powders
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6:22:9:6 Synthesis of Ti3AlC2/Al2O3 nanopowders by mechano-chemical reaction
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6:22:9:7 Microstructure and properties of SA 106B carbon steel after treatment of the melt with nano-sized TiC particles
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6:22:9:8 In situ fabrication of alpha-Al2O3 and Ni2Al3 reinforced aluminum matrix composites in an Al-Ni2O3 system
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6:22:9:9 Pre-ignition laser ablation of nanocomposite energetic materials
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6:22:10:1 Microstructural characterization in dissimilar friction stir welding between 304 stainless steel and st37 steel
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6:22:10:2 Microstructural studies of friction stir welded Zircaloy-4
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6:22:10:3 Tool wear and its effect on microstructure and properties of friction stir processed Ti-6Al-4V
DOI:10.1016/j.matchemphys.2014.04.002 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:3 AU: Wu, L. H.;Wang, D.;Xiao, B. L.;Ma, Z. Y.;
6:22:10:4 Texture development in near-alpha Ti friction stir welds
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6:22:10:5 Tribological enhancement of AISI 420 martensitic stainless steel through friction-stir processing
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6:22:10:6 An in-depth investigation of the cutting speed impact on the degraded microstructure of worn PCBN cutting tools
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6:22:11:1 Structural response of superaustenitic stainless steel to friction stir welding
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6:22:11:2 Reinforcement of laser-welded stainless steels by surface mechanical attrition treatment
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6:22:11:3 Development of grain structure during friction-stir welding of Cu-30Zn brass
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6:22:11:4 Microstructural and mechanical properties of friction-stir-welded and post-heat-treated Inconel 718 alloy
DOI:10.1016/j.jallcom.2010.06.016 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:8 AU: Song, K. H.;Nakata, K.;
6:22:11:5 Microstructural evolution during friction stir welding of Ti-15V-3Cr-3Al-3Sn alloy
DOI:10.1016/j.msea.2010.08.074 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:11 AU: Mironov, S.;Sato, Y. S.;Kokawa, H.;
6:22:11:6 The effect of the precipitates type on the thermal fatigue properties of 18% Cr ferritic stainless steel weld HAZ
DOI:10.1016/j.msea.2012.03.032 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:3 AU: Han, Kyutae;Hong, Seunggab;Lee, Changhee;
6:22:11:7 Effects of alloying elements on the thermal fatigue properties of the 15 wt% Cr ferritic stainless steel weld HAZ
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6:22:12:1 Influence of the temperature on the tensile behaviour of a modified 9Cr-1Mo T91 martensitic steel
DOI:10.1016/j.msea.2010.07.021 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:18 AU: Keller, C.;Margulies, M. M.;Hadjem-Hamouche, Z.;Guillot, I.;
6:22:12:2 Development of 9Cr-ODS ferritic-martensitic steel prepared by chemical reduction and mechanical milling
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6:22:12:3 Preparation and structural investigation of nanostructured oxide dispersed strengthened steels
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6:22:12:4 Consolidation of mechanically alloyed Cu-Ni-Fe material by spark plasma sintering and evaluation as inert anode for aluminum electrolysis
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6:22:12:5 Nanocrystalline nickel dispersed with nano-size WO3 particles synthesized by electrodeposition
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6:22:12:6 Exploring Cu2O/Cu cermet as a partially inert anode to produce aluminum in a sustainable way
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6:22:12:7 Experimental analysis of the dynamic strain ageing for a modified T91 martensitic steel
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6:22:13:1 Microstructure and hardness of nanocrystalline ferritic ODS alloy foil with high oxide content fabricated by EBPVD
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6:22:13:2 Polymorphic and coherency transition of Y-Al complex oxide particles with extrusion temperature in an Al-alloyed high-Cr oxide dispersion strengthened ferritic steel
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6:22:13:3 Hardness and Micro-Texture in Friction Stir Welds of a Nanostructured Oxide Dispersion Strengthened Ferritic Steel
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6:22:13:4 Microstructural observation and tensile properties of ODS-304 austenitic steel
DOI:10.1016/j.msea.2012.08.099 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:14 AU: Wang, Man;Zhou, Zhangjian;Sun, Hongying;Hu, Helong;Li, Shaofu;
6:22:14:1 Effect of process parameters on stir zone microstructure in Ti-6Al-4V friction stir welds
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6:22:14:2 Thermo-mechanical and microstructural issues in dissimilar friction stir welding of AA5086-AA6061
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6:22:14:3 Microstructural evolution of the thermomechanically affected zone in a Ti-6Al-4V friction stir welded joint
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6:22:14:4 A study on microstructures and residual stress distributions in dissimilar friction-stir welding of AA5086-AA6061
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6:22:14:5 Microstructure and mechanical properties of a friction stir processed Ti-6Al-4V alloy
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6:22:15:1 Gradient characteristics and strength matching in friction stir welded joints of Fe-18Cr-16Mn-2Mo-0.85N austenitic stainless steel
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6:22:15:2 Influence of grain size distribution on the Hall-Petch relationship of welded structural steel
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6:22:15:3 Corrosion behavior in high heat input welded heat-affected zone of Ni-free high-nitrogen Fe-18Cr-10Mn-N austenitic stainless steel
DOI:10.1016/j.matchar.2013.05.011 JN:MATERIALS CHARACTERIZATION PY:2013 TC:5 AU: Moon, Joonoh;Ha, Heon-Young;Lee, Tae-Ho;
6:22:15:4 Mechanical properties of friction stir butt welds of high nitrogen-containing austenitic stainless steel
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6:22:15:5 Relationship between material flow and abnormal grain growth in friction-stir welds
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6:22:16:1 Dissimilar joining of Al/Mg light metals by compound casting process
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6:22:16:2 Interface formation between liquid and solid Mg alloys-An approach to continuously metallurgic joining of magnesium parts
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6:22:16:3 Interfacial phenomena in magnesium/aluminum bi-metallic castings
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6:22:16:4 A novel aluminum surface treatment for improved bonding in magnesium/aluminum bimetallic castings
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6:22:17:1 Synthesis of Bulk Nanostructured DO22 Superlattice of Ni-3(Mo, Nb) with High Strength, High Ductility, and High Thermal Stability
DOI:10.1155/2012/387694 JN:JOURNAL OF NANOMATERIALS PY:2012 TC:0 AU: Tawancy, H. M.;
6:22:17:2 Yttrium-doped nanocrystalline Ni4Mo: ultrahigh strength and high ductility combined with useful intermetallic properties
DOI:10.1007/s10853-010-4366-y JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:2 AU: Tawancy, H. M.;Aboelfotoh, M. O.;
6:22:17:3 Deformation structure in ductile B2-type Zr-Co-Ni alloys with martensitic transformation
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6:22:18:1 Studies on the synthesis and sintering of nanocrystalline yttria
DOI:10.1016/j.ceramint.2013.12.001 JN:CERAMICS INTERNATIONAL PY:2014 TC:2 AU: Balakrishnan, S.;Ananthasivan, K.;Kumar, K. C. Hari;
6:22:18:2 Coating powdered copper catalyst with yttria sol
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6:22:18:3 A well-dispersed catalyst on porous silicon micro-reformer for enhancing adhesion in the catalyst-coating process
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6:22:19:1 Helium entrapment in a nanostructured ferritic alloy
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6:22:19:2 Effect of strain on the stabilization of oxygen-enriched nanoclusters in Fe-based alloys
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6:22:19:3 A structure-property correlation study of neutron irradiation induced damage in EU batch of ODS Eurofer97 steel
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6:22:20:1 Formation of residual ferrite in 9Cr-ODS ferritic steels
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6:22:20:2 Grain Boundary Related Deformation in ODS Ferritic Steel during Creep Test
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6:22:21:1 A nanoscale dispersion of TiC in cast carbon steel through a reaction in melt
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6:22:21:2 A NiAl- and TiC-reinforced Fe-based nanocomposite prepared by the rapid-solidification thermite process
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6:23:1:1 Toughening and dry sliding wear resistance of Co3Mo2Si alloys
DOI:10.1016/j.wear.2012.11.021 JN:WEAR PY:2013 TC:6 AU: Liu, Y.;Wang, H. M.;
6:23:1:2 Synthesis of CoWSi-WSi2 nanocomposite by mechanical alloying and subsequent heat treatment
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6:23:1:3 Microstructure and tribological properties of NiMo/Mo2Ni3Si intermetallic "in-situ" composites
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6:23:1:4 Microstructures and performances of Cr13Ni5Si2 based composite coatings deposited by laser cladding and laser-induction hybrid cladding
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6:23:1:5 Toughening and strengthening behavior of an Nb-8Si-20Ti-6Hf alloy with addition of Cr
DOI:10.1016/j.scriptamat.2010.02.023 JN:SCRIPTA MATERIALIA PY:2010 TC:17 AU: Sha, J.;Yang, C.;Liu, J.;
6:23:1:6 Laser cladding of CoWSi/WSi2 on Ni substrate and evaluation of its high temperature oxidation behavior
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6:23:1:7 A novel load-insensitive Co3Mo2Si reinforced in-situ metal-matrix composite coating for wear resistance application
DOI:10.1016/j.matlet.2010.08.002 JN:MATERIALS LETTERS PY:2010 TC:4 AU: Liu, Y.;Wang, H. M.;
6:23:1:8 Model scratch corrosion studies for WC/Co hardmetals
DOI:10.1016/j.wear.2010.01.004 JN:WEAR PY:2010 TC:8 AU: Gee, M. G.;
6:23:1:9 The effects of dendritic arm spacing (as-cast) and aging time (solution heat-treated) of Al-Cu alloy on hardness
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6:23:1:10 Effect of Mo on microstructure and mechanical properties of Nb-Ti-C-B multiphase alloy
DOI:10.1016/j.jallcom.2012.11.052 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:0 AU: He, Xiaodong;Zhang, Xinjiang;Li, Yibin;Huang, Jianping;
6:23:2:1 Synthesis and kinetic study of (Mo,W)Si-2-WSi2 nanocomposite by mechanical alloying
DOI:10.1016/j.jallcom.2012.06.072 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:7 AU: Zamani, Shahrouz;Bakhsheshi-Rad, Hamid Reza;Kadir, Mohammed Rafiq Abdul;Shafiee, Mohammad Reza Mohammad;
6:23:2:2 High-temperature oxidation of MoSi2
DOI:10.1007/s10853-009-4012-8 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:17 AU: Sharif, A. A.;
6:23:2:3 Effects of Re- and Al-alloying on mechanical properties and high-temperature oxidation of MoSi2
DOI:10.1016/j.jallcom.2011.12.082 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:3 AU: Sharif, A. A.;
6:23:2:4 Effect of the W addition content on valence electron structure and properties of MoSi2-based solid solution alloys
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6:23:2:5 Structural characterization of MoSi2 synthesized by high-energy mechanical milling followed by annealing heat treatment
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6:23:2:6 Fabrication and evaluation of oxidation resistance performance of open-celled Fe(Al) foam by space-holder technique
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6:23:2:7 Effect of Al addition on the microstructure and low-temperature reactivity to oxygen of pre-formed MoSi2
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6:23:2:8 Oxidation behavior of a Mo(Si,Al)(2) composite at 900-1600 degrees C in dry air
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6:23:2:9 Thermal stability of nanostructured aluminum powder synthesized by high-energy milling
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6:23:3:1 Minimizing tribolayer damage by strength-ductility matching in dual-scale structured Al-Sn alloys: A mechanism for improving wear performance
DOI:10.1016/j.wear.2013.05.001 JN:WEAR PY:2013 TC:4 AU: Lu, Z. C.;Zeng, M. Q.;Gao, Y.;Zhu, M.;
6:23:3:2 Significant improvement of wear properties by creating micro/nano dual-scale structure in Al-Sn alloys
DOI:10.1016/j.wear.2012.08.002 JN:WEAR PY:2012 TC:6 AU: Lu, Z. C.;Zeng, M. Q.;Gao, Y.;Zhu, M.;
6:23:3:3 A comparative study of ternary Al-Sn-Cu immiscible alloys prepared by conventional casting and casting under high-intensity ultrasonic irradiation
DOI:10.1016/j.matchemphys.2011.09.020 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2011 TC:9 AU: Kotadia, H. R.;Das, A.;Doernberg, E.;Schmid-Fetzer, R.;
6:23:3:4 Improving wear performance of dual-scale Al-Sn alloys: The role of Mg addition in enhancing Sn distribution and tribolayer stability
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6:23:3:5 Improving the wear resistance of Ti-6Al-4V/TiC composites through thermal oxidation (TO)
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6:23:3:6 Promoting the high load-carrying capability of Al-20 wt%Sn bearing alloys through creating nanocomposite structure by mechanical alloying
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6:23:3:7 Viscosity of liquid binary Pb-Zn alloys in the miscibility gap region
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6:23:4:1 Misfit strain affecting the lamellar microstructure in NbSi2/MoSi2 duplex crystals
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6:23:4:2 Fracture behavior and toughness of NbSi2-based single crystals and MoSi2(C11(b))/NbSi2(C40) duplex crystals with a single set of lamellae
DOI:10.1016/j.actamat.2011.03.040 JN:ACTA MATERIALIA PY:2011 TC:11 AU: Hagihara, K.;Nakano, T.;
6:23:4:3 Improvement of aligned lamellar structure by Cr-addition to NbSi2/MoSi2 duplex-silicide crystals
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6:23:4:4 Yield stress anomaly controlled by the phase stability in NbSi2 single crystals
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6:23:5:1 Investigation on cracking behavior of Ni-based coating by laser-induction hybrid cladding
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6:23:6:5 Tribological characteristics of Si3N4-hBN ceramic materials sliding against stainless steel without lubrication
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6:23:6:6 Dry sliding wear behavior of Fe3Al alloys prepared by mechanical alloying and plasma activated sintering
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6:23:6:7 Dry-sliding tribological behavior of Fe-28Al-5Cr/TiC composites
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6:23:6:8 Sliding friction and wear behavior of Fe-based bulk metallic glass in 3.5% NaCl solution
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6:23:7:1 Microstructure and interfacial evaluation of Co-based alloy coating on copper by pulsed Nd:YAG multilayer laser cladding
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6:23:7:2 Effects of chromium addition on microstructure and properties of TiC-VC reinforced Fe-based laser cladding coatings
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6:23:7:3 Relationship between microstructure, hardness and corrosion resistance in 20 wt.%Cr, 27 wt.%Cr and 36 wt.%Cr high chromium cast irons
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6:23:7:4 Interfacial properties of immiscible Co-Cu alloys
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6:23:7:5 Microstructures, mechanical properties and corrosion resistance of Hastelloy C22 coating produced by laser cladding
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6:23:7:6 High hardness and toughness of white cast iron: The proposal of a novel process
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6:23:8:1:1 Decarburization mechanisms of WC-Co during thermal spraying: Insights from controlled carbon loss and microstructure characterization
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6:23:8:1:2 Abrasive wear behavior of detonation sprayed WC-12Co coatings: Influence of decarburization and abrasive characteristics
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6:23:8:1:3 Fabrication and evaluation of atmospheric plasma spraying WC-Co-Cu-MoS2 composite coatings
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6:23:8:1:4 Microstructural and mechanical characterizations of a novel HVOF-sprayed WC-Co coating deposited from electroless Ni-P coated WC-12Co powders
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6:23:8:1:6 A novel sintering technique for fabrication of functionally gradient WC-Co cemented carbides
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6:23:8:1:7 Dependence of wear behaviors of hardmetal YG8B on coarse abrasive types and their slurry concentrations
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6:23:8:2:1 In situ synthesis of TiC reinforced metal matrix composite (MMC) coating by self propagating high temperature synthesis (SHS)
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6:23:8:2:2 High energy milling method to prepare Al/WC composite coatings in Al-Si alloys
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6:23:8:2:3 Effect of ultrasound on combustion synthesis of composite material "TiC-metal binder"
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6:23:9:1 Electronic structure and point defect concentrations of C11(b) MoSi2 by first-principles calculations
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6:23:9:2 Solid-state processing of oxidation-resistant molybdenum borosilicide composites for ultra-high-temperature applications
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6:23:9:3 Prediction of stabilities, mechanical properties and electronic structures of tetragonal 3d transition metal disilicides: A first-principles investigation
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6:23:9:4 Preparation and characterization of MoSi2/MoB composite coating on Mo substrate
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6:23:9:5 Electronic origin of the phase transition in ternary alloy Mo(Si1-x, Al-x)(2)
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6:23:9:6 Mechanical properties of Cr-alloyed MoSi2-based nanocomposite coatings with a hierarchical structure
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6:23:9:7 Calculation and analysis of the valence electron structure of MoSi2 and (Mo-0.95, Nb-0.05)Si-2
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6:23:10:1 Effects of tungsten and aluminum additions on the formation of molybdenum disilicide by mechanically-induced self-propagating reaction
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6:23:10:2 Combustion synthesis of (Mo1-xCrx)Si-2 (x=0.00-0.30) alloys in SHS mode
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6:23:10:3 Synthesis, microstructure and properties of MoSi2-5 vol%Al2O3 composites
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6:23:10:4 Effects of boron addition on the formation of MoSi2 by combustion synthesis mode
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6:23:10:5 Microstructure and properties of Ti5Si3-based porous intermetallic compounds fabricated via combustion synthesis
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6:23:11:1 Synthesis of mullite-MoSi2 nano-composite through a mechanochemical processing
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6:23:11:2 Oxidation behavior of Al2O3 reinforced MoSi2 composite coatings fabricated by vacuum plasma spraying
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6:23:11:3 Solid-state reactions during high-energy milling of mixed powders
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6:23:11:4 Microstructure, mechanical properties and oxidation resistance of Mo5Si3-Al2O3 composite
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6:23:11:5 Role of Cr additions in enhancing wear and oxidation resistance of (Mo1-xCrx)Si-2 nanocrystalline films
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6:23:11:6 Consolidation and mechanical properties of nanostructured MoSi2-SiC-Si3N4 from mechanically activated powder by high frequency induction heated sintering
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6:23:12:1 Mechanical properties and oxidation behavior of silicon carbide-molybdenum silicides composites
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6:23:12:2 Mechanical behavior of molybdenum disilicide reinforced silicon carbide composites
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6:23:12:3 Effect of molybdenum disilicide additions on the oxidation behaviour of silicon carbide
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6:23:12:4 In situ pressureless sintering of SiC/MoSi2 composites
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6:23:12:5 Effect of the specimen size on strength of Si3N4 + SiC composite
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6:23:13:1 Growth mechanism, distribution characteristics and reinforcing behavior of (Ti, Nb)C particle in laser cladded Fe-based composite coating
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6:23:13:2 Research on impact wear resistance of in situ reaction TiCp/Fe composite
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6:23:13:3 Study on NbC particulate-reinforced iron matrix composite produced in situ
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6:23:13:4 Enhancing wear resistance of Mg-Zn-Gd alloy by cryogenic treatment
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6:23:13:5 In situ formation of Fe-NbC/C composite powders from solution-derived precursors by a gas reduction-carburization process
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6:23:14:1 Investigation of MoSi2 melt infiltrated RSiC and its oxidation behavior
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6:23:14:2 Microstructure and mechanical properties of 3-D interpenetrated network structure MoSi2-RSiC composite
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6:23:14:3 Dry sliding wear behaviour of Al(Mg)/Al2O3 interpenetrating composites produced by a pressureless infiltration technique
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6:23:14:4 Wear behaviour of interpenetrating alumina-copper composites
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6:23:14:5 Dry wear and friction properties of an A356/SiC foam interpenetrating phase composite
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6:23:15:1 Microstructure and crystallography of borides and secondary precipitation in 18 wt.% Cr-4 wt.% Ni-1 wt.% Mo-3.5 wt.% B-0.27 wt.% C steel
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6:23:15:2 In-situ surface hardening of cast iron by surface layer metallurgy
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6:23:15:3 Microstructure and mechanical properties of high boron white cast iron with about 4 wt% chromium
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6:23:15:4 Abrasion wear behaviour of alloyed and chilled cast irons
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6:23:15:5 Abrasive wear in Austempered Ductile Irons: A comparison with white cast irons
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6:23:16:1 Improvement of MoSi2 oxidation resistance via boron addition: Fabrication of MoB/MoSi2 composite by mechanical alloying and subsequent reactive sintering
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6:23:16:2 Dense Mosi(2) produced by reactive flash sintering: Control of Mo/Si agglomerates prepared by high-energy ball milling
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6:23:16:3 Modification of parameters in mechanochemical synthesis to obtain < alpha >- and < beta >-molybdenum disilicide
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6:23:16:4 Superplasticity of a multiphase fine-grained Mo-Si-B alloy
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6:23:17:1 Effects of sliding velocity and normal load on the tribological behavior of a nanocrystalline Al based composite
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6:23:17:2 Microstructures and properties of plasma sprayed FeAl/CeO2/ZrO2 nano-composite coating
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6:23:17:3 Microstructure and tribological properties of TiAg intermetallic compound coating
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6:23:17:4 Microstructure and tribological properties of TiCu2Al intermetallic compound coating
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6:23:17:5 Producing ternary intermetallic compounds powders by solid-liquid reaction ball milling
DOI:10.1007/s10853-010-4370-2 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:1 AU: Cai, Jian-guo;Chen, Zhen-hua;Chen, Ding;
6:23:17:6 Microstructural characterization and wear behavior of in situ TiC/7075 composites synthesized by displacement reactions and spray forming
DOI:10.1016/j.msea.2010.09.103 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:4 AU: Yang, Bin;Gan, Guisheng;Yang, Lu;Sun, Miao;Zhang, Haibo;Fang, Zhigang Zak;
6:23:18:1 Direct Observation of Intermediates in a Thermodynamically Controlled Solid-State Dynamic Covalent Reaction
DOI:10.1021/ja500707z JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:0 AU: Belenguer, Ana M.;Lampronti, Giulio I.;Wales, David J.;Sanders, Jeremy K. M.;
6:23:18:2 Low-temperature synthesis of alpha-and beta-MoSi2 powders using Na
DOI:10.1016/j.jallcom.2010.09.179 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:8 AU: Yamada, Takahiro;Yamane, Hisanori;
6:23:18:3 Preparation of Niobium Disilicide Coating by Heating Niobium in a Sodium-Silicon Melt
DOI:10.2320/matertrans.MAW201213 JN:MATERIALS TRANSACTIONS PY:2012 TC:0 AU: Yamada, Takahiro;Sato, Hiroto;Yamane, Hisanori;
6:23:18:4 Phase stability of beta-MoSi2-x prepared by the Na flux method against thermal, oxidative, and mechanical treatments
DOI:10.1007/s10853-012-7089-4 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:0 AU: Hara, Kosuke O.;Fujii, Tomoya;Yamasue, Eiji;Okumura, Hideyuki;Ishihara, Keiichi N.;
6:23:18:5 Dynamic equilibrium of MoSi2 polymorphs during mechanical milling
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6:23:19:1 Microstructure and property characterisation of 3-3 Al(Mg)/Al2O3 interpenetrating composites produced by a pressureless infiltration technique
DOI:10.1007/s10853-009-3983-9 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:12 AU: Chang, Hong;Higginson, Rebecca;Binner, Jon;
6:23:19:2 Preparation and characterisation of ceramic-faced metal-ceramic interpenetrating composites for impact applications
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6:23:19:3 High strain rate characteristics of 3-3 metal-ceramic interpenetrating composites
DOI:10.1016/j.msea.2010.12.016 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:6 AU: Chang, Hong;Binner, Jon;Higginson, Rebecca;Myers, Paul;Webb, Peter;King, Gus;
6:23:19:4 Microstructure and mechanical properties of Hadfield steel matrix composite reinforced with oriented high-chromium cast iron bars
DOI:10.1007/s10853-010-4549-6 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:4 AU: Niu, Libin;Hojamberdiev, Mirabbos;Xu, Yunhua;Wu, Hong;
6:23:20:1 Synthesis of high-quality octahedral cBN crystals with large size using lithium metal as a catalyst
DOI:10.1016/j.jallcom.2013.05.095 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:1 AU: Yang, Xuxin;Ye, Quan-Lin;
6:23:20:2 Correlations between milling conditions and iron contamination, microstructure and hardness of mechanically alloyed cubic BN particle reinforced NiCrAl matrix composite powders
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6:23:20:3 Fabrication of Ti-Cu-Ni-Al amorphous alloys by mechanical alloying and mechanical milling
DOI:10.1016/j.jallcom.2010.12.181 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:6 AU: Kishimura, Hiroaki;Matsumoto, Hitoshi;
6:23:20:4 Preparation of cBNp/NiCrAl nanostructured composite powders by a step-fashion mechanical alloying process
DOI:10.1016/j.powtec.2011.11.029 JN:POWDER TECHNOLOGY PY:2012 TC:11 AU: Luo, Xiao-Tao;Yang, Guan-Jun;Li, Chang-Jiu;
6:23:20:5 A sol-gel route to nanocrystalline TiN coated cubic boron nitride particles
DOI:10.1016/j.jallcom.2011.07.070 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:4 AU: Umer, Malik Adeel;Park, Hee Sub;Lee, Dong Ju;Ryu, Ho Jin;Hong, Soon Hyung;
6:23:20:6 Laser/waterjet heat treatment of polycrystalline cubic/wurtzite boron nitride composite for reaching hardness of polycrystalline diamond
DOI:10.1016/j.matlet.2012.08.024 JN:MATERIALS LETTERS PY:2012 TC:1 AU: Melaibari, A.;Molian, P.;Shrotriya, P.;
6:23:21:1 Dual-scale oxide dispersoids reinforcement of Fe-40 at.%Al intermetallic coating for both high hardness and high fracture toughness
DOI:10.1016/j.msea.2012.06.037 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:2 AU: Luo, Xiao-Tao;Li, Chang-Jiu;
6:23:21:2 Simultaneous strengthening and toughening effects in WC-(nanoWC-Co)
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6:23:21:3 Improvement on mechanical properties and wear resistance of HVOF sprayed WC-12Co coatings by optimizing feedstock structure
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6:23:21:4 Microstructures and mechanical properties of Fe-28Al-5Cr/TiC composites produced by hot-pressing sintering
DOI:10.1016/j.msea.2011.05.063 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:8 AU: Zhang, Xinghua;Yang, Jun;Ma, Jiqiang;Bi, Qinling;Cheng, Jun;Liang, Yongmin;Liu, Weimin;
6:23:22:1 Crystallization mechanisms and recording characteristics of Si/CuSi bilayer for write-once blu-ray disc
DOI:10.1063/1.3641417 JN:APPLIED PHYSICS LETTERS PY:2011 TC:4 AU: Ou, Sin-Liang;Kuo, Po-Cheng;Chen, Sheng-Chi;Tsai, Tsung-Lin;Yeh, Chin-Yen;Chang, Han-Feng;Lee, Chao-Te;Chiang, Donyau;
6:23:22:2 Characterization of write-once blu-ray disk containing Cu-Al/Si recording layer using transmission electron microscopy
DOI:10.1063/1.3560053 JN:APPLIED PHYSICS LETTERS PY:2011 TC:3 AU: Mai, Hung-Chuan;Hsieh, Tsung-Eong;Jeng, Shiang-Yao;
6:23:22:3 Microstructures and Recording Mechanism of Mo/Si Bilayer Applied for Write-Once Blue Laser Optical Recording
DOI:10.1155/2014/862928 JN:JOURNAL OF NANOMATERIALS PY:2014 TC:0 AU: Ou, Sin-Liang;Kao, Kuo-Sheng;Chang, Han-Feng;Ko, Tsung-Shine;Yeh, Chin-Yen;
6:23:22:4 Microstructure, crystallization kinetics and recording characteristics of Si/NiSi bilayer for write-once blu-ray disk
DOI:10.1016/j.tsf.2014.04.035 JN:THIN SOLID FILMS PY:2014 TC:1 AU: Ou, Sin-Liang;Chen, Sheng-Chi;Lin, Yan-Cheng;Kuo, Tsung-Yen;
6:23:23:1 Improving wear resistance of pure copper by laser surface modification
DOI:10.1016/j.apsusc.2011.10.006 JN:APPLIED SURFACE SCIENCE PY:2011 TC:10 AU: Li, Mingyu;Chao, Mingju;Liang, Erjun;Yu, Jumei;Zhang, Junji;Li, Dechuan;
6:23:23:2 The favorable and unfavorable effects of oxide and intermetallic phases in conductive materials using laser micro technologies
DOI:10.1016/j.mseb.2012.03.022 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2012 TC:0 AU: Pawlak, R.;Tomczyk, M.;Walczak, M.;
6:23:23:3 Simulation analysis of thermal state of conducting elements with narrowings made by use of laser micromachining
DOI:10.1016/j.mseb.2010.12.001 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2011 TC:4 AU: Pawlak, R.;Rosowski, A.;Tomczyk, M.;Walczak, M.;
6:23:23:4 Defect detection in wire welded joints using thermography investigations
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6:23:23:5 Propagation of normal zone in superconducting tapes due to heating in near-electrode area
DOI:10.1016/j.mseb.2010.11.002 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2011 TC:5 AU: Rymaszewski, J.;Lebioda, M.;Korzeniewska, E.;
6:23:24:1 Effect of coal tar pitch modified by sulfur as a binder on the mechanical and tribological properties of bronze-impregnated carbon-matrix composites
DOI:10.1016/j.msea.2011.01.004 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:6 AU: Yang, Huijun;Luo, Ruiying;
6:23:24:2 Effect of the ratio of graphite/pitch coke on the mechanical and tribological properties of copper-carbon composites
DOI:10.1016/j.wear.2010.02.007 JN:WEAR PY:2010 TC:10 AU: Yang, Huijun;Luo, Ruiying;Han, Suyi;Li, Midan;
6:23:24:3 Effect of coal tar pitch modified by sulfur as a binder on the mechanical and tribological properties of bronze-impregnated carbon-matrix composites (vol 528, pg 2929, 2011)
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6:23:24:4 A novel bronze-impregnated carbon strip containing Al2O3 particles for subway current collectors
DOI:10.1016/j.wear.2011.01.032 JN:WEAR PY:2011 TC:3 AU: Yang, Huijun;Luo, Ruiying;
6:23:25:1 Preparation of the Ni-P composite coating co-deposited by nano TiC particles and evaluation of it's corrosion property
DOI:10.1016/j.apsusc.2011.10.101 JN:APPLIED SURFACE SCIENCE PY:2012 TC:11 AU: Afroukhteh, S.;Dehghanian, C.;Emamy, M.;
6:23:25:2 Electrochemical behavior of low phosphorus electroless Ni-P-Si3N4 composite coatings
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6:23:25:3 Corrosion resistance enhancement of Ni-P-nano SiO2 composite coatings on aluminum
DOI:10.1016/j.apsusc.2014.02.109 JN:APPLIED SURFACE SCIENCE PY:2014 TC:9 AU: Sadreddini, Sina;Afshar, Abdollah;
6:24:1:1 First-principles study of stability and properties on beta-SiC/TiC(111) interface
DOI:10.1063/1.4827837 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:1 AU: Li, Jian;Yang, Yanqing;Feng, Guanghai;Luo, Xian;Sun, Qing;Jin, Na;
6:24:1:2 The austenite/epsilon martensite interface: A first-principles investigation of the fcc Fe(1 1 1)/hcp Fe(0 0 0 1) system
DOI:10.1016/j.apsusc.2012.06.059 JN:APPLIED SURFACE SCIENCE PY:2012 TC:14 AU: Lee, Seung-Joon;Lee, Young-Kook;Soon, Aloysius;
6:24:1:3 First-principles calculation on beta-SiC(111)/alpha-WC(0001) interface
DOI:10.1063/1.4883758 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Jin, Na;Yang, Yanqing;Li, Jian;Luo, Xian;Huang, Bin;Sun, Qing;Guo, Pengfei;
6:24:1:4 Efficient supercell design for surface and interface calculations of hexagonal phases: alpha-Al2O3 case study
DOI:10.1016/j.commatsci.2010.11.020 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:17 AU: Sigumonrong, Darwin P.;Music, Denis;Schneider, Jochen M.;
6:24:1:5 First-principles study of the Al(001)/Al3Ti(001) interfacial properties
DOI:10.1016/j.commatsci.2012.05.013 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:6 AU: Li, J.;Yang, Y. Q.;Luo, X.;
6:24:1:6 Theoretical calculations on the adhesion, stability, electronic structure and bonding of SiC/W interface
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6:24:1:7 Ab initio investigation of Al/Mo2B interfacial adhesion
DOI:10.1016/j.commatsci.2010.10.025 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:11 AU: Abdelkader, H. Si;Faraoun, H. I.;
6:24:1:8 Interfacial properties and electronic structure of beta-SiC(111)/alpha-Ti(0001): A first principle study
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6:24:1:9 Electronic property and bonding configuration at the TiN(111)/VN(111) interface
DOI:10.1063/1.3466958 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:12 AU: Yin, Deqiang;Peng, Xianghe;Qin, Yi;Wang, Zhongchang;
6:24:1:10 First principles study of interface structure and electronic property of Au/SrTiO3(001)
DOI:10.1016/j.commatsci.2010.07.012 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2010 TC:4 AU: Zhao, K. L.;Chen, D.;Li, D. X.;
6:24:1:11 Microstructure of SiC fiber fabricated by two-stage chemical vapor deposition on tungsten filament
DOI:10.1016/j.jcrysgro.2010.10.001 JN:JOURNAL OF CRYSTAL GROWTH PY:2010 TC:6 AU: Zhang, Rong-Jun;Yang, Yan-Qing;Shen, Wen-Tao;Wang, Chen;Luo, Xian;
6:24:1:12 Atomic reconstruction and electron states at interfaces between 3C-SiC(111) and Si(110)
DOI:10.1103/PhysRevB.87.235321 JN:PHYSICAL REVIEW B PY:2013 TC:2 AU: Abavare, Eric K. K.;Iwata, Jun-Ichi;Oshiyama, Atsushi;
6:24:1:13 First principles study of surface properties for silicon carbide-derived carbon
DOI:10.1016/j.matlet.2010.01.032 JN:MATERIALS LETTERS PY:2010 TC:2 AU: Jin, Hongyan;Zhang, Ruijun;Liu, Qiuxiang;
6:24:1:14 Fabrication of large diameter SiC monofilaments by polymer route
DOI:10.1016/j.jeurceramsoc.2013.12.032 JN:JOURNAL OF THE EUROPEAN CERAMIC SOCIETY PY:2014 TC:2 AU: Andreas, Noeth;
6:24:2:1 Theoretical calculations on the adhesion, stability, electronic structure, and bonding of Fe/WC interface
DOI:10.1016/j.apsusc.2011.01.072 JN:APPLIED SURFACE SCIENCE PY:2011 TC:12 AU: Li, Yefei;Gao, Yimin;Xiao, Bing;Min, Ting;Ma, Shengqiang;Yi, Dawei;
6:24:2:2 First-principles study of Al/Al3Ti heterogeneous nucleation interface
DOI:10.1016/j.apsusc.2014.04.079 JN:APPLIED SURFACE SCIENCE PY:2014 TC:0 AU: Li, Jian;Zhang, Ming;Zhou, Yong;Chen, Guoxiang;
6:24:2:3 First-principles calculations on Al/AlB2 interfaces
DOI:10.1016/j.apsusc.2011.04.038 JN:APPLIED SURFACE SCIENCE PY:2011 TC:21 AU: Han, Y. F.;Dai, Y. B.;Wang, J.;Shu, D.;Sun, B. D.;
6:24:2:4 Grain refinement of AZ91D magnesium alloy by SiC
DOI:10.1016/j.jallcom.2010.03.002 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:24 AU: Chen, T. J.;Jiang, X. D.;Ma, Y.;Li, Y. D.;Hao, Y.;
6:24:2:5 Heterogeneous nucleation of solid Al from the melt by TiB2 and Al3Ti: An ab initio molecular dynamics study
DOI:10.1103/PhysRevB.82.184203 JN:PHYSICAL REVIEW B PY:2010 TC:17 AU: Wang, Junsheng;Horsfield, Andrew;Schwingenschloegl, Udo;Lee, Peter D.;
6:24:2:6 First-principles calculations on Mg/Al4C3 interfaces
DOI:10.1016/j.apsusc.2013.01.089 JN:APPLIED SURFACE SCIENCE PY:2013 TC:8 AU: Li, K.;Sun, Z. G.;Wang, F.;Zhou, N. G.;Hu, X. W.;
6:24:2:7 First-principles calculations on Mg/Al2CO interfaces
DOI:10.1016/j.apsusc.2013.09.006 JN:APPLIED SURFACE SCIENCE PY:2013 TC:3 AU: Wang, F.;Li, K.;Zhou, N. G.;
6:24:2:8 Structural, electronic properties and stability of AlCMn3 (111) surfaces by first-principles calculations
DOI:10.1016/j.apsusc.2013.10.166 JN:APPLIED SURFACE SCIENCE PY:2014 TC:0 AU: Wang, F.;Li, K.;Zhou, N. G.;
6:24:2:9 First principles study of alpha(2)-Ti3Al(0001) surface and gamma-TiAl(111)/alpha(2)-Ti3Al(0001) interfaces
DOI:10.1016/j.apsusc.2013.03.065 JN:APPLIED SURFACE SCIENCE PY:2013 TC:1 AU: Wang, Lu;Shang, Jia-Xiang;Wang, Fu-He;Zhang, Yue;
6:24:2:10 Ab initio study of the fcc-WC(1 0 0) surface and its interaction with cobalt monolayers
DOI:10.1016/j.apsusc.2010.11.080 JN:APPLIED SURFACE SCIENCE PY:2011 TC:3 AU: Zavodinsky, V. G.;
6:24:3:1 Heterogeneous nucleation of solid Al from the melt by Al3Ti: Molecular dynamics simulations
DOI:10.1103/PhysRevB.82.144203 JN:PHYSICAL REVIEW B PY:2010 TC:8 AU: Wang, Junsheng;Horsfield, Andrew;Lee, Peter D.;Brommer, Peter;
6:24:3:2 Quantitative analysis of layering and in-plane structural ordering at an alumina-aluminum solid-liquid interface
DOI:10.1016/j.actamat.2011.03.061 JN:ACTA MATERIALIA PY:2011 TC:13 AU: Kauffmann, Y.;Oh, S. H.;Koch, C. T.;Hashibon, A.;Scheu, C.;Ruehle, M.;Kaplan, W. D.;
6:24:3:3 Atomic ordering in liquid aluminium induced by substrates with misfits
DOI:10.1016/j.commatsci.2013.12.042 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:2 AU: Men, H.;Fan, Z.;
6:24:3:4 Atomistic characterization of the Cu-Pb solid-liquid interface
DOI:10.1016/j.actamat.2011.01.053 JN:ACTA MATERIALIA PY:2011 TC:14 AU: Palafox-Hernandez, J. Pablo;Laird, Brian B.;Asta, Mark;
6:24:3:5 Atomistic characterization of the chemically heterogeneous Al-Pb solid-liquid interface
DOI:10.1016/j.actamat.2012.05.016 JN:ACTA MATERIALIA PY:2012 TC:10 AU: Yang, Yang;Olmsted, David L.;Asta, Mark;Laird, Brian B.;
6:24:3:6 Solid-Liquid Interfacial Premelting
DOI:10.1103/PhysRevLett.110.096102 JN:PHYSICAL REVIEW LETTERS PY:2013 TC:1 AU: Yang, Yang;Asta, Mark;Laird, Brian B.;
6:24:3:7 A molecular dynamics simulation of (110) surface premelting in Ni
DOI:10.1016/j.scriptamat.2010.03.032 JN:SCRIPTA MATERIALIA PY:2010 TC:8 AU: Song, H.;Fensin, S. J.;Asta, M.;Hoyt, J. J.;
6:24:3:8 Direct observation of in-plane ordering in the liquid at a liquid Al/alpha-Al2O3((1)over-bar 1 0 (2)over-bar) interface
DOI:10.1016/j.actamat.2010.10.069 JN:ACTA MATERIALIA PY:2011 TC:6 AU: Lee, Sung Bo;Kim, Young-Min;
6:24:3:9 Structural and dynamical properties of heterogeneous solid-liquid Ta-Cu interfaces: A molecular dynamics study
DOI:10.1016/j.commatsci.2014.01.028 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:2 AU: Yang, G. Q.;Li, J. F.;Shi, Q. W.;Kong, L. T.;
6:24:3:10 Molecular dynamics study of melting of the hcp metal Mg
DOI:10.1103/PhysRevB.84.235442 JN:PHYSICAL REVIEW B PY:2011 TC:2 AU: Bavli, P.;Polturak, E.;Adler, Joan;
6:24:4:1 Investigation of laser cladding high temperature anti-wear composite coatings on Ti6Al4V alloy with the addition of self-lubricant CaF2
DOI:10.1016/j.apsusc.2014.05.196 JN:APPLIED SURFACE SCIENCE PY:2014 TC:1 AU: Xiang, Zhan-Feng;Liu, Xiu-Bo;Ren, Jia;Luo, Jian;Shi, Shi-Hong;Chen, Yao;Shi, Gao-Lian;Wu, Shao-Hua;
6:24:4:2 Influence of Cu on microstructure and wear resistance of TiC/TiB/TiN reinforced composite coating fabricated by laser cladding
DOI:10.1016/j.matchemphys.2012.01.082 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:16 AU: Li Jianing;Chen Chuanzhong;He Qingshan;
6:24:4:3 Phase constituents and microstructure of laser cladding Al2O3/Ti3Al reinforced ceramic layer on titanium alloy
DOI:10.1016/j.jallcom.2011.01.199 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:21 AU: Li Jianing;Chen Chuanzhong;Lin Zhaoqing;Squartini, Tiziano;
6:24:4:4 Microstructure evolution of laser remelted Al2O3-13 wt.%TiO2 coatings
DOI:10.1016/j.jallcom.2013.04.100 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:1 AU: Li, C. G.;Yu, Z. S.;Zhang, Y. F.;Zhang, P. L.;Yan, H.;Lu, Q. H.;Li, W. G.;Wang, Y.;
6:24:4:5 A study on wear resistance and microcrack of the Ti3Al/TiAl + TiC ceramic layer deposited by laser cladding on Ti-6Al-4V alloy
DOI:10.1016/j.apsusc.2010.08.094 JN:APPLIED SURFACE SCIENCE PY:2010 TC:25 AU: Li, Jianing;Chen, Chuanzhong;Squartini, Tiziano;He, Qingshan;
6:24:4:6 The effect of air plasma on barrier dielectric surface in dielectric barrier discharge
DOI:10.1016/j.apsusc.2010.08.125 JN:APPLIED SURFACE SCIENCE PY:2010 TC:9 AU: Wang, Changquan;Zhang, Guixin;Wang, Xinxin;He, Xiangning;
6:24:4:7 Effect of dielectric barrier discharge on semiconductor Si electrode surface
DOI:10.1016/j.apsusc.2010.03.117 JN:APPLIED SURFACE SCIENCE PY:2010 TC:7 AU: Wang, Changquan;Zhang, Guixin;He, Xiangning;
6:24:4:8 Ti-Cu-N hard nanocomposite films prepared by pulse biased arc ion plating
DOI:10.1016/j.apsusc.2011.09.038 JN:APPLIED SURFACE SCIENCE PY:2011 TC:4 AU: Zhao, Yanhui;Wang, Xueqi;Xiao, Jinquan;Yu, Baohai;Li, Fengqi;
6:24:4:9 Effects of Ti and TiC ceramic powder on laser-cladded Ti-6Al-4V in situ intermetallic composite
DOI:10.1016/j.apsusc.2012.09.114 JN:APPLIED SURFACE SCIENCE PY:2012 TC:9 AU: Ochonogor, O. F.;Meacock, C.;Abdulwahab, M.;Pityana, S.;Popoola, A. P. I.;
6:24:4:10 Room temperature plasma oxidation in DCSBD: A new method for preparation of silicon dioxide films at atmospheric pressure
DOI:10.1016/j.mseb.2012.10.017 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2013 TC:6 AU: Skacelova, Dana;Danilov, Vladimir;Schaefer, Jan;Quade, Antje;St'ahel, Pavel;Cernak, Mirko;Meichsner, Juergen;
6:24:4:11 Growth mechanism of the tubular TiB crystals in situ formed in the coatings laser-borided on Ti-6Al-4V alloy
DOI:10.1016/j.matlet.2010.08.014 JN:MATERIALS LETTERS PY:2010 TC:13 AU: Tian, Y. S.;
6:24:5:1:1 Aging effect on microstructure and hardness of two-phase Ni3Al-Ni3V intermetallic alloys containing Ta and Re
DOI:10.1016/j.msea.2011.12.106 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:4 AU: Moronaga, Taku;Ishii, Seiya;Kaneno, Yasuyuki;Tsuda, Hiroshi;Takasugi, Takayuki;
6:24:5:1:2 V content reduced dual two-phase Ni3Al-Ni3V intermetallic alloys
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6:24:5:1:3 Effect of Nb and Ti Addition on Microstructure and Hardness of Dual Two-Phase Intermetallic Alloys Based on Ni3Al-Ni3V Pseudo-Binary Alloy System
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6:24:5:1:4 Effect of NbC addition on mechanical properties of dual two-phase Ni3Al-Ni3V intermetallic alloy
DOI:10.1016/j.msea.2010.06.014 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:4 AU: Kitaura, Y.;Kaneno, Y.;Takasugi, T.;
6:24:5:1:5 Effect of C addition on mechanical properties of dual two-phase Ni3Al-Ni3V intermetallic alloys
DOI:10.1016/j.msea.2011.10.006 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:1 AU: Osada, Y.;Moronaga, T.;Kaneno, Y.;Takasugi, T.;
6:24:5:1:6 Synthesis of Dual Two-Phase Ni3Al-Ni3V Intermetallic Alloys Containing Nb by Pulse Current Sintering
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6:24:5:1:7 V content reduced dual two-phase Ni3Al-Ni3V intermetallic alloys (vol 596, pg 207, 2014)
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6:24:5:2:1 Alloying Behavior of Quaternary Elements in Ni-3(Si,Ti)
DOI:10.2320/matertrans.M2011095 JN:MATERIALS TRANSACTIONS PY:2011 TC:1 AU: Sugimura, H.;Kaneno, Y.;Takasugi, T.;
6:24:5:2:2 Alloying behavior of Ni3M-type GCP compounds
DOI:10.1016/j.jallcom.2010.02.179 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:5 AU: Sugimura, H.;Kaneno, Y.;Takasugi, T.;
6:24:5:2:3 Alloying Behavior of Ni3M-Type Compounds with D0(a) Structure
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6:24:5:2:4 Alloying Behavior of Ni3Nb
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6:24:5:2:5 Alloy design for Al addition on microstructure and mechanical properties of Ni-3(Si,Ti) alloy
DOI:10.1016/j.msea.2011.01.083 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:2 AU: Fujimoto, Yasunori;Kaneno, Yasuyuki;Yoshida, Mitsuhiko;Takasugi, Takayuki;
6:24:6:1 Characterization and electrochemical properties of Ni(Si)/Ni5Si2 multiphase coatings prepared by HVOF spraying
DOI:10.1016/j.apsusc.2012.08.043 JN:APPLIED SURFACE SCIENCE PY:2012 TC:6 AU: Verdian, M. M.;Raeissi, K.;Salehi, M.;
6:24:6:2 Fabrication and corrosion resistance of HVOF-sprayed Ni2Si intermetallic compound
DOI:10.1016/j.apsusc.2013.02.057 JN:APPLIED SURFACE SCIENCE PY:2013 TC:2 AU: Verdian, M. M.;Raeissi, K.;Salehi, M.;
6:24:6:3 Electrochemical impedance spectroscopy of HVOF-sprayed NiTi intermetallic coatings deposited on AISI 1045 steel
DOI:10.1016/j.jallcom.2010.07.132 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:12 AU: Verdian, M. M.;Raeissi, K.;Salehi, M.;
6:24:6:4 Structural and electrical characterization of the nickel silicide films formed at 850 degrees C by rapid thermal annealing of the Ni/Si(100) films
DOI:10.1016/j.apsusc.2010.03.062 JN:APPLIED SURFACE SCIENCE PY:2010 TC:7 AU: Utlu, G.;Artunc, N.;Budak, S.;Tari, S.;
6:24:6:5 X-ray photoelectron spectroscopy study of the passive films formed on thermally sprayed and wrought Inconel 625
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6:24:6:6 The corrosion behavior of intermetallic compounds Ni-3(Si,Ti) and Ni-3(Si,Ti)+2Mo in acidic solutions
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6:24:6:7 Effect of Ta substitution method on the mechanical properties of Ni-3(Si,Ti) intermetallic alloy
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6:24:6:8 Cycle oxidation behavior of nanostructured Ni60-TiB2 composite coating sprayed by HVOF technique
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6:24:7:1 First-principles study of nickel-silicides ordered phases
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6:24:7:2 First-principle study of interfacial properties of Ni-Ni3Si composite
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6:24:7:3 Density functional theory study of the interfacial properties of Ni/Ni3Si eutectic alloy
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6:24:7:4 First-principles studies of the structural, elastic, electronic and thermal properties of Ni3Si
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6:24:7:5 Energy of Ni/Ni3Al interface: A temperature-dependent theoretical study
DOI:10.1016/j.matlet.2012.05.057 JN:MATERIALS LETTERS PY:2012 TC:1 AU: Martins, A. S.;de Campos, M. F.;
6:24:8:1 Effect of Mo coating on the interface and mechanical properties of SiC fiber reinforced Ti6Al4V composites
DOI:10.1016/j.msea.2012.04.072 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:5 AU: Luo, Xian;Yang, Yanqing;Yu, Yingjuan;Wang, Xingrui;Huang, Bin;Chen, Yan;
6:24:8:2 Effect of C/Mo duplex coating on the interface and mechanical properties of SiCf/Ti6Al4V composites
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6:24:8:3 Microstructure evolution of C/Mo double-coated SiC fiber reinforced Ti6Al4V composites
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6:24:8:4 Effect of Cu/Mo duplex coating on the interface and property of SiCf/Ti6Al4V composite
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6:24:8:5 Investigation of interfacial reaction product of SiCf/C/Mo/Ti6Al4V composite through Raman spectroscopy
DOI:10.1063/1.4866463 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Xiao, Zhiyuan;Yang, Yanqing;Luo, Xian;Huang, Bin;
6:24:9:1 Size dependent strengthening mechanisms in sputtered Fe/W multilayers
DOI:10.1063/1.3400130 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:6 AU: Li, Nan;Yu, K. Y.;Lee, J.;Wang, H.;Zhang, X.;
6:24:9:2 Texture, microstructure and anti-wear characteristics in isostructural CrAlSiN/W2N multilayer coatings
DOI:10.1016/j.tsf.2013.03.106 JN:THIN SOLID FILMS PY:2013 TC:0 AU: Chan, Yu-Chen;Chen, Hsien-Wei;Tsai, Yan-Zuo;Duh, Jenq-Gong;Lee, Jyh-Wei;
6:24:9:3 Strengthening mechanism of metallic nanoscale multilayer with negative enthalpy of mixing
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6:24:9:4 Modulation periodicity dependent structure, stress, and hardness in NbN/W2N nanostructured multilayer films
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6:24:9:5 Enhanced hardness of CrAlSiN/W2N superlattice coatings deposited by direct current magnetron sputtering
DOI:10.1557/JMR.2010.0296 JN:JOURNAL OF MATERIALS RESEARCH PY:2010 TC:1 AU: Tsai, Y. Z.;Duh, J. G.;
6:24:9:6 Tribological behavior of CrAlSiN/W2N multilayer coatings deposited by DC magnetron sputtering
DOI:10.1016/j.tsf.2010.05.038 JN:THIN SOLID FILMS PY:2010 TC:4 AU: Tsai, Yan-Zuo;Duh, Jenci-Gong;
6:24:10:1 Phase equilibria of the Ni-Si-P system at 800 degrees C
DOI:10.1016/j.jallcom.2013.06.148 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:1 AU: Liu, Ya;Cao, Dachun;Tu, Hao;Su, Xuping;Wang, Jianhua;Wu, Changjun;Peng, Haoping;
6:24:10:2 A new approach to establish both stable and metastable phase equilibria for fcc ordered/disordered phase transition: application to the Al-Ni and Ni-Si systems
DOI:10.1016/j.matchemphys.2012.04.028 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:5 AU: Yuan, Xiaoming;Zhang, Lijun;Du, Yong;Xiong, Wei;Tang, Ying;Wang, Aijun;Liu, Shuhong;
6:24:10:3 The novel eutectic microstructures of Si-Mn-P ternary alloy
DOI:10.1016/j.jallcom.2009.09.121 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:1 AU: Wu, Yaping;Liu, Xiangfa;
6:24:10:4 Redetermination of the 450 degrees C isothermal section of the Al-P-Zn ternary phase diagram
DOI:10.1016/j.jallcom.2011.11.127 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:2 AU: Zhu, Younian;Wang, Jianhua;Wang, Xinming;Peng, Haoping;Li, Xiaoqin;Li, Zhi;Su, Xuping;
6:24:10:5 Phase diagram study of the Si-P system in Si-rich region
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6:24:11:1 Experimental and ab initio investigations on textured Li-Mn-O spinel thin film cathodes
DOI:10.1016/j.tsf.2014.08.018 JN:THIN SOLID FILMS PY:2014 TC:1 AU: Fischer, J.;Music, D.;Bergfeldt, T.;Ziebert, C.;Ulrich, S.;Seifert, H. J.;
6:24:11:2 High-temperature thin-film calorimetry: a newly developed method applied to lithium ion battery materials
DOI:10.1007/s10853-013-7455-x JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:2 AU: Wulfmeier, Hendrik;Albrecht, Daniel;Ivanov, Svetlozar;Fischer, Julian;Ulrich, Sven;Bund, Andreas;Fritze, Holger;
6:24:11:3 Investigation of the lithium-rich boundary of the Li1+xMn2-xO4 cubic spinel phase in air
DOI:10.1007/s10853-012-7126-3 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:2 AU: Cupid, Damian M.;Lehmann, Toni;Bergfeldt, Thomas;Berndt, Harald;Seifert, Hans J.;
6:25:1:1 Fretting wear of thin steel wires. Part 1: Influence of contact pressure
DOI:10.1016/j.wear.2010.02.017 JN:WEAR PY:2010 TC:21 AU: Cruzado, A.;Hartelt, M.;Waesche, R.;Urchegui, M. A.;Gomez, X.;
6:25:1:2 Finite element modeling of fretting wear scars in the thin steel wires: Application in crossed cylinder arrangements
DOI:10.1016/j.wear.2014.06.019 JN:WEAR PY:2014 TC:2 AU: Cruzado, A.;Urchegui, M. A.;Gomez, X.;
6:25:1:3 Quantitative analyses of fretting fatigue damages of mine rope wires in different corrosive media
DOI:10.1016/j.msea.2013.12.047 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Wang, Dagang;Zhang, Dekun;Zhao, Weijian;Ge, Shirong;
6:25:1:4 Fretting wear behaviors of steel wires in coal mine under different corrosive mediums
DOI:10.1016/j.wear.2011.03.028 JN:WEAR PY:2011 TC:7 AU: Zhang, Dekun;Shen, Yan;Xu, Linmin;Ge, Shirong;
6:25:1:5 Finite element modeling and experimental validation of fretting wear scars in thin steel wires
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6:25:1:6 Fretting wear of thin steel wires. Part 2: Influence of crossing angle
DOI:10.1016/j.wear.2011.04.012 JN:WEAR PY:2011 TC:3 AU: Cruzado, A.;Hartelt, M.;Waesche, R.;Urchegui, M. A.;Gomez, X.;
6:25:1:7 Characterization of the wear of nodular cast iron rollers in contact with wire ropes
DOI:10.1016/j.wear.2013.06.014 JN:WEAR PY:2013 TC:1 AU: Oksanen, V.;Andersson, P.;Valtonen, K.;Holmberg, K.;Kuokkala, V. -T.;
6:25:1:8 Investigation on the fretting fatigue behaviors of steel wires under different strain ratios
DOI:10.1016/j.wear.2013.03.020 JN:WEAR PY:2013 TC:3 AU: Zhang, De-kun;Geng, Hao;Zhang, Ze-feng;Wang, Da-gang;Wang, Song-quan;Ge, Shi-rong;
6:25:1:9 Fretting-corrosion mapping of CP-Ti in Ringer's solution
DOI:10.1016/j.wear.2010.01.026 JN:WEAR PY:2010 TC:5 AU: Kumar, Satendra;Sivakumar, B.;Narayanan, T. S. N. Sankara;Raman, S. Ganesh Sundara;Seshadri, S. K.;
6:25:1:10 Abrasion and fatigue resistance of PDMS containing multiblock polyurethanes after accelerated water exposure at elevated temperature
DOI:10.1016/j.biomaterials.2013.06.049 JN:BIOMATERIALS PY:2013 TC:6 AU: Chaffin, Kimberly A.;Wilson, Charles L.;Himes, Adam K.;Dawson, James W.;Haddad, Tarek D.;Buckalew, Adam J.;Miller, Jennifer P.;Untereker, Darrel F.;Simha, Narendra K.;
6:25:1:11 Influence of an aqueous environment on the fretting behaviour of steel wires used in civil engineering cables
DOI:10.1016/j.wear.2011.01.095 JN:WEAR PY:2011 TC:6 AU: Perier, V.;Dieng, L.;Gaillet, L.;Fouvry, S.;
6:25:1:12 Fretting corrosion behaviour of Ti-6Al-4V alloy in artificial saliva containing varying concentrations of fluoride ions
DOI:10.1016/j.wear.2010.09.008 JN:WEAR PY:2011 TC:18 AU: Sivakumar, B.;Kumar, Satendra;Narayanan, T. S. N. Sankara;
6:25:2:1 Influence of visco-elasto-plastic properties of magnetite on the elastic modulus: Multicyclic indentation and theoretical studies
DOI:10.1016/j.matchemphys.2009.07.033 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2010 TC:25 AU: Chicot, D.;Roudet, F.;Zaoui, A.;Louis, G.;Lepingle, V.;
6:25:2:2 An analysis of the elastic properties of a porous aluminium oxide film by means of indentation techniques
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6:25:2:3 Elastic modulus of TiHfCN thin films by instrumented indentation
DOI:10.1016/j.tsf.2012.08.022 JN:THIN SOLID FILMS PY:2012 TC:4 AU: Chicot, D.;Puchi-Cabrera, E. S.;Aumaitre, R.;Bouscarrat, G.;Dublanche-Tixier, C.;Roudet, F.;Staia, M. H.;
6:25:2:4 A contact area function for Berkovich nanoindentation: Application to hardness determination of a TiHfCN thin film
DOI:10.1016/j.tsf.2014.02.044 JN:THIN SOLID FILMS PY:2014 TC:1 AU: Chicot, D.;N'Jock, M. Yetna;Puchi-Cabrera, E. S.;Iost, A.;Staia, M. H.;Louis, G.;Bouscarrat, G.;Aumaitre, R.;
6:25:2:5 A physically based model for indenter tip shape calibration for nanoindentation
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6:25:2:6 Mechanical characterization of highly porous inorganic solids materials by instrumented micro-indentation
DOI:10.1016/j.actamat.2013.07.005 JN:ACTA MATERIALIA PY:2013 TC:4 AU: Clement, P.;Meille, S.;Chevalier, J.;Olagnon, C.;
6:25:2:7 Influence of porosity on the mechanical properties of microporous beta-TCP bioceramics by usual and instrumented Vickers microindentation
DOI:10.1016/j.jeurceramsoc.2011.02.005 JN:JOURNAL OF THE EUROPEAN CERAMIC SOCIETY PY:2011 TC:10 AU: Tricoteaux, A.;Rguiti, E.;Chicot, D.;Boilet, L.;Descamps, M.;Leriche, A.;Lesage, J.;
6:25:2:8 A New Composition-Processing-Property Relationship for Studying the Tensile Modulus-Phase Plastic Blends
DOI:10.1002/app.33733 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2011 TC:0 AU: Jodeh, Shehdeh;
6:25:3:1 Friction and wear behavior of shot peened surfaces of 36CrNiMo4 and 36NiCrMo16 alloyed steels under dry and lubricated contact conditions
DOI:10.1016/j.apsusc.2013.11.050 JN:APPLIED SURFACE SCIENCE PY:2014 TC:3 AU: Mitrovic, Slobodan;Adamovic, Dragan;Zivic, Fatima;Dzunic, Dragan;Pantic, Marko;
6:25:3:2 Effect of sliding speed and contact pressure on the oxidative wear of austempered ductile iron
DOI:10.1016/j.wear.2011.02.004 JN:WEAR PY:2011 TC:12 AU: Straffelini, G.;Pellizzari, M.;Maines, L.;
6:25:3:3 Effect of SiC particle impact nano-texturing on tribological performance of 304L stainless steel
DOI:10.1016/j.apsusc.2014.06.173 JN:APPLIED SURFACE SCIENCE PY:2014 TC:1 AU: Lorenzo-Martin, C.;Ajayi, O. O.;
6:25:3:4 The effect of surface texturing on reducing the friction and wear of steel under lubricated sliding contact
DOI:10.1016/j.apsusc.2013.02.013 JN:APPLIED SURFACE SCIENCE PY:2013 TC:15 AU: Tang, Wei;Zhou, Yuankai;Zhu, Hua;Yang, Haifeng;
6:25:3:5 Tribological behaviour of shot peened Cu-Ni austempered ductile iron
DOI:10.1016/j.wear.2012.12.027 JN:WEAR PY:2013 TC:2 AU: Zammit, A.;Abela, S.;Wagner, L.;Mhaede, M.;Grech, M.;
6:25:3:6 The relationship between wear of semimetallic friction materials and pearlitic cast iron in dry sliding
DOI:10.1016/j.wear.2013.08.020 JN:WEAR PY:2013 TC:2 AU: Straffelini, G.;Maines, L.;
6:25:3:7 Wear performances of surface hardened PM steel from pre-alloyed powder
DOI:10.1016/j.wear.2012.04.001 JN:WEAR PY:2012 TC:2 AU: Rivolta, B.;Gerosa, R.;Silva, G.;Tavasci, A.;Engstrom, U.;
6:25:3:8 Effects of V addition on improvement of heat shock resistance and wear resistance of Ni-Cr-Mo cast steel brake disc
DOI:10.1016/j.wear.2013.01.029 JN:WEAR PY:2013 TC:2 AU: Harada, N.;Takuma, M.;Tsujikawa, M.;Higashi, K.;
6:25:4:1 Rolling-sliding wear of austempered ductile iron with different strength grades
DOI:10.1016/j.wear.2014.06.015 JN:WEAR PY:2014 TC:1 AU: Zhang, Jiwang;Zhang, Ning;Zhang, Mintang;Zeng, Dongfang;Song, Qingpeng;Lu, Liantao;
6:25:4:2 A study on microstructure and toughness of copper alloyed and.austempered ductile irons
DOI:10.1016/j.msea.2011.04.035 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:6 AU: Hsu, Cheng-Hsun;Lin, Kuan-Ting;
6:25:4:3 Abrasive wear behaviour of SiCp/Al alloy composite in comparison with ausferritic ductile iron
DOI:10.1016/j.wear.2011.05.022 JN:WEAR PY:2011 TC:11 AU: Sahin, Y.;Kilicli, V.;
6:25:4:4 Influence of cooling rate on the microstructure and properties of a new wear resistant carbidic austempered ductile iron (CADI)
DOI:10.1016/j.matchar.2012.07.006 JN:MATERIALS CHARACTERIZATION PY:2012 TC:1 AU: Peng Yun-Cheng;Jin Hui-Jin;Liu Jin-Hai;Li Guo-Lu;
6:25:4:5 Comparison of abrasive wear behavior of ductile iron with different dual matrix structures
DOI:10.1016/j.wear.2009.07.008 JN:WEAR PY:2010 TC:8 AU: Sahin, Yusuf;Kilicli, Volkan;Ozer, Melika;Erdogan, Mehmet;
6:25:4:6 Microstructure and mechanical properties of austempered ductile iron with different strength grades
DOI:10.1016/j.matlet.2013.12.086 JN:MATERIALS LETTERS PY:2014 TC:4 AU: Zhang, Jiwang;Zhang, Ning;Zhang, Mintang;Lu, Liantao;Zeng, Dongfang;Song, Qingpeng;
6:25:5:1 Mechanisms of stainless steels erosion by water droplets
DOI:10.1016/j.wear.2013.03.045 JN:WEAR PY:2013 TC:2 AU: Luiset, B.;Sanchette, F.;Billard, A.;Schuster, D.;
6:25:5:2 Cavitation in impacted drops and jets and the effect on erosion damage thresholds
DOI:10.1016/j.wear.2012.03.006 JN:WEAR PY:2012 TC:9 AU: Field, J. E.;Camus, J. -J.;Tinguely, M.;Obreschkow, D.;Farhat, M.;
6:25:5:3 Understanding Liquid Impingement erosion behaviour of nickel-alumina based thermal spray coatings
DOI:10.1016/j.wear.2013.01.063 JN:WEAR PY:2013 TC:4 AU: Grewal, H. S.;Singh, H.;Agrawal, Anupam;
6:25:5:4 Comparison of cavitation erosion rate with liquid impingement erosion rate
DOI:10.1016/j.wear.2010.04.020 JN:WEAR PY:2010 TC:8 AU: Hattori, Shuji;Takinami, Makoto;
6:25:5:5 Impact stress absorption and load spreading in multi-layered erosion-resistant coatings
DOI:10.1016/j.wear.2009.11.012 JN:WEAR PY:2010 TC:4 AU: Hassani, S.;Bielawski, M.;Beres, W.;Balazinski, M.;Martinu, L.;Klemberg-Sapieha, J. E.;
6:25:5:6 Comparison of liquid impingement results from whirling arm and water-jet rain erosion test facilities
DOI:10.1016/j.wear.2011.02.023 JN:WEAR PY:2011 TC:4 AU: Tobin, E. F.;Young, T. M.;Raps, D.;Rohr, O.;
6:25:5:7 Effect of nozzle geometry on a standard cavitation erosion test using a cavitating jet
DOI:10.1016/j.wear.2012.11.008 JN:WEAR PY:2013 TC:2 AU: Soyama, Hitoshi;
6:25:5:8 Evaluation of erosion resistance for metal-ceramic composites and cermets using a water-jet testing apparatus
DOI:10.1016/j.wear.2010.11.040 JN:WEAR PY:2011 TC:4 AU: Oka, Y. I.;Hayashi, H.;
6:25:6:1 Characterization of homogenous and plastically graded materials with spherical indentation and inverse analysis
DOI:10.1557/jmr.2011.303 JN:JOURNAL OF MATERIALS RESEARCH PY:2012 TC:5 AU: Moussa, Charbel;Bartier, Olivier;Mauvoisin, Gerard;Pilvin, Philippe;Delattre, Guillaume;
6:25:6:2 Evaluation of the tensile properties of a material through spherical indentation: definition of an average representative strain and a confidence domain
DOI:10.1007/s10853-013-7739-1 JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:4 AU: Moussa, Charbel;Hernot, Xavier;Bartier, Olivier;Delattre, Guillaume;Mauvoisin, Gerard;
6:25:6:3 Identification of the hardening law of materials with spherical indentation using the average representative strain for several penetration depths
DOI:10.1016/j.msea.2014.03.123 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Moussa, Charbel;Hernot, Xavier;Bartier, Olivier;Delattre, Guillaume;Mauvoisin, Gerard;
6:25:6:4 Mechanical properties of an Al-91-Mn-6-Nd-3 nanostructured alloy
DOI:10.1016/j.msea.2011.06.003 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:5 AU: Chicot, D.;Voda, M.;Decoopman, X.;Serban, V. A.;Puchi-Cabrera, E. S.;Staia, M. H.;Codrean, C.;
6:25:6:5 Thin film hardness determination using indentation loading curve modelling
DOI:10.1016/j.tsf.2010.05.063 JN:THIN SOLID FILMS PY:2010 TC:14 AU: Chicot, D.;Gil, L.;Silva, K.;Roudet, F.;Puchi-Cabrera, E. S.;Staia, M. H.;Teer, D. G.;
6:25:6:6 Microstructural and elasto-plastic material parameters identification by inverse finite elements method of Ti(1-x)AlxN (0 < x < 1) sputtered thin films from Berkovich nano-indentation experiments
DOI:10.1016/j.tsf.2014.07.037 JN:THIN SOLID FILMS PY:2014 TC:1 AU: Pac, M. -J.;Giljean, S.;Rousselot, C.;Richard, F.;Delobelle, P.;
6:25:6:7 Hall-Petch analysis of dislocation pileups in thin material layers and in nanopolycrystals
DOI:10.1557/jmr.2013.10 JN:JOURNAL OF MATERIALS RESEARCH PY:2013 TC:6 AU: Armstrong, Ronald W.;
6:25:6:8 Correlation between yield stress and hardness of nickel-silicon-boron-based alloys by nanoindentation
DOI:10.1016/j.msea.2014.03.056 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Serban, Viorel-Aurel;Codrean, Cosmin;Voda, Mircea;Chicot, Didier;Decoopman, Xavier;
6:25:7:1 Slurry pot investigation of the influence of erodent characteristics on the erosion resistance of austenitic and duplex stainless steel grades
DOI:10.1016/j.wear.2014.07.006 JN:WEAR PY:2014 TC:3 AU: Lindgren, M.;Perolainen, J.;
6:25:7:2 Influence of microstructure on the erosion and erosion-corrosion characteristics of 316 stainless steel
DOI:10.1016/j.wear.2013.08.007 JN:WEAR PY:2013 TC:4 AU: Wood, R. J. K.;Walker, J. C.;Harvey, T. J.;Wang, S.;Rajahram, S. S.;
6:25:7:3 Chromite vs. magnetite as an erodent for coatings to be applied in steam turbines
DOI:10.1016/j.wear.2012.08.014 JN:WEAR PY:2012 TC:2 AU: Wellman, R. G.;Graca, S.;
6:25:7:4 A study on the evolution of surface and subsurface wear of UNS S31603 during erosion-corrosion
DOI:10.1016/j.wear.2010.11.018 JN:WEAR PY:2011 TC:6 AU: Rajahram, S. S.;Harvey, T. J.;Walker, J. C.;Wang, S. C.;Wood, R. J. K.;Lalev, G.;
6:25:7:5 Erosion-corrosion behaviour of lean duplex stainless steels in 3.5% NaCl solution
DOI:10.1016/j.wear.2012.12.007 JN:WEAR PY:2013 TC:5 AU: Aribo, Sunday;Barker, Richard;Hu, Xinming;Neville, Anne;
6:25:7:6 Wear of hydrotransport lines in Athabasca oil sands
DOI:10.1016/j.wear.2013.01.039 JN:WEAR PY:2013 TC:2 AU: Parent, L. L.;Li, D. Y.;
6:25:7:7 Slurry pot investigation of the influence of erodant characteristics on the erosion resistance of titanium
DOI:10.1016/j.wear.2014.10.005 JN:WEAR PY:2014 TC:0 AU: Lindgren, M.;Perolainen, J.;
6:25:8:1 Experimental characterisation for micromechanical modelling of CoCr stent fatigue
DOI:10.1016/j.biomaterials.2013.09.087 JN:BIOMATERIALS PY:2014 TC:8 AU: Sweeney, Caoimhe A.;O'Brien, Barry;McHugh, Peter E.;Leen, Sean B.;
6:25:8:2 Strain-gradient modelling of grain size effects on fatigue of CoCr alloy
DOI:10.1016/j.actamat.2014.06.044 JN:ACTA MATERIALIA PY:2014 TC:2 AU: Sweeney, C. A.;O'Brien, B.;Dunne, F. P. E.;McHugh, P. E.;Leen, S. B.;
6:25:8:3 Microstructure-sensitive prediction and experimental validation of fretting fatigue
DOI:10.1016/j.wear.2013.05.012 JN:WEAR PY:2013 TC:7 AU: McCarthy, O. J.;McGarry, J. P.;Leen, S. B.;
6:25:8:4 A finite element study of microstructure-sensitive plasticity and crack nucleation in fretting
DOI:10.1016/j.commatsci.2011.03.026 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:7 AU: McCarthy, O. J.;McGarry, J. P.;Leen, S. B.;
6:25:9:1 Evaluation of the elastic modulus of thin film considering the substrate effect and geometry effect of indenter tip
DOI:10.1016/j.commatsci.2011.05.022 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:2 AU: Zheng, Hui;Zheng, Xue-Jun;Song, Shu-Tao;Sun, Jing;Jiao, Fei;Liu, Wei;Wang, Guo-Yang;
6:25:9:2 A new tip area function for instrumented nanoindentation at extremely small contact depths
DOI:10.1016/j.msea.2011.07.025 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:11 AU: Liu, Sheng;Gu, Yuantong;Huang, Han;
6:25:9:3 Identification of elastic parameters of transversely isotropic thin films by combining nanoindentation and FEM analysis
DOI:10.1016/j.commatsci.2010.05.025 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2010 TC:7 AU: Wang, J. S.;Zheng, X. J.;Zheng, H.;Song, S. T.;Zhu, Z.;
6:25:9:4 Evaluation of engineering/piezoelectric constants of piezoelectric thin film by combining nanoindentation test with FEM
DOI:10.1016/j.commatsci.2012.05.001 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:1 AU: Song, S. T.;Zheng, X. J.;Zheng, H.;Liu, W.;
6:25:9:5 Evaluation of the substrate effect on indentation behavior of film/substrate system
DOI:10.1016/j.apsusc.2010.03.108 JN:APPLIED SURFACE SCIENCE PY:2010 TC:5 AU: Wang, J. S.;Zheng, X. J.;Zheng, H.;Zhu, Z.;Song, S. T.;
6:25:9:6 Deconvolution of mechanical properties of thin films from nanoindentation measurement via finite element optimization
DOI:10.1016/j.tsf.2012.11.024 JN:THIN SOLID FILMS PY:2012 TC:1 AU: Liu, Sheng;Huang, Han;Gu, Yuantong;
6:25:10:1 Effect of impact angle and velocity on erosion of API X42 pipeline steel under high abrasive feed rate
DOI:10.1016/j.wear.2014.01.005 JN:WEAR PY:2014 TC:3 AU: Islam, Md. Aminul;Farhat, Zoheir N.;
6:25:10:2 Mapping erosion-corrosion of carbon steel in oil-water solutions: Effects of velocity and applied potential
DOI:10.1016/j.wear.2011.10.008 JN:WEAR PY:2012 TC:7 AU: Stack, M. M.;Abdulrahman, G. H.;
6:25:10:3 Erosion enhanced corrosion and corrosion enhanced erosion of API X-70 pipeline steel
DOI:10.1016/j.wear.2013.01.041 JN:WEAR PY:2013 TC:6 AU: Islam, Md. Aminul;Farhat, Zoheir N.;Ahmed, Elsadig M.;Alfantazi, A. M.;
6:25:10:4 Parametric effects on the erosion-corrosion rate and mechanism of carbon steel pipes in oil sands slurry
DOI:10.1016/j.wear.2011.12.010 JN:WEAR PY:2012 TC:5 AU: Yang, Y.;Cheng, Y. F.;
6:25:10:5 Exploring the erosive wear of X65 carbon steel by acoustic emission method
DOI:10.1016/j.wear.2012.11.036 JN:WEAR PY:2013 TC:6 AU: Ukpai, Jonathan I.;Barker, Richard;Hu, Xinming;Neville, Anne;
6:25:10:6 Study of solid particle erosion on AISI 420 stainless steel using angular silicon carbide and steel round grit particles
DOI:10.1016/j.wear.2013.01.071 JN:WEAR PY:2013 TC:6 AU: Vite-Torres, M.;Laguna-Camacho, J. R.;Baldenebro-Castillo, R. E.;Gallardo-Hernandez, E. A.;Vera-Cardenas, E. E.;Vite-Torres, J.;
6:25:10:7 Solid particle erosion of AISI 304, 316 and 420 stainless steels
DOI:10.1016/j.wear.2012.12.047 JN:WEAR PY:2013 TC:10 AU: Laguna-Camacho, J. R.;Marquina-Chavez, A.;Mendez-Mendez, J. V.;Vite-Torres, M.;Gallardo-Hernandez, E. A.;
6:25:11:1:1 Computational study on the effect of contact geometry on fretting behaviour
DOI:10.1016/j.wear.2010.11.017 JN:WEAR PY:2011 TC:12 AU: Zhang, T.;McHugh, P. E.;Leen, S. B.;
6:25:11:1:2 Finite element analysis of stress singularity in partial slip and gross sliding regimes in fretting wear
DOI:10.1016/j.wear.2014.09.008 JN:WEAR PY:2014 TC:0 AU: Yue, Tongyan;Wahab, M. Abdel;
6:25:11:1:3 The use of AFM for high resolution imaging of macroscopic wear scars
DOI:10.1016/j.wear.2013.11.009 JN:WEAR PY:2014 TC:2 AU: Waesche, Rolf;Hartelt, Manfred;Cappella, Brunero;
6:25:11:2:1 Numerical simulation of the third body in fretting problems
DOI:10.1016/j.wear.2011.02.016 JN:WEAR PY:2011 TC:6 AU: Basseville, Stephanie;Heripre, Eva;Cailletaud, Georges;
6:25:11:2:2 Rough surface and damage mechanics wear modeling using the combined finite-discrete element method
DOI:10.1016/j.wear.2012.12.034 JN:WEAR PY:2013 TC:4 AU: Leonard, Benjamin D.;Sadeghi, Farshid;Shinde, Sachin;Mittelbach, Marc;
6:25:11:2:3 Simulation of fretting wear evolution for fatigue endurance limit estimation of assemblies
DOI:10.1016/j.wear.2014.04.013 JN:WEAR PY:2014 TC:1 AU: Zeise, B.;Liebich, R.;Proelss, M.;
6:25:11:2:4 Experimental and numerical wear studies of porous Reactive Plasma Sprayed Ti-6Al-4V/TiN composite coating
DOI:10.1016/j.wear.2014.01.012 JN:WEAR PY:2014 TC:2 AU: Proudhon, H.;Savkova, J.;Basseville, S.;Guipont, V.;Jeandin, M.;Cailletaud, G.;
6:25:12:1 Erosive wear of boiler steels by sand and ash
DOI:10.1016/j.wear.2014.06.007 JN:WEAR PY:2014 TC:0 AU: Huttunen-Saarivirta, E.;Kinnunen, H.;Tuiremo, J.;Uusitalo, M.;Antonov, M.;
6:25:12:2 Influence of particle impact conditions and temperature on erosion-oxidation of steels at elevated temperatures
DOI:10.1016/j.wear.2011.08.010 JN:WEAR PY:2011 TC:6 AU: Huttunen-Saarivirta, E.;Antonov, M.;Veinthal, R.;Tuiremo, J.;Makela, K.;Siitonen, P.;
6:25:12:3 Characterization of the effects of embedded quartz layer on wear rates in abrasive wear
DOI:10.1016/j.wear.2013.06.019 JN:WEAR PY:2013 TC:2 AU: Heino, Vuokko;Valtonen, Kati;Kivikyto-Reponen, Paivi;Siitonen, Pekka;Kuokkala, Veli-Tapani;
6:25:12:4 Microstructure and elevated-temperature erosion-oxidation behaviour of aluminized 9Cr-1Mo Steel
DOI:10.1016/j.apsusc.2012.07.096 JN:APPLIED SURFACE SCIENCE PY:2012 TC:1 AU: Huttunen-Saarivirta, E.;Honkanen, M.;Tsipas, S. A.;Omar, H.;Tsipas, D.;
6:25:12:5 Challenges of methods and approaches for estimating soil abrasivity in soft ground TBM tunnelling
DOI:10.1016/j.wear.2013.06.022 JN:WEAR PY:2013 TC:2 AU: Jakobsen, P. D.;Lohne, J.;
6:25:12:6 Influence of particle size, density, particle concentration on bend erosive wear in pneumatic conveyors
DOI:10.1016/j.wear.2013.02.014 JN:WEAR PY:2013 TC:3 AU: Macchini, R.;Bradley, M. S. A.;Deng, T.;
6:25:13:1 Effect of carbonitride precipitates on the solid/liquid erosion behaviour of hardfacing alloy
DOI:10.1016/j.apsusc.2013.07.130 JN:APPLIED SURFACE SCIENCE PY:2013 TC:2 AU: Yang, Ke;Yang, Qin;Bao, Yefeng;
6:25:13:2 Slurry erosive wear behaviour of thermally sprayed Inconel-718 coatings by APS process
DOI:10.1016/j.wear.2011.01.057 JN:WEAR PY:2011 TC:7 AU: Ramesh, C. S.;Devaraj, D. S.;Keshavamurthy, R.;Sridhar, B. R.;
6:25:13:3 Influence of nickel on mechanical and slurry erosive wear behaviour of permanent moulded toughened austempered ductile iron
DOI:10.1016/j.wear.2010.12.050 JN:WEAR PY:2011 TC:5 AU: Uma, T. R.;Simha, J. B.;Murthy, K. Narasimha;
6:25:13:4 Low angle scouring erosion behaviour of elastomeric materials
DOI:10.1016/j.wear.2010.12.057 JN:WEAR PY:2011 TC:3 AU: Jones, L. C.;
6:25:13:5 Comparison of some laboratory wear tests and field wear in slurry pumps
DOI:10.1016/j.wear.2012.11.053 JN:WEAR PY:2013 TC:5 AU: Walker, C. I.;Robbie, P.;
6:25:13:6 Mechanical properties of Inconel 625 laser cladded coatings: Depth sensing indentation analysis
DOI:10.1016/j.msea.2014.01.026 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:4 AU: Verdi, D.;Garrido, M. A.;Munez, C. J.;Poza, P.;
6:25:14:1 A new methodology for modelling erosion-corrosion regimes on real surfaces: Gliding down the galvanic series for a range of metal-corrosion systems
DOI:10.1016/j.wear.2009.09.013 JN:WEAR PY:2010 TC:18 AU: Stack, M. M.;Abdelrahman, S. M.;Jana, B. D.;
6:25:14:2 Effects of Cr3C2 addition on the erosion-corrosion behavior of Ti(C,N)-based cermets
DOI:10.1016/j.ceramint.2013.01.016 JN:CERAMICS INTERNATIONAL PY:2013 TC:2 AU: Wan, Weicai;Xiong, Ji;Guo, Zhixing;Dong, Guangbiao;Yi, Chenghong;
6:25:14:3 A CFD model of particle concentration effects on erosion-corrosion of Fe in aqueous conditions
DOI:10.1016/j.wear.2011.06.024 JN:WEAR PY:2011 TC:5 AU: Stack, M. M.;Abdelrahman, S. M.;
6:25:14:4 A note on threshold velocity criteria for modelling the solid particle erosion of WC/Co MMCs
DOI:10.1016/j.wear.2010.12.001 JN:WEAR PY:2011 TC:3 AU: Jana, B. D.;Stack, M. M.;
6:25:14:5 Threshold fracture energy in solid particle erosion
DOI:10.1080/14786435.2013.780667 JN:PHILOSOPHICAL MAGAZINE PY:2013 TC:0 AU: Argatov, I.;Mishuris, G.;Petrov, Yu.;
6:25:15:1 Effect of impact angle and testing time on erosion of stainless steel at higher velocities
DOI:10.1016/j.wear.2014.10.010 JN:WEAR PY:2014 TC:1 AU: Nguyen, Q. B.;Nguyen, V. B.;Lim, C. Y. H.;Trinh, Q. T.;Sankaranarayanan, S.;Zhang, Y. W.;Gupta, M.;
6:25:15:2 Erosion behavior of SiC-WC composites
DOI:10.1016/j.ceramint.2013.11.146 JN:CERAMICS INTERNATIONAL PY:2014 TC:3 AU: Sharma, Sandan Kumar;Kumar, B. Venkata Manoj;Lim, Kwang-Young;Kim, Young-Wook;Nath, S. K.;
6:25:15:3 Solid particle erosion and mechanical properties of stainless steels at elevated temperature
DOI:10.1016/j.wear.2010.12.038 JN:WEAR PY:2011 TC:7 AU: Shimizu, K.;Xinba, Y.;Araya, S.;
6:25:15:4 The solid particle erosion of 12 metals using magnetite erodent
DOI:10.1016/j.wear.2012.01.021 JN:WEAR PY:2012 TC:10 AU: Akbarzadeh, E.;Elsaadawy, E.;Sherik, A. M.;Spelt, J. K.;Papini, M.;
6:25:16:1 Effects of thermal and thermomechanical treatments on sliding wear of graphite crystallised white cast iron
DOI:10.1016/j.wear.2012.11.019 JN:WEAR PY:2013 TC:1 AU: Gao, X. J.;Zhang, Q.;Wei, D. B.;Jiao, S. H.;Jiang, Z. Y.;
6:25:16:2 Sliding wear behavior of a ferritic-pearlitic ductile cast iron with different nodule count
DOI:10.1016/j.wear.2009.10.010 JN:WEAR PY:2010 TC:14 AU: Abedi, H. R.;Fareghi, A.;Saghafian, H.;Kheirandish, S. H.;
6:25:16:3 Sliding wear behavior of Cr-Mo-Cu alloy cast irons with and without nano-additives
DOI:10.1016/j.wear.2011.06.015 JN:WEAR PY:2011 TC:3 AU: Wang, You;Pan, Zhaoyi;Wang, Zheng;Sun, Xiaoguang;Wang, Liang;
6:25:16:4 Dry rolling-sliding wear of austempered cast iron
DOI:10.1016/j.wear.2010.12.018 JN:WEAR PY:2011 TC:5 AU: Straffelini, G.;Giuliari, C.;Pellizzari, M.;Veneri, E.;Bronzato, M.;
6:25:17:1 Numerical and experimental analysis of surface roughness generated by shot peening
DOI:10.1016/j.apsusc.2012.03.111 JN:APPLIED SURFACE SCIENCE PY:2012 TC:21 AU: Bagherifard, Sara;Ghelichi, Ramin;Guagliano, Mario;
6:25:17:2 Application of different fatigue strength criteria on shot peened notched parts. Part 2: nominal and local stress approaches
DOI:10.1016/j.apsusc.2013.10.130 JN:APPLIED SURFACE SCIENCE PY:2014 TC:2 AU: Bagherifard, Sara;Guagliano, Mario;
6:25:17:3 Application of different fatigue strength criteria to shot peened notched components. Part 1: Fracture Mechanics based approaches
DOI:10.1016/j.apsusc.2013.10.131 JN:APPLIED SURFACE SCIENCE PY:2014 TC:3 AU: Bagherifard, Sara;Colombo, Chiara;Guagliano, Mario;
6:25:17:4 Comparison of the Consequences of Shot Peening Treatment Methods on the Surface Layer Characteristics of Ti6246
DOI:10.1002/adem.201100004 JN:ADVANCED ENGINEERING MATERIALS PY:2011 TC:1 AU: Feldmann, Goetz G.;Hennig, Wolfgang;Haubold, Thomas;Zinn, Wolfgang;Scholtes, Berthold;
6:25:18:1 Effect of heat treatment on microstructure and mechanical properties of high boron white cast iron
DOI:10.1016/j.msea.2010.09.092 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:14 AU: Chen Xiang;Li Yanxiang;
6:25:18:2 Effect of tungsten addition on the toughness and hardness of Fe2B in wear-resistant Fe-B-C cast alloy
DOI:10.1016/j.matchar.2012.09.007 JN:MATERIALS CHARACTERIZATION PY:2013 TC:2 AU: Huang, Zhifu;Xing, Jiandong;Lv, Liangliang;
6:25:18:3 The sintering of an Fe-Cr-Ni-B-C powder
DOI:10.1016/j.msea.2010.09.066 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:7 AU: Sercombe, T. B.;Schaffer, G. B.;
6:25:18:4 Supersolidus liquid-phase sintering of ultrahigh-boron high-carbon steels for wear-protection applications
DOI:10.1016/j.msea.2011.10.118 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:6 AU: Roettger, A.;Weber, S.;Theisen, W.;
6:25:19:1 Adaptive finite element simulation of wear evolution in radial sliding bearings
DOI:10.1016/j.wear.2012.08.013 JN:WEAR PY:2012 TC:11 AU: Rezaei, Ali;Van Paepegem, Wim;De Baets, Patrick;Ost, Wouter;Degrieck, Joris;
6:25:19:2 In situ monitoring and prediction of progressive joint wear using Bayesian statistics
DOI:10.1016/j.wear.2011.02.010 JN:WEAR PY:2011 TC:5 AU: An, Dawn;Choi, Joo-Ho;Schmitz, Tony L.;Kim, Nam H.;
6:25:19:3 A stress based damage mechanics model to simulate fretting wear of Hertzian line contact in partial slip
DOI:10.1016/j.wear.2013.08.008 JN:WEAR PY:2013 TC:8 AU: Ghosh, Arnab;Leonard, Ben;Sadeghi, Farshid;
6:25:19:4 Degradation of high loaded oscillating bearings: Numerical analysis and comparison with experimental observations
DOI:10.1016/j.wear.2014.06.004 JN:WEAR PY:2014 TC:0 AU: Massi, Francesco;Bouscharain, N.;Milana, S.;Le Jeune, G.;Maheo, Y.;Berthier, Y.;
6:25:19:5 Analysis of planar multibody systems with revolute joint wear
DOI:10.1016/j.wear.2009.10.014 JN:WEAR PY:2010 TC:37 AU: Mukras, Saad;Kim, Nam H.;Mauntler, Nathan A.;Schmitz, Tony L.;Sawyer, W. Gregory;
6:25:20:1 Tribological properties of magnetite precipitate from oxide scale in hot-rolled microalloyed steel
DOI:10.1016/j.wear.2013.01.015 JN:WEAR PY:2013 TC:5 AU: Yu, Xianglong;Jiang, Zhengyi;Wei, Dongbin;Zhou, Cunlong;Huang, Qingxue;Yang, Daijun;
6:25:20:2 Tribological study of Fe-Cu-Cr-graphite alloy and cast iron railway brake shoes by pin-on-disc technique
DOI:10.1016/j.wear.2009.12.014 JN:WEAR PY:2010 TC:9 AU: Ferrer, C.;Pascual, M.;Busquets, D.;Rayon, E.;
6:25:20:3 An investigation into the tribological behaviour of a work roll material at high temperature
DOI:10.1016/j.wear.2011.06.003 JN:WEAR PY:2011 TC:4 AU: Tieu, Anh Kiet;Zhu, Qiang;Zhu, Hongtao;Lu, Cheng;
6:25:20:4 The effect of oxide scale of stainless steels on friction and surface roughness in hot rolling
DOI:10.1016/j.wear.2010.11.029 JN:WEAR PY:2011 TC:8 AU: Wei, D. B.;Huang, J. X.;Zhang, A. W.;Jiang, Z. Y.;Tieu, A. K.;Shi, X.;Jiao, S. H.;
6:25:20:5 A simulation of wear behaviour of high-speed steel hot rolls by means of high temperature pin-on-disc tests
DOI:10.1016/j.wear.2012.11.032 JN:WEAR PY:2013 TC:3 AU: Zhu, Hongtao;Zhu, Qiang;Anh Kiet Tieu;Kosasih, Buyung;Kong, Charlie;
6:25:21:1 Thermal relaxation behavior of residual stress in laser hardened 17-4PH steel after shot peening treatment
DOI:10.1016/j.apsusc.2011.06.032 JN:APPLIED SURFACE SCIENCE PY:2011 TC:3 AU: Wang, Zhou;Chen, Yanhua;Jiang, Chuanhai;
6:25:21:2 The influence of shot peening on the surface properties of (TiB + TiC)/Ti-6Al-4V
DOI:10.1016/j.apsusc.2013.05.135 JN:APPLIED SURFACE SCIENCE PY:2013 TC:3 AU: Xie, Lechun;Jiang, Chuanhai;Lu, Weijie;
6:25:21:3 Thermal relaxation of residual stresses in shot peened surface layer of (TiB + TiC)/Ti-6Al-4V composite at elevated temperatures
DOI:10.1016/j.msea.2011.04.075 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:4 AU: Xie, Lechun;Jiang, Chuanhai;Ji, Vincent;
6:25:21:4 Investigation on the residual stress and microstructure of (TiB + TiC)/Ti-6Al-4V composite after shot peening
DOI:10.1016/j.msea.2011.01.022 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:8 AU: Xie, Lechun;Jiang, Chuanhai;Lu, Weijie;Zhan, Ke;Chen, Yanhua;
6:25:22:1 A fatigue initiation parameter for gas pipe steel submitted to hydrogen absorption
DOI:10.1016/j.ijhydene.2009.10.063 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2010 TC:14 AU: Capelle, J.;Gilgert, J.;Pluvinage, G.;
6:25:22:2 Influence of sandblasting and hydrogen on tensile and fatigue properties of pipeline API 5L X52 steel
DOI:10.1016/j.ijhydene.2010.11.081 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2011 TC:9 AU: Alhussein, A.;Capelle, J.;Gilgert, J.;Dominiak, S.;Azari, Z.;
6:25:22:3 Influence of silicon and addition elements on the mechanical behavior of ferritic ductile cast iron
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6:25:23:1 Effect of electroless nickel interlayer on wear behavior of CrN/ZrN multilayer films on Cu-alloyed ductile iron
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6:25:23:2 Effects of low-temperature duplex coatings on the abrasive and erosive behavior of ADI
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6:25:23:3 Rolling contact fatigue resistance of PVD CrN and TiN coated austempered ductile iron
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6:25:24:1 Energy conversion efficiency of the pumping kite wind generator
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6:25:24:2 Wear evolution in a stranded rope under cyclic bending: Implications to fatigue life estimation
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6:25:24:3 Determination of kite forces using three-dimensional flight trajectories for ship propulsion
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6:25:25:1 Effect of fretting on fatigue performance of Ti-1023 titanium alloy
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6:25:25:2 The effect of contact edge geometry on fretting fatigue behavior in complete contacts
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6:25:25:3 Analysis of the effect of a textured surface on fretting fatigue
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6:26:1:1 Microstructural features, texture and strengthening mechanisms of nanostructured AA6063 alloy processed by powder metallurgy
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6:26:1:2 Friction stir welding of a P/M Al-Al2O3 nanocomposite: Microstructure and mechanical properties
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6:26:1:3 Plastic deformation mechanism of ultra-fine-grained AA6063 processed by equal-channel angular pressing
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6:26:1:5 Microstructure development in hot deformed AA6082
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6:26:1:6 Hot deformation of ultrafine-grained Al6063/Al2O3 nanocomposites
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6:26:1:7 Microstructure, strengthening mechanisms and hot deformation behavior of an oxide-dispersion strengthened UFG Al6063 alloy
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6:26:1:8 Dynamic restoration and microstructural evolution during hot deformation of a P/M Al6063 alloy
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6:26:1:9 Microstructure development in hot deformed AA6082 (vol 528, pg 2423, 2011)
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6:26:2:1 Constrained groove pressing of low carbon steel: Nano-structure and mechanical properties
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6:26:2:2 Resistance spot welding of ultra-fine grained steel sheets produced by constrained groove pressing: Optimization and characterization
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6:26:2:3 The annealing phenomena and thermal stability of severely deformed steel sheet
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6:26:2:4 Experimental and numerical investigation of Al properties fabricated by CGP process
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6:26:2:5 Combined effect of heat treatment and rolling on pre-strained and SPDed aluminum sheet
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6:26:2:6 On the mechanical properties and microstructure of commercially pure Al fabricated by semi-constrained groove pressing
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6:26:2:7 Mechanical properties and microstructure of resistance spot welded severely deformed low carbon steel
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6:26:2:8 Equivalent strain, microstructure and hardness of H62 brass deformed by constrained groove pressing
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6:26:2:9 Rubber pad-constrained groove pressing process: Experimental and finite element investigation
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6:26:2:10 Response of aluminum processed by extrusion preceded ECAP to isochronal annealing
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6:26:2:11 The effect of galvanizing on the mechanical resistance and fatigue toughness of a spot welded assembly made of AISI410 martensite
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6:26:3:1 A review of numerical analysis of friction stir welding
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6:26:3:2 Back-of-the-envelope calculations in friction stir welding - Velocities, peak temperature, torque, and hardness
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6:26:3:3 Three-dimensional numerical and experimental investigation on friction stir welding processes of ferritic stainless steel
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6:26:3:4 Toward optimum friction stir welding tool shoulder diameter
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6:26:3:5 An analytical model to optimize rotation speed and travel speed of friction stir welding for defect-free joints
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6:26:3:6 Evolution of microstructures and mechanical properties in similar and dissimilar friction stir welding of AA5086 and AA6061
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6:26:3:7 Asymmetric mechanical properties and tensile behaviour prediction of aluminium alloy 5083 friction stir welding joints
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6:26:3:8 Cellular automata finite element (CAFE) model to predict the forming of friction stir welded blanks
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6:26:3:9 Flow visualization and estimation of strain and strain-rate during friction stir process
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6:26:3:10 Numerical simulation of material flow behavior of friction stir welding influenced by rotational tool geometry
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6:26:3:11 Numerical investigation of the tool contact condition during friction stir welding of aerospace aluminium alloy
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6:26:3:12 Elucidating of rotation speed in friction stir welding of pure copper: Thermal modeling
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6:26:3:13 In-Plane Compression Response of Extruded Aluminum 6061-T6 Corrugated Core Sandwich Columns
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6:26:3:14 Numerical analysis of the dwell phase in friction stir welding and comparison with experimental data
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6:26:4:1 Effects of strain rate on dynamic mechanical behavior and microstructure evolution. of 5A02-O aluminum alloy
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6:26:4:2 Experimental study of macro-micro dynamic behaviors of 5A0X aluminum alloys in high velocity deformation
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6:26:4:3 The dynamic and quasi-static mechanical response of three aluminum armor alloys: 5059, 5083 and 7039
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6:26:4:4 Comparative study of the microstructure of 5052 aluminum alloy sheets under quasi-static and high-velocity tension
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6:26:4:5 Strain rate sensitivity and fracture behavior of severely deformed Al-Mn alloy sheets
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6:26:4:6 Multiscale investigation of ductile fracture mechanisms and strain localization under shear loading in 2024-T351 aluminum alloy and 36NiCrMo16 steel
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6:26:4:7 Damage behavior of Ti-6Al-4V wire mesh reinforced 5A06 alloy matrix composites under high speed impact
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6:26:4:8 Influence of Ce addition on impact properties and microstructures of 2519A aluminum alloy
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6:26:4:9 Deformation behavior and microstructure evolution of pure Cu subjected to electromagnetic bulging
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6:26:4:10 Dynamic properties evaluation of 2519A aluminum alloy processed by interrupted aging
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6:26:5:1 Intrinsic stress in ZrN thin films: Evaluation of grain boundary contribution from in situ wafer curvature and ex situ x-ray diffraction techniques
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6:26:5:2 Modeling and simulation of the deposition/relaxation processes of polycrystalline diatomic structures of metallic nitride films
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6:26:5:3 The fundamental relationships between grain orientation, deformation-induced surface roughness and strain localization in an aluminum alloy
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6:26:5:4 Surface morphology evolution during sputter deposition of thin films - lattice Monte Carlo simulations
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6:26:5:5 Strain localization behavior in low-carbon martensitic steel during tensile deformation
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6:26:5:6 On the relationship between surface roughness evolution and size effects in free-standing Cu films with fine microstructure
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6:26:6:1 Failure mode transition in AHSS resistance spot welds. Part II: Experimental investigation and model validation
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6:26:6:2 Failure mode transition in AHSS resistance spot welds. Part I. Controlling factors
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6:26:6:3 Deformation behaviour of spot-welded high strength steels for automotive applications
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6:26:6:4 An investigation of the dynamic separation of spot welds under plane tensile pulses
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6:26:6:5 Susceptibility to interfacial failure mode in similar and dissimilar resistance spot welds of DP600 dual phase steel and low carbon steel during cross-tension and tensile-shear loading conditions
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6:26:7:1 Material flow and core/multi-shell structures in a friction stir welded aluminum alloy with embedded copper markers
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6:26:7:2 Scaling of coupled heat transfer and plastic deformation around the pin in friction stir welding
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6:26:7:3 Characterisation of microstructure, mechanical properties and corrosion behaviour of an AA2219 friction stir weldment
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6:26:7:4 Effect of microstructural feature on the tensile properties and vibration fracture resistance of friction stirred 5083 Alloy
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6:26:8:1 Mechanical and metallurgical effects of in process cooling during friction stir welding of AA7075-T6 butt joints
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6:26:8:2 Evaluation of formability and material characteristics of aluminum alloy friction stir welded tube produced by a novel process
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6:26:8:3 Evolution of microstructures in severely deformed AA 3104 aluminum alloy by multiple constrained compression
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6:26:8:4 Formability and microstructural stability of friction stir welded Al alloy tube during subsequent spinning and post weld heat treatment
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6:26:8:5 Influence of in-process cooling on tensile behaviour of friction stir welded joints of AA7039
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6:26:8:6 FEM based prediction of phase transformations during Friction Stir Welding of Ti6Al4V titanium alloy
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6:26:9:1 Improvement in cavitation erosion resistance of AISI 316L stainless steel by friction stir processing
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6:26:9:2 Cavitation erosion of NiAl-bronze layers generated by friction surfacing
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6:26:9:3 Cavitation erosion of Cr60Ni40 coatings generated by friction surfacing
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6:26:9:4 The role of microstructural characteristics in the cavitation erosion behaviour of laser melted and laser processed Nickel-Aluminium Bronze
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6:26:10:1 Comprehensive analysis of minimum grain size in pure aluminum using friction stir processing
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6:26:10:2 Mechanical properties of severely plastic deformed aluminum sheets joined by friction stir welding
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6:26:10:3 Texture evolution and deformation mechanism in friction stir welding of 2219Al
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6:26:10:4 Cold pressure welding of severely plastically deformed aluminium by divergent extrusion
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6:26:11:1 Material flow and microstructural evolution during friction stir spot welding of AZ31 magnesium alloy
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6:26:11:2 Double side friction stir welding of AA6082 sheets: Microstructure and nanoindentation characterization
DOI:10.1016/j.msea.2013.10.031 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Cabibbo, M.;Forcellese, A.;El Mehtedi, M.;Simoncini, M.;
6:26:11:3 Material flow during friction stir spot welding
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6:26:11:4 Evolution of microstructures and properties of magnesium alloy weldments produced with CO2 laser process
DOI:10.1016/j.msea.2012.03.033 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:4 AU: Lin, Chun-Ming;Tsai, Hsien-Lung;Lee, Chang-Lin;Chou, Di-Shiang;Huang, Jen-Ching;
6:26:11:5 Microstructures and mechanical properties in dissimilar AZ91/AZ31 spot welds
DOI:10.1016/j.matchar.2010.06.016 JN:MATERIALS CHARACTERIZATION PY:2010 TC:16 AU: Yin, Y. H.;Sun, N.;North, T. H.;Hu, S. S.;
6:26:12:1 Effects of thermal boundary conditions in friction stir welded AA7050-T7 sheets
DOI:10.1016/j.msea.2009.10.039 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:26 AU: Upadhyay, P.;Reynolds, A. P.;
6:26:12:2 Effects of forge axis force and backing plate thermal diffusivity on FSW of AA6056
DOI:10.1016/j.msea.2012.08.018 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:4 AU: Upadhyay, P.;Reynolds, A. P.;
6:26:12:3 Through thickness property variations in a thick plate AA7050 friction stir welded joint
DOI:10.1016/j.msea.2012.09.008 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:3 AU: Canaday, Clinton T.;Moore, Matthew A.;Tang, Wei;Reynolds, A. P.;
6:26:12:4 Effects of deep cryogenic treatment and low-temperature aging on the mechanical properties of friction-stir-welded joints of 2024-T351 aluminum alloy
DOI:10.1016/j.msea.2014.04.077 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Wang, Ji;Fu, Ruidong;Li, Yijun;Zhang, Jianfeng;
6:26:12:5 An XPS study of the fluorination of carbon anodes in molten NaF-AlF3-CaF2
DOI:10.1007/s10853-011-5772-5 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:6 AU: Haverkamp, Richard G.;
6:26:13:1 Microstructures in a resistance spot welded high strength dual phase steel
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6:26:13:2 Microstructure-hardness relationship in the fusion zone of TRIP steel welds
DOI:10.1016/j.msea.2012.04.096 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:7 AU: Nayak, S. S.;Baltazar Hernandez, V. H.;Okita, Y.;Zhou, Y.;
6:26:13:3 Improvement of Microstructures and Mechanical Properties of Resistance Spot Welded DP600 Steel by Double Pulse Technology
DOI:10.2320/matertrans.M2011135 JN:MATERIALS TRANSACTIONS PY:2011 TC:1 AU: Zhong, Ning;Liao, Xinshen;Wang, Min;Wu, Yixiong;Rong, Yonghua;
6:26:14:1 On characterisation of local stress-strain properties in friction stir welded aluminium AA 5083 sheets using micro-tensile specimen testing and instrumented indentation technique
DOI:10.1016/j.msea.2010.04.047 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:8 AU: Rao, D.;Heerens, J.;Pinheiro, G. Alves;dos Santos, J. F.;Huber, N.;
6:26:14:2 Use of instrumented indentation testing to study local mechanical properties of 304L SS welded joints subjected to low-cycle fatigue loadings
DOI:10.1016/j.msea.2012.11.077 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: Ye, Duyi;Mi, Feng;Liu, Jianzhong;Xu, Yuandong;Chen, Yinzheng;Xiao, Lei;
6:26:14:3 Determination of local stress-strain properties of resistance spot-welded joints of advanced high-strength steels using the instrumented indentation test
DOI:10.1007/s10853-011-5936-3 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:2 AU: Ullner, Christian;Brauser, Stephan;Subaric-Leitis, Andreas;Weber, Gert;Rethmeier, Michael;
6:26:14:4 Use of instrumented micro-indentation to study the mesoscopic elasto-plastic behavior of GH4145/SQ superalloy during high-temperature cyclic straining
DOI:10.1016/j.msea.2011.05.033 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:3 AU: Ye, Duyi;Xiao, Lei;Cha, Haibo;Xu, Ping;Xu, Yuandong;
6:26:15:1 Three-dimensional visualization of material flow during friction stir welding by two pairs of X-ray transmission systems
DOI:10.1016/j.scriptamat.2011.09.021 JN:SCRIPTA MATERIALIA PY:2011 TC:21 AU: Morisada, Y.;Fujii, H.;Kawahito, Y.;Nakata, K.;Tanaka, M.;
6:26:15:2 Numerical simulation and experimental characterization of friction stir welding on thick aluminum alloy AA2139-T8 plates
DOI:10.1016/j.msea.2013.07.073 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:1 AU: McWilliams, Brandon A.;Yu, Jian H.;Yen, Chian-Fong;
6:27:1 Size-Dependent Bandgap Modulation of ZnO Nanowires by Tensile Strain
DOI:10.1021/nl301897q JN:NANO LETTERS PY:2012 TC:39 AU: Wei, Bin;Zheng, Kun;Ji, Yuan;Zhang, Yuefei;Zhang, Ze;Han, Xiaodong;
6:27:2 Piezotronic Effects on the Optical Properties of ZnO Nanowires
DOI:10.1021/nl303132c JN:NANO LETTERS PY:2012 TC:23 AU: Xu, Shuigang;Guo, Wenhao;Du, Shengwang;Loy, M. M. T.;Wang, Ning;
6:27:3 Tuning the Light Emission from GaAs Nanowires over 290 meV with Uniaxial Strain
DOI:10.1021/nl303694c JN:NANO LETTERS PY:2013 TC:30 AU: Signorello, Giorgio;Karg, Siegfried;Bjoerk, Mikael T.;Gotsmann, Bernd;Riel, Heike;
6:27:4 Size-Dependent Correlations between Strain and Phonon Frequency in Individual ZnO Nanowires
DOI:10.1021/nn403378g JN:ACS NANO PY:2013 TC:9 AU: Fu, Xue-Wen;Liao, Zhi-Min;Liu, Ren;Xu, Jun;Yu, Dapeng;
6:27:5 Exciton Drift in Semiconductors under Uniform Strain Gradients: Application to Bent ZnO Microwires
DOI:10.1021/nn4062353 JN:ACS NANO PY:2014 TC:9 AU: Fu, Xuewen;Jacopin, Gwenole;Shahmohammadi, Mehran;Liu, Ren;Benameur, Malik;Ganiere, Jean-Daniel;Feng, Ji;Guo, Wanlin;Liao, Zhi-Min;Deveaud, Benoit;Yu, Dapeng;
6:27:6 Probing Strain in Bent Semiconductor Nanowires with Raman Spectroscopy
DOI:10.1021/nl904040y JN:NANO LETTERS PY:2010 TC:33 AU: Chen, Jianing;Conache, Gabriela;Pistol, Mats-Erik;Gray, Struan M.;Borgstrom, Magnus T.;Xu, Hongxing;Xu, H. Q.;Samuelson, Lars;Hakanson, Ulf;
6:27:7 Tailoring Exciton Dynamics by Elastic Strain- Gradient in Semiconductors
DOI:10.1002/adma.201305058 JN:ADVANCED MATERIALS PY:2014 TC:7 AU: Fu, Xuewen;Su, Cong;Fu, Qiang;Zhu, Xinli;Zhu, Rui;Liu, Chuanpu;Liao, Zhimin;Xu, Jun;Guo, Wanlin;Feng, Ji;Li, Ju;Yu, Dapeng;
6:27:8 Elastically strained nanowires and atomic sheets
DOI:10.1557/mrs.2014.6 JN:MRS BULLETIN PY:2014 TC:4 AU: Yu, Dapeng;Feng, Ji;Hone, James;
6:27:9 Strain-Gradient Effect on Energy Bands in Bent ZnO Microwires
DOI:10.1002/adma.201104372 JN:ADVANCED MATERIALS PY:2012 TC:24 AU: Han, Xiaobing;Kou, Liangzhi;Zhang, Zhuhua;Zhang, Ziyue;Zhu, Xinli;Xu, Jun;Liao, Zhimin;Guo, Wanlin;Yu, Dapeng;
6:27:10 Strain distribution in bent ZnO microwires
DOI:10.1063/1.3544939 JN:APPLIED PHYSICS LETTERS PY:2011 TC:20 AU: Dietrich, C. P.;Lange, M.;Kluepfel, F. J.;von Wenckstern, H.;Schmidt-Grund, R.;Grundmann, M.;
6:27:11 Localized suppression of longitudinal-optical-phonon-exciton coupling in bent ZnO nanowires
DOI:10.1088/0957-4484/21/44/445706 JN:NANOTECHNOLOGY PY:2010 TC:26 AU: Yan, Bin;Chen, Rui;Zhou, Weiwei;Zhang, Jixuan;Sun, Handong;Gong, Hao;Yu, Ting;
6:27:12 Strain-Induced Large Exciton Energy Shifts in Buckled CdS Nanowires
DOI:10.1021/nl401860f JN:NANO LETTERS PY:2013 TC:10 AU: Sun, Liaoxin;Kim, Do Hyun;Oh, Kyu Hwan;Agarwal, Ritesh;
6:27:13 Reversible Strain-Induced Electron-Hole Recombination in Silicon Nanowires Observed with Femtosecond Pump-Probe Microscopy
DOI:10.1021/nl5026166 JN:NANO LETTERS PY:2014 TC:2 AU: Grumstrup, Erik M.;Gabriel, Michelle M.;Pinion, Christopher W.;Parker, James K.;Cahoon, James F.;Papanikolas, John M.;
6:27:14 Strain effects in a single ZnO microwire with wavy configurations
DOI:10.1088/0957-4484/24/45/455703 JN:NANOTECHNOLOGY PY:2013 TC:3 AU: Park, Jong Bae;Hong, Woong-Ki;Bae, Tae Sung;Sohn, Jung Inn;Cha, SeungNam;Kim, Jong Min;Yoon, Jongwon;Lee, Takhee;
6:27:15 Strain-Induced Pseudoheterostructure Nanowires Confining Carriers at Room Temperature with Nanoscale-Tunable Band Profiles
DOI:10.1021/nl401042n JN:NANO LETTERS PY:2013 TC:18 AU: Nam, Donguk;Sukhdeo, David S.;Kang, Ju-Hyung;Petykiewicz, Jan;Lee, Jae Hyung;Jung, Woo Shik;Vuckovic, Jelena;Brongersma, Mark L.;Saraswat, Krishna C.;
6:27:16 The Piezotronic Effect of Zinc Oxide Nanowires Studied by In Situ TEM
DOI:10.1002/adma.201104420 JN:ADVANCED MATERIALS PY:2012 TC:25 AU: Yang, Shize;Wang, Lifen;Tian, Xuezeng;Xu, Zhi;Wang, Wenlong;Bai, Xuedong;Wang, Enge;
6:27:17 Imaging and characterization of piezoelectric potential in a single bent ZnO microwire
DOI:10.1063/1.4896546 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Wang, Chiang-Lun;Tsai, Shu-Ju;Chen, Jhih-Wei;Shiu, Hong-Wei;Chang, Lo-Yueh;Lin, Kai-Hsiang;Hsu, Hsu-Cheng;Chen, Yi-Chun;Chen, Chia-Hao;Wu, Chung-Lin;
6:27:18 Hopping process of bound excitons under an energy gradient
DOI:10.1063/1.4863319 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Jacopin, Gwenole;Shahmohammadi, Mehran;Ganiere, Jean-Daniel;Deveaud, Benoit;
6:27:19 Size-dependent strain effects on electronic and optical properties of ZnO nanowires
DOI:10.1063/1.3464974 JN:APPLIED PHYSICS LETTERS PY:2010 TC:18 AU: Yang, Yurong;Yan, X. H.;Xiao, Yang;Lu, Di;
6:27:20 Probing the strain effect on near band edge emission of a curved ZnO nanowire via spatially resolved cathodoluminescence
DOI:10.1088/0957-4484/21/21/215701 JN:NANOTECHNOLOGY PY:2010 TC:25 AU: Xue, Haizhou;Pan, Nan;Li, Ming;Wu, Yukun;Wang, Xiaoping;Hou, J. G.;
6:27:21 First-principles study of uniaxial strained and bent ZnO wires
DOI:10.1103/PhysRevB.89.195135 JN:PHYSICAL REVIEW B PY:2014 TC:0 AU: Adeagbo, Waheed A.;Thomas, Stefan;Nayak, Sanjeev K.;Ernst, Arthur;Hergert, Wolfram;
6:27:22 Uniaxial strain modulated band gap of ZnO nanostructures
DOI:10.1063/1.3435479 JN:APPLIED PHYSICS LETTERS PY:2010 TC:12 AU: Li, S.;Jiang, Q.;Yang, G. W.;
6:27:23 Oxygen induced strained ZnO nanoparticles: an investigation of Raman scattering and visible photoluminescence
DOI:10.1039/c4tc00566j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:0 AU: Gaikwad, Shrikrushna Shivaji;Gandhi, Ashish Chhaganlal;Pandit, Swarada D.;Pant, Jayashree;Chan, Ting-Shan;Cheng, Chia-Liang;Ma, Yuan-Ron;Wu, Sheng Yun;
6:27:24 Facet-dependent optical properties of nanostructured ZnO
DOI:10.1016/j.matchemphys.2014.06.069 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:2 AU: Wang, Lei;Li, Haibo;Xu, Shuling;Yue, Qiaoli;Liu, Jifeng;
6:27:25 Tensile Strained Germanium Nanowires Measured by Photocurrent Spectroscopy and X-ray Microdiffraction
DOI:10.1021/nl5048219 JN:NANO LETTERS PY:2015 TC:0 AU: Guilloy, Kevin;Pauc, Nicolas;Gassenq, Alban;Gentile, Pascal;Tardif, Samuel;Rieutord, Francois;Calvo, Vincent;
6:27:26 Charge carrier separation induced by intrinsic surface strain in pristine ZnO nanowires
DOI:10.1063/1.3467262 JN:APPLIED PHYSICS LETTERS PY:2010 TC:8 AU: Kou, Liangzhi;Li, Chun;Zhang, Zi-Yue;Chen, Changfeng;Guo, Wanlin;
6:27:27 Constructing a Metallic/Semiconducting TaB2/Ta2O5 Core/Shell Heterostructure for Photocatalytic Hydrogen Evolution
DOI:10.1002/aenm.201400057 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:1 AU: Yang, Yongqiang;Sun, Chenghua;Wang, Lianzhou;Liu, Zhibo;Liu, Gang;Ma, Xiuliang;Cheng, Hui-Ming;
6:27:28 In-situ optical transmission electron microscope study of exciton phonon replicas in ZnO nanowires by cathodoluminescence
DOI:10.1063/1.4893444 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Yang, Shize;Tian, Xuezeng;Wang, Lifen;Wei, Jiake;Qi, Kuo;Li, Xiaomin;Xu, Zhi;Wang, Wenlong;Zhao, Jimin;Bai, Xuedong;Wang, Enge;
6:27:29 Tunneling dynamics of excitons in random semiconductor alloys
DOI:10.1103/PhysRevB.87.035134 JN:PHYSICAL REVIEW B PY:2013 TC:1 AU: Mueller, Alexander;Grundmann, Marius;
6:27:30 Resonant exciton-phonon coupling in ZnO nanorods at room temperature
DOI:10.1063/1.3628347 JN:AIP ADVANCES PY:2011 TC:2 AU: Chakraborty, Soumee;Dhara, S.;Ravindran, T. R.;Pal, S. Sarkar;Kamruddin, M.;Tyagi, A. K.;
6:27:31 Symmetrically tunable optical properties of InGaN/GaN multiple quantum disks by an external stress
DOI:10.1063/1.4709397 JN:APPLIED PHYSICS LETTERS PY:2012 TC:1 AU: Shih, H. Y.;Chen, Y. F.;Lin, T. Y.;
6:27:32 Study of Radiative Defects Using Current-Voltage Characteristics in ZnO Rods Catalytically Grown on 4H-p-SiC
DOI:10.1155/2010/817201 JN:JOURNAL OF NANOMATERIALS PY:2010 TC:7 AU: Bano, N.;Hussain, I.;Nur, O.;Willander, M.;Klason, P.;
6:27:33 Transforming graphite to nanoscale diamonds by a femtosecond laser pulse
DOI:10.1063/1.3678190 JN:APPLIED PHYSICS LETTERS PY:2012 TC:5 AU: Nuske, R.;Jurgilaitis, A.;Enquist, H.;Harb, M.;Fang, Y.;Hakanson, U.;Larsson, J.;
6:28:1:1 EBSD, SEM and FIB characterisation of subsurface deformation during tribocorrosion of stainless steel in sulphuric acid
DOI:10.1016/j.wear.2010.04.023 JN:WEAR PY:2010 TC:26 AU: Perret, J.;Boehm-Courjault, E.;Cantoni, M.;Mischler, S.;Beaudouin, A.;Chitty, W.;Vernot, J. -P.;
6:28:1:2 Multi-degradation behavior of austenitic and super duplex stainless steel - The effect of 4-point static and cyclic bending applied to a simulated seawater tribocorrosion system
DOI:10.1016/j.wear.2012.02.016 JN:WEAR PY:2012 TC:4 AU: von der Ohe, C. B.;Johnsen, R.;Espallargas, N.;
6:28:1:3 Modeling the multi-degradation mechanisms of combined tribocorrosion interacting with static and cyclic loaded surfaces of passive metals exposed to seawater
DOI:10.1016/j.wear.2010.06.010 JN:WEAR PY:2010 TC:8 AU: von der Ohe, C. B.;Johnsen, R.;Espallargas, N.;
6:28:1:4 A multi-degradation test rig for studying the synergy effects of tribocorrosion interacting with 4-point static and cyclic bending
DOI:10.1016/j.wear.2011.07.002 JN:WEAR PY:2011 TC:2 AU: von der Ohe, C. B.;Johnsen, R.;Espallargas, N.;
6:28:1:5 Dry sliding tribological properties of nanostructured copper subjected to dynamic plastic deformation
DOI:10.1016/j.wear.2010.12.020 JN:WEAR PY:2011 TC:10 AU: Yao, B.;Han, Z.;Li, Y. S.;Tao, N. R.;Lu, K.;
6:28:1:6 Dry wear and tribocorrosion mechanisms of pulsed plasma nitrided Ni-Cr alloy
DOI:10.1016/j.wear.2010.12.008 JN:WEAR PY:2011 TC:6 AU: Espallargas, N.;Mischler, S.;
6:28:1:7 Dry sliding tribological properties and subsurface structure of nanostructured copper at liquid nitrogen temperature
DOI:10.1016/j.wear.2012.11.072 JN:WEAR PY:2013 TC:0 AU: Yao, B.;Han, Z.;Lu, K.;
6:28:1:8 Mechanical and chemical mechanisms in the tribocorrosion of a Stellite type alloy
DOI:10.1016/j.wear.2013.04.007 JN:WEAR PY:2013 TC:4 AU: Maldonado, Sandra Guadalupe;Mischler, Stefano;Cantoni, Marco;Chitty, Walter-John;Falcand, Carole;Hertz, Dominique;
6:28:1:9 Wear and tribocorrosion behaviour of 304L SS, Zr-702, Zircaloy-4 and Ti-grade2
DOI:10.1016/j.wear.2013.11.051 JN:WEAR PY:2014 TC:6 AU: Priya, R.;Mallika, C.;Mudali, U. Kamachi;
6:28:2:1 Subsurface sliding wear damage characterization in Al-Si alloys using focused ion beam and cross-sectional TEM techniques
DOI:10.1016/j.wear.2010.09.007 JN:WEAR PY:2011 TC:14 AU: Meng-Burany, X.;Perry, T. A.;Sachdev, A. K.;Alpas, A. T.;
6:28:2:2 Effect of bio-fuel (E85) addition on lubricated sliding wear mechanisms of a eutectic Al-Si alloy
DOI:10.1016/j.wear.2013.12.011 JN:WEAR PY:2014 TC:5 AU: Banerji, A.;Edrisy, A.;Francis, V.;Alpas, A. T.;
6:28:2:3 Investigation of wear induced surface and subsurface deformation in a linerless Al-Si engine
DOI:10.1016/j.wear.2010.04.012 JN:WEAR PY:2010 TC:6 AU: Slattery, B. E.;Edrisy, A.;Perry, T.;
6:28:2:4 Ultra-mild wear mechanisms of Al-12.6 wt.% Si alloys at elevated temperature
DOI:10.1016/j.wear.2011.01.091 JN:WEAR PY:2011 TC:4 AU: Dey, S. K.;Lukitsch, M. J.;Balogh, M. P.;Meng-Burany, X.;Alpas, A. T.;
6:28:2:5 Role of sliding-induced tribofilms on fracture of particles in aluminium-silicon alloys
DOI:10.1016/j.wear.2013.01.081 JN:WEAR PY:2013 TC:1 AU: Bhattacharya, S.;Alpas, A. T.;
6:28:2:6 Sliding wear mechanisms of magnesium composites AM60 reinforced with Al2O3 fibres under ultra-mild wear conditions
DOI:10.1016/j.wear.2013.01.091 JN:WEAR PY:2013 TC:7 AU: Banerji, A.;Hu, H.;Alpas, A. T.;
6:28:2:7 The influence of start-stop transient velocity on the friction and wear behaviour of a hyper-eutectic Al-Si automotive alloy
DOI:10.1016/j.wear.2012.11.007 JN:WEAR PY:2013 TC:1 AU: Walker, J. C.;Kamps, T. J.;Wood, R. J. K.;
6:28:2:8 Subsurface characteristics of a Fe-0.4 wt%C martenstic steel abraded with nanoindentation and cross-sectional TEM techniques
DOI:10.1016/j.wear.2013.03.006 JN:WEAR PY:2013 TC:0 AU: Katsuki, Futoshi;
6:28:2:9 Tribological functionality of aluminium sliding materials with hard phases under lubricated conditions
DOI:10.1016/j.wear.2012.11.048 JN:WEAR PY:2013 TC:1 AU: Gruen, Florian;Summer, Florian;Pondicherry, Kartik S.;Godor, Istvan;Offenbecher, Martin;Laine, Emmanuel;
6:28:3:1 Micro-abrasion-corrosion of a Co-Cr/UHMWPE couple in Ringer's solution: An approach to construction of mechanism and synergism maps for application to bio-implants
DOI:10.1016/j.wear.2010.04.022 JN:WEAR PY:2010 TC:20 AU: Stack, M. M.;Rodling, J.;Mathew, M. T.;Jawan, H.;Huang, W.;Park, G.;Hodge, C.;
6:28:3:2 Wear of CoCrMo alloys used in metal-on-metal hip joints: A tribocorrosion appraisal
DOI:10.1016/j.wear.2012.11.061 JN:WEAR PY:2013 TC:26 AU: Mischler, Stefano;Igual Munoz, Anna;
6:28:3:3 Construction of a tribocorrosion test apparatus for the hip joint: Validation, test methodology and analysis
DOI:10.1016/j.wear.2011.01.085 JN:WEAR PY:2011 TC:14 AU: Mathew, M. T.;Uth, T.;Hallab, N. J.;Pourzal, R.;Fischer, A.;Wimmer, M. A.;
6:28:3:4 Bio-tribocorrosion mechanisms in orthopaedic devices: Mapping the micro-abrasion-corrosion behaviour of a simulated CoCrMo hip replacement in calf serum solution
DOI:10.1016/j.wear.2014.04.016 JN:WEAR PY:2014 TC:4 AU: Sadiq, K.;Black, R. A.;Stack, M. M.;
6:28:3:5 Tribo-corrosion mechanisms of stainless steel in soft drinks
DOI:10.1016/j.wear.2010.09.012 JN:WEAR PY:2010 TC:3 AU: Hodge, C.;Stack, M. M.;
6:28:3:6 Investigation of the dynamic response in a dry friction process using a rotating stick-slip tester
DOI:10.1016/j.wear.2010.11.022 JN:WEAR PY:2011 TC:2 AU: Neis, P. D.;De Baets, P.;Ost, W.;Delgado, Y. Perez;Loccufier, M.;Al-Bender, F.;Ferreira, N. F.;Lorini, F. J.;
6:28:3:7 Corrosion-wear evaluation of a UHMWPE/Co-Cr couple in sliding contact under relatively low contact stress in physiological saline solution
DOI:10.1016/j.wear.2010.11.014 JN:WEAR PY:2011 TC:3 AU: Figueiredo-Pina, Celio Gabriel;Matos Neves, Armanda Agostinho;Bandarra das Neves, Bruno Miguel;
6:28:4:1 Fretting-corrosion behavior of beta titanium alloys in simulated synovial fluid
DOI:10.1016/j.wear.2011.05.010 JN:WEAR PY:2011 TC:16 AU: Diomidis, N.;Mischler, S.;More, N. S.;Roy, M.;Paul, S. N.;
6:28:4:2 Tribocorrosion of stainless steel in sulfuric acid: Identification of corrosion-wear components and effect of contact area
DOI:10.1016/j.wear.2010.03.010 JN:WEAR PY:2010 TC:35 AU: Diomidis, N.;Celis, J. -P;Ponthiaux, P.;Wenger, F.;
6:28:4:3 Tribo-electrochemical characterization of metallic biomaterials for total joint replacement
DOI:10.1016/j.actbio.2011.09.034 JN:ACTA BIOMATERIALIA PY:2012 TC:18 AU: Diomidis, N.;Mischler, S.;More, N. S.;Roy, Manish;
6:28:4:4 Study of cellular dynamics on polarized CoCrMo alloy using time-lapse live-cell imaging
DOI:10.1016/j.actbio.2013.06.040 JN:ACTA BIOMATERIALIA PY:2013 TC:2 AU: Haeri, Morteza;Gilbert, Jeremy L.;
6:28:4:5 Electrochemical control of cell death by reduction-induced intrinsic apoptosis and oxidation-induced necrosis on CoCrMo alloy in vitro
DOI:10.1016/j.biomaterials.2012.05.054 JN:BIOMATERIALS PY:2012 TC:7 AU: Haeri, Morteza;Woellert, Torsten;Langford, George M.;Gilbert, Jeremy L.;
6:28:5:1 Cr atom diffusion in tribolayer T10 steel induced by dry sliding against 20CrMnTi steel
DOI:10.1016/j.apsusc.2012.12.147 JN:APPLIED SURFACE SCIENCE PY:2013 TC:2 AU: Wang, Xin;Mao, Dandan;Wei, Xicheng;Wang, Wurong;
6:28:5:2 Flash temperature measurement during dry friction process at high sliding speed
DOI:10.1016/j.wear.2010.01.019 JN:WEAR PY:2010 TC:13 AU: Sutter, G.;Ranc, N.;
6:28:5:3 Atomic diffusion of gradient ultrafine structured surface layer produced by T10 steel rubbing against 20CrMnTi steel
DOI:10.1016/j.wear.2013.04.034 JN:WEAR PY:2013 TC:0 AU: Wang, Xin;Wei, Xicheng;Yang, Xuerui;Cheng, Zhengbang;Wang, Wurong;
6:28:5:4 Formation of sliding friction-induced deformation layer with nanocrystalline structure in T10 steel against 20CrMnTi steel
DOI:10.1016/j.apsusc.2013.04.165 JN:APPLIED SURFACE SCIENCE PY:2013 TC:1 AU: Wang, Xin;Wei, Xicheng;Hong, Xiaolu;Yang, Jiaoyuan;Wang, Wurong;
6:28:5:5 High plastically deformed sub-surface tribozones in sliding experiments
DOI:10.1016/j.wear.2013.10.008 JN:WEAR PY:2014 TC:0 AU: Cihak-Bayr, U.;Mozdzen, G.;Badisch, E.;Merstallinger, A.;Winkelmann, H.;
6:28:5:6 Analysis of the high speed sliding interaction between titanium alloy and tantalum
DOI:10.1016/j.wear.2012.11.070 JN:WEAR PY:2013 TC:3 AU: List, G.;Sutter, G.;Arnoux, J. J.;
6:28:6:1 Fretting-corrosion between 316L SS and PMMA: Influence of ionic strength, protein and electrochemical conditions on material wear. Application to orthopaedic implants
DOI:10.1016/j.wear.2011.01.082 JN:WEAR PY:2011 TC:19 AU: Pellier, J.;Geringer, J.;Forest, B.;
6:28:6:2 Friction/fretting-corrosion mechanisms: Current trends and outlooks for implants
DOI:10.1016/j.matlet.2014.06.167 JN:MATERIALS LETTERS PY:2014 TC:2 AU: Geringer, J.;Macdonald, D. D.;
6:28:6:3 Wear behavior of PAEK, poly(aryl-ether-ketone), under physiological conditions, outlooks for performing these materials in the field of hip prosthesis
DOI:10.1016/j.wear.2011.05.034 JN:WEAR PY:2011 TC:15 AU: Geringer, Jean;Tatkiewicz, Witold;Rouchouse, G.;
6:28:6:4 Atomic force microscopy investigations on pits and debris related to fretting-corrosion between 316L SS and PMMA
DOI:10.1016/j.wear.2012.05.008 JN:WEAR PY:2012 TC:7 AU: Geringer, J.;Pellier, J.;Cleymand, F.;Forest, B.;
6:28:6:5 Fretting corrosion with proteins: The role of organic coating on the synergistic mechanisms
DOI:10.1016/j.tsf.2012.09.095 JN:THIN SOLID FILMS PY:2013 TC:1 AU: Geringer, Jean;Pellier, Julie;Taylor, Matthew L.;Macdonald, Digby D.;
6:28:6:6 Detailed three-dimensional size and shape characterisation of UHMWPE wear debris
DOI:10.1016/j.wear.2010.12.005 JN:WEAR PY:2011 TC:6 AU: Gladkis, Laura G.;Timmers, Heiko;Scarvell, Jennie M.;Smith, Paul N.;
6:28:7:1 Tribocorrosion behaviour of AISI 304 stainless steel in 0.5 M NaCl solution
DOI:10.1016/j.matchemphys.2011.03.063 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2011 TC:17 AU: Sun, Y.;Rana, Vipul;
6:28:7:2 Corrosion and tribocorrosion behavior of Ti/TiN PVD coating on 316L stainless steel substrate in Ringer's solution
DOI:10.1016/j.matchemphys.2014.08.025 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:1 AU: Naghibi, S. A.;Raeissi, K.;Fathi, M. H.;
6:28:7:3 Analysis of the tribocorrosion mechanisms in a pin-on-plate combination on the example of AISI304 steel
DOI:10.1016/j.wear.2012.07.013 JN:WEAR PY:2012 TC:3 AU: Stachowiak, Arkadiusz;Zwierzycki, Wiestaw;
6:28:7:4 A new experimental technique for quantifying the galvanic coupling effects on stainless steel during tribocorrosion under equilibrium conditions
DOI:10.1016/j.wear.2013.08.026 JN:WEAR PY:2013 TC:2 AU: Espallargas, N.;Johnsen, R.;Torres, C.;Munoz, A. I.;
6:28:7:5 The study of corrosion-wear mechanism of Ni-W-P alloy
DOI:10.1016/j.wear.2013.12.024 JN:WEAR PY:2014 TC:5 AU: He, F. J.;Fang, Y. Z.;Jin, S. J.;
6:28:7:6 Effect of Cr interlayer on the adhesion and corrosion enhancement of nanocomposite TiN-based coatings deposited on stainless steel 410
DOI:10.1016/j.tsf.2010.12.020 JN:THIN SOLID FILMS PY:2011 TC:4 AU: Li, D.;Guruvenket, S.;Hassani, S.;Bousser, E.;Azzi, M.;Szpunar, J. A.;Klemberg-Sapieha, J. E.;
6:28:7:7 Effect of orthophosphate addition on the tribocorrosion of copper in synthetic tap water solution
DOI:10.1016/j.wear.2013.07.006 JN:WEAR PY:2013 TC:0 AU: Mary, N.;Dalbert, V.;Boissy, C.;Normand, B.;
6:28:8:1 Fretting wear of Mg-Li-Al based alloys
DOI:10.1016/j.wear.2014.06.012 JN:WEAR PY:2014 TC:3 AU: Sikdar, Koushik;Shekhar, Shashank;Balani, Kantesh;
6:28:8:2 Friction and wear behavior of surface nanocrystallized aluminium alloy under dry sliding condition
DOI:10.1016/j.mseb.2009.11.011 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2010 TC:13 AU: Prakash, N. Arun;Gnanamoorthy, R.;Kamaraj, M.;
6:28:8:3 Diffusion behavior of aluminum in the surface layer of iron processed by shot peening
DOI:10.1016/j.matlet.2010.03.046 JN:MATERIALS LETTERS PY:2010 TC:3 AU: Zhong, Cheng;Liu, Lei;Wu, Yating;Deng, Yida;Shen, Bin;Shu, Baipo;Hu, Wenbin;
6:28:8:4 Fretting wear behavior of fine grain structured aluminium alloy formed by oil jet peening process under dry sliding condition
DOI:10.1016/j.wear.2012.07.026 JN:WEAR PY:2012 TC:1 AU: Prakash, N. Arun;Gnanamoorthy, R.;Kamaraj, M.;
6:28:8:5 Dual-rotary fretting wear of 7075 alloy in media of oil and water
DOI:10.1016/j.wear.2013.01.017 JN:WEAR PY:2013 TC:1 AU: Shen, M. X.;Cai, Z. B.;Peng, J. F.;Song, C.;Mo, J. L.;Shen, H. M.;Zhu, M. H.;
6:28:8:6 An experiment investigation on dual rotary fretting of medium carbon steel
DOI:10.1016/j.wear.2011.01.047 JN:WEAR PY:2011 TC:3 AU: Shen, M. X.;Xie, X. Y.;Cai, Z. B.;Zheng, J. F.;Zhu, M. H.;
6:28:9:1 Diffusivity determination in bulk materials on nanometric length scales using neutron reflectometry
DOI:10.1103/PhysRevB.85.214102 JN:PHYSICAL REVIEW B PY:2012 TC:2 AU: Hueger, E.;Rahn, J.;Stahn, J.;Geue, T.;Schmidt, H.;
6:28:9:2 Room temperature oxidation of magnetron sputtered Si-C-N films
DOI:10.1016/j.apsusc.2011.11.012 JN:APPLIED SURFACE SCIENCE PY:2012 TC:3 AU: Hueger, E.;Gao, D.;Markwitz, A.;Geckle, U.;Bruns, M.;Schmidt, H.;
6:28:9:3 Nitrogen self-diffusion in magnetron sputtered Si-C-N films
DOI:10.1063/1.3585780 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:3 AU: Hueger, E.;Schmidt, H.;Geue, T.;Stahn, J.;Tietze, U.;Lott, D.;Markwitz, A.;Geckle, U.;Bruns, M.;
6:28:9:4 Grain boundary self-diffusion in Fe films with a stable nanostructure
DOI:10.1007/s10853-012-6262-0 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:4 AU: Schmidt, H.;Chakravarty, S.;Jiang, M.;Hueger, E.;Parida, P. K.;Geue, T.;Stahn, J.;Tietze, U.;Lott, D.;
6:28:10:1 Fretting corrosion of CoCrMo and Ti6Al4V interfaces
DOI:10.1016/j.biomaterials.2012.04.015 JN:BIOMATERIALS PY:2012 TC:18 AU: Swaminathan, Viswanathan;Gilbert, Jeremy L.;
6:28:10:2 Electrochemical Behavior of Type 316L Stainless Steel during Cyclic Deformation under Cell Culturing
DOI:10.2320/matertrans.M2014301 JN:MATERIALS TRANSACTIONS PY:2014 TC:0 AU: Doi, Kotaro;Miyabe, Sayaka;Fujimoto, Shinji;
6:28:10:3 Exploring new W-B coating materials for the aqueous corrosion-wear protection of austenitic stainless steel
DOI:10.1016/j.tsf.2013.09.035 JN:THIN SOLID FILMS PY:2013 TC:1 AU: Mallia, B.;Dearnley, P. A.;
6:28:10:4 The chemical wear (corrosion-wear) of novel Cr based hard coated 316L austenitic stainless steels in aqueous saline solution
DOI:10.1016/j.wear.2012.09.002 JN:WEAR PY:2013 TC:2 AU: Dearnley, P. A.;Mallia, B.;
6:28:10:5 Character and chemical-wear response of high alloy austenitic stainless steel (Ortron 90) surface engineered with magnetron sputtered Cr-B-N ternary alloy coatings
DOI:10.1016/j.tsf.2013.08.093 JN:THIN SOLID FILMS PY:2013 TC:0 AU: Mallia, Bertram;Stueber, Michael;Dearnley, Peter A.;
6:28:11:1 The tribological behaviour of AA5083 alloy plastically deformed at warm forming temperatures
DOI:10.1016/j.wear.2012.12.048 JN:WEAR PY:2013 TC:2 AU: Gali, O. A.;Riahi, A. R.;Alpas, A. T.;
6:28:11:2 High temperature deformation and fracture of tribo-layers on the surface of AA5083 sheet aluminum-magnesium alloy
DOI:10.1016/j.msea.2011.10.033 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:4 AU: Das, S.;Riahi, A. R.;Meng-Burany, X.;Morales, A. T.;Alpas, A. T.;
6:28:11:3 The influence of hot rolling on oxide development within micro-cracks of aluminum-magnesium alloys
DOI:10.1016/j.msea.2014.08.029 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Gali, O. A.;Shafiei, M.;Hunter, J. A.;Riahi, A. R.;
6:28:11:4 Ductility of an aluminum-4.4 wt. pct. magnesium alloy at warm- and hot-working temperatures
DOI:10.1016/j.msea.2010.02.042 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:7 AU: Chang, Jung-Kuei;Takata, Ken;Ichitani, Koji;Taleff, Eric M.;
6:28:11:5 Structure and formation mechanism of rolled-in oxide areas on aluminum lithographic printing sheets
DOI:10.1016/j.scriptamat.2012.10.021 JN:SCRIPTA MATERIALIA PY:2013 TC:3 AU: Tzedaki, M.;Galceran, M.;Turner, S.;Godet, S.;De Graeve, I.;Kernig, B.;Hasenclever, J.;Terryn, H.;
6:28:12:1 The chemical form of metallic debris in tissues surrounding metal-on-metal hips with unexplained failure
DOI:10.1016/j.actbio.2010.06.006 JN:ACTA BIOMATERIALIA PY:2010 TC:35 AU: Hart, Alister J.;Quinn, Paul D.;Sampson, Barry;Sandison, Ann;Atkinson, Kirk D.;Skinner, John A.;Powell, Jonathan J.;Mosselmans, J. Fred W.;
6:28:12:2 Cobalt from metal-on-metal hip replacements may be the clinically relevant active agent responsible for periprosthetic tissue reactions
DOI:10.1016/j.actbio.2012.05.003 JN:ACTA BIOMATERIALIA PY:2012 TC:13 AU: Hart, Alister J.;Quinn, Paul D.;Lali, Ferdinand;Sampson, Barry;Skinner, John A.;Powell, Jonathan J.;Nolan, John;Tucker, Keith;Donell, Simon;Flanagan, Adrienne;Mosselmans, J. Fred W.;
6:28:12:3 Fretting corrosion of fully cemented polished collarless tapered stems: The influence of PMMA bone cement
DOI:10.1016/j.wear.2012.12.042 JN:WEAR PY:2013 TC:5 AU: Bryant, M.;Farrar, R.;Brummitt, K.;Freeman, R.;Neville, A.;
6:28:13:1 Bulk metallic glasses (BMG) for biomedical applications-A tribocorrosion investigation of Zr55Cu30Ni5Al10 in simulated body fluid
DOI:10.1016/j.wear.2012.12.053 JN:WEAR PY:2013 TC:8 AU: Espallargas, N.;Aune, R. E.;Torres, C.;Papageorgiou, N.;Munoz, A. I.;
6:28:13:2 Tribological behavior of (Cu42Zr42Al8Ag8)(99.5)Si-0.5 bulk metallic glass
DOI:10.1016/j.wear.2012.01.014 JN:WEAR PY:2012 TC:3 AU: Lin, Y. C.;Chen, J. N.;
6:28:13:3 Bulk metallic glasses (BMG) for biomedical applications-A tribocorrosion investigation of Zr55Cu30Ni5Al10 in simulated body fluid (vol 301, pg 271, 2013)
DOI:10.1016/j.wear.2013.07.004 JN:WEAR PY:2013 TC:0 AU: Espallargas, N.;Aune, R. E.;Torres, C.;Papageorgiou, N.;Munoz, A. I.;
6:28:14:1 Tribocorrosion behavior of S-phase surface engineered medical grade Co-Cr alloy
DOI:10.1016/j.wear.2013.01.023 JN:WEAR PY:2013 TC:3 AU: Luo, X.;Li, X.;Sun, Y.;Dong, H.;
6:28:14:2 Tribocorrosion behavior of CoCrMo alloy for hip prosthesis as a function of loads: A comparison between two testing systems
DOI:10.1016/j.wear.2011.01.086 JN:WEAR PY:2011 TC:23 AU: Mathew, M. T.;Runa, M. J.;Laurent, M.;Jacobs, J. J.;Rocha, L. A.;Wimmer, M. A.;
6:28:14:3 A study of the wear performance in a hip simulator of a metal-metal Co-Cr alloy with different boron additions
DOI:10.1016/j.wear.2013.01.085 JN:WEAR PY:2013 TC:5 AU: Alvarez-Vera, M.;Ortega-Saenz, J. A.;Hernandez-Rodriguez, M. A. L.;
6:28:15:1 Micro-abrasion of Y-TZP in tea
DOI:10.1016/j.wear.2012.10.001 JN:WEAR PY:2013 TC:4 AU: Sharifi, S.;Stack, M. M.;Stephen, L.;Li, Wang-Long;Wang, Moo-Chin;
6:28:15:2 Effect of heat treatment on wear damage mechanisms in 3Y-TZP ceramics
DOI:10.1016/j.wear.2010.03.004 JN:WEAR PY:2010 TC:2 AU: Hvizdos, Pavol;Mestra, Alvaro;Anglada, Marc;
6:28:15:3 Ball cratering test on ductile materials
DOI:10.1016/j.wear.2011.03.013 JN:WEAR PY:2011 TC:2 AU: Camerini, Rafael Vieira;de Souza, Rodrigo Buchfink;de Carli, Felipe;Pereira, Altair Soria;Balzaretti, Naira Maria;
6:29:1:1 Sub-scale simulation and measurement of railroad wheel/rail adhesion under dry and wet conditions
DOI:10.1016/j.wear.2012.12.014 JN:WEAR PY:2013 TC:4 AU: Wang, W. J.;Wang, H.;Wang, H. Y.;Guo, J.;Liu, Q. Y.;Zhu, M. H.;Jin, X. S.;
6:29:1:2 Rolling-sliding laboratory tests of friction modifiers in dry and wet wheel-rail contacts
DOI:10.1016/j.wear.2009.09.015 JN:WEAR PY:2010 TC:20 AU: Arias-Cuevas, O.;Li, Z.;Lewis, R.;Gallardo-Hernandez, E. A.;
6:29:1:3 Experimental study on adhesion behavior of wheel/rail under dry and water conditions
DOI:10.1016/j.wear.2011.01.070 JN:WEAR PY:2011 TC:11 AU: Wang, W. J.;Shen, P.;Song, J. H.;Guo, J.;Liu, Q. Y.;Jin, X. S.;
6:29:1:4 A laboratory investigation on the influence of the particle size and slip during sanding on the adhesion and wear in the wheel-rail contact
DOI:10.1016/j.wear.2010.10.050 JN:WEAR PY:2011 TC:9 AU: Arias-Cuevas, Oscar;Li, Zili;Lewis, Roger;
6:29:1:5 An adhesion model for wheel-rail contact at the micro level using measured 3d surfacesl
DOI:10.1016/j.wear.2013.11.031 JN:WEAR PY:2014 TC:1 AU: Zhu, Y.;Olofsson, U.;
6:29:1:6 Study on the adhesion behavior of wheel/rail under oil, water and sanding conditions
DOI:10.1016/j.wear.2010.12.019 JN:WEAR PY:2011 TC:16 AU: Wang, W. J.;Zhang, H. F.;Wang, H. Y.;Liu, Q. Y.;Zhu, M. H.;
6:29:1:7 Estimation of wheel/rail adhesion coefficient under wet condition with measured boundary friction coefficient and real contact area
DOI:10.1016/j.wear.2010.10.022 JN:WEAR PY:2011 TC:8 AU: Chen, Hua;Ishida, Makoto;Namura, Akira;Baek, Koan-Sok;Nakahara, Tsunamitsu;Leban, Bruno;Pau, Massimiliano;
6:29:1:8 Numerical analysis on wheel/rail adhesion under mixed contamination of oil and water with surface roughness
DOI:10.1016/j.wear.2013.11.041 JN:WEAR PY:2014 TC:3 AU: Wu, Bing;Wen, Zefeng;Wang, Hengyu;Jin, Xuesong;
6:29:1:9 Relationship between surface oxide layer and transient traction characteristics for two steel rollers under unlubricated and water lubricated conditions
DOI:10.1016/j.wear.2010.10.030 JN:WEAR PY:2011 TC:4 AU: Nakahara, Tsunamitsu;Baek, Koan-Sok;Chen, Hua;Ishida, Makoto;
6:29:1:10 A new experimental device to investigate creep forces between wheel and rail
DOI:10.1016/j.wear.2010.10.026 JN:WEAR PY:2011 TC:2 AU: Doi, Hisayo;Miyamoto, Takefumi;Nishiyama, Yukio;Ohe, Shintaro;Kamachi, Hideya;
6:29:2:1 Field and laboratory investigation of the relationship between rail head check and wear in a heavy-haul railway
DOI:10.1016/j.wear.2014.04.004 JN:WEAR PY:2014 TC:2 AU: Zhou, Yu;Wang, Shaofeng;Wang, Tianyi;Xu, Yude;Li, Zili;
6:29:2:2 A novel laboratory test rig for probing the sensitivity of rail steels to RCF and wear - first experimental results
DOI:10.1016/j.wear.2014.04.008 JN:WEAR PY:2014 TC:0 AU: Kammerhofer, Christoph;Hohenwarter, Anton;Pippan, Reinhard;
6:29:2:3 RCF and wear in theory and practice-The influence of rail grade on wear and RCF
DOI:10.1016/j.wear.2010.10.015 JN:WEAR PY:2011 TC:12 AU: Stock, R.;Pippan, R.;
6:29:2:4 Correlation between laboratory ball-on-disk and full-scale rail performance tests
DOI:10.1016/j.wear.2011.01.001 JN:WEAR PY:2011 TC:7 AU: Robles Hernandez, Francisco C.;Demas, Nicholaos. G.;Gonzales, Kari;Polycarpou, Andreas A.;
6:29:2:5 Progressive damage assessment in the near-surface layer of railway wheel-rail couple under cyclic contact
DOI:10.1016/j.wear.2010.10.042 JN:WEAR PY:2011 TC:9 AU: Donzella, G.;Faccoli, M.;Mazzu, A.;Petrogalli, C.;Roberti, R.;
6:29:2:6 Microscale experimental and modeling wear studies of rail steels
DOI:10.1016/j.wear.2011.05.021 JN:WEAR PY:2011 TC:2 AU: Lee, Ki Myung;Polycarpou, Andreas A.;
6:29:2:7 Squat growth-Some observations and the validation of numerical predictions
DOI:10.1016/j.wear.2010.10.051 JN:WEAR PY:2011 TC:24 AU: Li, Zili;Dollevoet, Rolf;Molodova, Marija;Zhao, Xin;
6:29:2:8 Creep curve measurement to support wear and adhesion modelling, using a continuously variable creep twin disc machine
DOI:10.1016/j.wear.2012.11.065 JN:WEAR PY:2013 TC:5 AU: Fletcher, D. I.;Lewis, S.;
6:29:3:1 Cyclic deformation behavior in a nitrogen-alloyed austenitic stainless steel in terms of the evolution of internal stress and microstructure
DOI:10.1016/j.msea.2012.07.037 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:7 AU: Chang, Bo;Zhang, Zheng;
6:29:3:2 Cyclic deformation and fatigue behaviors of Hadfield manganese steel
DOI:10.1016/j.msea.2013.10.072 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Kang, J.;Zhang, F. C.;Long, X. Y.;Lv, B.;
6:29:3:3 Low cycle fatigue behavior of a high nitrogen austenitic stainless steel under uniaxial and non-proportional loadings based on the partition of hysteresis loops
DOI:10.1016/j.msea.2012.03.082 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:6 AU: Chang, Bo;Zhang, Zheng;
6:29:3:4 Synergistic enhancing effect of N plus C alloying on cyclic deformation behaviors in austenitic steel
DOI:10.1016/j.msea.2014.05.052 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Kang, J.;Zhang, F. C.;Long, X. Y.;Yang, Z. N.;
6:29:3:5 Cyclic deformation behavior of 316LN under non-proportional loading based on the analysis on the hysteresis loop and microstructure
DOI:10.1016/j.msea.2012.12.073 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:0 AU: Chang, Bo;Zhang, Zheng;
6:29:3:6 Low cycle fatigue behavior of Sanicro25 steel at room and at elevated temperature
DOI:10.1016/j.msea.2014.07.075 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:0 AU: Polak, Jaroslav;Petras, Roman;Heczko, Milan;Kubena, Ivo;Kruml, Tomas;Chai, Guocai;
6:29:4:1 Rolling contact fatigue of three crossing nose materials-Multiscale FE approach
DOI:10.1016/j.wear.2013.11.013 JN:WEAR PY:2014 TC:1 AU: Pletz, M.;Daves, W.;Yao, W.;Ossberger, H.;
6:29:4:2 Enhanced work hardening in Hadfield steel during explosive treatment
DOI:10.1016/j.matlet.2011.05.041 JN:MATERIALS LETTERS PY:2011 TC:2 AU: Liu, F. C.;Lv, B.;Zhang, F. C.;Yang, S.;
6:29:4:3 The solution of frictional wheel-rail rolling contact with a 3D transient finite element model: Validation and error analysis
DOI:10.1016/j.wear.2010.10.007 JN:WEAR PY:2011 TC:25 AU: Zhao, Xin;Li, Zili;
6:29:4:4 Numerical evaluation of the material response of a railway wheel under thermomechanical braking conditions
DOI:10.1016/j.wear.2013.11.022 JN:WEAR PY:2014 TC:3 AU: Caprioli, Sara;Ekberg, Anders;
6:29:4:5 A wheel set/crossing model regarding impact, sliding and deformation-Explicit finite element approach
DOI:10.1016/j.wear.2012.07.033 JN:WEAR PY:2012 TC:4 AU: Pletz, M.;Daves, W.;Ossberger, H.;
6:29:4:6 Near-threshold propagation of mode II and mode III fatigue cracks in ferrite and austenite
DOI:10.1016/j.actamat.2013.04.033 JN:ACTA MATERIALIA PY:2013 TC:7 AU: Vojtek, T.;Pippan, R.;Hohenwarter, A.;Holan, L.;Pokluda, J.;
6:29:4:7 Influence of explosive density on mechanical properties of high manganese steel explosion hardened
DOI:10.1063/1.4837617 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:0 AU: Hu, Xiaoyan;Shen, Zhaowu;Liu, Yingbin;Liu, Tiansheng;Wang, Fengying;
6:29:4:8 Numerical evaluation of the material response of a railway wheel under thermomechanical braking conditions (vol 314, pg 181, 2014)
DOI:10.1016/j.wear.2014.07.013 JN:WEAR PY:2014 TC:0 AU: Caprioli, Sara;Ekberg, Anders;
6:29:5:1 Effects of retained austenite and hydrogen on the rolling contact fatigue behaviours of carbide-free bainitic steel
DOI:10.1016/j.msea.2013.11.072 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Zheng, Chunlei;Dan, Rui;Zhang, Fucheng;Lv, Bo;Yan, Zhigang;Shan, Jun;Long, Xiaoyan;
6:29:5:2 Mechanical stabilisation of retained austenite in delta-TRIP steel
DOI:10.1016/j.msea.2011.03.111 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:9 AU: Yi, H. L.;Lee, K. Y.;Bhadeshia, H. K. D. H.;
6:29:5:3 A novel design: Partitioning achieved by quenching and tempering (Q-T & P) in an aluminium-added low-density steel
DOI:10.1016/j.scriptamat.2012.10.018 JN:SCRIPTA MATERIALIA PY:2013 TC:8 AU: Yi, H. L.;Chen, P.;Hou, Z. Y.;Hong, N.;Cai, H. L.;Xu, Y. B.;Wu, D.;Wang, G. D.;
6:29:5:4 Rolling contact and adhesive wear of bainitic and pearlitic steels in low load regime
DOI:10.1016/j.wear.2010.10.009 JN:WEAR PY:2011 TC:4 AU: Zapata, D.;Jaramillo, J.;Toro, A.;
6:29:5:5 Modeling of surface cracks in rolling contact
DOI:10.1016/j.msea.2012.02.016 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:3 AU: Kadin, Y.;Rychahivskyy, A. V.;
6:29:6:1 Development of a wear prediction tool for steel railway wheels using three alternative wear functions
DOI:10.1016/j.wear.2010.10.072 JN:WEAR PY:2011 TC:11 AU: Pombo, Joao;Ambrosio, Jorge;Pereira, Manuel;Lewis, Roger;Dwyer-Joyce, Rob;Ariaudo, Caterina;Kuka, Naim;
6:29:6:2 Application of Fastsim with variable coefficient of friction using twin disc experimental measurements
DOI:10.1016/j.wear.2011.08.019 JN:WEAR PY:2012 TC:7 AU: Rovira, A.;Roda, A.;Lewis, R.;Marshall, M. B.;
6:29:6:3 A numerical model of twin disc test arrangement for the evaluation of railway wheel wear prediction methods
DOI:10.1016/j.wear.2009.11.003 JN:WEAR PY:2010 TC:15 AU: Tassini, N.;Quost, X.;Lewis, R.;Dwyer-Joyce, R.;Ariaudo, C.;Kuka, N.;
6:29:6:4 Experimental and numerical modelling of wheel-rail contact and wear
DOI:10.1016/j.wear.2011.03.024 JN:WEAR PY:2011 TC:6 AU: Rovira, A.;Roda, A.;Marshall, M. B.;Brunskill, H.;Lewis, R.;
6:29:6:5 Wheel and rail wear-Understanding the effects of water and grease
DOI:10.1016/j.wear.2013.11.020 JN:WEAR PY:2014 TC:4 AU: Hardwick, C.;Lewis, R.;Eadie, D. T.;
6:29:6:6 The twin-ring tribometer-Characterizing sliding wear of metals excluding the effect of contact configurations
DOI:10.1016/j.wear.2011.01.021 JN:WEAR PY:2011 TC:2 AU: Hiratsuka, K.;Yoshida, T.;
6:29:6:7 Numerical assessment of the influence of worn wheel tread geometry on rail and wheel deterioration
DOI:10.1016/j.wear.2014.05.006 JN:WEAR PY:2014 TC:0 AU: Karttunen, K.;Kabo, E.;Ekberg, A.;
6:29:7:1 Comparative study of the dry sliding wear behaviour of HVOF-sprayed WC-(W,Cr)(2)C-Ni and WC-CoCr hardmetal coatings
DOI:10.1016/j.wear.2013.11.001 JN:WEAR PY:2014 TC:11 AU: Bolelli, Giovanni;Berger, Lutz-Michael;Bonetti, Matteo;Lusvarghi, Luca;
6:29:7:2 Diffusion and solubility of Cr in WC
DOI:10.1016/j.jallcom.2009.09.137 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:13 AU: Brieseck, M.;Bohn, M.;Lengauer, W.;
6:29:7:3 Slurry erosion behaviour of HVOF sprayed WC-10Co-4Cr and Al2O3+13TiO(2) coatings on a turbine steel
DOI:10.1016/j.wear.2012.04.016 JN:WEAR PY:2012 TC:9 AU: Goyal, Deepak Kumar;Singh, Harpreet;Kumar, Harmesh;Sahni, Varinder;
6:29:7:4 Comparison of the friction and wear behaviour of WC-Ni-Co-Cr and WC-Co hardmetals in contact with steel at high temperatures
DOI:10.1016/j.wear.2012.01.015 JN:WEAR PY:2012 TC:8 AU: Aristizabal, M.;Ardila, L. C.;Veiga, F.;Arizmendi, M.;Fernandez, J.;Sanchez, J. M.;
6:29:7:5 Experimental investigations and thermodynamic modeling in the ZrB2-Ni section of the B-Ni-Zr system
DOI:10.1016/j.jallcom.2013.12.254 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:0 AU: Artini, C.;Muolo, M. L.;Passerone, A.;Valenza, F.;Manfrinetti, P.;Cacciamani, G.;
6:29:7:6 Development of rotating disc apparatus for test of sediment-induced erosion in Francis runner blades
DOI:10.1016/j.wear.2013.07.011 JN:WEAR PY:2013 TC:2 AU: Rajkarnikar, B.;Neopane, H. P.;Thapa, B. S.;
6:29:8:1 A new rolling contact method applied to conformal contact and the train-turnout interaction
DOI:10.1016/j.wear.2014.10.008 JN:WEAR PY:2014 TC:3 AU: Burgelman, N.;Li, Z.;Dollevoet, R.;
6:29:8:2 Development of a wear model for the analysis of complex railway networks
DOI:10.1016/j.wear.2013.11.010 JN:WEAR PY:2014 TC:3 AU: Innocenti, A.;Marini, L.;Meli, E.;Pallini, G.;Rindi, A.;
6:29:8:3 Multibody modeling of railway vehicles: Innovative algorithms for the detection of wheel-rail contact points
DOI:10.1016/j.wear.2010.10.039 JN:WEAR PY:2011 TC:16 AU: Falomi, Stefano;Malvezzi, Monica;Meli, Enrico;
6:29:8:4 An innovative wheel-rail contact model for multibody applications
DOI:10.1016/j.wear.2010.10.038 JN:WEAR PY:2011 TC:16 AU: Magheri, Silvia;Malvezzi, Monica;Meli, Enrico;Rindi, Andrea;
6:29:8:5 Development of a wear model for the prediction of wheel and rail profile evolution in railway systems
DOI:10.1016/j.wear.2012.01.020 JN:WEAR PY:2012 TC:17 AU: Ignesti, M.;Malvezzi, M.;Marini, L.;Meli, E.;Rindi, A.;
6:29:9:1 Rolling contact fatigue of Hadfield steel X120Mn12
DOI:10.1016/j.wear.2010.07.001 JN:WEAR PY:2010 TC:5 AU: Harzallah, R.;Mouftiez, A.;Felder, E.;Hariri, S.;Maujean, J. -P.;
6:29:9:2 Micromechanical properties and sliding wear behaviour of HVOF-sprayed Fe-based alloy coatings
DOI:10.1016/j.wear.2011.12.001 JN:WEAR PY:2012 TC:18 AU: Bolelli, Giovanni;Bonferroni, Benedetta;Laurila, Jussi;Lusvarghi, Luca;Milanti, Andrea;Niemi, Kari;Vuoristo, Petri;
6:29:9:3 Damage of a Hadfield steel crossing due to wheel rolling impact passages
DOI:10.1016/j.wear.2013.01.019 JN:WEAR PY:2013 TC:2 AU: Guo, S. L.;Sun, D. Y.;Zhang, F. C.;Feng, X. Y.;Qian, L. H.;
6:29:9:4 Structural and tribological properties of supersonic sprayed Fe-Cu-Al-Al2O3 nanostructured cermets
DOI:10.1016/j.apsusc.2013.01.072 JN:APPLIED SURFACE SCIENCE PY:2013 TC:3 AU: Georgiou, E. P.;Achanta, S.;Dosta, S.;Fernandez, J.;Matteazzi, P.;Kusinski, J.;Piticescu, R. R.;Celis, J-P;
6:29:9:5 Microstructure of the worn surfaces of a bainitic steel railway crossing
DOI:10.1016/j.wear.2010.01.016 JN:WEAR PY:2010 TC:6 AU: Zhang, F. C.;Lv, B.;Zheng, C. L.;Zou, Q.;Zhang, M.;Li, M.;Wang, T. S.;
6:29:9:6 Simulation of wheel-rail contact and damage in switches & crossings
DOI:10.1016/j.wear.2010.10.014 JN:WEAR PY:2011 TC:9 AU: Johansson, Anders;Palsson, Bjorn;Ekh, Magnus;Nielsen, Jens C. O.;Ander, Mats K. A.;Brouzoulis, Jim;Kassa, Elias;
6:29:10:1 Prediction model for wheel profile wear and rolling contact fatigue
DOI:10.1016/j.wear.2010.10.028 JN:WEAR PY:2011 TC:19 AU: Dirks, B.;Enblom, R.;
6:29:10:2 Wheel/rail rolling contact fatigue - Probe, predict, prevent
DOI:10.1016/j.wear.2013.12.004 JN:WEAR PY:2014 TC:7 AU: Ekberg, Anders;Akesson, Bengt;Kabo, Elena;
6:29:10:3 Wear impact on rolling contact fatigue crack growth in rails
DOI:10.1016/j.wear.2013.12.009 JN:WEAR PY:2014 TC:2 AU: Brouzoulis, Jim;
6:29:10:4 Probability of subsurface fatigue initiation in rolling contact
DOI:10.1016/j.wear.2010.10.018 JN:WEAR PY:2011 TC:6 AU: Sandstrom, Johan;de Mare, Jacques;
6:29:10:5 Model for wear prediction of roller linear guides
DOI:10.1016/j.wear.2013.01.047 JN:WEAR PY:2013 TC:2 AU: Tao, Weijun;Zhong, Yang;Feng, Hutian;Wang, Yulin;
6:29:11:1 Modelling rail wear transition and mechanism due to frictional heating
DOI:10.1016/j.wear.2012.02.017 JN:WEAR PY:2012 TC:6 AU: Asih, A. M. S.;Ding, K.;Kapoor, A.;
6:29:11:2 Friction and wear behaviour of rolling-sliding steel contacts
DOI:10.1016/j.wear.2012.12.008 JN:WEAR PY:2013 TC:3 AU: Ramalho, A.;Esteves, M.;Marta, P.;
6:29:11:3 Relating contact temperature and wear transitions in a wheel-rail contact
DOI:10.1016/j.wear.2010.10.046 JN:WEAR PY:2011 TC:12 AU: Sundh, Jon;Olofsson, Ulf;
6:29:11:4 Numerical calculation of temperature in the wheel-rail flange contact and implications for lubricant choice
DOI:10.1016/j.wear.2009.08.014 JN:WEAR PY:2010 TC:5 AU: Spiryagin, Maksym;Lee, Kwan Soo;Yoo, Hong Hee;Kashura, Oleksandr;Popov, Sergey;
6:29:12:1 Effect of laser cladding on wear and damage behaviors of heavy-haul wheel/rail materials
DOI:10.1016/j.wear.2014.01.011 JN:WEAR PY:2014 TC:2 AU: Wang, W. J.;Hu, J.;Guo, J.;Liu, Q. Y.;Zhu, M. H.;
6:29:12:2 Experimental investigation between rolling contact fatigue and wear of high-speed and heavy-haul railway and selection of rail material
DOI:10.1016/j.wear.2010.12.053 JN:WEAR PY:2011 TC:9 AU: Zhong, W.;Hu, J. J.;Shen, P.;Wang, C. Y.;Lius, Q. Y.;
6:29:12:3 Very early stage rolling contact fatigue crack growth in pearlitic rail steels
DOI:10.1016/j.wear.2010.10.004 JN:WEAR PY:2011 TC:4 AU: Garnham, J. E.;Davis, C. L.;
6:29:12:4 Ductile inclusions in rail, subject to compressive rolling-sliding contact
DOI:10.1016/j.wear.2010.07.010 JN:WEAR PY:2010 TC:5 AU: Garnham, J. E.;Ding, R-G;Davis, C. L.;
6:29:13:1 An alternative method for the assessment of railhead traction
DOI:10.1016/j.wear.2010.10.035 JN:WEAR PY:2011 TC:6 AU: Lewis, S. R.;Lewis, R.;Olofsson, U.;
6:29:13:2 Investigation of the isolation and frictional properties of hydrophobic products on the rail head, when used to combat low adhesion
DOI:10.1016/j.wear.2013.11.024 JN:WEAR PY:2014 TC:1 AU: Lewis, S. R.;Lewis, R.;Richards, P.;Buckley-Johnstone, L. E.;
6:29:13:3 The effect of friction modifiers on wheel/rail isolation
DOI:10.1016/j.wear.2010.10.036 JN:WEAR PY:2011 TC:2 AU: Lewis, R.;Gallardo, E. A.;Cotter, J.;Eadie, D. T.;
6:29:14:1 On-site investigation and analysis of flaking damage leading to rail break
DOI:10.1016/j.wear.2010.10.041 JN:WEAR PY:2011 TC:2 AU: Matsuda, Hiroyuki;Satoh, Yukio;Kanematsu, Yoshikazu;Iwafuchi, Kengo;
6:29:14:2 Evaluation of material deterioration of rails subjected to rolling contact fatigue using x-ray diffraction
DOI:10.1016/j.wear.2013.04.018 JN:WEAR PY:2013 TC:0 AU: Matsui, Motohide;Kamiya, Yuji;
6:29:14:3 A simplified index for evaluating subsurface initiated rolling contact fatigue from field measurements
DOI:10.1016/j.wear.2010.10.045 JN:WEAR PY:2011 TC:2 AU: Kabo, Elena;Enblom, Roger;Ekberg, Anders;
6:30:1:1 Behavior of aluminum oxide, intermetallics and voids in Cu-Al wire bonds
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6:30:1:2 Behavior of intermetallics formation and evolution in Ag-8Au-3Pd alloy wire bonds
DOI:10.1016/j.jallcom.2013.11.140 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:2 AU: Guo, Rui;Hang, Tao;Mao, Dali;Li, Ming;Qian, Kaiyou;Lv, Zhong;Chiu, Hope;
6:30:1:3 New mechanisms of void growth in Au-Al wire bonds: Volumetric shrinkage and intermetallic oxidation
DOI:10.1016/j.scriptamat.2011.06.050 JN:SCRIPTA MATERIALIA PY:2011 TC:8 AU: Xu, H.;Liu, C.;Silberschmidt, V. V.;Pramana, S. S.;White, T. J.;Chen, Z.;Acoff, V. L.;
6:30:1:4 Growth of Intermetallic Compounds in Thermosonic Copper Wire Bonding on Aluminum Metallization
DOI:10.1007/s11664-009-0951-8 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2010 TC:30 AU: Xu, Hui;Liu, Changqing;Silberschmidt, Vadim V.;Chen, Zhong;
6:30:1:5 Behavior of palladium and its impact on intermetallic growth in palladium-coated Cu wire bonding
DOI:10.1016/j.actamat.2012.09.030 JN:ACTA MATERIALIA PY:2013 TC:10 AU: Xu, Hui;Qin, Hry;Clauberg, Horst;Chylak, Bob;Acoff, Viola L.;
6:30:1:6 A micromechanism study of thermosonic gold wire bonding on aluminum pad
DOI:10.1063/1.3514005 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:18 AU: Xu, H.;Liu, C.;Silberschmidt, V. V.;Pramana, S. S.;White, T. J.;Chen, Z.;Sivakumar, M.;Acoff, V. L.;
6:30:1:7 Copper Wire Bonding Concerns and Best Practices
DOI:10.1007/s11664-013-2576-1 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2013 TC:12 AU: Chauhan, Preeti;Zhong, Z. W.;Pecht, Michael;
6:30:1:8 Comprehensive transmission electron microscopy study on Cu-Al intermetallic compound formation at wire bond interface
DOI:10.1557/jmr.2014.352 JN:JOURNAL OF MATERIALS RESEARCH PY:2014 TC:0 AU: Bae, In-Tae;Jung, Dae Young;Chen, William T.;Chen, Scott;Chang, Jenny;
6:30:1:9 Microstructural evaluation of interfacial intermetallic compounds in Cu wire bonding with Al and Au pads
DOI:10.1016/j.actamat.2013.10.049 JN:ACTA MATERIALIA PY:2014 TC:2 AU: Kim, Hyung Giun;Kim, Sang Min;Lee, Jae Young;Choi, Mi Ri;Choe, Si Hyun;Kim, Ki Hong;Ryu, Jae Sung;Kim, Sangshik;Han, Seung Zeon;Kim, Won Yong;Lim, Sung Hwan;
6:30:1:10 Intermetallic compound formation at Cu-Al wire bond interface
DOI:10.1063/1.4768835 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:1 AU: Bae, In-Tae;Jung, Dae Young;Chen, William T.;Du, Yong;
6:30:1:11 Wearout Reliability and Intermetallic Compound Diffusion Kinetics of Au and PdCu Wires Used in Nanoscale Device Packaging
DOI:10.1155/2013/486373 JN:JOURNAL OF NANOMATERIALS PY:2013 TC:1 AU: Gan, C. L.;Ng, E. K.;Chan, B. L.;Classe, F. C.;Kwuanjai, T.;Hashim, U.;
6:30:1:12 Oxidation study on as-bonded intermetallic of copper wire-aluminum bond pad metallization for electronic microchip
DOI:10.1016/j.matchemphys.2012.07.036 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:3 AU: Anand, T. Joseph Sahaya;Yau, Chua Kok;Huat, Lim Boon;
6:30:1:13 Joule-Heating-Induced Damage in Cu-Al Wedge Bonds Under Current Stressing
DOI:10.1007/s11664-013-2790-x JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:0 AU: Yang, Tsung-Han;Lin, Yu-Min;Ouyang, Fan-Yi;
6:30:1:14 The Pd distribution and Cu flow pattern of the Pd-plated Cu wire bond and their effect on the nanoindentation
DOI:10.1016/j.msea.2012.02.063 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:4 AU: Lin, Yu-Wei;Wang, Ren-You;Ke, Wun-Bin;Wang, I-Sheng;Chiu, Ying-Ta;Lu, Kuo-Chang;Lin, Kwang-Lung;Lai, Yi-Shao;
6:30:1:15 Low-temperature synthesis of Zn3P2 nanowire
DOI:10.1557/jmr.2011.180 JN:JOURNAL OF MATERIALS RESEARCH PY:2011 TC:4 AU: Bae, In-Tae;Vasekar, Parag;VanHart, Daniel;Dhakal, Tara;
6:30:2:1 About the possibility of grain boundary engineering via hot-working in a nickel-base superalloy
DOI:10.1016/j.scriptamat.2010.02.019 JN:SCRIPTA MATERIALIA PY:2010 TC:20 AU: Souai, N.;Bozzolo, N.;Naze, L.;Chastel, Y.;Loge, R.;
6:30:2:2 Effect of Annealing Twins on Electromigration in Ag-8Au-3Pd Bonding Wires
DOI:10.1007/s11664-012-2381-2 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2013 TC:6 AU: Chuang, Tung-Han;Wang, Hsi-Ching;Chuang, Chien-Hsun;Lee, Jun-Der;Tsai, Hsing-Hua;
6:30:2:3 Thermal stability of grain structure and material properties in an annealing twinned Ag-4Pd alloy wire
DOI:10.1016/j.jallcom.2014.07.057 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:1 AU: Chuang, Tung-Han;Lin, Hsin-Jung;Chuang, Chien-Hsun;Shiue, Yu-Yun;Shieu, Fuh-Sheng;Huang, Yen-Lin;Hsu, Po-Chun;Lee, Jun-Der;Tsai, Hsing-Hua;
6:30:2:4 Effects of Annealing Twins on the Grain Growth and Mechanical Properties of Ag-8Au-3Pd Bonding Wires
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6:30:2:5 Thermal stability of grain structure and material properties in an annealing-twinned Ag-8Au-3Pd alloy wire
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6:30:3:1 Evolution of microstructure and twin density during thermomechanical processing in a gamma-gamma ' nickel-based superalloy
DOI:10.1016/j.actamat.2012.06.028 JN:ACTA MATERIALIA PY:2012 TC:8 AU: Bozzolo, N.;Souai, N.;Loge, R. E.;
6:30:3:2 Effects of prior deformation and annealing process on microstructure and annealing twin density in a nickel based alloy
DOI:10.1016/j.matchar.2014.07.013 JN:MATERIALS CHARACTERIZATION PY:2014 TC:2 AU: Li, Zhigang;Zhang, Lanting;Sun, Nairong;Sun, Yanle;Shan, Aidang;
6:30:3:3 Oxidation-assisted creep damage in a wrought nickel-based superalloy: Experiments and modelling
DOI:10.1016/j.msea.2009.10.054 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:16 AU: Chateau, E.;Remy, L.;
6:30:3:4 Influence of stored energy on twin formation during primary recrystallization
DOI:10.1016/j.msea.2013.09.071 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:13 AU: Wang, W.;Brisset, F.;Helbert, A. L.;Solas, D.;Drouelle, I.;Mathon, M. H.;Baudin, T.;
6:30:3:5 Formation of annealing twin boundaries in nickel
DOI:10.1016/j.scriptamat.2014.03.008 JN:SCRIPTA MATERIALIA PY:2014 TC:7 AU: Bair, J. L.;Hatch, S. L.;Field, D. P.;
6:30:3:6 Monte Carlo simulation of primary recrystallization and annealing twinning
DOI:10.1016/j.actamat.2014.08.032 JN:ACTA MATERIALIA PY:2014 TC:0 AU: Wang, W.;Helbert, A. L.;Brisset, F.;Mathon, M. H.;Baudin, T.;
6:30:3:7 Influence of saline environment on creep rupture life of Nimonic-263 for marine turbine application
DOI:10.1016/j.msea.2012.12.081 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:3 AU: Bagui, S.;Ray, A. K.;Sahu, J. K.;Parida, N.;Swaminathan, J.;Tamilselvi, M.;Mannan, S. L.;
6:30:4:1 Multifunctional coating interlayers for thermal-barrier systems
DOI:10.1557/mrs.2012.238 JN:MRS BULLETIN PY:2012 TC:13 AU: Pollock, T. M.;Lipkin, D. M.;Hemker, K. J.;
6:30:4:2 Atomic transport in ordered compounds mediated by local disorder: Diffusion in B2-NixAl1-x
DOI:10.1103/PhysRevB.81.064303 JN:PHYSICAL REVIEW B PY:2010 TC:9 AU: Xu, Qingchuan;Van der Ven, Anton;
6:30:4:3 The effect of large vacancy concentration on intrinsic and interdiffusion coefficients: A first-principle study of B2-NiAl
DOI:10.1016/j.actamat.2010.10.040 JN:ACTA MATERIALIA PY:2011 TC:5 AU: Xu, Qingchuan;Van der Ven, Anton;
6:30:4:4 Effective Hf-Pd Co-doped beta-NiAl(Cr) coatings for single-crystal superalloys
DOI:10.1016/j.actamat.2014.03.001 JN:ACTA MATERIALIA PY:2014 TC:2 AU: Adharapurapu, Raghavendra R.;Zhu, Jun;Dheeradhada, Voramon S.;Lipkin, Don M.;Pollock, Tresa M.;
6:30:4:5 3R and 14M martensitic transformations in as-rolled and annealed Ni64Al34.5Re1.5 shape memory alloy
DOI:10.1016/j.jallcom.2010.11.052 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:2 AU: Kang, Hui-Jang;Wu, Shyi-Kaan;Wu, Ling-Mei;
6:30:4:6 A combinatorial investigation of palladium and platinum additions to beta-NiAl overlay coatings
DOI:10.1016/j.actamat.2014.02.030 JN:ACTA MATERIALIA PY:2014 TC:0 AU: Adharapurapu, Raghavendra R.;Zhu, Jun;Dheeradhada, Voramon S.;Lipkin, Don M.;Pollock, Tresa M.;
6:30:5:1 Effects of spin orbital coupling on atomic and electronic structures in Al2Cu and Al2Au crystal and liquid phases via ab initio molecular dynamics simulations
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6:30:5:2 Evolution of local atomic structure during solidification of Al2Au liquid: An ab initio study
DOI:10.1016/j.actamat.2014.01.004 JN:ACTA MATERIALIA PY:2014 TC:5 AU: Xiong, L. H.;Lou, H. B.;Wang, X. D.;Debela, T. T.;Cao, Q. P.;Zhang, D. X.;Wang, S. Y.;Wang, C. Z.;Jiang, J. Z.;
6:30:5:3 Diffusion kinetics in aluminium-gold bond contacts from first-principles density functional calculations
DOI:10.1016/j.actamat.2011.08.021 JN:ACTA MATERIALIA PY:2011 TC:8 AU: Ulrich, Christian M.;Hashibon, Adham;Svoboda, Jiri;Elsaesser, Christian;Helm, Dirk;Riedel, Hermann;
6:30:6:1 Competition between fcc and icosahedral short-range orders in pure and samarium-doped liquid aluminum from first principles
DOI:10.1103/PhysRevB.83.224203 JN:PHYSICAL REVIEW B PY:2011 TC:6 AU: Fang, X. W.;Wang, C. Z.;Yao, Y. X.;Ding, Z. J.;Ho, K. M.;
6:30:6:2 Influence of Cr on the nucleation of primary Al and formation of twinned dendrites in Al-Zn-Cr alloys: Can icosahedral solid clusters play a role?
DOI:10.1016/j.actamat.2013.07.056 JN:ACTA MATERIALIA PY:2013 TC:6 AU: Kurtuldu, Gueven;Jarry, Philippe;Rappaz, Michel;
6:30:6:3 Study of the twinned dendrite tip shape I: Phase-field modeling
DOI:10.1016/j.actamat.2011.04.033 JN:ACTA MATERIALIA PY:2011 TC:7 AU: Salgado-Ordorica, M. A.;Desbiolles, J. -L.;Rappaz, M.;
6:30:6:4 Study of the twinned dendrite tip shape II: Experimental assessment
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6:30:6:5 Icosahedral quasicrystal-enhanced nucleation of the fcc phase in liquid gold alloys
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6:30:7:1 Defect models of two tetragonal Ce3+ centers T-1 and T-2 in Ce3+-doped cubic fluorperovskites KMgF3 and BaLiF3
DOI:10.1016/j.jallcom.2012.10.028 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:4 AU: Zheng Wen-Chen;Mei Yang;Liu Hong-Gang;Yang Yu-Guang;
6:30:7:2 Wet chemical synthesis of Eu2+ activated fluoro-elpasolite phosphors
DOI:10.1016/j.jallcom.2014.02.097 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:0 AU: Singh, Vartika S.;Joshi, C. P.;Muthal, P. L.;Dhopte, S. M.;Moharil, S. V.;
6:30:7:3 Impurities bound to vacancies in insulators: Electronic relaxation and physical properties of the Cr3+-V-M model center in KMF3 (M = Mg, Zn)
DOI:10.1103/PhysRevB.83.125123 JN:PHYSICAL REVIEW B PY:2011 TC:9 AU: Garcia-Fernandez, P.;Trueba, A.;Garcia-Cueto, B.;Aramburu, J. A.;Barriuso, M. T.;Moreno, M.;
6:30:7:4 Ab initio, crystal field and experimental spectroscopic studies of pure and Ni2+-doped KZnF3 crystals
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6:30:7:5 Theoretical studies of the spin-Hamiltonian parameters and defect structure for the tetragonal Gd3+ center in cubic c-RbZnF3 crystal
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6:30:7:6 Wet chemical synthesis of LiBaF3 phosphor
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6:30:7:7 Luminescence of LiBaF3 and KMgF3 doped with Eu2+
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6:30:8:1 Effects of Bonding Wires and Epoxy Molding Compound on Gold and Copper Ball Bonds Intermetallic Growth Kinetics in Electronic Packaging
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6:30:8:2 Observations of IMC Formation for Au Wire Bonds to Al Pads
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6:30:8:3 Technical Barriers and Development of Cu Wirebonding in Nanoelectronics Device Packaging
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6:30:9:1 Ordered bcc phases in a Cu-Pd-Mg hydrogen separation membrane alloy
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6:30:9:2 The kinetics of ordering in an equiatomic CuPd alloy: A resistometric study
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6:31:1:1 Microstructure and interface characterization of a cast Mg2B2O5 whisker reinforced AZ91D magnesium alloy composite
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6:31:1:2 Catalyst-Free Synthesis and Structural and Mechanical Characterization of Single Crystalline Ca2B2O5 center dot H2O Nanobelts and Stacking Faulted Ca2B2O5 Nanogrooves
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6:31:1:3 Facile thermal conversion route synthesis, characterization, and optical properties of rod-like micron nickel borate
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6:31:1:5 Short belt-like Ca2B2O5 center dot H2O nanostructures: Hydrothermal formation, FT-IR, thermal decomposition, and optical properties
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6:31:1:6 Low-temperature synthesis of aluminum borate nanowhiskers on the surface of aluminum powder promoted by ball-milling pretreatment
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6:31:1:7 Platinum boride nanowires: Synthesis and characterization
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6:31:1:8 Efficient synthesis of orthorhombic lithium borate hydroxide micro-rods and their thermal conversion to lithium borate
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6:31:1:9 In situ synthesis of porous ceramics with a framework structure of magnesium borate whiskers
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6:31:1:10 Fabrication and optical properties of single-crystalline beta barium borate nanorods
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6:31:2:1 Effect of SnO2 coating on the damping capacity and tensile property of alumina borate whisker-reinforced aluminum composite at room temperature
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6:31:2:2 Experimental and theoretical investigation on the compressive behavior of aluminum borate whisker reinforced 2024Al composites
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6:31:2:3 Effects of ZnO coating of whiskers on the tensile properties and aging behaviors of aluminum borate whiskers reinforced 2024Al composite
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6:31:2:5 Effects of Cr2O3 coating of whiskers on the tensile properties and thermal stability of aluminum borate whiskers reinforced 2024Al composite
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6:31:2:6 Effects of rolling temperature on hot rolling behaviors and mechanical properties of ABOw/6061Al composites
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6:31:2:7 Tensile properties and fracture mechanisms of ZnO and ZnAl2O4-coated Al18B4O33 whisker reinforced aluminum composites
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6:31:3:1 Damping behavior of Bi2O3-coated Al18B4O33 whisker-reinforced pure Al composite
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6:31:3:2 Damping mechanisms in alumina borate whisker-reinforced-aluminum matrix composites with or without SnO2 coatings
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6:31:3:3 Effects of sintering temperature of whisker preform on the microstructures and tensile properties of Bi(OH)(3)-coated Al18B4O33 whisker-reinforced aluminum matrix composites
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6:31:3:4 The thermal behavior of alumina borate whisker with Bi(OH)(3)-Sn(OH)(4) coatings
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6:31:3:5 Effects of the sintering temperature of whisker with SnO2 center dot Bi(2)O3 coatings on the damping behavior in Al(18)B(4)O(33)w/Al composite
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6:31:4:1 Infiltration characteristics of liquid AZ91D alloy into short carbon fiber preform
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6:31:4:2 Damping behavior in Al(18)B(4)O(33)w/Al composite containing an interfacial layer with low melting point metal particles
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6:31:4:3 Synthesis of Ti3SiC2 by infiltration of molten Si
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6:31:4:4 Fabrication of SiC particulate reinforced AZ91D composite by vacuum-assisted pressure infiltration technology
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6:31:4:5 On the infiltration mode during fabrication of aluminium composite
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6:31:4:6 Thermal fatigue behavior of Al-Si/SiCp composite synthesized by spray deposition
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6:31:5:1 Al2O3 particle rounding in molten copper and Cu8wt%Al
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6:31:5:2 Mechanical and tribological behavior of nanostructured copper-alumina cermets obtained by Pulsed Electric Current Sintering
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6:31:5:3 Processing, spark plasma sintering, and mechanical behavior of alumina/titanium composites
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6:31:5:4 Pulsed electric current sintering of Cu matrix composites reinforced with plain and coated alumina powders
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6:31:6:1 Nucleation and grain formation of pure Al under Pulsed Magneto-Oscillation treatment
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6:31:6:2 Microstructures and thermal stability of the semi-solid 2024 aluminum alloy prepared using the pulsed magnetic field process: Effects of technological parameters
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6:31:6:3 Effects of pulsed magnetic field on microstructures and morphology of the primary phase in semisolid A356 Al slurry
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6:31:6:4 Microstructure of nanometer Al2O3 particles reinforced aluminum matrix composites processed by high pulsed electromagnetic field
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6:31:6:5 Compressive deformation behaviour of Al alloy (2014)-10 wt.% SiCp composite: Effects of strain rates and temperatures
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6:31:6:6 Effect of impurity levels on the structure of solidified aluminum under pulse magneto-oscillation (PMO)
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6:31:7:1 Capillarity in pressure infiltration: improvements in characterization of high-temperature systems
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6:31:7:2 Infiltration of tin bronze into alumina particle beds: influence of alloy chemistry on drainage curves
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6:31:7:3 On the triple line in infiltration of liquid metals into porous preforms
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6:31:7:4 On measuring wettability in infiltration processing (vol 56, pg 859, 2007)
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6:31:8:1 Room temperature mechanical properties and tensile creep behavior of powder metallurgy processed and hot rolled Al and Al-SiCp composites
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6:31:8:2 Effect of rolling reduction on microstructures and tensile properties of hot-rolled Al18B4O33 whisker-reinforced 6061 aluminum alloy composite
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6:31:8:3 Effect of hot rolling temperature and thermal cycling on creep and damage behavior of powder metallurgy processed Al-SiC particulate composite
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6:31:9:1 Fabrication of Al/TiB2 composites through gas pressure infiltration
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6:31:9:2 Fabrication of aluminum matrix composites by quick spontaneous infiltration process through combustion reaction of Al-Ti-B4C-CuO powder mixtures in molten aluminum
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6:31:9:3 Effect of the Ti/B4C mole ratio on the reaction products and reaction mechanism in an Al-Ti-B4C powder mixture
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6:31:10:1 Preparation of Ca[B6O9(OH)(2)] center dot 3H(2)O nanomaterials by a phase transformation method and their flame retardant and thermodynamic properties
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6:31:10:2 Thermodynamic functions of the ZnO nanoweeds
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6:31:10:3 Thermodynamic functions of the grain-like ZnO nanostructures
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6:31:11:1 3D flower-like magnesium borate microspheres assembled by nanosheets synthesized via PVP-assisted method
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6:31:11:2 Facile synthesis of interconnected SiC nanowire networks on silicon substrate
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6:31:12:1 Lanthanide N,N-Dimethylaminodiboranates: Highly Volatile Precursors for the Deposition of Lanthanide-Containing Thin Films
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6:31:12:2 Atomic layer deposition of CaB2O4 films using bis(tris(pyrazolyl)borate)calcium as a highly thermally stable boron and calcium source
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6:32:1:1 Kinetics of isothermal phase transformations above and below the peritectic temperature: Phase-field simulations
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6:32:1:2 A lateral remelting phenomenon of the primary phase below the temperature of peritectic reaction in directionally solidified Cu-Ge alloys
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6:32:1:3 Peritectic transformation and primary alpha-dendrite dissolution in directionally solidified Pb-26%Bi alloy
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6:32:1:4 Quantitative phase-field modeling for two-phase solidification process involving diffusion in the solid
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6:32:1:5 Diffusion-controlled peritectic reaction process in carbon steel analyzed by quantitative phase-field simulation
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6:32:1:6 Two-phase separated growth and peritectic reaction during directional solidification of Cu-Ge peritectic alloys
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6:32:1:7 Morphological characteristics of triple junction region and process of the peritectic reaction during directional solidification of Cu-Ge alloys
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6:32:1:8 Growth morphologies in peritectic solidification of Fe-C: A phase-field study
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6:32:1:9 Nonequilibrium effects of primary solidification on peritectic reaction and transformation in undercooled peritectic Fe-Ni alloy
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6:32:1:10 High magnetic performance of metal injection-molded pure iron using delta phase sintering
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6:32:1:11 Isothermal solidification in peritectic systems
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6:32:2:1 A calorimetric study of thermodynamic properties for binary Cu-Ge alloys
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6:32:2:2 Thermal annealing behaviour of platinum, nickel and titanium Schottky barrier diodes on n-Ge (100)
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6:32:2:3 Thermodynamic assessment of the Cu-Ge binary system
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6:32:2:4 Temperature-dependent current-voltage characteristics of Se Schottky contact to n-type Ge
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6:32:2:5 Experimental investigation and thermodynamic prediction of the Cu-Sb-Zn phase diagram
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6:32:2:6 A note on the reactions in the Ti-Ge system
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6:32:2:7 Reactions between a Ge substrate and a sputter deposited Ti film
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6:32:3:1:1 Characteristics of high strength extruded BS40CrFeSn alloy prepared by spark plasma sintering and hot pressing
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6:32:3:1:2 High-strength, lead-free machinable alpha-beta duplex phase brass Cu-40Zn-Cr-Fe-Sn-Bi alloys
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6:32:3:1:3 Microstructure and Mechanical Properties of Cu-40 %Zn-0.5 %Cr Alloy by Powder Metallurgy
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6:32:3:1:4 Fabrication and properties of high-strength extruded brass using elemental mixture of Cu-40% Zn alloy powder and Mg particle
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6:32:3:1:5 Development of Lead-Free Machinable Brass with Bismuth and Graphite Particles by Powder Metallurgy Process
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6:32:3:1:6 Effect of Chromium Precipitation on Machinability of Sintered Brass Alloys Dispersed with Graphite Particles
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6:32:3:1:7 Fabrication and properties of lead-free machinable brass with Ti additive by powder metallurgy
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6:32:3:2:1 The effects of Ti and Sn alloying elements on precipitation strengthened Cu4OZn brass using powder metallurgy and hot extrusion
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6:32:3:2:2 Phase transformation and precipitation hardening behavior of Cr and Fe in BS40CrFeSn alloy
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6:32:3:2:3 Development of precipitation strengthened brass with Ti and Sn alloying elements additives by using water atomized powder via powder metallurgy route
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6:32:3:2:4 Dependence of microstructure and mechanical properties on hot-extrusion temperatures of the developed high-strength Cu40Zn-CrFeTiSn brass by powder metallurgy
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6:32:4:1 Effect of minor Co additions on the crystallization and magnetic properties of Fe(Co)NbBCu alloys
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6:32:4:2 Extension of the classical theory of crystallization to non-isothermal regimes: Application to nanocrystallization processes
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6:32:4:3 Microstructure evolution and grain size distribution in nanocrystalline FeNbBCu from synchrotron XRD and TEM analysis
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6:32:4:4 Cellular automata simulations on nanocrystallization processes: From instantaneous growth approximation to limited growth
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6:32:4:5 Nucleation rate and nanocrystallization of Co-60-(Fe, Mn)(18)-Nb-6-B-16 amorphous alloys in the frame of instantaneous growth approximation
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6:32:4:6 Size evaluation of nanostructured materials
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6:32:4:7 Magnetic properties of Fe-Co-Mo-Cu-B nanocrystalline ribbons with stressing surfaces
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6:32:4:8 Analysis of nanocrystallization kinetics and crystal size distribution under limited growth approach
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6:32:5:1 Experimental investigation of the Ce-Cu phase diagram
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6:32:5:2 Thermodynamics and structural relaxation in Ce-based bulk metallic glass-forming liquids
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6:32:5:3 Thermal stability of cerium-based bulk metallic glasses. Influence of iron addition
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6:32:5:4 Crystallization behavior of Ce70-xAl10Cu20Cox (x=0, 1, 3, 5 at.%) amorphous alloys
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6:32:5:5 Enhanced glass-forming ability of a Sm-based alloy with the addition of La
DOI:10.1016/j.jallcom.2010.06.121 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:7 AU: Ji, Yunfei;Pang, Shujie;Zhang, Tao;
6:32:5:6 Enhancement of the glass forming ability of La-Al-Cu glassy alloys by partial substitution of Al by Mg
DOI:10.1016/j.jallcom.2010.03.102 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:2 AU: Wu, Lin;Li, Shandong;Fang, Jianglin;Chen, Qinhui;Peng, Kun;
6:32:5:7 Initial microstructural study of a Ce-La alloy using electron backscattered diffraction
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6:32:6:1 Phase Field Modeling of Microstructure Formation, DSC Curves, and Thermal Expansion for Ag-Cu Brazing Fillers Under Reactive Air Brazing Conditions
DOI:10.1002/adem.201400101 JN:ADVANCED ENGINEERING MATERIALS PY:2014 TC:0 AU: Apel, Markus;Laschet, Gottfried;Boettger, Bernd;Berger, Ralf;
6:32:6:2 Phase-Field Modeling and Experimental Observation of Microstructures in Solidifying Sn-Ag-Cu Solders
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6:32:6:3 Implementation of an antitrapping current for a multicomponent multiphase-field ansatz
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6:32:7:1 Origin of the lathy ferrite in AISI 304 stainless steel during directional solidification
DOI:10.1016/j.jallcom.2013.05.107 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:3 AU: Fu, J. W.;Yang, Y. S.;
6:32:7:2 Solidification behavior in three-phase region of AISI 304 stainless steel
DOI:10.1016/j.matlet.2012.11.035 JN:MATERIALS LETTERS PY:2013 TC:2 AU: Fu, J. W.;Yang, Y. S.;
6:32:7:3 Influence of electrolytic plasma process on corrosion property of peened 304 austenitic stainless steel
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6:32:7:4 The influence of rapid solidification on the microstructure of the 17Cr-9Ni-3Mo precipitation hardened steel
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6:32:7:5 Formation of annular austenitic ring between outer ferrite layer and solid globule in a semi-solid processed SS 304L
DOI:10.1016/j.matlet.2014.07.152 JN:MATERIALS LETTERS PY:2014 TC:0 AU: Samantaray, Dipti;Kumar, Vinod;Bhaduri, A. K.;Dutta, Pradip;
6:32:8:1 Improved corrosion resistance of stainless steel 316L by Ti ion implantation
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6:32:8:2 Orientational dependence of lathy ferrite in Fe-Cr-Ni alloy during directional solidification
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6:32:8:3 Crystallography and morphology of a lathy ferrite in Fe-Cr-Ni alloys during directional solidification
DOI:10.1557/jmr.2013.203 JN:JOURNAL OF MATERIALS RESEARCH PY:2013 TC:1 AU: Fu, Junwei;Yang, Yuansheng;
6:32:9:1 Phase selection and microstructural formation of rapidly directionally solidified peritectic Fe-Ni alloys by laser surface remelting
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6:32:9:2 New initiating mechanism of coupled growth in directionally solidified Fe-Ni peritectic system in diffusive regime
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6:32:9:3 Two phases separate growth in directionally solidified Fe-4.2Ni alloy
DOI:10.1016/j.matlet.2010.05.040 JN:MATERIALS LETTERS PY:2010 TC:4 AU: Feng, Zhourong;Shen, Jun;Min, Zhixian;Wang, Lingshui;Fu, Hengzhi;
6:33:1:1 In situ martensitic phase reinforced Fe-Nb-Ni-Mn ultrafine composite with enhanced mechanical properties
DOI:10.1016/j.msea.2011.10.012 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:7 AU: Kim, T. E.;Park, J. M.;Kuehn, Uta;Eckert, J.;Kim, W. T.;Kim, D. H.;
6:33:1:2 Microstructural and mechanical behavior study of suction cast Nb-Si binary alloys
DOI:10.1016/j.msea.2013.06.045 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:2 AU: Kashyap, S.;Tiwary, C. S.;Chattopadhyay, K.;
6:33:1:3 Microstructure and mechanical properties of oxidation resistant suction cast Nb-Si-Al alloy
DOI:10.1016/j.msea.2012.08.027 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: Kashyap, S.;Tiwary, C. S.;Chattopadhyay, K.;
6:33:1:4 Characterization of a new Nb-silicide (-Nb11Si4) in Nb-Si binary systems
DOI:10.1080/14786431003630827 JN:PHILOSOPHICAL MAGAZINE PY:2010 TC:4 AU: Cheng, Guangming;Qian, Haiyan;He, Lianlong;Ye, Hengqiang;
6:33:1:5 Effect of Mg addition on microstructural, mechanical and environmental properties of Nb-Si eutectic composite
DOI:10.1016/j.msea.2012.09.056 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:2 AU: Tiwary, C. S.;Kashyap, S.;Chattopadhyay, K.;
6:33:1:6 Silicide characterization at alumina-niobium interfaces
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6:33:1:7 Effect of Carbon Addition on the Microstructural Evolution and Mechanical Properties in Hypo-Eutectic Fe-Zr(-Nb) Alloys
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6:33:2:1 Improving the plasticity of a high strength Fe-Si-Ti ultrafine composite by introduction of an immiscible element
DOI:10.1063/1.3532100 JN:APPLIED PHYSICS LETTERS PY:2010 TC:9 AU: Park, J. M.;Kim, D. H.;Kim, K. B.;Eckert, J.;
6:33:2:2 Length-scale dependent mechanical properties of Al-Cu eutectic alloy: Molecular dynamics based model and its experimental verification
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6:33:2:3 Effect of length scale on mechanical properties of Al-Cu eutectic alloy
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6:33:2:4 Development of alloys with high strength at elevated temperatures by tuning the bimodal microstructure in the Al-Cu-Ni eutectic system
DOI:10.1016/j.scriptamat.2014.08.020 JN:SCRIPTA MATERIALIA PY:2014 TC:1 AU: Tiwary, C. S.;Kashyap, S.;Chattopadhyay, K.;
6:33:2:5 The influence of in situ formed precipitates on the plasticity of Fe-Nb-B-Cu bulk metallic glasses
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6:33:2:6 Tensile flow and work hardening behavior of hot cross-rolled AA7010 aluminum alloy sheets
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6:33:2:7 Mechanical properties anisotropy of cold rolled and solution annealed Ni-20Cr-8Fe alloy
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6:33:3:1 Heterogeneous duplex structured Ti-Sn-Mo alloys with high strength and large plastic deformability
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6:33:3:2 Effect of Sn on microstructure and mechanical properties of Ti-Fe-(Sn) ultrafine eutectic composites
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6:33:3:3 Formation mechanism of shear bands in ultrafine lamellar Ti-Fe eutectics
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6:33:3:4 Solid-state phase transformation-induced heterogeneous duplex structure in Ti-Sn-Fe alloys
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6:33:3:5 Origin of plasticity in ultrafine lamellar Ti-Fe-(Sn) composites
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6:33:3:6 Microstructural Modulations Enhance the Mechanical Properties in Al-Cu-(Si, Ga) Ultrafine Composites
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6:33:4:1 Effect of Mn element on microstructure and mechanical properties of bulk nanocrystalline Fe3Al based materials prepared by aluminothermic reaction
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6:33:4:2 Effect of annealing on microstructure and mechanical properties of large dimensional bulk nanocrystalline Fe-Al-Cr alloy prepared by aluminothermic reaction
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6:33:4:3 Effect of annealing on microstructure and mechanical properties of bulk nanocrystalline Fe3Al alloy with 5 wt.% Cu prepared by aluminothermic reaction
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6:33:4:4 Microstructures and mechanical properties of bulk nanocrystalline Fe3Al materials with 5, 10 and 15 wt.% Cr prepared by aluminothermic reaction
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6:33:4:5 Microstructure and mechanical properties of a large-dimensional bulk nanocrystalline-based Fe-Al-Cr alloy prepared by an aluminothermic reaction casting and followed annealing at 1000 C-degrees
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6:33:4:6 Combustion Synthesis of Large Bulk Nanostructured Ni65Al21Cr14 Alloy
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6:33:5:1 Oxidation parameters determination of Cu-Al-Ni-Fe shape-memory alloy at high temperatures
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6:33:5:2 Continuously cast Cu-Al-Ni shape memory alloy - Properties in as-cast condition
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6:33:5:3 Isothermal oxidation study on NiMnGa ferromagnetic shape memory alloy at 600-1000 degrees C
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6:33:5:4 Investigation of isothermal and no-isothermal oxidation of SiC powder using an analytic kinetic model
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6:33:5:5 Relationship between microstructure, cytotoxicity and corrosion properties of a Cu-Al-Ni shape memory alloy
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6:33:6:1 Molecular dynamics simulations of nanoindentation of monocrystalline germanium
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6:33:6:2 Molecular dynamics simulation of nano-scale interfacial friction characteristic for different tribopair systems
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6:33:6:3 A molecular dynamics simulation of boundary lubrication: The effect of n-alkanes chain length and normal load
DOI:10.1016/j.wear.2013.01.052 JN:WEAR PY:2013 TC:7 AU: Zheng, Xuan;Zhu, Hongtao;Kosasih, Buyung;Tieu, A. Kiet;
6:33:7:1 Oxidation behavior of Nb-20Mo-15Si-5B-20Ti alloy in air from 700 to 1300 degrees C
DOI:10.1016/j.jallcom.2010.03.005 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:6 AU: Portillo, Benedict I.;Varma, S. K.;
6:33:7:2 High-temperature oxidation behavior of Nb-Si-Cr alloys with Hf additions
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6:33:7:3 High temperature oxidation characteristics of Nb-10W-XCr alloys
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6:33:7:4 Effects of W content on high temperature oxidation resistance and room temperature mechanical properties of hot-pressing Nb-XW alloys
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6:33:7:5 Microstructures and high temperature oxidation resistance of alloys from Nb-Cr-Si system
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6:33:8:1 Microalloying effect on the microstructure and mechanical properties in Al-Cu based dendrite-ultrafine composites
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6:33:8:2 Evolution of constitution, structure, and mechanical properties in Fe-Ti-Zr-B heterogeneous multiphase composites
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6:33:8:3 Formation of bimodal eutectic structure in Ti63.5Fe30.5Sn6 and Mg72Cu5Zn23 alloys
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6:33:8:4 Ultrahigh strength MgZnCa eutectic alloy/Fe particle composites with excellent plasticity
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6:33:8:5 Deformation mechanisms of a bimodal eutectic Mg72Cu5Zn23 ultrafine composite
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6:33:9:1 Oxidation mechanism of ZrB2/SiC ceramics based on phase-field model
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6:33:9:2 Interplay between fracture and diffusion behaviors: Modeling and phase field computation
DOI:10.1016/j.commatsci.2011.03.040 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:2 AU: Yang, Fan;Liu, Bin;Fang, Dai-ning;
6:33:9:3 Compressive strength degradation in ZrB2-based ultra-high temperature ceramic composites
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6:33:10:1 Sn and Nb modified ultrafine Ti-based bulk alloys with high-strength and enhanced ductility
DOI:10.1063/1.4792592 JN:APPLIED PHYSICS LETTERS PY:2013 TC:3 AU: Cao, G. H.;Schneider, R.;Gerthsen, D.;Chulist, R.;Schaarschuch, R.;Oertel, C. -G.;Skrotzki, W.;
6:33:10:2 Formation of a bimodal structure in ultrafine Ti-Fe-Nb alloys with high-strength and enhanced ductility
DOI:10.1016/j.msea.2014.04.088 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:3 AU: Cao, G. H.;Peng, Y. F.;Liu, N.;Li, X.;Lei, Z. S.;Ren, Z. M.;Gerthsen, D.;Russell, A. M.;
6:33:10:3 Dynamic effects in the lamellar-rod eutectic transition
DOI:10.1016/j.actamat.2011.01.050 JN:ACTA MATERIALIA PY:2011 TC:9 AU: Liu, S.;Lee, J. H.;Trivedi, R.;
6:34:1:1 A quantitative assessment of nanometric machinability of major polytypes of single crystal silicon carbide
DOI:10.1016/j.jeurceramsoc.2012.04.016 JN:JOURNAL OF THE EUROPEAN CERAMIC SOCIETY PY:2012 TC:17 AU: Luo, Xichun;Goel, Saurav;Reuben, Robert L.;
6:34:1:2 Molecular dynamics simulation model for the quantitative assessment of tool wear during single point diamond turning of cubic silicon carbide
DOI:10.1016/j.commatsci.2011.07.052 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:15 AU: Goel, Saurav;Luo, Xichun;Reuben, Robert L.;
6:34:1:3 Influence of temperature and crystal orientation on tool wear during single point diamond turning of silicon
DOI:10.1016/j.wear.2012.02.010 JN:WEAR PY:2012 TC:13 AU: Goel, Saurav;Luo, Xichun;Reuben, Robert L.;Pen, Hongmin;
6:34:1:4 Replacing diamond cutting tools with CBN for efficient nanometric cutting of silicon
DOI:10.1016/j.matlet.2011.11.028 JN:MATERIALS LETTERS PY:2012 TC:17 AU: Goel, Saurav;Luo, Xichun;Reuben, Robert L.;Bin Rashid, Waleed;
6:34:1:5 Molecular dynamics simulation of nanoindentation of Fe3C and Fe4C
DOI:10.1016/j.msea.2013.12.091 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:6 AU: Goel, Saurav;Joshi, Suhas S.;Abdelal, Gasser;Agrawal, Anupam;
6:34:1:6 Molecular simulation of tip wear in a single asperity sliding contact
DOI:10.1016/j.wear.2013.09.004 JN:WEAR PY:2013 TC:4 AU: Vargonen, Metin;Yang, Yongjian;Huang, Liping;Shi, Yunfeng;
6:34:1:7 Can a carbon nano-coating resist metallic phase transformation in silicon substrate during nanoimpact?
DOI:10.1016/j.wear.2014.03.009 JN:WEAR PY:2014 TC:2 AU: Goel, Saurav;Agrawal, Anupam;Faisal, Nadimul Haque;
6:34:1:8 Shear instability of nanocrystalline silicon carbide during nanometric cutting
DOI:10.1063/1.4726036 JN:APPLIED PHYSICS LETTERS PY:2012 TC:10 AU: Goel, Saurav;Luo, Xichun;Reuben, Robert L.;
6:34:1:9 The development of a surface defect machining method for hard turning processes
DOI:10.1016/j.wear.2013.01.048 JN:WEAR PY:2013 TC:0 AU: Bin Rashid, Waleed;Goel, Saurav;Luo, Xichun;Ritchie, James M.;
6:34:1:10 Atomistic investigation on the structure-property relationship during thermal spray nanoparticle impact
DOI:10.1016/j.commatsci.2013.12.011 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:2 AU: Goel, Saurav;Faisal, Nadimul Haque;Ratia, Vilma;Agrawal, Anupam;Stukowski, Alexander;
6:34:2:1 Modes of tool deterioration during milling of 718Plus superalloy using cemented tungsten carbide tools
DOI:10.1016/j.wear.2014.04.021 JN:WEAR PY:2014 TC:0 AU: Razak, N. H.;Chen, Z. W.;Pasang, T.;
6:34:2:2 Adhering layer formation and its effect on the wear of coated carbide tools during turning of a nickel-based alloy
DOI:10.1016/j.wear.2011.02.018 JN:WEAR PY:2011 TC:11 AU: Xue, Chao;Chen, Wuyi;
6:34:2:3 Tool life and wear mechanism when machining Hastelloy C-22HS
DOI:10.1016/j.wear.2010.10.067 JN:WEAR PY:2011 TC:9 AU: Kadirgama, K.;Abou-El-Hossein, K. A.;Noor, M. M.;Sharma, K. V.;Mohammad, B.;
6:34:2:4 Analysis of the evolution of the Built-Up Edge and Built-Up Layer formation mechanisms in the dry turning of aeronautical aluminium alloys
DOI:10.1016/j.wear.2012.12.001 JN:WEAR PY:2013 TC:11 AU: Gomez-Parra, A.;Alvarez-Alcon, M.;Salguero, J.;Batista, M.;Marcos, M.;
6:34:2:5 Analysis of tool wear patterns in finishing turning of Inconel 718
DOI:10.1016/j.wear.2012.11.004 JN:WEAR PY:2013 TC:14 AU: Cantero, J. L.;Diaz-Alvarez, J.;Miguelez, M. H.;Marin, N. C.;
6:34:2:6 Influence of microstructure on wear behaviour of uncoated WC tools in turning of Alloy 718 and Waspaloy
DOI:10.1016/j.wear.2012.01.004 JN:WEAR PY:2012 TC:7 AU: Olovsjo, S.;Nyborg, L.;
6:34:2:7 Degradation modes and tool wear mechanisms in finish and rough machining of Ti17 Titanium alloy under high-pressure water jet assistance
DOI:10.1016/j.wear.2013.06.018 JN:WEAR PY:2013 TC:5 AU: Ayed, Y.;Germain, G.;Ammar, A.;Furet, B.;
6:34:2:8 Detailed analysis of microstructure of intentionally formed built-up edges for improving wear behaviour in dry metal cutting process of steel
DOI:10.1016/j.wear.2013.12.012 JN:WEAR PY:2014 TC:3 AU: Kuemmel, Johannes;Gibmeier, Jens;Mueller, Erich;Schneider, Reinhard;Schulze, Volker;Wanner, Alexander;
6:34:2:9 An experimental investigation of the effect of coating material on tool wear in micro milling of Inconel 718 super alloy
DOI:10.1016/j.wear.2013.01.103 JN:WEAR PY:2013 TC:6 AU: Ucun, Irfan;Aslantas, Kubilay;Bedir, Fevzi;
6:34:3:1 Multiscale simulation of nanometric cutting of single crystal copper and its experimental validation
DOI:10.1016/j.commatsci.2011.07.005 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:11 AU: Pen, H. M.;Liang, Y. C.;Luo, X. C.;Bai, Q. S.;Goel, S.;Ritchie, J. M.;
6:34:3:2 A new multiscale methodology for modeling of single and multi-body solid structures
DOI:10.1016/j.commatsci.2012.05.059 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:2 AU: Korayem, M. H.;Sadeghzadeh, S.;Rahneshin, V.;
6:34:3:3 Coarse-grained molecular dynamics simulation of automatic nanomanipulation process: The effect of tip damage on the positioning errors
DOI:10.1016/j.commatsci.2012.03.042 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:3 AU: Korayem, M. H.;Rahneshin, V.;Sadeghzadeh, S.;
6:34:3:4 Precise manipulation of metallic nanoparticles: Multiscale analysis
DOI:10.1016/j.commatsci.2012.08.028 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:0 AU: Korayem, M. H.;Sadeghzadeh, S.;Rahneshin, V.;Homayooni, A.;Safa, M.;
6:34:3:5 Effects of macro-scale uncertainties on the imaging and automatic manipulation of nanoparticles
DOI:10.1007/s11051-012-1391-6 JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2013 TC:0 AU: Korayem, M. H.;Sadeghzadeh, S.;Homayooni, A.;
6:34:4:1 Numerical modelling of micro-machining of f.c.c. single crystal: Influence of strain gradients
DOI:10.1016/j.commatsci.2014.05.058 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:0 AU: Demiral, Murat;Roy, Anish;El Sayed, Tamer;Silberschmidt, Vadim V.;
6:34:4:2 Determination of Johnson-Cook parameters from machining simulations
DOI:10.1016/j.commatsci.2011.07.035 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:23 AU: Shrot, Aviral;Baeker, Martin;
6:34:4:3 Inverse parameter identification with finite element simulations using knowledge-based descriptors
DOI:10.1016/j.commatsci.2012.11.059 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:3 AU: Baeker, Martin;Shrot, Aviral;
6:34:4:4 The implementation of a visco-hyperelastic numerical material model for simulating the behaviour of polymer foam materials
DOI:10.1016/j.commatsci.2012.04.012 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:5 AU: Briody, Conor;Duignan, Barry;Jerrams, Steve;Tiernan, John;
6:34:5:1 The effect of grain size and hardness of wrought Alloy 718 on the wear of cemented carbide tools
DOI:10.1016/j.wear.2010.01.017 JN:WEAR PY:2010 TC:12 AU: Olovsjo, S.;Wretland, A.;Sjoberg, G.;
6:34:5:2 Notch wear prediction model in turning of Inconel 718 with ceramic tools considering the influence of work hardened layer
DOI:10.1016/j.wear.2014.02.007 JN:WEAR PY:2014 TC:5 AU: Zhuang, Kejia;Zhu, Dahu;Zhang, Xiaoming;Ding, Han;
6:34:5:3 Local structure of metallic chips examined by X-ray microdiffraction
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6:34:5:4 The effect of the martensitic packet size on the machinability of modified AISI P20 prehardened mold steel
DOI:10.1007/s10853-011-6208-y JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:0 AU: Hoseiny, H.;Caballero, F. G.;Hogman, B.;San Martin, D.;Capdevila, C.;Nordh, L. -G.;Andren, H. -O.;
6:34:6:1 Wear mechanism and notch wear location prediction model in ball nose end milling of Inconel 718
DOI:10.1016/j.wear.2012.12.040 JN:WEAR PY:2013 TC:9 AU: Kasim, M. S.;Haron, C. H. Che;Ghani, J. A.;Sulaiman, M. A.;Yazid, M. Z. A.;
6:34:6:2 Investigation and FEM-based simulation of tool wear in turning operations with uncoated carbide tools
DOI:10.1016/j.wear.2010.04.013 JN:WEAR PY:2010 TC:24 AU: Attanasio, A.;Ceretti, E.;Fiorentino, A.;Cappellini, C.;Giardini, C.;
6:34:6:3 Experimental and numerical analyses of the tool wear in rough turning of large dimensions components of nuclear power plants
DOI:10.1016/j.wear.2014.02.005 JN:WEAR PY:2014 TC:4 AU: Haddag, B.;Nouari, M.;Barlier, C.;Dhers, J.;
6:34:6:4 Tool wear and heat transfer analyses in dry machining based on multi-steps numerical modelling and experimental validation
DOI:10.1016/j.wear.2013.01.028 JN:WEAR PY:2013 TC:9 AU: Haddag, B.;Nouari, M.;
6:34:6:5 Characterization of 3D surface topography in 5-axis milling
DOI:10.1016/j.wear.2010.05.014 JN:WEAR PY:2011 TC:12 AU: Quinsat, Yann;Lavernhe, Sylvain;Lartigue, Claire;
6:34:7:1 FE/SPH modelling of orthogonal micro-machining of f.c.c. single crystal
DOI:10.1016/j.commatsci.2013.05.022 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:6 AU: Zahedi, S. Abolfazl;Demiral, Murat;Roy, Anish;Silberschmidt, Vadim V.;
6:34:7:2 Numerical modeling of laser assisted machining of a beta titanium alloy
DOI:10.1016/j.commatsci.2014.05.023 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:0 AU: Xi, Yao;Zhan, Hongyi;Rashid, R. A. Rahman;Wang, Gui;Sun, Shoujin;Dargusch, Matthew;
6:34:7:3 SPH/FE modeling of cutting force and chip formation during thermally assisted machining of Ti6Al4V alloy
DOI:10.1016/j.commatsci.2013.12.018 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:3 AU: Xi, Yao;Bermingham, Michael;Wang, Gui;Dargusch, Matthew;
6:34:8:1 Separation, folding and shearing of graphene layers during wedge-based mechanical exfoliation
DOI:10.1088/0957-4484/24/20/205301 JN:NANOTECHNOLOGY PY:2013 TC:4 AU: Jayasena, B.;Reddy, C. D.;Subbiah, S.;
6:34:8:2 Simulated Nanoscale Peeling Process of Monolayer Graphene Sheet: Effect of Edge Structure and Lifting Position
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6:35:1 Ascent of open-circuit voltage on diamond-like carbon photovoltaic cell by infrared heating-assisted pulsed-laser deposition
DOI:10.1007/s00339-010-6134-x JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2010 TC:0 AU: Takayama, Ken;Soma, Senri;Inoue, Taiji;Kakinuma, Hideaki;Haraguchi, Takashi;Suzuki, Kaoru;
6:35:2 Carbon Nanotubes: How Strong Is Their Bond with the Substrate?
DOI:10.1021/nn102900z JN:ACS NANO PY:2011 TC:24 AU: Lahiri, Indranil;Lahiri, Debrupa;Jin, Sungho;Agarwal, Arvind;Choi, Wonbong;
6:35:3 High-resolution in-situ characterization of the surface evolution of a polycrystalline NiTi SMA-alloy under pseudoelastic deformation
DOI:10.1016/j.matchar.2010.12.008 JN:MATERIALS CHARACTERIZATION PY:2011 TC:12 AU: Lackmann, J.;Niendorf, T.;Maxisch, M.;Grundmeier, G.;Maier, H. J.;
6:35:4 Improved ductility and oxidation resistance of cast Ti-6Al-4V alloys by microalloying
DOI:10.1016/j.jallcom.2014.03.039 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:6 AU: Luan, J. H.;Jiao, Z. B.;Chen, G.;Liu, C. T.;
6:35:5 Oxidation behavior of ignition-proof magnesium alloys with rare earth addition
DOI:10.1016/j.jallcom.2010.10.168 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:15 AU: Fan, J. F.;Yang, Ch. L.;Han, G.;Fang, S.;Yang, W. D.;Xu, B. S.;
6:35:6 EBSD studies of the stress-induced B2-B19 ' martensitic transformation in NiTi tubes under uniaxial tension and compression
DOI:10.1016/j.actamat.2010.02.009 JN:ACTA MATERIALIA PY:2010 TC:16 AU: Mao, S. C.;Luo, J. F.;Zhang, Z.;Wu, M. H.;Liu, Y.;Han, X. D.;
6:35:7 In situ characterization of martensite variant formation in nickel-titanium shape memory alloy under biaxial loading
DOI:10.1016/j.scriptamat.2011.08.011 JN:SCRIPTA MATERIALIA PY:2011 TC:7 AU: Niendorf, T.;Lackmann, J.;Gorny, B.;Maier, H. J.;
6:35:8 Structural investigations of rapidly solidified Mg-Cu-Y alloys
DOI:10.1016/j.jallcom.2010.01.159 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:8 AU: Mear, Francois O.;Louzguine-Luzgin, Dmitri V.;Inoue, Akihisa;
6:35:9 The high temperature oxidation and ignition behavior of Mg-Nd alloys part I: The oxidation of dilute alloys
DOI:10.1016/j.jallcom.2013.03.130 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:10 AU: Aydin, D. S.;Bayindir, Z.;Hoseini, M.;Pekguleryuz, M. O.;
6:35:10 Formability of thermally cured and of nanoclay-reinforced polyelectrolyte films on NiTi substrates
DOI:10.1007/s10853-011-5782-3 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:4 AU: Lackmann, J.;Niendorf, T.;Maxisch, M.;Regenspurger, R.;Grundmeier, G.;Maier, H. J.;
6:35:11 Quantitative Studies of microstructural phase transformation in Nickel-Titanium
DOI:10.1016/j.matlet.2012.12.063 JN:MATERIALS LETTERS PY:2013 TC:6 AU: Kimiecik, M.;Jones, J. W.;Daly, S.;
6:35:12 Novel precipitate-microstructural architecture developed in the fabrication of solid copper components by additive manufacturing using electron beam melting
DOI:10.1016/j.actamat.2011.03.033 JN:ACTA MATERIALIA PY:2011 TC:17 AU: Ramirez, D. A.;Murr, L. E.;Martinez, E.;Hernandez, D. H.;Martinez, J. L.;Machado, B. I.;Medina, F.;Frigola, P.;Wicker, R. B.;
6:35:13 Flammability of Mg-X Binary Alloys
DOI:10.1002/adem.201200124 JN:ADVANCED ENGINEERING MATERIALS PY:2012 TC:5 AU: Prasad, Arvind;Shi, Zhiming;Atrens, Andrej;
6:35:14 Fracture toughness of Al2O3 fibers with an artificial notch introduced by a focused-ion-beam
DOI:10.1016/j.jeurceramsoc.2009.12.020 JN:JOURNAL OF THE EUROPEAN CERAMIC SOCIETY PY:2010 TC:7 AU: Ochiai, S.;Kuboshima, S.;Morishita, K.;Okuda, H.;Inoue, T.;
6:35:15 The effect of strontium (Sr) on the ignition temperature of magnesium (Mg): a look at the pre-ignition stage of Mg-6 wt% Sr
DOI:10.1007/s10853-013-7624-y JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:2 AU: Aydin, D. S.;Bayindir, Z.;Pekguleryuz, M. O.;
6:35:16 Effect of yttrium and erbium on the microstructure and mechanical properties of Ti-Al-Nb alloys
DOI:10.1016/j.msea.2010.09.011 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:8 AU: Ke, Yubin;Duan, Huiping;Sun, Yanran;
6:35:17 Single Molecule Desorption Studies on Immobilized Nanoclay Particle Surfaces
DOI:10.1021/la904465t JN:LANGMUIR PY:2010 TC:5 AU: Ozkaya, Berkem;Ozcan, Ozlem;Thissen, Peter;Grundmeier, Guido;
6:35:18 beta-Grain Refinement of alpha+beta-Type Ti-4.5Al-6Nb-2Fe-2Mo Alloy by Using Rare-Earth-Oxide Precipitates
DOI:10.2320/matertrans.MC201207 JN:MATERIALS TRANSACTIONS PY:2013 TC:0 AU: Ueda, Kyosuke;Nakaoka, Shinichiro;Narushima, Takayuki;
6:35:19 Effects of triaxial stress on martensite transformation, stress-strain and failure behavior in front of crack tips in shape memory alloy NiTi
DOI:10.1016/j.msea.2009.10.038 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:9 AU: Wang, G. Z.;Xuan, F. Z.;Tu, S. T.;Wang, Z. D.;
6:35:20 Key factor influencing the ignition resistance of magnesium alloys at elevated temperatures
DOI:10.1016/j.scriptamat.2011.08.019 JN:SCRIPTA MATERIALIA PY:2011 TC:8 AU: Kim, Young Min;Yim, Chang Dong;Kim, Ha Sik;You, Bong Sun;
6:35:21 Assessment of tension-compression asymmetry of NiTi using circular bulge testing of thin plates
DOI:10.1016/j.scriptamat.2011.05.003 JN:SCRIPTA MATERIALIA PY:2011 TC:7 AU: Grolleau, V.;Louche, H.;Delobelle, V.;Penin, A.;Rio, G.;Liu, Y.;Favier, D.;
6:35:22 Fracture behavior of individual carbon fibers in tension using nano-fabricated notches
DOI:10.1016/j.compscitech.2013.09.020 JN:COMPOSITES SCIENCE AND TECHNOLOGY PY:2013 TC:2 AU: Kant, M.;Penumadu, D.;
6:35:23 Dilution of molybdenum on aluminum during laser surface alloying
DOI:10.1016/j.jallcom.2013.03.115 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:6 AU: Vora, Hitesh D.;Rajamure, Ravi Shanker;Soundarapandian, Santhanakrishnan;Srinivasan, S. G.;Dahotre, Narendra B.;
6:35:24 The high temperature oxidation behavior of Mg-Nd alloys. Part II: The effect of the two-phase microstructure on the on-set of oxidation and on oxide morphology
DOI:10.1016/j.jallcom.2013.09.110 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:5 AU: Aydin, D. S.;Bayindir, Z.;Pekguleryuz, M. O.;
6:35:25 Estimation of Fracture Toughness of SIC Fiber and Statistical Analysis of Change in Fracture Strength Distribution with Notch Size
DOI:10.2320/matertrans.MAW201302 JN:MATERIALS TRANSACTIONS PY:2013 TC:0 AU: Oehiai, Shojiro;Kuboshima, Shigetaka;Okuda, Hiroshi;Morishita, Kohei;Inoue, Tadanobu;Ishikawa, Toshihiro;Sato, Mitsuhiko;
6:35:26 Effect of boron on the fracture behavior and grain boundary chemistry of Ni3Fe
DOI:10.1016/j.scriptamat.2010.08.027 JN:SCRIPTA MATERIALIA PY:2011 TC:7 AU: Liu, Y.;Liu, C. T.;Heatherly, L.;George, E. P.;
6:36:1:1 Third harmonic shear horizontal and Rayleigh Lamb waves in weakly nonlinear plates
DOI:10.1063/1.4821252 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:5 AU: Liu, Yang;Chillara, Vamshi K.;Lissenden, Cliff J.;Rose, Joseph L.;
6:36:1:2 Higher order interaction of elastic waves in weakly nonlinear hollow circular cylinders. I. Analytical foundation
DOI:10.1063/1.4879459 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:2 AU: Liu, Yang;Lissenden, Cliff J.;Rose, Joseph L.;
6:36:1:3 Phase and group velocity matching for cumulative harmonic generation in Lamb waves
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6:36:1:4 Interaction of guided wave modes in isotropic weakly nonlinear elastic plates: Higher harmonic generation
DOI:10.1063/1.4729554 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:14 AU: Chillara, Vamshi Krishna;Lissenden, Cliff J.;
6:36:1:5 Higher order interaction of elastic waves in weakly nonlinear hollow circular cylinders. II. Physical interpretation and numerical results
DOI:10.1063/1.4879460 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:2 AU: Liu, Yang;Khajeh, Ehsan;Lissenden, Cliff J.;Rose, Joseph L.;
6:36:1:6 Evaluation of radiation damage using nonlinear ultrasound
DOI:10.1063/1.3692086 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:12 AU: Matlack, K. H.;Wall, J. J.;Kim, J. -Y.;Qu, J.;Jacobs, L. J.;Viehrig, H. -W.;
6:36:2:1 Fatigue damage evaluation of austenitic stainless steel using nonlinear ultrasonic waves in low cycle regime
DOI:10.1063/1.4879415 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:3 AU: Zhang, Jianfeng;Xuan, Fu-Zhen;
6:36:2:2 Dislocation contribution to acoustic nonlinearity: The effect of orientation-dependent line energy
DOI:10.1063/1.3530736 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:14 AU: Cash, W. D.;Cai, W.;
6:36:2:3 Contribution of dislocation dipole structures to the acoustic nonlinearity
DOI:10.1063/1.3699362 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:12 AU: Cash, W. D.;Cai, W.;
6:36:2:4 Acoustic harmonic generation from fatigue-generated dislocation substructures in copper single crystals
DOI:10.1080/14786435.2013.789144 JN:PHILOSOPHICAL MAGAZINE PY:2013 TC:3 AU: Apple, T. M.;Cantrell, J. H.;Amaro, C. M.;Mayer, C. R.;Yost, W. T.;Agnew, S. R.;Howe, J. M.;
6:36:2:5 Noncontact acousto-thermal evaluation of evolving fatigue damage in polycrystalline Ti-6Al-4V
DOI:10.1063/1.4875098 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Sathish, S.;Welter, J. T.;Schehl, N.;Jata, K. V.;
6:36:3:1 Experimental characterization of efficient second harmonic generation of Lamb wave modes in a nonlinear elastic isotropic plate
DOI:10.1063/1.3527959 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:16 AU: Matlack, Kathryn H.;Kim, Jin-Yeon;Jacobs, Laurence J.;Qu, Jianmin;
6:36:3:2 Experimental investigation of symmetry properties of second harmonic Lamb waves
DOI:10.1063/1.3691225 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:4 AU: Liu, Yu;Kim, Jin-Yeon;Jacobs, Laurence J.;Qu, Jianmin;Li, Zheng;
6:36:3:3 Measuring acoustic nonlinearity parameter using collinear wave mixing
DOI:10.1063/1.4739746 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:12 AU: Liu, Minghe;Tang, Guangxin;Jacobs, Laurence J.;Qu, Jianmin;
6:36:3:4 Dislocation-induced acoustic nonlinearity parameter in crystalline solids
DOI:10.1063/1.4826523 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:4 AU: Chen, Zimu;Qu, Jianmin;
6:36:3:5 Ultrasonic evaluation of early damage of a coating by using second-harmonic generation technique
DOI:10.1063/1.4729300 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:2 AU: Shui, Guoshuang;Wang, Yue-Sheng;
6:36:3:6 Effect of microstructure on non-linear behavior of ultrasound during low cycle fatigue of pearlitic steels
DOI:10.1016/j.msea.2010.12.078 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:8 AU: Sagar, S. Palit;Metya, A. K.;Ghosh, M.;Sivaprasad, S.;
6:36:4:1 Creep damage characterization using nonlinear ultrasonic guided wave method: A mesoscale model
DOI:10.1063/1.4863639 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:5 AU: Xiang, Yanxun;Deng, Mingxi;Xuan, Fu-Zhen;
6:36:4:2 Effect of precipitate-dislocation interactions on generation of nonlinear Lamb waves in creep-damaged metallic alloys
DOI:10.1063/1.4720071 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:12 AU: Xiang, Yanxun;Deng, Mingxi;Xuan, Fu-Zhen;Liu, Chang-Jun;
6:36:4:3 A study on precipitation characteristics induced strength variation by nonlinear ultrasonic parameter
DOI:10.1063/1.3524526 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:6 AU: Mondal, Chandan;Mukhopadhyay, Amretendu;Sarkar, Rajdeep;
6:36:4:4 Time-domain analysis and experimental examination of cumulative second-harmonic generation by primary Lamb wave propagation
DOI:10.1063/1.3592672 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:9 AU: Deng, Mingxi;Xiang, Yanxun;Liu, Liangbing;
6:36:5:1 In situ damage assessment in a cast magnesium alloy during very high cycle fatigue
DOI:10.1016/j.scriptamat.2010.09.008 JN:SCRIPTA MATERIALIA PY:2011 TC:5 AU: Kumar, Anish;Adharapurapu, Raghavendra R.;Jones, J. Wayne;Pollock, Tresa M.;
6:36:5:2 In situ characterization of fatigue damage evolution in a cast Al alloy via nonlinear ultrasonic measurements
DOI:10.1016/j.actamat.2009.11.055 JN:ACTA MATERIALIA PY:2010 TC:17 AU: Kumar, Anish;Torbet, Christopher J.;Pollock, Tresa M.;Jones, J. Wayne;
6:36:5:3 Characterisation of microstructural damage evolution during tensile deformation of a near-alpha titanium alloy: Effects of microtexture
DOI:10.1016/j.msea.2014.03.022 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:2 AU: Punnose, Sony;Mukhopadhyay, Amretendu;Sarkar, Rajdeep;Kumar, Vikas;
6:36:5:4 Detectability of Holes in SiC Particulate-Reinforced Al-Si Alloy Composite by Means of Ultrasonic Measurement
DOI:10.2320/matertrans.M2011190 JN:MATERIALS TRANSACTIONS PY:2012 TC:1 AU: Kato, Hiroshi;Otsuka, Shota;Kurita, Haruo;
6:36:5:5 Influence of casting defects on fatigue properties of SiC particulate dispersed aluminum alloy composite castings
DOI:10.1016/j.msea.2012.10.019 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:0 AU: Kato, Hiroshi;Otsuka, Shota;Nonaka, Akitoshi;
6:36:6:1 Creep damage characterization using non-linear ultrasonic techniques
DOI:10.1016/j.actamat.2009.11.050 JN:ACTA MATERIALIA PY:2010 TC:22 AU: Valluri, Jitendra S.;Balasubramaniam, Krishnan;Prakash, Raghu V.;
6:36:6:2 Creep Characterization in Advanced Heat-Resistant Steel Using Ultrasonic Nonlinearity Technique
DOI:10.2320/matertrans.M2012146 JN:MATERIALS TRANSACTIONS PY:2012 TC:2 AU: Kim, Chung-Seok;
6:36:6:3 Scatter in nonlinear ultrasonic measurements due to crystallographic orientation change induced anisotropy in harmonics generation
DOI:10.1063/1.3686698 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:2 AU: Mukhopadhyay, Amretendu;Sarkar, Rajdeep;Punnose, Sony;Valluri, Jitendra;Nandy, T. K.;Balasubramaniam, Krishnan;
6:36:6:4 Fatigue Process Evaluation of Ultrasonic Fatigue Testing in High Strength Steel Analyzed by Acoustic Emission and Non-Linear Ultrasonic
DOI:10.2320/matertrans.M2010074 JN:MATERIALS TRANSACTIONS PY:2010 TC:3 AU: Shiwa, Mitsuharu;Furuya, Yoshiyuki;Yamawaki, Hisashi;Ito, Kaita;Enoki, Manabu;
6:36:6:5 Acoustic Nonlinearity of Surface Wave in a Fatigued Aluminum Alloy Specimen
DOI:10.2320/matertrans.I-M2011846 JN:MATERIALS TRANSACTIONS PY:2012 TC:3 AU: Jhang, Kyung-Young;Lee, Jaeik;Lee, Taehun;
6:37:1:1 Through-thickness distributions of residual stresses in two extreme heat-input thick welds: A neutron diffraction, contour method and deep hole drilling study
DOI:10.1016/j.actamat.2013.02.034 JN:ACTA MATERIALIA PY:2013 TC:9 AU: Woo, W.;An, G. B.;Kingston, E. J.;DeWaldd, A. T.;Smith, D. J.;Hill, M. R.;
6:37:1:2 Neutron diffraction measurements of residual stresses in a 50 mm thick weld
DOI:10.1016/j.msea.2011.02.009 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:21 AU: Woo, Wanchuck;Em, Vyacheslav;Mikula, Pavel;An, Gyu-Baek;Seong, Baek-Seok;
6:37:1:3 Residual stress determination in a thick ferritic steel weld plate using neutron diffraction
DOI:10.1007/s10853-012-6456-5 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:7 AU: Woo, W.;Em, V. T.;Seong, B. S.;Mikula, P.;An, G. B.;
6:37:1:4 Residual stress determination in a dissimilar weld overlay pipe by neutron diffraction
DOI:10.1016/j.msea.2011.07.059 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:12 AU: Woo, Wanchuck;Em, Vyacheslav;Hubbard, Camden R.;Lee, Ho-Jin;Park, Kwang Soo;
6:37:1:5 Analysis of the unstressed lattice spacing, d(0), for the determination of the residual stress in a friction stir welded plate of an age-hardenable aluminum alloy - Use of equilibrium conditions and a genetic algorithm
DOI:10.1016/j.actamat.2014.04.035 JN:ACTA MATERIALIA PY:2014 TC:1 AU: Cioffi, F.;Hidalgo, J. I.;Fernandez, R.;Pirling, T.;Fernandez, B.;Gesto, D.;Puente Orench, I.;Rey, P.;Gonzalez-Doncel, G.;
6:37:1:6 Problems in using a comb sample as a stress-free reference for the determination of welding residual stress by diffraction
DOI:10.1016/j.msea.2010.10.039 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:7 AU: Ganguly, S.;Edwards, L.;Fitzpatrick, M. E.;
6:37:1:7 Numerical simulation of welding temperature field, residual stress and deformation induced by electro slag welding
DOI:10.1016/j.commatsci.2012.04.037 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:7 AU: Deng, Dean;Kiyoshima, Shoichi;
6:37:1:8 Residual stresses in the welding joint of the nozzle-to-head area of a layered high-pressure hydrogen storage tank
DOI:10.1016/j.ijhydene.2014.05.066 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2014 TC:1 AU: Xu, Shugen;Wei, Renchao;Wang, Weiqiang;Chen, Xuedong;
6:37:1:9 Effect of welding parameters on residual stresses in dissimilar joint of stainless steel to carbon steel
DOI:10.1007/s10853-010-5207-8 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:4 AU: Ranjbarnodeh, E.;Serajzadeh, S.;Kokabi, A. H.;Fischer, A.;
6:37:2:1 Residual stresses in laser welded ASTM A387 Grade 91 steel plates
DOI:10.1016/j.msea.2013.03.046 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:7 AU: Kumar, Santosh;Kundu, A.;Venkata, K. A.;Evans, A.;Truman, C. E.;Francis, J. A.;Bhanumurthy, K.;Bouchard, P. J.;Dey, G. K.;
6:37:2:2 Residual stress characterization in low transformation temperature 13%Cr-4%Ni stainless steel weld by neutron diffraction and the contour method
DOI:10.1016/j.msea.2010.06.035 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:23 AU: Thibault, Denis;Bocher, Philippe;Thomas, Marc;Gharghouri, Michael;Cote, Marjolaine;
6:37:2:3 On the evolution of local material properties and residual stress in a three-pass SA508 steel weld
DOI:10.1016/j.actamat.2012.03.022 JN:ACTA MATERIALIA PY:2012 TC:12 AU: Mark, A. F.;Francis, J. A.;Dai, H.;Turski, M.;Hurrell, P. R.;Bate, S. K.;Kornmeier, J. R.;Withers, P. J.;
6:37:2:4 Evaluations of stress-free lattice spacings and residual stresses in a quenched carbon steel cylinder using neutron diffraction
DOI:10.1016/j.msea.2012.12.075 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:0 AU: Jung, Minsu;Kang, Mihyun;Woo, Wanchuck;Lee, Young-Kook;
6:37:2:5 Structure-property relationships and residual stress quantification of a friction stir spot welded magnesium alloy
DOI:10.1016/j.scriptamat.2012.02.011 JN:SCRIPTA MATERIALIA PY:2012 TC:5 AU: Solanki, K. N.;Jordon, J. B.;Whittington, W.;Rao, H.;Hubbard, C. R.;
6:37:3:1 Constitutive model for localized Luders-like stress-induced martensitic transformation and super-elastic behaviors of laser-welded NiTi wires
DOI:10.1016/j.commatsci.2012.06.009 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:1 AU: Chan, C. W.;Chan, S. H. J.;Man, H. C.;Ji, P.;
6:37:3:2 Validation of a numerical model used to predict phase distribution and residual stress in ferritic steel weldments
DOI:10.1016/j.actamat.2014.04.045 JN:ACTA MATERIALIA PY:2014 TC:1 AU: Hamelin, Cory J.;Muransky, Ondrej;Smith, Michael C.;Holden, Thomas M.;Luzin, Vladimir;Bendeich, Philip J.;Edwards, Lyndon;
6:37:3:3 FEM analysis of residual stress distribution near weld start/end location in thick plates
DOI:10.1016/j.commatsci.2011.03.027 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:4 AU: Deng, Dean;Kiyoshima, Shoichi;
6:37:3:4 Accurate prediction of residual stress in stainless steel welds
DOI:10.1016/j.commatsci.2011.10.024 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:17 AU: Smith, M. C.;Bouchard, P. J.;Turski, M.;Edwards, L.;Dennis, R. J.;
6:37:3:5 Influence of transformation induced plasticity on simulated results of welding residual stress in low temperature transformation steel
DOI:10.1016/j.commatsci.2013.05.023 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:8 AU: Deng, Dean;Murakawa, Hidekazu;
6:37:3:6 Applications of inherent strain and interface element to simulation of welding deformation in thin plate structures
DOI:10.1016/j.commatsci.2011.06.040 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:1 AU: Murakawa, Hidekazu;Deng, Dean;Ma, Ninshu;Wang, Jiangchao;
6:37:4:1 The effect of plasticity theory on predicted residual stress fields in numerical weld analyses
DOI:10.1016/j.commatsci.2011.10.026 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:15 AU: Muransky, O.;Hamelin, C. J.;Smith, M. C.;Bendeich, P. J.;Edwards, L.;
6:37:4:2 Validated numerical analysis of residual stresses in Safety Relief Valve (SRV) nozzle mock-ups
DOI:10.1016/j.commatsci.2011.02.031 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:13 AU: Muransky, O.;Smith, M. C.;Bendeich, P. J.;Edwards, L.;
6:37:4:3 Numerical analysis of the effect of weld-induced residual stress and plastic damage on the ballistic performance of welded steel plate
DOI:10.1016/j.commatsci.2012.02.009 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:5 AU: Flores-Johnson, E. A.;Muransky, O.;Hamelin, C. J.;Bendeich, P. J.;Edwards, L.;
6:37:4:4 Numerical simulation and experimental analysis of vacuum brazing for steel/cermet
DOI:10.1016/j.ceramint.2014.03.033 JN:CERAMICS INTERNATIONAL PY:2014 TC:2 AU: Barrena, M. I.;Gomez de Salazar, J. M.;Gomez-Vacas, M.;
6:37:4:5 Full 3D spatially resolved mapping of residual strain in a 316L austenitic stainless steel weld specimen
DOI:10.1016/j.msea.2010.03.110 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:11 AU: Martins, R. V.;Ohms, C.;Decroos, K.;
6:37:4:6 Validated numerical analysis of residual stresses in safety relief valve (SRV) nozzle mock-ups: Influence of axial restraint on distortion and residual stress predictions
DOI:10.1016/j.commatsci.2012.05.042 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:1 AU: Bendeich, P. J.;Muransky, O.;Hamelin, C. J.;Smith, M. C.;Edwards, L.;
6:37:4:7 A nano-scale material model applied in finite element analysis of aluminium plates under impact loading
DOI:10.1016/j.commatsci.2013.07.035 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:4 AU: Johnsen, J.;Holmen, J. K.;Myhr, O. R.;Hopperstad, O. S.;Borvik, T.;
6:37:5:1 Numerical and experiment analysis of residual stress on magnesium alloy and steel butt joint by hybrid laser-TIG welding
DOI:10.1016/j.commatsci.2011.01.011 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:10 AU: Zeng, Zhi;Li, Xunbo;Miao, Yugang;Wu, Gang;Zhao, Zijun;
6:37:5:2 Thermomechanical analysis for Laser plus GMAW-P hybrid welding process
DOI:10.1016/j.commatsci.2009.11.013 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2010 TC:12 AU: Zhang, T.;Wu, C. S.;Qin, G. L.;Wang, X. Y.;Lin, S. Y.;
6:37:5:3 Determination of welding stress and distortion in discontinuous welding by means of numerical simulation and comparison with experimental measurements
DOI:10.1016/j.commatsci.2010.05.046 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2010 TC:4 AU: Zeng, Zhi;Wang, Lijun;Du, Pingan;Li, Xunbo;
6:37:5:4 Analysis of residual stress on AH32 butt joint by hybrid CO2 laser-GMA welding
DOI:10.1016/j.commatsci.2010.04.029 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2010 TC:7 AU: Bang, Hee Seon;Bang, Han Sur;Kim, You Chul;Joo, Sung Min;
6:37:5:5 A level set approach for the simulation of the multipass hybrid laser/GMA welding process
DOI:10.1016/j.commatsci.2014.04.036 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:0 AU: Desmaison, Olivier;Bellet, Michel;Guillemot, Gildas;
6:37:6:1 Critical comparison of two independent measurements of residual stress in an electron-beam welded uranium cylinder: Neutron diffraction and the contour method
DOI:10.1016/j.actamat.2010.09.022 JN:ACTA MATERIALIA PY:2011 TC:19 AU: Brown, D. W.;Holden, T. M.;Clausen, B.;Prime, M. B.;Sisneros, T. A.;Swenson, H.;Vaja, J.;
6:37:6:2 Characterization of a grain size refinement process in cast uranium
DOI:10.1016/j.msea.2012.08.082 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:3 AU: Garlea, E.;Bridges, R. L.;Garlea, V. O.;Carpenter, D. A.;Hemphill, M. A.;Morrell, J. S.;
6:37:7:1 Finite-element simulation of quenching incorporating improved transformation kinetics in a plain medium-carbon steel
DOI:10.1016/j.actamat.2011.10.007 JN:ACTA MATERIALIA PY:2012 TC:13 AU: Jung, Minsu;Kang, Minwoo;Lee, Young-Kook;
6:37:7:2 Archaeometric study on minting dies produced under papal rule in Ferrara
DOI:10.1007/s00339-013-7731-2 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2013 TC:0 AU: Monticelli, Cecilia;Balbo, Andrea;Vaccaro, Carmela;Gulinelli, Maria Teresa;Garagnani, Gian Luca;
6:37:7:3 Kinetics modeling of austenite decomposition for an end-quenched 1045 steel
DOI:10.1016/j.msea.2010.01.081 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:11 AU: Lee, Seok-Jae;Pavlina, Erik J.;Van Tyne, Chester J.;
6:38:1:1 A review on phase field modeling of martensitic phase transformation
DOI:10.1016/j.commatsci.2013.04.059 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:18 AU: Mamivand, Mahmood;Zaeem, Mohsen Asle;El Kadiri, Haitham;
6:38:1:2 Phase field modeling of the tetragonal-to-monoclinic phase transformation in zirconia
DOI:10.1016/j.actamat.2013.05.015 JN:ACTA MATERIALIA PY:2013 TC:14 AU: Mamivand, Mahmood;Zaeem, Mohsen Asle;El Kadiri, Haitham;Chen, Long-Qing;
6:38:1:3 Investigating the effects of grain boundary energy anisotropy and second-phase particles on grain growth using a phase-field model
DOI:10.1016/j.commatsci.2011.03.031 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:15 AU: Zaeem, M. Asle;El Kadiri, H.;Wang, P. T.;Horstemeyer, M. F.;
6:38:1:4 An elastic phase field model for thermal oxidation of metals: Application to zirconia
DOI:10.1016/j.commatsci.2014.03.042 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:0 AU: Zaeem, Mohsen Asle;El Kadiri, Haitham;
6:38:1:5 Morphological instabilities in thin films: Evolution maps
DOI:10.1016/j.commatsci.2010.10.043 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:12 AU: Zaeem, Mohsen Asle;Mesarovic, Sinisa Dj.;
6:38:1:6 Phase-Field Reaction-Pathway Kinetics of Martensitic Transformations in a Model Fe3Ni Alloy
DOI:10.1103/PhysRevLett.105.035703 JN:PHYSICAL REVIEW LETTERS PY:2010 TC:6 AU: Denoual, Christophe;Caucci, Anna Maria;Soulard, Laurent;Pellegrini, Yves-Patrick;
6:38:1:7 Recrystallization and grain growth in highly cold worked CP-Titanium
DOI:10.1016/j.msea.2010.03.023 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:10 AU: Contieri, R. J.;Zanotello, M.;Caram, R.;
6:38:1:8 Phase field modeling of stress-induced tetragonal-to-monoclinic transformation in zirconia and its effect on transformation toughening
DOI:10.1016/j.actamat.2013.10.031 JN:ACTA MATERIALIA PY:2014 TC:5 AU: Mamivand, Mahmood;Zaeem, Mohsen Asle;El Kadiri, Haitham;
6:38:1:9 Landau model of the microstructure and shape memory properties of cubic-monoclinic-II martensite
DOI:10.1016/j.scriptamat.2014.06.017 JN:SCRIPTA MATERIALIA PY:2014 TC:0 AU: Lee, Dong-Wook;Xu, Guanglong;Cui, Yuwen;
6:38:1:10 Transformations and cracks in zirconia films leading to breakaway oxidation of Zircaloy
DOI:10.1016/j.actamat.2013.02.052 JN:ACTA MATERIALIA PY:2013 TC:5 AU: El Kadiri, Haitham;Utegulov, Z. N.;Khafizov, M.;Zaeem, M. Asle;Mamivand, M.;Oppedal, A. L.;Enakoutsa, K.;Cherkaoui, M.;Graham, R. H.;Arockiasamy, A.;
6:38:1:11 Martensitic phase transformations in Ni-Ti-based shape memory alloys: The Landau theory
DOI:10.1016/j.actamat.2012.08.056 JN:ACTA MATERIALIA PY:2012 TC:7 AU: Shchyglo, Oleg;Salman, Umut;Finel, Alphonse;
6:38:1:12 Finite element analysis of oxidation induced metal depletion at oxide-metal interface
DOI:10.1016/j.commatsci.2010.03.044 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2010 TC:4 AU: Zhou, Honggang;Qu, Jianmin;Cherkaoui, Mohammed;
6:38:2:1 Physical, mathematical, and numerical derivations of the Cahn-Hilliard equation
DOI:10.1016/j.commatsci.2013.08.027 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:5 AU: Lee, Dongsun;Huh, Joo-Youl;Jeong, Darae;Shin, Jaemin;Yun, Ana;Kim, Junseok;
6:38:2:2 Numerical simulation of diffusion induced phase separation and coarsening in binary alloys
DOI:10.1016/j.commatsci.2010.03.030 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2011 TC:13 AU: Anders, Denis;Weinberg, Kerstin;
6:38:2:3 Isogeometric analysis of thermal diffusion in binary blends
DOI:10.1016/j.commatsci.2011.01.008 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:9 AU: Anders, Denis;Weinberg, Kerstin;Reichardt, Roland;
6:38:2:4 A parallel multigrid method of the Cahn-Hilliard equation
DOI:10.1016/j.commatsci.2013.01.008 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:3 AU: Shin, Jaemin;Kim, Sungki;Lee, Dongsun;Kim, Junseok;
6:38:2:5 Application of operator-scaling anisotropic random fields to binary mixtures
DOI:10.1080/14786435.2011.595378 JN:PHILOSOPHICAL MAGAZINE PY:2011 TC:4 AU: Anders, Denis;Hoffmann, Alexander;Scheffler, Hans-Peter;Weinberg, Kerstin;
6:38:2:6 A theory of spinodal decomposition stabilized by coherent strain in binary alloys
DOI:10.1016/j.commatsci.2013.04.040 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:2 AU: Gaudig, Wolfgang;
6:38:3:1 How the crystallography and nanoscale chemistry of the metal/oxide interface develops during the aqueous oxidation of zirconium cladding alloys
DOI:10.1016/j.actamat.2012.09.021 JN:ACTA MATERIALIA PY:2012 TC:21 AU: Ni, N.;Hudson, D.;Wei, J.;Wang, P.;Lozano-Perez, S.;Smith, G. D. W.;Sykes, J. M.;Yardley, S. S.;Moore, K. L.;Lyon, S.;Cottis, R.;Preuss, M.;Grovenor, C. R. M.;
6:38:3:2 The microstructure and microtexture of zirconium oxide films studied by transmission electron backscatter diffraction and automated crystal orientation mapping with transmission electron microscopy
DOI:10.1016/j.actamat.2014.07.062 JN:ACTA MATERIALIA PY:2014 TC:5 AU: Garner, A.;Gholinia, A.;Frankel, P.;Gass, M.;MacLaren, I.;Preuss, M.;
6:38:3:3 The effect of Sn on autoclave corrosion performance and corrosion mechanisms in Zr-Sn-Nb alloys
DOI:10.1016/j.actamat.2013.03.046 JN:ACTA MATERIALIA PY:2013 TC:9 AU: Wei, J.;Frankel, P.;Polatidis, E.;Blat, M.;Ambard, A.;Comstock, R. J.;Hallstadius, L.;Hudson, D.;Smith, G. D. W.;Grovenor, C. R. M.;Klaus, M.;Cottis, R. A.;Lyon, S.;Preuss, M.;
6:38:3:4 Porosity in oxides on zirconium fuel cladding alloys, and its importance in controlling oxidation rates
DOI:10.1016/j.scriptamat.2009.12.043 JN:SCRIPTA MATERIALIA PY:2010 TC:18 AU: Ni, N.;Lozano-Perez, S.;Jenkins, M. L.;English, C.;Smith, G. D. W.;Sykes, J. M.;Grovenor, C. R. M.;
6:38:4:1 Phase field modeling of isothermal beta -> omega phase transformation in the Zr-Nb alloys
DOI:10.1016/j.commatsci.2012.04.007 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:4 AU: Tang, Bin;Cui, Y. -W.;Kou, Hongchao;Chang, Hui;Li, Jinshan;Zhou, Lian;
6:38:4:2 A phase-field approach to athermal beta -> omega transformation
DOI:10.1016/j.commatsci.2011.09.011 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:6 AU: Tang, Bin;Cui, Y. -W.;Chang, Hui;Kou, Hongchao;Li, Jinshan;Zhou, Lian;
6:38:4:3 Coherent elastic energy calculation of omega particles in beta matrix for Zr-Nb alloys
DOI:10.1007/s10853-010-4790-z JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:4 AU: Tang, Bin;Kou, Hong-Chao;Chang, Hui;Li, Jin-Shan;Zhou, Lian;
6:38:5:1 Thermodynamics of the Zr-O system from first-principles calculations
DOI:10.1103/PhysRevB.88.094108 JN:PHYSICAL REVIEW B PY:2013 TC:3 AU: Puchala, B.;Van der Ven, A.;
6:39:1:1 Effect of cyclic heat treatments on spheroidizing behavior of cementite in high carbon steel
DOI:10.1016/j.msea.2013.02.059 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:5 AU: Lv, Z. Q.;Wang, B.;Wang, Z. H.;Sun, S. H.;Fu, W. T.;
6:39:1:2 Effect of cyclic heat treatment on microstructure and mechanical properties of 0.6 wt% carbon steel
DOI:10.1016/j.msea.2010.03.003 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:14 AU: Saha, Atanu;Mondal, Dipak Kumar;Maity, Joydeep;
6:39:1:3 Microstructural modifications and changes in mechanical properties during cyclic heat treatment of 0.16% carbon steel
DOI:10.1016/j.msea.2011.11.095 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:6 AU: Saha, Atanu;Mondal, Dipak Kumar;Biswas, Koushik;Maity, Joydeep;
6:39:1:4 Development of high strength ductile hypereutectoid steel by cyclic heat treatment process
DOI:10.1016/j.msea.2012.02.026 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:6 AU: Saha, Atanu;Mondal, Dipak Kumar;Biswas, Koushik;Maity, Joydeep;
6:39:1:5 Acceleration of spheroidization in eutectoid steels by the addition of aluminum
DOI:10.1016/j.scriptamat.2012.07.020 JN:SCRIPTA MATERIALIA PY:2012 TC:2 AU: Yi, H. L.;Hou, Z. Y.;Xu, Y. B.;Wu, D.;Wang, G. D.;
6:39:1:6 Effect of initial microstructure on mechanical properties in warm caliber rolling of high carbon steel
DOI:10.1016/j.msea.2011.04.016 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2011 TC:6 AU: Oh, Y. S.;Son, I. H.;Jung, K. H.;Kim, D. K.;Lee, D. L.;Im, Y. T.;
6:39:2:1 Protection of aluminium foil AA8021 by molybdate-based conversion coatings
DOI:10.1016/j.apsusc.2013.10.060 JN:APPLIED SURFACE SCIENCE PY:2014 TC:3 AU: Liang, Chang-Sheng;Lv, Zhong-Fei;Zhu, Ye-Ling;Xu, Shi-Ai;Wang, Hong;
6:39:2:2 Electrochemical behaviors of the magnesium alloy substrates in various pretreatment solutions
DOI:10.1016/j.apsusc.2009.11.062 JN:APPLIED SURFACE SCIENCE PY:2010 TC:16 AU: Zhu, Yanping;Yu, Gang;Hu, Bonian;Lei, Xiping;Yi, Haibo;Zhang, Jun;
6:39:2:3 Corrosion behavior and composition analysis of chromate passive film on electroless Ni-P coating
DOI:10.1016/j.apsusc.2010.01.089 JN:APPLIED SURFACE SCIENCE PY:2010 TC:9 AU: Mu, Songlin;Li, Ning;Li, Deyu;Xu, Liying;
6:39:2:4 Microstructure and corrosion behavior of electrodeposited nano-crystalline nickel coating on AZ91 Mg alloy
DOI:10.1016/j.jallcom.2014.07.046 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:2 AU: Zarebidaki, Arman;Mahmoudikohani, Hassan;Aboutalebi, Mohammad-Reza;
6:39:2:5 Molybdate and molybdate/permanganate conversion coatings on Mg-8.5Li alloy
DOI:10.1016/j.apsusc.2011.10.112 JN:APPLIED SURFACE SCIENCE PY:2012 TC:13 AU: Wang Guixiang;Zhang Milin;Wu Ruizhi;
6:39:2:6 Protection against corrosion in marine environments of AA6060 aluminium alloy by cerium chlorides
DOI:10.1016/j.jallcom.2009.11.042 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:18 AU: Allachi, H.;Chaouket, F.;Draoui, K.;
6:39:2:7 The effect of alkaline etching time on the anticorrosion performance of vanadia film formed on high strength AA2024 in chloride media
DOI:10.1007/s10853-011-6232-y JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:7 AU: Hamdy, Abdel Salam;Doench, I.;Moehwald, H.;
6:39:3:1 The effect of chromic sulfate concentration and immersion time on the structures and anticorrosive performance of the Cr(III) conversion coatings on aluminum alloys
DOI:10.1016/j.apsusc.2010.03.003 JN:APPLIED SURFACE SCIENCE PY:2010 TC:25 AU: Chen, Wei-Kun;Bai, Ching-Yuan;Liu, Chung-Ming;Lin, Chao-Sung;Ger, Ming-Der;
6:39:3:2 Effect of surface pre-treatment on the hydrophilicity and adhesive properties of multilayered laminate used for lithium battery packaging
DOI:10.1016/j.apsusc.2012.12.091 JN:APPLIED SURFACE SCIENCE PY:2013 TC:5 AU: Xia, F.;Xu, S. A.;
6:39:3:3 Corrosion resistance of siloxane-poly(methyl methacrylate) hybrid films modified with acetic acid on tin plate substrates: Influence of tetraethoxysilane addition
DOI:10.1016/j.apsusc.2013.09.182 JN:APPLIED SURFACE SCIENCE PY:2014 TC:5 AU: Kunst, S. R.;Cardoso, H. R. P.;Oliveira, C. T.;Santana, J. A.;Sarmento, V. H. V.;Muller, I. L.;Malfatti, C. F.;
6:39:3:4 Determination of the chemical mechanism of chromate conversion coating on magnesium alloys EV31A
DOI:10.1016/j.apsusc.2014.01.162 JN:APPLIED SURFACE SCIENCE PY:2014 TC:2 AU: Pommiers-Belin, Sebastien;Frayret, Jerome;Uhart, Arnaud;Ledeuil, JeanBernard;Dupin, Jean-Charles;Castetbon, Alain;Potin-Gautier, Martine;
6:39:3:5 The effect of zirconium-based surface treatment on the cathodic disbonding resistance of epoxy coated mild steel
DOI:10.1016/j.apsusc.2014.07.178 JN:APPLIED SURFACE SCIENCE PY:2014 TC:1 AU: Ghanbari, A.;Attar, M. M.;
6:39:3:6 Characterization of bis-[triethoxysilylpropyl] tetrasulfide layers on aluminum based on water-based silanization solution
DOI:10.1016/j.tsf.2012.04.028 JN:THIN SOLID FILMS PY:2012 TC:3 AU: Wang, Minghao;He, Deliang;Xie, Hui;Fu, Liqun;Yu, Yan;Zhang, Quan;
6:39:4:1 Effect of heat treatment on corrosion properties of mixed sol gel silica-titania (7-3) coating
DOI:10.1016/j.jnoncrysol.2010.11.027 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2011 TC:11 AU: Malekmohammadi, Farzad;Rouhaghdam, A. Sabour;Shahrabi, T.;
6:39:4:2 Influence of the annealing temperature and metal salt precursor on the structural characteristics and anti-corrosion barrier effect of CeO2 sol-gel protective coatings of carbon steel
DOI:10.1016/j.ceramint.2014.05.064 JN:CERAMICS INTERNATIONAL PY:2014 TC:3 AU: Carvalho, Joao B. R.;Silva, Ronald S.;Cesarino, Ivana;Machado, Sergio A. S.;Eguiluz, Katlin I. B.;Cavalcanti, Eliane B.;Salazar-Banda, Giancarlo R.;
6:39:4:3 Improvement of the corrosion resistance of polysiloxane hybrid coatings by cerium doping
DOI:10.1016/j.jnoncrysol.2010.05.013 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2010 TC:16 AU: Hammer, P.;Schiavetto, M. G.;dos Santos, F. C.;Benedetti, A. V.;Pulcinelli, S. H.;Santilli, C. V.;
6:39:4:4 Severe corrosion behavior of Fe78Si9B13 glassy alloy under magnetic field
DOI:10.1016/j.jnoncrysol.2014.03.030 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2014 TC:1 AU: Li, Y. J.;An, B.;Wang, Y. G.;Liu, Y.;Zhang, H. D.;Yang, X. G.;Wang, W. M.;
6:39:5:1 Protection of 2024-T3 aluminium alloy by corrosion resistant phytic acid conversion coating
DOI:10.1016/j.apsusc.2013.04.156 JN:APPLIED SURFACE SCIENCE PY:2013 TC:10 AU: Shi, Hongwei;Han, En-Hou;Liu, Fuchun;Kallip, Silvar;
6:39:5:2 Corrosion behaviour of sol-gel coatings doped with cerium salts on 2024-T3 aluminum alloy
DOI:10.1016/j.matchemphys.2010.06.035 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2010 TC:28 AU: Shi, Hongwei;Liu, Fuchun;Han, Enhou;
6:39:5:3 Electropolymerised polyaniline films as effective replacement of carcinogenic chromate treatments for corrosion protection of aluminium alloys
DOI:10.1016/j.synthmet.2012.01.022 JN:SYNTHETIC METALS PY:2012 TC:12 AU: Kamaraj, K.;Karpakam, V.;Azim, S. Syed;Sathiyanarayanan, S.;
6:39:5:4 Effects of ceria nanoparticle concentrations on the morphology and corrosion resistance of cerium-silane hybrid coatings on electro-galvanized steel substrates
DOI:10.1016/j.matchemphys.2014.02.035 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:3 AU: Zand, Roohangiz Zandi;Verbeken, Kim;Flexer, Victoria;Adriaens, Annemie;
6:39:6:1 Intelligent self-healing corrosion resistant vanadia coating for AA2024
DOI:10.1016/j.tsf.2011.05.080 JN:THIN SOLID FILMS PY:2011 TC:15 AU: Hamdy, Abdel Salam;Doench, I.;Moehwald, H.;
6:39:6:2 Electrochemical studies on the film formed by direct nitridation of AA2024 in a KNO3 salt bath at low temperature
DOI:10.1016/j.matchemphys.2011.01.068 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2011 TC:3 AU: Hamdy, Abdel Salam;Marx, Brian;Butt, Darryl;
6:39:6:3 Corrosion behavior of nitride layer obtained on AISI 316L stainless steel via simple direct nitridation route at low temperature
DOI:10.1016/j.matchemphys.2011.01.037 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2011 TC:13 AU: Hamdy, Abdel Salam;Marx, Brian;Butt, Darryl;
6:39:7:1 Constituted oxides/nitrides on nitriding 304, 430 and 17-4 PH stainless steel in salt baths over the temperature range 723 to 923 K
DOI:10.1016/j.apsusc.2011.08.010 JN:APPLIED SURFACE SCIENCE PY:2011 TC:4 AU: Shih, Teng-Shih;Huang, Yung-Sen;Chen, Chi-Fan;
6:39:7:2 Formation of Me-O-Si covalent bonds at the interface between polysilazane and stainless steel
DOI:10.1016/j.apsusc.2014.09.109 JN:APPLIED SURFACE SCIENCE PY:2014 TC:2 AU: Amouzou, Dodji;Fourdrinier, Lionel;Maseri, Fabrizio;Sporken, Robert;
6:39:7:3 Surface modification of 2205 duplex stainless steel by low temperature salt bath nitrocarburizing at 430 degrees C
DOI:10.1016/j.apsusc.2013.01.111 JN:APPLIED SURFACE SCIENCE PY:2013 TC:4 AU: Huang, Runbo;Wang, Jun;Zhong, Si;Li, Mingxing;Xiong, Ji;Fan, Hongyuan;
6:39:7:4 Adhesion, resistivity and structural, optical properties of molybdenum on steel sheet coated with barrier layer done by sol-gel for CIGS solar cells
DOI:10.1016/j.tsf.2013.01.069 JN:THIN SOLID FILMS PY:2013 TC:3 AU: Amouzou, Dodji;Dumont, Jacques;Fourdrinier, Lionel;Richir, Jean-Baptiste;Maseri, Fabrizio;Sporken, Robert;
6:39:8:1 High-temperature low cycle fatigue behavior of a gray cast iron
DOI:10.1016/j.matchar.2014.10.005 JN:MATERIALS CHARACTERIZATION PY:2014 TC:1 AU: Fan, K. L.;He, G. Q.;She, M.;Liu, X. S.;Lu, Q.;Yang, Y.;Tian, D. D.;Shen, Y.;
6:39:8:2 The fracture and fatigue properties of cast irons used for trunk mains in the water industry
DOI:10.1016/j.msea.2010.05.071 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:5 AU: Mohebbi, H.;Jesson, D. A.;Mulheron, M. J.;Smith, P. A.;
6:39:8:3 On the condition assessment of cast iron trunk main: The effect of microstructure and in-service graphitisation on mechanical properties in flexure
DOI:10.1016/j.msea.2013.03.061 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:1 AU: Jesson, D. A.;Mohebbi, H.;Farrow, J.;Mulheron, M. J.;Smith, P. A.;
6:40:1:1 Embrittlement of Metal by Solute Segregation-Induced Amorphization
DOI:10.1103/PhysRevLett.104.155502 JN:PHYSICAL REVIEW LETTERS PY:2010 TC:27 AU: Chen, Hsiu-Pin;Kalia, Rajiv K.;Kaxiras, Efthimios;Lu, Gang;Nakano, Aiichiro;Nomura, Ken-ichi;van Duin, Adri C. T.;Vashishta, Priya;Yuan, Zaoshi;
6:40:1:2 Reactive molecular dynamics study of Mo-based alloys under high-pressure, high-temperature conditions
DOI:10.1063/1.4731793 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:2 AU: Vasenkov, Alex;Newsome, David;Verners, Osvalds;Russo, Michael F., Jr.;Zaharieva, Roussislava;van Duin, Adri C. T.;
6:40:1:3 Sulfur-impurity induced amorphization of nickel
DOI:10.1063/1.3636368 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:0 AU: Yuan, Zaoshi;Chen, Hsiu-Pin;Wang, Weiqiang;Nomura, Ken-ichi;Kalia, Rajiv K.;Nakano, Aiichiro;Vashishta, Priya;
6:40:1:4 The ductile-brittle transition for nominally pure polycrystalline nickel
DOI:10.1016/j.msea.2012.11.106 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:4 AU: Mahalingam, S.;Flewitt, P. E. J.;Knott, J. F.;
6:40:1:5 Development of a ReaxFF description of gold oxides and initial application to cold welding of partially oxidized gold surfaces
DOI:10.1039/c0jm01556c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:9 AU: Joshi, Kaushik;van Duin, Adri C. T.;Jacob, Timo;
6:40:1:6 Property evolution on annealing deformed 304 austenitic stainless steel
DOI:10.1007/s10853-012-6708-4 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:2 AU: Shuro, I.;Kuo, H. H.;Todaka, Y.;Umemoto, M.;
6:40:2:1 Seamless elastic boundaries for atomistic calculations
DOI:10.1103/PhysRevB.86.075459 JN:PHYSICAL REVIEW B PY:2012 TC:5 AU: Pastewka, Lars;Sharp, Tristan A.;Robbins, Mark O.;
6:40:2:2 Stiffness of Contacts between Rough Surfaces
DOI:10.1103/PhysRevLett.106.204301 JN:PHYSICAL REVIEW LETTERS PY:2011 TC:30 AU: Akarapu, Sreekanth;Sharp, Tristan;Robbins, Mark O.;
6:40:2:3 Self-Affine Elastic Contacts: Percolation and Leakage
DOI:10.1103/PhysRevLett.108.244301 JN:PHYSICAL REVIEW LETTERS PY:2012 TC:11 AU: Dapp, Wolf B.;Luecke, Andreas;Persson, Bo N. J.;Mueser, Martin H.;
6:40:2:4 Lattice Green's function for crystals containing a planar interface
DOI:10.1103/PhysRevB.82.064115 JN:PHYSICAL REVIEW B PY:2010 TC:2 AU: Ghazisaeidi, M.;Trinkle, D. R.;
6:40:2:5 Study of interfacial stiffness ratio of a rough surface in contact using a spring model
DOI:10.1016/j.wear.2009.08.022 JN:WEAR PY:2010 TC:20 AU: Gonzalez-Valadez, M.;Baltazar, A.;Dwyer-Joyce, R. S.;
6:40:3:1 Ultra-fast sulphur grain boundary segregation during hot deformation of nickel
DOI:10.1016/j.actamat.2013.09.035 JN:ACTA MATERIALIA PY:2013 TC:2 AU: Allart, M.;Christien, F.;Le Gall, R.;
6:40:3:2 A multi-technique investigation of sulfur grain boundary segregation in nickel
DOI:10.1016/j.scriptamat.2013.01.028 JN:SCRIPTA MATERIALIA PY:2013 TC:7 AU: Allart, M.;Christien, F.;Le Gall, R.;Nowakowski, P.;Grovenor, C. R. M.;
6:40:3:3 On the mechanism of sulfur fast diffusion in 3-D transition metals
DOI:10.1016/j.actamat.2013.12.021 JN:ACTA MATERIALIA PY:2014 TC:3 AU: Lomaev, I. L.;Novikov, D. L.;Okatov, S. V.;Gornostyrev, Yu. N.;Cetel, A.;Maloney, M.;Montero, R.;Burlatsky, S. F.;
6:40:3:4 Quantifying the effect of fracture surface topography on the scattering of grain boundary segregation measurement by Auger electron spectroscopy
DOI:10.1016/j.matchar.2009.10.010 JN:MATERIALS CHARACTERIZATION PY:2010 TC:4 AU: Christien, F.;Borjon-Piron, Y.;Le Gall, R.;Saillet, S.;
6:40:3:5 First-principles study of 4d solute diffusion in nickel
DOI:10.1007/s10853-014-8119-1 JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:1 AU: Lomaev, I. L.;Novikov, D. L.;Okatov, S. V.;Gornostyrev, Yu. N.;Burlatsky, S. F.;
6:40:4:1 Stress effects on stability and diffusion behavior of sulfur impurity in nickel: A first-principles study
DOI:10.1016/j.commatsci.2014.04.005 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:1 AU: Dong, Nan;Zhang, Caili;Liu, Hui;Li, Juan;Wu, Xiaolei;Han, Peide;
6:40:4:2 First-principles study of grain boundary embrittlement in Fe-Ni-S alloy
DOI:10.1016/j.commatsci.2011.11.023 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:7 AU: Sawada, Hideaki;
6:40:4:3 Gettering of S in Ni from first principles
DOI:10.1016/j.scriptamat.2010.01.050 JN:SCRIPTA MATERIALIA PY:2010 TC:3 AU: Jiang, Yong;Liu, Rutie;
6:40:5:1 Computational aspects of many-body potentials
DOI:10.1557/mrs.2012.96 JN:MRS BULLETIN PY:2012 TC:28 AU: Plimpton, Steven J.;Thompson, Aidan P.;
6:40:5:2 AlCoCrCuFeNi high entropy alloy cluster growth and annealing on silicon: A classical molecular dynamics simulation study
DOI:10.1016/j.apsusc.2013.08.133 JN:APPLIED SURFACE SCIENCE PY:2013 TC:7 AU: Xie, Lu;Brault, Pascal;Thomann, Anne-Lise;Bauchire, Jean-Marc;
6:40:6:1 Probing atomic environments in alloys by electron spectroscopy
DOI:10.1103/PhysRevB.90.014201 JN:PHYSICAL REVIEW B PY:2014 TC:0 AU: Underwood, T. L.;Ackland, G. J.;Cole, R. J.;
6:40:6:2 Interface core-level shifts as a probe of embedded thin-film quality
DOI:10.1103/PhysRevB.84.085431 JN:PHYSICAL REVIEW B PY:2011 TC:2 AU: Olovsson, Weine;Holmstroem, Erik;Marten, Tobias;Abrikosov, Igor A.;Niklasson, Anders M. N.;
6:40:7:1 Normal Contact Stiffness of Elastic Solids with Fractal Rough Surfaces
DOI:10.1103/PhysRevLett.108.104301 JN:PHYSICAL REVIEW LETTERS PY:2012 TC:15 AU: Pohrt, Roman;Popov, Valentin L.;
6:40:7:2 Influence of surface tension on fractal contact model
DOI:10.1063/1.4869742 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Long, J. M.;Wang, G. F.;Feng, X. Q.;Yu, S. W.;
6:40:7:3 Maximum micro-slip in tangential contact of randomly rough self-affine surfaces
DOI:10.1016/j.wear.2013.11.050 JN:WEAR PY:2014 TC:11 AU: Grzemba, Birthe;Pohrt, Roman;Teidelt, Elena;Popov, Valentin L.;
6:41:1 Contact Resistivity Decrease at a Metal/Semiconductor Interface by a Solid-to-Liquid Phase Transitional Metallo-organic Silver
DOI:10.1021/am503548h JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:2 AU: Shin, Dong-Youn;Seo, Jun-Young;Kang, Min Gu;Song, Hee-eun;
6:41:2 High-Temperature Contact Formation on n-Type Silicon: Basic Reactions and Contact Model for Seed-Layer Contacts
DOI:10.1002/adfm.200901305 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:32 AU: Hoerteis, Matthias;Gutberlet, Tobias;Reller, Armin;Glunz, Stefan W.;
6:41:3 Effects of B2O3 content variation on the Bi ions in Bi2O3-B2O3-SiO2 glass structure
DOI:10.1016/j.jnoncrysol.2013.12.007 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2014 TC:9 AU: Zhu, Xiaomeng;Mai, Chengle;Li, Mingyu;
6:41:4 Electronic properties of nanoscale silver crystals at the interface of silver thick film contacts on n-type silicon
DOI:10.1063/1.3508950 JN:APPLIED PHYSICS LETTERS PY:2010 TC:10 AU: Kontermann, Stefan;Willeke, Gerhard;Bauer, Jan;
6:41:5 Simulating the interface morphology of silver thick film contacts on n-type Si-(100) and Si-(111)
DOI:10.1063/1.4752228 JN:APPLIED PHYSICS LETTERS PY:2012 TC:3 AU: Kontermann, Stefan;Ruf, Alexander;Preu, Ralf;Willeke, Gerhard;
6:41:6 Non-contact printing of high aspect ratio Ag electrodes for polycrystalline silicone solar cell with electrohydrodynamic jet printing
DOI:10.1063/1.4798332 JN:APPLIED PHYSICS LETTERS PY:2013 TC:6 AU: Jang, Yonghee;Tambunan, Indra Hartarto;Tak, Hyowon;Vu Dat Nguyen;Kang, TaeSam;Byun, Doyoung;
6:41:7 Effect of oxygen partial pressure on Ag crystallite formation at screen-printed Pb-free Ag contacts of Si solar cells
DOI:10.1016/j.matchemphys.2011.07.075 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2011 TC:11 AU: Huh, Joo-Youl;Hong, Kyoung-Kook;Cho, Sung-Bin;Park, Sung-Kyun;Lee, Byung-Chul;Okamoto, Kuninori;
6:41:8 Structural and electronic properties of silver/silicon interfaces and implications for solar cell performance
DOI:10.1103/PhysRevB.83.235307 JN:PHYSICAL REVIEW B PY:2011 TC:10 AU: Butler, Keith T.;Vullum, Per Erik;Muggerud, Astrid Marie;Cabrera, Enrique;Harding, John H.;
6:41:9 Experimental evidence of direct contact formation for the current transport in silver thick film metallized silicon emitters
DOI:10.1063/1.3665718 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:19 AU: Cabrera, Enrique;Olibet, Sara;Glatz-Reichenbach, Joachim;Kopecek, Radovan;Reinke, Daniel;Schubert, Gunnar;
6:41:10 Development of lead-free silver ink for front contact metallization
DOI:10.1016/j.solmat.2012.05.044 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:13 AU: Kalio, Andre;Leibinger, Margret;Filipovic, Aleksander;Krueger, Katja;Glatthaar, Markus;Wilde, Juergen;
6:41:11 Mechanism underlying the beneficial effect of forming gas annealing on screen-printed Ag contacts of crystalline Si solar cells
DOI:10.1016/j.actamat.2014.02.023 JN:ACTA MATERIALIA PY:2014 TC:1 AU: Cho, Sung-Bin;Kim, Hee-Soo;Huh, Joo-Youl;
6:41:12 Satellite/spray suppression in electrohydrodynamic printing with a gated head
DOI:10.1063/1.4822264 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Lee, Sukhan;An, Kichul;Son, Sanguk;Choi, Jaeyong;
6:41:13 Effect of Bismate Frits Under Fast Firing on Reactions Between Ag Electrodes and Si Wafer for Si Solar Cells
DOI:10.1111/jace.12135 JN:JOURNAL OF THE AMERICAN CERAMIC SOCIETY PY:2013 TC:5 AU: Kim, Dongsun;Kim, Hyungsun;
6:41:14 Calculating the specific contact resistance from the nanostructure at the interface of silver thick film contacts on n-type silicon
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6:41:15 Effect of oxygen environment on formation of modulated Ag nanostructures along the interface of a Ag-Si heterostructure
DOI:10.1063/1.4803872 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:2 AU: Boyerinas, Brad M.;Balsam, Joshua M.;Bruck, Hugh A.;Roytburd, Alexander L.;
6:41:16 Using hydrofluoric acid to reduce the contact resistance of screen-printed silicon solar cells - Its recombination impact and a method to eliminate it
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6:41:17 Quaternary phosphonium salts as cationic selective dispersants in silver conductive pastes for photovoltaic applications
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6:41:18 Prediction of drop-on-demand (DOD) pattern size in pulse voltage-applied electrohydrodynamic (EHD) jet printing of Ag colloid ink
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6:41:19 Non-contact printed aluminum for metallization of Si photovoltaics
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6:42:1:1 Architectured materials: Expanding materials space
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6:42:1:2 Designing architectured materials
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6:42:1:3 Multilevel architectures in natural materials
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6:42:1:4 Analytical Model of the Unbending Behavior of Corrugated Reinforcements
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6:42:1:5 Recent developments in controlling the architecture for property optimization in Al-based materials
DOI:10.1016/j.scriptamat.2012.05.040 JN:SCRIPTA MATERIALIA PY:2013 TC:9 AU: Lloyd, D. J.;
6:42:2:1 On the flow and mechanical behavior of Al matrix composite reinforced by nickel based (90% Ni-10% Cr) wires during equal channel angular pressing
DOI:10.1016/j.msea.2013.05.031 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2013 TC:3 AU: Mirab, Saeideh;Nili-Ahmadabadi, M.;
6:42:2:2 Control of austenite to martensite transformation through equal channel angular pressing aided by thermodynamic calculations
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6:42:2:3 Microstructure and mechanical behavior of martensitic steel severely deformed by the novel technique of repetitive corrugation and straightening by rolling
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6:42:2:4 Strain-induced martensite to austenite reverse transformation in an ultrafine-grained Fe-Ni-Mn martensitic steel
DOI:10.1080/14786435.2014.886785 JN:PHILOSOPHICAL MAGAZINE PY:2014 TC:0 AU: Ghasemi-Nanesa, H.;Nili-Ahmadabadi, M.;Koohdar, H. R.;Habibi-Parsa, M.;Nedjad, S. Hossein;Alidokht, S. A.;Langdon, Terence G.;
6:42:2:5 Ductility enhancement in ultrafine-grained Fe-Ni-Mn martensitic steel by stress-induced reverse transformation
DOI:10.1016/j.msea.2010.08.028 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2010 TC:7 AU: Ghasemi-Nanesa, H.;Nili-Ahmadabadi, M.;Shirazi, H.;Nedjad, S. Hossein;Pishbin, S. H.;
6:42:2:6 Microstructure evolution through heavy compression aided by thermodynamic calculations
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6:42:3:1 Mechanical Properties of Topologically Interlocked Structures with Elements Produced by Freeze Gelation of Ceramic Slurries
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6:42:3:2 Enhancement of sound absorption properties using topologically interlocked elements
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6:42:3:3 Improvement of sound absorption and flexural compliance of porous alumina-mullite ceramics by engineering the microstructure and segmentation into topologically interlocked blocks
DOI:10.1016/j.jeurceramsoc.2013.05.006 JN:JOURNAL OF THE EUROPEAN CERAMIC SOCIETY PY:2013 TC:4 AU: Carlesso, Mateus;Giacomelli, Renan;Krause, Thomas;Molotnikov, Andrey;Koch, Dietmar;Kroll, Stephen;Tushtev, Kamen;Estrin, Yuri;Rezwan, Kurosch;
6:42:3:4 Sandwich Panels with a Core Segmented into Topologically Interlocked Elements
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6:42:3:5 Near-Net-Shaped Porous Ceramics for Potential Sound Absorption Applications at High Temperatures
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6:42:4:1 Production and properties of a precision-cast bio-inspired composite
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6:42:4:2 Viscoelasticity and compaction behaviour of the foam-like pomelo (Citrus maxima) peel
DOI:10.1007/s10853-013-7137-8 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:4 AU: Thielen, Marc;Speck, Thomas;Seidel, Robin;
6:42:4:3 Enhanced ductility in an Al-Mg2Si in situ composite processed by ECAP using a modified B-C route
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6:42:4:4 Investigation of the tensile properties of continuous steel wire-reinforced gray cast iron composite
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6:42:4:5 Effect of Si addition on the microstructure and mechanical properties of ECAPed Mg-15Al alloy
DOI:10.1016/j.msea.2013.09.075 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Wang, Hongxia;Zhou, Bin;Zhao, Yuantao;Zhou, Kangkang;Cheng, Weili;Liang, Wei;
6:42:5:1 Near-Net-Shaping Methods for Ceramic Elements of (Body) Armor Systemsl
DOI:10.1111/jace.13192 JN:JOURNAL OF THE AMERICAN CERAMIC SOCIETY PY:2014 TC:1 AU: Leo, Silvia;Tallon, Carolina;Stone, Nigel;Franks, George V.;
6:42:5:2 Thermal precipitation or gelling behaviour of dissolved methylcellulose (MC) derivatives-Behaviour in water and influence on the extrusion of ceramic pastes. Part 1: Fundamentals of MC-derivatives
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6:43:1:1 Effect of microstructure on abrasive wear behavior of thermally sprayed WC-10Co-4Cr coatings
DOI:10.1016/j.wear.2010.02.001 JN:WEAR PY:2010 TC:16 AU: Kumari, Kanchan;Anand, K.;Bellacci, Michelangelo;Giannozzi, Massimo;
6:43:1:2 An investigation on erosion behavior of HVOF sprayed WC-CoCr coatings
DOI:10.1016/j.apsusc.2011.09.079 JN:APPLIED SURFACE SCIENCE PY:2011 TC:18 AU: Thakur, Lalit;Arora, N.;Jayaganthan, R.;Sood, R.;
6:43:1:3 A comparative study on slurry and dry erosion behaviour of HVOF sprayed WC-CoCr coatings
DOI:10.1016/j.wear.2013.03.028 JN:WEAR PY:2013 TC:0 AU: Thakur, Lalit;Arora, Navneet;
6:43:1:4 Performance characterization of metallic substrates coated by HVOF WC-Co
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6:43:1:5 Influence of nano-WC-12Co powder addition in WC-10Co-4Cr AC-HVAF sprayed coatings on wear and erosion behaviour
DOI:10.1016/j.wear.2010.04.019 JN:WEAR PY:2010 TC:17 AU: Liu, S. L.;Zheng, X. P.;Geng, G. Q.;
6:43:2:1 Selective laser surface melting of a magnesium-aluminium alloy
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6:43:2:2 Dry sliding wear behavior of AM60B magnesium alloy
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6:43:2:3 Development of highly porous titanium scaffolds by selective laser melting
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6:43:2:4 Improvement of ductility in magnesium alloy sheet using laser scanning treatment
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6:43:2:5 Microstructure and mechanical properties of annealed Mg-0.6 wt%Zr sheets by unidirectional and cross rolling
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6:43:3:1 Laser surface cleaning of carbonaceous deposits on diesel engine piston
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6:43:3:2 Effect of laser operating mode in paint removal with a fiber laser
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6:43:3:3 Laser cleaning of steel for paint removal
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6:43:3:4 An environmentally friendly approach for contaminants removal using supercritical CO2 for remanufacturing industry
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6:43:3:5 Development of a water-jet assisted laser paint removal process
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6:43:4:1 Enhanced light absorption of Ag films deposited onto femtosecond laser microstructured silicon
DOI:10.1016/j.matlet.2011.03.018 JN:MATERIALS LETTERS PY:2011 TC:3 AU: Bao, Xi;Liu, Shuying;Wang, Yulan;Zhao, Li;
6:43:4:2 Optical tweezers with enhanced efficiency based on laser-structured substrates
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6:43:4:3 Darkening effect on AZ31B magnesium alloy surface induced by nanosecond pulse Nd:YAG laser
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6:43:4:4 Optical tweezers with enhanced efficiency based on laser-structured substrates (vol 101, 011102, 2012)
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6:43:4:5 Large enhancement of sub-band-gap light absorption of sulfur hyperdoped silicon by surface dome structures
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6:43:5:1 Solidification microstructure of AZ91D Mg alloy after laser surface melting
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6:43:5:2 Femtosecond laser-induced ripple structures on magnesium
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6:43:5:3 Laser-induced microstructural development and phase evolution in magnesium alloy
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6:43:6:1 Wear behaviour of thermal spray Al/SiCp coatings
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6:43:6:2 Tribological effects of the geometrical properties of plasma spray coatings partially melted by laser
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6:43:6:3 Microstructures and mechanical properties of metallic NiCrBSi and composite NiCrBSi-WC layers manufactured via hybrid plasma/laser process
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6:43:6:4 Microstructure, mechanical property and wear performance of cold sprayed A15056/SiCp composite coatings: Effect of reinforcement content
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6:43:7:1 Friction and wear properties of (WAl)C-Co ceramic composites under sea water environment
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6:43:7:2 Enhancing the wear resistance of sintered WC-Co composite by adding pseudo-elastic TiNi constituent
DOI:10.1016/j.wear.2011.01.052 JN:WEAR PY:2011 TC:4 AU: Pan, Y.;Li, D. Y.;Zhang, H.;
6:43:7:3 Friction and wear characteristics of WC-10Co-4Cr/Si3N4 tribopair lubricated under silt-laden water
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6:44:1:1 Microstructure and wear resistance of the hypereutectic Fe-Cr-C alloy hardfacing metals with different La2O3 additives
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6:44:1:2 Fe-0.4 wt.%C-6.5 wt.%Cr hardfacing coating: Microstructures and wear resistance with La2O3 additive
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6:44:1:3 Effect of Ti additive on (Cr, Fe)(7)C-3 carbide in arc surfacing layer and its refined mechanism
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6:44:1:4 Strain hardening of austenite in Fe-Cr-C-V alloys under repeated impact
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6:44:1:5 Microstructure and wear properties of Fe-15Cr-2.5Ti-2C-xB wt.% hardfacing alloys
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6:44:1:6 Modeling the Porosity Formation in Austenitic SGI Castings by Using a Physics-Based Material Model
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6:44:2:1 On relationship between annealing treatment and magnetostriction behavior of Fe-16Cr-2.5Mo damping alloy
DOI:10.1016/j.jallcom.2013.08.070 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:2 AU: Xu, Yong-gang;Chen, Xiao-gang;
6:44:2:2 Energy-dissipation characteristics of Fe-13Cr-2.5Mo damping alloy
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6:44:2:3 Magnetic domain structure and damping capacity of Fe-13Cr-2.5Mo alloy
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6:44:2:4 Effect of domain variations on damping capacity of Fe-16Cr-2.5Mo alloy solution annealed at 1373 K and 1473 K
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6:44:2:5 Field-dependent elastic modulus and damping in pure iron, nickel and cobalt
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6:44:2:6 Influence of static stress on damping behavior in Fe-15Cr and Fe-8Al ferromagnetic alloys
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6:44:2:7 The effect of heat treatment and grain size on magnetomechanical damping properties of Fe-13Cr-2Al-1Si alloy
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6:44:2:8 Influence of internal stresses on field-dependent elastic modulus and damping in pure nickel
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6:44:3:1 Fe-24 wt.%Cr-4.1 wt.%C hardfacing alloy: Microstructure and carbide refinement mechanisms with ceria additive
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6:44:3:2 The effect of boron on mechanical behavior and microstructure for Fe-Cr matrix alloy prepared by P/M
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6:44:3:3 Modification of carbidic austempered ductile iron with nano ceria for improved mechanical properties and abrasive wear resistance
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6:44:3:4 The nature of stacking faults within iron-chromium carbide of the type (Fe,Cr)(7)C-3
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6:44:4:1 Effects of silicon content on the microstructure and corrosion behavior of Fe-Cr-C hardfacing alloys
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6:44:4:2 Hardness, toughness and cracking systems of primary (Cr,Fe)(23)C-6 and (Cr,Fe)(7)C-3 carbides in high-carbon Cr-based alloys by indentation
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6:44:4:3 Effect of carbon content on microstructure and corrosion behavior of hypereutectic Fe-Cr-C claddings
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6:44:4:4 Microstructure of high (45 wt.%) chromium cast irons and their resistances to wear and corrosion
DOI:10.1016/j.wear.2010.11.047 JN:WEAR PY:2011 TC:14 AU: Tang, X. H.;Chung, R.;Pang, C. J.;Li, D. Y.;Hinckley, B.;Dolman, K.;
6:44:5:1 Impact-abrasive-corrosion wear of Fe-based alloys: Influence of microstructure and chemical composition upon wear resistance
DOI:10.1016/j.wear.2013.06.006 JN:WEAR PY:2013 TC:5 AU: Efremenko, V. G.;Shimizu, K.;Noguchi, T.;Efremenko, A. V.;Chabak, Yu. G.;
6:44:5:2 Friction behavior of SUS 304 metastable austenitic stainless steel sheet against DC 53 die under the condition of friction coupling plastic deformation
DOI:10.1016/j.wear.2011.05.023 JN:WEAR PY:2011 TC:6 AU: Wang, Wurong;Hua, Meng;Wei, Xicheng;
6:45:1:1 Study of high-temperature ageing and creep on bainitic 5Cr-0.5Mo steel by magnetic NDE techniques
DOI:10.1016/j.jmmm.2009.10.015 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2010 TC:7 AU: Mohapatra, J. N.;Bandyopadhyay, N. R.;Gunjan, M. K.;Mitra, A.;
6:45:1:2 Measurement of microstructure changes in 9Cr-1Mo and 2.25Cr-1Mo steels using an electromagnetic sensor
DOI:10.1016/j.scriptamat.2011.11.032 JN:SCRIPTA MATERIALIA PY:2012 TC:10 AU: Liu, J.;Hao, X. J.;Zhou, L.;Strangwood, M.;Davis, C. L.;Peyton, A. J.;
6:45:1:3 Measurement of the magnetic properties of P9 and T22 steel taken from service in power station
DOI:10.1016/j.jmmm.2014.01.057 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2014 TC:3 AU: Wilson, J. W.;Karimian, N.;Liu, J.;Yin, W.;Davis, C. L.;Peyton, A. J.;
6:45:1:4 System for controllable magnetic measurement with direct field determination
DOI:10.1016/j.jmmm.2011.08.058 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2012 TC:14 AU: Stupakov, O.;
6:45:2:1 Biased giant magnetoimpedance and switching field distribution curves in Co70Fe5Si15B10 nanocrystalline ribbons
DOI:10.1016/j.jallcom.2011.11.056 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:4 AU: Lago-Cachon, D.;Martinez-Garcia, J. C.;Rivas, M.;Garcia, J. A.;
6:45:2:2 Hard-soft magnetic ribbons with biased hysteresis curves
DOI:10.1016/j.jnoncrysol.2011.05.033 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2011 TC:5 AU: Rivas, M.;Martinez-Garcia, J. C.;Marino, P. A.;Jimenez, B. I.;Garcia, J. A.;
6:45:2:3 Temperature dependence of biased hysteresis loops in hard-soft nanocrystalline Co-based ribbons
DOI:10.1016/j.jnoncrysol.2011.09.035 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2012 TC:3 AU: Rivas, M.;Garcia, J. A.;Cerdeira, M. A.;Martinez-Garcia, J. C.;
6:45:2:4 FORC differential dissection of soft biphase magnetic ribbons
DOI:10.1016/j.jallcom.2014.01.080 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:0 AU: Martinez-Garcia, J. C.;Rivas, M.;Lago-Cachon, D.;Garcia, J. A.;
6:45:3:1 Analysis of the influence of some magnetizing parameters on magnetic Barkhausen noise using a microscopic model
DOI:10.1016/j.jmmm.2013.07.034 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2013 TC:7 AU: Perez-Benitez, J. A.;Espina-Hernandez, J. H.;Martinez-Ortiz, P.;Chavez-Gonzalez, A. F.;de la Rosa, J. M.;
6:45:3:2 Study of the influence of simultaneous variation of magnetic material microstructural features on domain wall dynamics
DOI:10.1016/j.jmmm.2010.05.037 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2010 TC:7 AU: Perez-Benitez, J. A.;Padovese, L. R.;
6:45:3:3 Effect of anisotropic microstructure on magnetic Barkhausen noise in cold rolled low carbon steel
DOI:10.1016/j.jmmm.2009.12.020 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2010 TC:4 AU: Bukki-Deme, A.;Szabo, I. A.;Cserhati, C.;
6:45:3:4 An alternative method to remove excitation field interference from magnetic Barkhause noise
DOI:10.1016/j.jmmm.2014.02.093 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2014 TC:0 AU: Pal'a, Jozef;Bydzovsky, Jan;
6:45:3:5 Evaluation of surface decarburization depth by magnetic Barkhausen noise technique
DOI:10.1016/j.jmmm.2011.01.039 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2011 TC:7 AU: Stupakov, O.;Perevertov, O.;Tomas, I.;Skrbek, B.;
6:45:4:1 Rapid solidification and magnetism characteristics of Co-11.8 at%Gd and Co-7.5 at%Gd dual-magnetic ribbons at different wheel speeds
DOI:10.1016/j.mseb.2013.03.012 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2013 TC:3 AU: Yao, W. J.;Sun, W.;Wang, J. Y.;Wang, N.;Lee, J. H.;
6:45:4:2 Determining the effect of grain size and maximum induction upon coercive field of electrical steels
DOI:10.1016/j.jmmm.2011.03.034 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2011 TC:8 AU: Gomes Landgraf, Fernando Jose;Filipini da Silveira, Joao Ricardo;Rodrigues-Jr, Daniel;
6:45:4:3 Interactive contribution of grain size and grain orientation to coercivity of melt spun ribbons
DOI:10.1016/j.jmmm.2009.09.061 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2010 TC:3 AU: Wang, N.;Li, G.;Yao, W. J.;Wen, X. X.;
6:46:1 Nanoscale Energy-Filtered Scanning Confocal Electron Microscopy Using a Double-Aberration-Corrected Transmission Electron Microscope
DOI:10.1103/PhysRevLett.104.200801 JN:PHYSICAL REVIEW LETTERS PY:2010 TC:22 AU: Wang, Peng;Behan, Gavin;Takeguchi, Masaki;Hashimoto, Ayako;Mitsuishi, Kazutaka;Shimojo, Masayuki;Kirkland, Angus I.;Nellist, Peter D.;
6:46:2 Three-dimensional elemental mapping of hollow Fe2O3@SiO2 mesoporous spheres using scanning confocal electron microscopy
DOI:10.1063/1.4714889 JN:APPLIED PHYSICS LETTERS PY:2012 TC:5 AU: Wang, Peng;Hashimoto, Ayako;Takeguchi, Masaki;Mitsuishi, Kazutaka;Shimojo, Masayuki;Zhu, Yufang;Okuda, Mitsuhiro;Kirkland, Angus I.;Nellist, Peter D.;
6:46:3 Direct Observation of Depth-Dependent Atomic Displacements Associated with Dislocations in Gallium Nitride
DOI:10.1103/PhysRevLett.113.135503 JN:PHYSICAL REVIEW LETTERS PY:2014 TC:0 AU: Lozano, J. G.;Yang, H.;Guerrero-Lebrero, M. P.;D'Alfonso, A. J.;Yasuhara, A.;Okunishi, E.;Zhang, S.;Humphreys, C. J.;Allen, L. J.;Galindo, P. L.;Hirsch, P. B.;Nellist, P. D.;
6:46:4 Applications of the Oxford-JEOL aberration-corrected electron microscope
DOI:10.1080/14786435.2010.516775 JN:PHILOSOPHICAL MAGAZINE PY:2010 TC:3 AU: Nellist, P. D.;Kirkland, A. I.;
6:46:5 Three-dimensional analysis of nanoparticles on carbon support using aberration-corrected scanning confocal electron microscopy
DOI:10.1063/1.4772514 JN:APPLIED PHYSICS LETTERS PY:2012 TC:3 AU: Hashimoto, Ayako;Wang, Peng;Shimojo, Masayuki;Mitsuishi, Kazutaka;Nellist, Peter D.;Kirkland, Angus I.;Takeguchi, Masaki;
6:46:6 Effect of Eshelby twist on core structure of screw dislocations in molybdenum: atomic structure and electron microscope image simulations
DOI:10.1080/14786435.2011.562474 JN:PHILOSOPHICAL MAGAZINE PY:2011 TC:7 AU: Groeger, R.;Dudeck, K. J.;Nellist, P. D.;Vitek, V.;Hirsch, P. B.;Cockayne, D. J. H.;
6:47:1 The Rapid Formation of La(OH)(3) from La2O3 Powders on Exposureto Water Vapor
DOI:10.1111/j.1551-2916.2009.03564.x JN:JOURNAL OF THE AMERICAN CERAMIC SOCIETY PY:2010 TC:22 AU: Fleming, Peter;Farrell, Richard A.;Holmes, Justin D.;Morris, Michael A.;
6:47:2 Effect of the La(OH)(3) preparation method on the surface and rehydroxylation properties of resulting La2O3 nanoparticles
DOI:10.1007/s11051-013-1479-7 JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2013 TC:0 AU: Mendez, M.;Carvajal, J. J.;Marsal, L. F.;Salagre, P.;Aguilo, M.;Diaz, F.;Formentin, P.;Pallares, J.;Cesteros, Y.;
6:47:3 Sol-gel Pechini synthesis and optical spectroscopy of nanocrystalline La2O3 doped with Eu3+
DOI:10.1016/j.optmat.2010.02.018 JN:OPTICAL MATERIALS PY:2010 TC:8 AU: Mendez, M.;Carvajal, J. J.;Cesteros, Y.;Aguilo, M.;Diaz, F.;Giguere, A.;Drouin, D.;Martinez-Ferrero, E.;Salagre, P.;Formentin, P.;Pallares, J.;Marsal, L. F.;
6:47:4 Polymer composite P3HT:Eu3+ doped La2O3 nanoparticles as a down-converter material to improve the solar spectrum energy
DOI:10.1016/j.optmat.2010.09.001 JN:OPTICAL MATERIALS PY:2011 TC:6 AU: Mendez, M.;Cesteros, Y.;Marsal, L. F.;Martinez-Ferrero, E.;Salagre, P.;Formentin, P.;Pallares, J.;Aguilo, M.;Diaz, F.;Carvajal, J. J.;
6:47:5 Dynamic mechanical and thermal properties of the composites of thermoplastic starch and lanthanum hydroxide nanoparticles
DOI:10.1002/app.37859 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2013 TC:2 AU: Ochigbo, Stephen S.;Luyt, Adriaan S.;Mofokeng, Julia P.;Antic, Zeljka;Dramicanin, Miroslav D.;Djokovic, Vladimir;
6:47:6 Determination of the Mn3+/Mn4+ ratio in La1-xSrxMnO3 +/- d powders
DOI:10.1016/j.jallcom.2012.01.023 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:1 AU: Siqueira, Guilherme Oliveira;Belardi, Rose Marie;Almeida, Pedro Hespanha;da Silva, Charles Luis;Brant, Marcia Caldeira;Matencio, Tulio;Domingues, Rosana Zacarias;